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/*
* Public API and common code for kernel - > userspace relay file support .
*
* See Documentation / filesystems / relayfs . txt for an overview of relayfs .
*
* Copyright ( C ) 2002 - 2005 - Tom Zanussi ( zanussi @ us . ibm . com ) , IBM Corp
* Copyright ( C ) 1999 - 2005 - Karim Yaghmour ( karim @ opersys . com )
*
* Moved to kernel / relay . c by Paul Mundt , 2006.
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* November 2006 - CPU hotplug support by Mathieu Desnoyers
* ( mathieu . desnoyers @ polymtl . ca )
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*
* This file is released under the GPL .
*/
# include <linux/errno.h>
# include <linux/stddef.h>
# include <linux/slab.h>
# include <linux/module.h>
# include <linux/string.h>
# include <linux/relay.h>
# include <linux/vmalloc.h>
# include <linux/mm.h>
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# include <linux/cpu.h>
/* list of open channels, for cpu hotplug */
static DEFINE_MUTEX ( relay_channels_mutex ) ;
static LIST_HEAD ( relay_channels ) ;
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/*
* close ( ) vm_op implementation for relay file mapping .
*/
static void relay_file_mmap_close ( struct vm_area_struct * vma )
{
struct rchan_buf * buf = vma - > vm_private_data ;
buf - > chan - > cb - > buf_unmapped ( buf , vma - > vm_file ) ;
}
/*
* nopage ( ) vm_op implementation for relay file mapping .
*/
static struct page * relay_buf_nopage ( struct vm_area_struct * vma ,
unsigned long address ,
int * type )
{
struct page * page ;
struct rchan_buf * buf = vma - > vm_private_data ;
unsigned long offset = address - vma - > vm_start ;
if ( address > vma - > vm_end )
return NOPAGE_SIGBUS ; /* Disallow mremap */
if ( ! buf )
return NOPAGE_OOM ;
page = vmalloc_to_page ( buf - > start + offset ) ;
if ( ! page )
return NOPAGE_OOM ;
get_page ( page ) ;
if ( type )
* type = VM_FAULT_MINOR ;
return page ;
}
/*
* vm_ops for relay file mappings .
*/
static struct vm_operations_struct relay_file_mmap_ops = {
. nopage = relay_buf_nopage ,
. close = relay_file_mmap_close ,
} ;
/**
* relay_mmap_buf : - mmap channel buffer to process address space
* @ buf : relay channel buffer
* @ vma : vm_area_struct describing memory to be mapped
*
* Returns 0 if ok , negative on error
*
* Caller should already have grabbed mmap_sem .
*/
int relay_mmap_buf ( struct rchan_buf * buf , struct vm_area_struct * vma )
{
unsigned long length = vma - > vm_end - vma - > vm_start ;
struct file * filp = vma - > vm_file ;
if ( ! buf )
return - EBADF ;
if ( length ! = ( unsigned long ) buf - > chan - > alloc_size )
return - EINVAL ;
vma - > vm_ops = & relay_file_mmap_ops ;
vma - > vm_private_data = buf ;
buf - > chan - > cb - > buf_mapped ( buf , filp ) ;
return 0 ;
}
/**
* relay_alloc_buf - allocate a channel buffer
* @ buf : the buffer struct
* @ size : total size of the buffer
*
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* Returns a pointer to the resulting buffer , % NULL if unsuccessful . The
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* passed in size will get page aligned , if it isn ' t already .
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*/
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static void * relay_alloc_buf ( struct rchan_buf * buf , size_t * size )
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{
void * mem ;
unsigned int i , j , n_pages ;
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* size = PAGE_ALIGN ( * size ) ;
n_pages = * size > > PAGE_SHIFT ;
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buf - > page_array = kcalloc ( n_pages , sizeof ( struct page * ) , GFP_KERNEL ) ;
if ( ! buf - > page_array )
return NULL ;
for ( i = 0 ; i < n_pages ; i + + ) {
buf - > page_array [ i ] = alloc_page ( GFP_KERNEL ) ;
if ( unlikely ( ! buf - > page_array [ i ] ) )
goto depopulate ;
}
mem = vmap ( buf - > page_array , n_pages , VM_MAP , PAGE_KERNEL ) ;
if ( ! mem )
goto depopulate ;
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memset ( mem , 0 , * size ) ;
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buf - > page_count = n_pages ;
return mem ;
depopulate :
for ( j = 0 ; j < i ; j + + )
__free_page ( buf - > page_array [ j ] ) ;
kfree ( buf - > page_array ) ;
return NULL ;
}
/**
* relay_create_buf - allocate and initialize a channel buffer
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* @ chan : the relay channel
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*
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* Returns channel buffer if successful , % NULL otherwise .
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*/
struct rchan_buf * relay_create_buf ( struct rchan * chan )
{
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struct rchan_buf * buf = kzalloc ( sizeof ( struct rchan_buf ) , GFP_KERNEL ) ;
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if ( ! buf )
return NULL ;
buf - > padding = kmalloc ( chan - > n_subbufs * sizeof ( size_t * ) , GFP_KERNEL ) ;
if ( ! buf - > padding )
goto free_buf ;
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buf - > start = relay_alloc_buf ( buf , & chan - > alloc_size ) ;
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if ( ! buf - > start )
goto free_buf ;
buf - > chan = chan ;
kref_get ( & buf - > chan - > kref ) ;
return buf ;
free_buf :
kfree ( buf - > padding ) ;
kfree ( buf ) ;
return NULL ;
}
/**
* relay_destroy_channel - free the channel struct
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* @ kref : target kernel reference that contains the relay channel
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*
* Should only be called from kref_put ( ) .
*/
void relay_destroy_channel ( struct kref * kref )
{
struct rchan * chan = container_of ( kref , struct rchan , kref ) ;
kfree ( chan ) ;
}
/**
* relay_destroy_buf - destroy an rchan_buf struct and associated buffer
* @ buf : the buffer struct
*/
void relay_destroy_buf ( struct rchan_buf * buf )
{
struct rchan * chan = buf - > chan ;
unsigned int i ;
if ( likely ( buf - > start ) ) {
vunmap ( buf - > start ) ;
for ( i = 0 ; i < buf - > page_count ; i + + )
__free_page ( buf - > page_array [ i ] ) ;
kfree ( buf - > page_array ) ;
}
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chan - > buf [ buf - > cpu ] = NULL ;
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kfree ( buf - > padding ) ;
kfree ( buf ) ;
kref_put ( & chan - > kref , relay_destroy_channel ) ;
}
/**
* relay_remove_buf - remove a channel buffer
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* @ kref : target kernel reference that contains the relay buffer
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*
* Removes the file from the fileystem , which also frees the
* rchan_buf_struct and the channel buffer . Should only be called from
* kref_put ( ) .
*/
void relay_remove_buf ( struct kref * kref )
{
struct rchan_buf * buf = container_of ( kref , struct rchan_buf , kref ) ;
buf - > chan - > cb - > remove_buf_file ( buf - > dentry ) ;
relay_destroy_buf ( buf ) ;
}
/**
* relay_buf_empty - boolean , is the channel buffer empty ?
* @ buf : channel buffer
*
* Returns 1 if the buffer is empty , 0 otherwise .
*/
int relay_buf_empty ( struct rchan_buf * buf )
{
return ( buf - > subbufs_produced - buf - > subbufs_consumed ) ? 0 : 1 ;
}
EXPORT_SYMBOL_GPL ( relay_buf_empty ) ;
/**
* relay_buf_full - boolean , is the channel buffer full ?
* @ buf : channel buffer
*
* Returns 1 if the buffer is full , 0 otherwise .
*/
int relay_buf_full ( struct rchan_buf * buf )
{
size_t ready = buf - > subbufs_produced - buf - > subbufs_consumed ;
return ( ready > = buf - > chan - > n_subbufs ) ? 1 : 0 ;
}
EXPORT_SYMBOL_GPL ( relay_buf_full ) ;
/*
* High - level relay kernel API and associated functions .
*/
/*
* rchan_callback implementations defining default channel behavior . Used
* in place of corresponding NULL values in client callback struct .
*/
/*
* subbuf_start ( ) default callback . Does nothing .
*/
static int subbuf_start_default_callback ( struct rchan_buf * buf ,
void * subbuf ,
void * prev_subbuf ,
size_t prev_padding )
{
if ( relay_buf_full ( buf ) )
return 0 ;
return 1 ;
}
/*
* buf_mapped ( ) default callback . Does nothing .
*/
static void buf_mapped_default_callback ( struct rchan_buf * buf ,
struct file * filp )
{
}
/*
* buf_unmapped ( ) default callback . Does nothing .
*/
static void buf_unmapped_default_callback ( struct rchan_buf * buf ,
struct file * filp )
{
}
/*
* create_buf_file_create ( ) default callback . Does nothing .
*/
static struct dentry * create_buf_file_default_callback ( const char * filename ,
struct dentry * parent ,
int mode ,
struct rchan_buf * buf ,
int * is_global )
{
return NULL ;
}
/*
* remove_buf_file ( ) default callback . Does nothing .
*/
static int remove_buf_file_default_callback ( struct dentry * dentry )
{
return - EINVAL ;
}
/* relay channel default callbacks */
static struct rchan_callbacks default_channel_callbacks = {
. subbuf_start = subbuf_start_default_callback ,
. buf_mapped = buf_mapped_default_callback ,
. buf_unmapped = buf_unmapped_default_callback ,
. create_buf_file = create_buf_file_default_callback ,
. remove_buf_file = remove_buf_file_default_callback ,
} ;
/**
* wakeup_readers - wake up readers waiting on a channel
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* @ work : work struct that contains the the channel buffer
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*
* This is the work function used to defer reader waking . The
* reason waking is deferred is that calling directly from write
* causes problems if you ' re writing from say the scheduler .
*/
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static void wakeup_readers ( struct work_struct * work )
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{
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struct rchan_buf * buf =
container_of ( work , struct rchan_buf , wake_readers . work ) ;
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wake_up_interruptible ( & buf - > read_wait ) ;
}
/**
* __relay_reset - reset a channel buffer
* @ buf : the channel buffer
* @ init : 1 if this is a first - time initialization
*
* See relay_reset for description of effect .
*/
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static void __relay_reset ( struct rchan_buf * buf , unsigned int init )
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{
size_t i ;
if ( init ) {
init_waitqueue_head ( & buf - > read_wait ) ;
kref_init ( & buf - > kref ) ;
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INIT_DELAYED_WORK ( & buf - > wake_readers , NULL ) ;
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} else {
cancel_delayed_work ( & buf - > wake_readers ) ;
flush_scheduled_work ( ) ;
}
buf - > subbufs_produced = 0 ;
buf - > subbufs_consumed = 0 ;
buf - > bytes_consumed = 0 ;
buf - > finalized = 0 ;
buf - > data = buf - > start ;
buf - > offset = 0 ;
for ( i = 0 ; i < buf - > chan - > n_subbufs ; i + + )
buf - > padding [ i ] = 0 ;
buf - > chan - > cb - > subbuf_start ( buf , buf - > data , NULL , 0 ) ;
}
/**
* relay_reset - reset the channel
* @ chan : the channel
*
* This has the effect of erasing all data from all channel buffers
* and restarting the channel in its initial state . The buffers
* are not freed , so any mappings are still in effect .
*
* NOTE : Care should be taken that the channel isn ' t actually
* being used by anything when this call is made .
*/
void relay_reset ( struct rchan * chan )
{
unsigned int i ;
if ( ! chan )
return ;
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if ( chan - > is_global & & chan - > buf [ 0 ] ) {
__relay_reset ( chan - > buf [ 0 ] , 0 ) ;
return ;
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}
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mutex_lock ( & relay_channels_mutex ) ;
for_each_online_cpu ( i )
if ( chan - > buf [ i ] )
__relay_reset ( chan - > buf [ i ] , 0 ) ;
mutex_unlock ( & relay_channels_mutex ) ;
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}
EXPORT_SYMBOL_GPL ( relay_reset ) ;
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/*
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* relay_open_buf - create a new relay channel buffer
*
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* used by relay_open ( ) and CPU hotplug .
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*/
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static struct rchan_buf * relay_open_buf ( struct rchan * chan , unsigned int cpu )
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{
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struct rchan_buf * buf = NULL ;
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struct dentry * dentry ;
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char * tmpname ;
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if ( chan - > is_global )
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return chan - > buf [ 0 ] ;
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tmpname = kzalloc ( NAME_MAX + 1 , GFP_KERNEL ) ;
if ( ! tmpname )
goto end ;
snprintf ( tmpname , NAME_MAX , " %s%d " , chan - > base_filename , cpu ) ;
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buf = relay_create_buf ( chan ) ;
if ( ! buf )
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goto free_name ;
buf - > cpu = cpu ;
__relay_reset ( buf , 1 ) ;
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/* Create file in fs */
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dentry = chan - > cb - > create_buf_file ( tmpname , chan - > parent , S_IRUSR ,
buf , & chan - > is_global ) ;
if ( ! dentry )
goto free_buf ;
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buf - > dentry = dentry ;
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if ( chan - > is_global ) {
chan - > buf [ 0 ] = buf ;
buf - > cpu = 0 ;
}
goto free_name ;
free_buf :
relay_destroy_buf ( buf ) ;
free_name :
kfree ( tmpname ) ;
end :
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return buf ;
}
/**
* relay_close_buf - close a channel buffer
* @ buf : channel buffer
*
* Marks the buffer finalized and restores the default callbacks .
* The channel buffer and channel buffer data structure are then freed
* automatically when the last reference is given up .
*/
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static void relay_close_buf ( struct rchan_buf * buf )
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{
buf - > finalized = 1 ;
cancel_delayed_work ( & buf - > wake_readers ) ;
flush_scheduled_work ( ) ;
kref_put ( & buf - > kref , relay_remove_buf ) ;
}
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static void setup_callbacks ( struct rchan * chan ,
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struct rchan_callbacks * cb )
{
if ( ! cb ) {
chan - > cb = & default_channel_callbacks ;
return ;
}
if ( ! cb - > subbuf_start )
cb - > subbuf_start = subbuf_start_default_callback ;
if ( ! cb - > buf_mapped )
cb - > buf_mapped = buf_mapped_default_callback ;
if ( ! cb - > buf_unmapped )
cb - > buf_unmapped = buf_unmapped_default_callback ;
if ( ! cb - > create_buf_file )
cb - > create_buf_file = create_buf_file_default_callback ;
if ( ! cb - > remove_buf_file )
cb - > remove_buf_file = remove_buf_file_default_callback ;
chan - > cb = cb ;
}
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/**
*
* relay_hotcpu_callback - CPU hotplug callback
* @ nb : notifier block
* @ action : hotplug action to take
* @ hcpu : CPU number
*
* Returns the success / failure of the operation . ( NOTIFY_OK , NOTIFY_BAD )
*/
static int __cpuinit relay_hotcpu_callback ( struct notifier_block * nb ,
unsigned long action ,
void * hcpu )
{
unsigned int hotcpu = ( unsigned long ) hcpu ;
struct rchan * chan ;
switch ( action ) {
case CPU_UP_PREPARE :
mutex_lock ( & relay_channels_mutex ) ;
list_for_each_entry ( chan , & relay_channels , list ) {
if ( chan - > buf [ hotcpu ] )
continue ;
chan - > buf [ hotcpu ] = relay_open_buf ( chan , hotcpu ) ;
if ( ! chan - > buf [ hotcpu ] ) {
printk ( KERN_ERR
" relay_hotcpu_callback: cpu %d buffer "
" creation failed \n " , hotcpu ) ;
mutex_unlock ( & relay_channels_mutex ) ;
return NOTIFY_BAD ;
}
}
mutex_unlock ( & relay_channels_mutex ) ;
break ;
case CPU_DEAD :
/* No need to flush the cpu : will be flushed upon
* final relay_flush ( ) call . */
break ;
}
return NOTIFY_OK ;
}
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/**
* relay_open - create a new relay channel
* @ base_filename : base name of files to create
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* @ parent : dentry of parent directory , % NULL for root directory
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* @ subbuf_size : size of sub - buffers
* @ n_subbufs : number of sub - buffers
* @ cb : client callback functions
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* @ private_data : user - defined data
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*
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* Returns channel pointer if successful , % NULL otherwise .
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*
* Creates a channel buffer for each cpu using the sizes and
* attributes specified . The created channel buffer files
* will be named base_filename0 . . . base_filenameN - 1. File
* permissions will be S_IRUSR .
*/
struct rchan * relay_open ( const char * base_filename ,
struct dentry * parent ,
size_t subbuf_size ,
size_t n_subbufs ,
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struct rchan_callbacks * cb ,
void * private_data )
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{
unsigned int i ;
struct rchan * chan ;
if ( ! base_filename )
return NULL ;
if ( ! ( subbuf_size & & n_subbufs ) )
return NULL ;
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chan = kzalloc ( sizeof ( struct rchan ) , GFP_KERNEL ) ;
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if ( ! chan )
return NULL ;
chan - > version = RELAYFS_CHANNEL_VERSION ;
chan - > n_subbufs = n_subbufs ;
chan - > subbuf_size = subbuf_size ;
chan - > alloc_size = FIX_SIZE ( subbuf_size * n_subbufs ) ;
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chan - > parent = parent ;
chan - > private_data = private_data ;
strlcpy ( chan - > base_filename , base_filename , NAME_MAX ) ;
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setup_callbacks ( chan , cb ) ;
kref_init ( & chan - > kref ) ;
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mutex_lock ( & relay_channels_mutex ) ;
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for_each_online_cpu ( i ) {
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chan - > buf [ i ] = relay_open_buf ( chan , i ) ;
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if ( ! chan - > buf [ i ] )
goto free_bufs ;
}
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list_add ( & chan - > list , & relay_channels ) ;
mutex_unlock ( & relay_channels_mutex ) ;
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return chan ;
free_bufs :
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for_each_online_cpu ( i ) {
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if ( ! chan - > buf [ i ] )
break ;
relay_close_buf ( chan - > buf [ i ] ) ;
}
kref_put ( & chan - > kref , relay_destroy_channel ) ;
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mutex_unlock ( & relay_channels_mutex ) ;
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return NULL ;
}
EXPORT_SYMBOL_GPL ( relay_open ) ;
/**
* relay_switch_subbuf - switch to a new sub - buffer
* @ buf : channel buffer
* @ length : size of current event
*
* Returns either the length passed in or 0 if full .
*
* Performs sub - buffer - switch tasks such as invoking callbacks ,
* updating padding counts , waking up readers , etc .
*/
size_t relay_switch_subbuf ( struct rchan_buf * buf , size_t length )
{
void * old , * new ;
size_t old_subbuf , new_subbuf ;
if ( unlikely ( length > buf - > chan - > subbuf_size ) )
goto toobig ;
if ( buf - > offset ! = buf - > chan - > subbuf_size + 1 ) {
buf - > prev_padding = buf - > chan - > subbuf_size - buf - > offset ;
old_subbuf = buf - > subbufs_produced % buf - > chan - > n_subbufs ;
buf - > padding [ old_subbuf ] = buf - > prev_padding ;
buf - > subbufs_produced + + ;
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buf - > dentry - > d_inode - > i_size + = buf - > chan - > subbuf_size -
buf - > padding [ old_subbuf ] ;
smp_mb ( ) ;
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if ( waitqueue_active ( & buf - > read_wait ) ) {
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PREPARE_DELAYED_WORK ( & buf - > wake_readers ,
wakeup_readers ) ;
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schedule_delayed_work ( & buf - > wake_readers , 1 ) ;
}
}
old = buf - > data ;
new_subbuf = buf - > subbufs_produced % buf - > chan - > n_subbufs ;
new = buf - > start + new_subbuf * buf - > chan - > subbuf_size ;
buf - > offset = 0 ;
if ( ! buf - > chan - > cb - > subbuf_start ( buf , new , old , buf - > prev_padding ) ) {
buf - > offset = buf - > chan - > subbuf_size + 1 ;
return 0 ;
}
buf - > data = new ;
buf - > padding [ new_subbuf ] = 0 ;
if ( unlikely ( length + buf - > offset > buf - > chan - > subbuf_size ) )
goto toobig ;
return length ;
toobig :
buf - > chan - > last_toobig = length ;
return 0 ;
}
EXPORT_SYMBOL_GPL ( relay_switch_subbuf ) ;
/**
* relay_subbufs_consumed - update the buffer ' s sub - buffers - consumed count
* @ chan : the channel
* @ cpu : the cpu associated with the channel buffer to update
* @ subbufs_consumed : number of sub - buffers to add to current buf ' s count
*
* Adds to the channel buffer ' s consumed sub - buffer count .
* subbufs_consumed should be the number of sub - buffers newly consumed ,
* not the total consumed .
*
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* NOTE : Kernel clients don ' t need to call this function if the channel
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* mode is ' overwrite ' .
*/
void relay_subbufs_consumed ( struct rchan * chan ,
unsigned int cpu ,
size_t subbufs_consumed )
{
struct rchan_buf * buf ;
if ( ! chan )
return ;
if ( cpu > = NR_CPUS | | ! chan - > buf [ cpu ] )
return ;
buf = chan - > buf [ cpu ] ;
buf - > subbufs_consumed + = subbufs_consumed ;
if ( buf - > subbufs_consumed > buf - > subbufs_produced )
buf - > subbufs_consumed = buf - > subbufs_produced ;
}
EXPORT_SYMBOL_GPL ( relay_subbufs_consumed ) ;
/**
* relay_close - close the channel
* @ chan : the channel
*
* Closes all channel buffers and frees the channel .
*/
void relay_close ( struct rchan * chan )
{
unsigned int i ;
if ( ! chan )
return ;
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mutex_lock ( & relay_channels_mutex ) ;
if ( chan - > is_global & & chan - > buf [ 0 ] )
relay_close_buf ( chan - > buf [ 0 ] ) ;
else
for_each_possible_cpu ( i )
if ( chan - > buf [ i ] )
relay_close_buf ( chan - > buf [ i ] ) ;
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if ( chan - > last_toobig )
printk ( KERN_WARNING " relay: one or more items not logged "
" [item size (%Zd) > sub-buffer size (%Zd)] \n " ,
chan - > last_toobig , chan - > subbuf_size ) ;
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list_del ( & chan - > list ) ;
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kref_put ( & chan - > kref , relay_destroy_channel ) ;
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mutex_unlock ( & relay_channels_mutex ) ;
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}
EXPORT_SYMBOL_GPL ( relay_close ) ;
/**
* relay_flush - close the channel
* @ chan : the channel
*
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* Flushes all channel buffers , i . e . forces buffer switch .
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*/
void relay_flush ( struct rchan * chan )
{
unsigned int i ;
if ( ! chan )
return ;
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if ( chan - > is_global & & chan - > buf [ 0 ] ) {
relay_switch_subbuf ( chan - > buf [ 0 ] , 0 ) ;
return ;
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}
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mutex_lock ( & relay_channels_mutex ) ;
for_each_possible_cpu ( i )
if ( chan - > buf [ i ] )
relay_switch_subbuf ( chan - > buf [ i ] , 0 ) ;
mutex_unlock ( & relay_channels_mutex ) ;
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}
EXPORT_SYMBOL_GPL ( relay_flush ) ;
/**
* relay_file_open - open file op for relay files
* @ inode : the inode
* @ filp : the file
*
* Increments the channel buffer refcount .
*/
static int relay_file_open ( struct inode * inode , struct file * filp )
{
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struct rchan_buf * buf = inode - > i_private ;
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kref_get ( & buf - > kref ) ;
filp - > private_data = buf ;
return 0 ;
}
/**
* relay_file_mmap - mmap file op for relay files
* @ filp : the file
* @ vma : the vma describing what to map
*
* Calls upon relay_mmap_buf to map the file into user space .
*/
static int relay_file_mmap ( struct file * filp , struct vm_area_struct * vma )
{
struct rchan_buf * buf = filp - > private_data ;
return relay_mmap_buf ( buf , vma ) ;
}
/**
* relay_file_poll - poll file op for relay files
* @ filp : the file
* @ wait : poll table
*
* Poll implemention .
*/
static unsigned int relay_file_poll ( struct file * filp , poll_table * wait )
{
unsigned int mask = 0 ;
struct rchan_buf * buf = filp - > private_data ;
if ( buf - > finalized )
return POLLERR ;
if ( filp - > f_mode & FMODE_READ ) {
poll_wait ( filp , & buf - > read_wait , wait ) ;
if ( ! relay_buf_empty ( buf ) )
mask | = POLLIN | POLLRDNORM ;
}
return mask ;
}
/**
* relay_file_release - release file op for relay files
* @ inode : the inode
* @ filp : the file
*
* Decrements the channel refcount , as the filesystem is
* no longer using it .
*/
static int relay_file_release ( struct inode * inode , struct file * filp )
{
struct rchan_buf * buf = filp - > private_data ;
kref_put ( & buf - > kref , relay_remove_buf ) ;
return 0 ;
}
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/*
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* relay_file_read_consume - update the consumed count for the buffer
*/
static void relay_file_read_consume ( struct rchan_buf * buf ,
size_t read_pos ,
size_t bytes_consumed )
{
size_t subbuf_size = buf - > chan - > subbuf_size ;
size_t n_subbufs = buf - > chan - > n_subbufs ;
size_t read_subbuf ;
if ( buf - > bytes_consumed + bytes_consumed > subbuf_size ) {
relay_subbufs_consumed ( buf - > chan , buf - > cpu , 1 ) ;
buf - > bytes_consumed = 0 ;
}
buf - > bytes_consumed + = bytes_consumed ;
read_subbuf = read_pos / buf - > chan - > subbuf_size ;
if ( buf - > bytes_consumed + buf - > padding [ read_subbuf ] = = subbuf_size ) {
if ( ( read_subbuf = = buf - > subbufs_produced % n_subbufs ) & &
( buf - > offset = = subbuf_size ) )
return ;
relay_subbufs_consumed ( buf - > chan , buf - > cpu , 1 ) ;
buf - > bytes_consumed = 0 ;
}
}
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/*
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* relay_file_read_avail - boolean , are there unconsumed bytes available ?
*/
static int relay_file_read_avail ( struct rchan_buf * buf , size_t read_pos )
{
size_t subbuf_size = buf - > chan - > subbuf_size ;
size_t n_subbufs = buf - > chan - > n_subbufs ;
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size_t produced = buf - > subbufs_produced ;
size_t consumed = buf - > subbufs_consumed ;
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relay_file_read_consume ( buf , read_pos , 0 ) ;
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if ( unlikely ( buf - > offset > subbuf_size ) ) {
if ( produced = = consumed )
return 0 ;
return 1 ;
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}
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if ( unlikely ( produced - consumed > = n_subbufs ) ) {
consumed = ( produced / n_subbufs ) * n_subbufs ;
buf - > subbufs_consumed = consumed ;
}
produced = ( produced % n_subbufs ) * subbuf_size + buf - > offset ;
consumed = ( consumed % n_subbufs ) * subbuf_size + buf - > bytes_consumed ;
if ( consumed > produced )
produced + = n_subbufs * subbuf_size ;
if ( consumed = = produced )
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return 0 ;
return 1 ;
}
/**
* relay_file_read_subbuf_avail - return bytes available in sub - buffer
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* @ read_pos : file read position
* @ buf : relay channel buffer
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*/
static size_t relay_file_read_subbuf_avail ( size_t read_pos ,
struct rchan_buf * buf )
{
size_t padding , avail = 0 ;
size_t read_subbuf , read_offset , write_subbuf , write_offset ;
size_t subbuf_size = buf - > chan - > subbuf_size ;
write_subbuf = ( buf - > data - buf - > start ) / subbuf_size ;
write_offset = buf - > offset > subbuf_size ? subbuf_size : buf - > offset ;
read_subbuf = read_pos / subbuf_size ;
read_offset = read_pos % subbuf_size ;
padding = buf - > padding [ read_subbuf ] ;
if ( read_subbuf = = write_subbuf ) {
if ( read_offset + padding < write_offset )
avail = write_offset - ( read_offset + padding ) ;
} else
avail = ( subbuf_size - padding ) - read_offset ;
return avail ;
}
/**
* relay_file_read_start_pos - find the first available byte to read
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* @ read_pos : file read position
* @ buf : relay channel buffer
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*
* If the read_pos is in the middle of padding , return the
* position of the first actually available byte , otherwise
* return the original value .
*/
static size_t relay_file_read_start_pos ( size_t read_pos ,
struct rchan_buf * buf )
{
size_t read_subbuf , padding , padding_start , padding_end ;
size_t subbuf_size = buf - > chan - > subbuf_size ;
size_t n_subbufs = buf - > chan - > n_subbufs ;
read_subbuf = read_pos / subbuf_size ;
padding = buf - > padding [ read_subbuf ] ;
padding_start = ( read_subbuf + 1 ) * subbuf_size - padding ;
padding_end = ( read_subbuf + 1 ) * subbuf_size ;
if ( read_pos > = padding_start & & read_pos < padding_end ) {
read_subbuf = ( read_subbuf + 1 ) % n_subbufs ;
read_pos = read_subbuf * subbuf_size ;
}
return read_pos ;
}
/**
* relay_file_read_end_pos - return the new read position
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* @ read_pos : file read position
* @ buf : relay channel buffer
* @ count : number of bytes to be read
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*/
static size_t relay_file_read_end_pos ( struct rchan_buf * buf ,
size_t read_pos ,
size_t count )
{
size_t read_subbuf , padding , end_pos ;
size_t subbuf_size = buf - > chan - > subbuf_size ;
size_t n_subbufs = buf - > chan - > n_subbufs ;
read_subbuf = read_pos / subbuf_size ;
padding = buf - > padding [ read_subbuf ] ;
if ( read_pos % subbuf_size + count + padding = = subbuf_size )
end_pos = ( read_subbuf + 1 ) * subbuf_size ;
else
end_pos = read_pos + count ;
if ( end_pos > = subbuf_size * n_subbufs )
end_pos = 0 ;
return end_pos ;
}
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/*
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* subbuf_read_actor - read up to one subbuf ' s worth of data
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*/
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static int subbuf_read_actor ( size_t read_start ,
struct rchan_buf * buf ,
size_t avail ,
read_descriptor_t * desc ,
read_actor_t actor )
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{
void * from ;
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int ret = 0 ;
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from = buf - > start + read_start ;
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ret = avail ;
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if ( copy_to_user ( desc - > arg . buf , from , avail ) ) {
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desc - > error = - EFAULT ;
ret = 0 ;
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}
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desc - > arg . data + = ret ;
desc - > written + = ret ;
desc - > count - = ret ;
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return ret ;
}
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/*
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* subbuf_send_actor - send up to one subbuf ' s worth of data
*/
static int subbuf_send_actor ( size_t read_start ,
struct rchan_buf * buf ,
size_t avail ,
read_descriptor_t * desc ,
read_actor_t actor )
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{
unsigned long pidx , poff ;
unsigned int subbuf_pages ;
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int ret = 0 ;
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subbuf_pages = buf - > chan - > alloc_size > > PAGE_SHIFT ;
pidx = ( read_start / PAGE_SIZE ) % subbuf_pages ;
poff = read_start & ~ PAGE_MASK ;
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while ( avail ) {
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struct page * p = buf - > page_array [ pidx ] ;
unsigned int len ;
len = PAGE_SIZE - poff ;
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if ( len > avail )
len = avail ;
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len = actor ( desc , p , poff , len ) ;
if ( desc - > error )
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break ;
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avail - = len ;
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ret + = len ;
poff = 0 ;
pidx = ( pidx + 1 ) % subbuf_pages ;
}
return ret ;
}
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typedef int ( * subbuf_actor_t ) ( size_t read_start ,
struct rchan_buf * buf ,
size_t avail ,
read_descriptor_t * desc ,
read_actor_t actor ) ;
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/*
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* relay_file_read_subbufs - read count bytes , bridging subbuf boundaries
*/
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static ssize_t relay_file_read_subbufs ( struct file * filp , loff_t * ppos ,
subbuf_actor_t subbuf_actor ,
read_actor_t actor ,
read_descriptor_t * desc )
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{
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struct rchan_buf * buf = filp - > private_data ;
size_t read_start , avail ;
int ret ;
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if ( ! desc - > count )
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return 0 ;
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mutex_lock ( & filp - > f_path . dentry - > d_inode - > i_mutex ) ;
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do {
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if ( ! relay_file_read_avail ( buf , * ppos ) )
break ;
read_start = relay_file_read_start_pos ( * ppos , buf ) ;
avail = relay_file_read_subbuf_avail ( read_start , buf ) ;
if ( ! avail )
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break ;
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avail = min ( desc - > count , avail ) ;
ret = subbuf_actor ( read_start , buf , avail , desc , actor ) ;
if ( desc - > error < 0 )
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break ;
if ( ret ) {
relay_file_read_consume ( buf , read_start , ret ) ;
* ppos = relay_file_read_end_pos ( buf , read_start , ret ) ;
}
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} while ( desc - > count & & ret ) ;
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mutex_unlock ( & filp - > f_path . dentry - > d_inode - > i_mutex ) ;
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return desc - > written ;
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}
static ssize_t relay_file_read ( struct file * filp ,
char __user * buffer ,
size_t count ,
loff_t * ppos )
{
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read_descriptor_t desc ;
desc . written = 0 ;
desc . count = count ;
desc . arg . buf = buffer ;
desc . error = 0 ;
return relay_file_read_subbufs ( filp , ppos , subbuf_read_actor ,
NULL , & desc ) ;
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}
static ssize_t relay_file_sendfile ( struct file * filp ,
loff_t * ppos ,
size_t count ,
read_actor_t actor ,
void * target )
{
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read_descriptor_t desc ;
desc . written = 0 ;
desc . count = count ;
desc . arg . data = target ;
desc . error = 0 ;
return relay_file_read_subbufs ( filp , ppos , subbuf_send_actor ,
actor , & desc ) ;
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}
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const struct file_operations relay_file_operations = {
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. open = relay_file_open ,
. poll = relay_file_poll ,
. mmap = relay_file_mmap ,
. read = relay_file_read ,
. llseek = no_llseek ,
. release = relay_file_release ,
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. sendfile = relay_file_sendfile ,
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} ;
EXPORT_SYMBOL_GPL ( relay_file_operations ) ;
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static __init int relay_init ( void )
{
hotcpu_notifier ( relay_hotcpu_callback , 0 ) ;
return 0 ;
}
module_init ( relay_init ) ;