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/*
* Generic address resultion entity
*
* Authors :
* net_random Alan Cox
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* net_ratelimit Andi Kleen
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* in { 4 , 6 } _pton YOSHIFUJI Hideaki , Copyright ( C ) 2006 USAGI / WIDE Project
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*
* Created by Alexey Kuznetsov < kuznet @ ms2 . inr . ac . ru >
*
* This program is free software ; you can redistribute it and / or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation ; either version
* 2 of the License , or ( at your option ) any later version .
*/
# include <linux/module.h>
# include <linux/jiffies.h>
# include <linux/kernel.h>
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# include <linux/ctype.h>
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# include <linux/inet.h>
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# include <linux/mm.h>
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# include <linux/net.h>
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# include <linux/string.h>
# include <linux/types.h>
# include <linux/percpu.h>
# include <linux/init.h>
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# include <linux/ratelimit.h>
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# include <net/sock.h>
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# include <net/net_ratelimit.h>
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# include <asm/byteorder.h>
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# include <asm/uaccess.h>
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DEFINE_RATELIMIT_STATE ( net_ratelimit_state , 5 * HZ , 10 ) ;
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/*
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* All net warning printk ( ) s should be guarded by this function .
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*/
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int net_ratelimit ( void )
{
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return __ratelimit ( & net_ratelimit_state ) ;
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}
EXPORT_SYMBOL ( net_ratelimit ) ;
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/*
* Convert an ASCII string to binary IP .
* This is outside of net / ipv4 / because various code that uses IP addresses
* is otherwise not dependent on the TCP / IP stack .
*/
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__be32 in_aton ( const char * str )
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{
unsigned long l ;
unsigned int val ;
int i ;
l = 0 ;
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for ( i = 0 ; i < 4 ; i + + ) {
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l < < = 8 ;
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if ( * str ! = ' \0 ' ) {
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val = 0 ;
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while ( * str ! = ' \0 ' & & * str ! = ' . ' & & * str ! = ' \n ' ) {
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val * = 10 ;
val + = * str - ' 0 ' ;
str + + ;
}
l | = val ;
if ( * str ! = ' \0 ' )
str + + ;
}
}
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return htonl ( l ) ;
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}
EXPORT_SYMBOL ( in_aton ) ;
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# define IN6PTON_XDIGIT 0x00010000
# define IN6PTON_DIGIT 0x00020000
# define IN6PTON_COLON_MASK 0x00700000
# define IN6PTON_COLON_1 0x00100000 /* single : requested */
# define IN6PTON_COLON_2 0x00200000 /* second : requested */
# define IN6PTON_COLON_1_2 0x00400000 /* :: requested */
# define IN6PTON_DOT 0x00800000 /* . */
# define IN6PTON_DELIM 0x10000000
# define IN6PTON_NULL 0x20000000 /* first/tail */
# define IN6PTON_UNKNOWN 0x40000000
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static inline int xdigit2bin ( char c , int delim )
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{
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int val ;
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if ( c = = delim | | c = = ' \0 ' )
return IN6PTON_DELIM ;
if ( c = = ' : ' )
return IN6PTON_COLON_MASK ;
if ( c = = ' . ' )
return IN6PTON_DOT ;
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val = hex_to_bin ( c ) ;
if ( val > = 0 )
return val | IN6PTON_XDIGIT | ( val < 10 ? IN6PTON_DIGIT : 0 ) ;
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if ( delim = = - 1 )
return IN6PTON_DELIM ;
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return IN6PTON_UNKNOWN ;
}
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/**
* in4_pton - convert an IPv4 address from literal to binary representation
* @ src : the start of the IPv4 address string
* @ srclen : the length of the string , - 1 means strlen ( src )
* @ dst : the binary ( u8 [ 4 ] array ) representation of the IPv4 address
* @ delim : the delimiter of the IPv4 address in @ src , - 1 means no delimiter
* @ end : A pointer to the end of the parsed string will be placed here
*
* Return one on success , return zero when any error occurs
* and @ end will point to the end of the parsed string .
*
*/
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int in4_pton ( const char * src , int srclen ,
u8 * dst ,
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int delim , const char * * end )
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{
const char * s ;
u8 * d ;
u8 dbuf [ 4 ] ;
int ret = 0 ;
int i ;
int w = 0 ;
if ( srclen < 0 )
srclen = strlen ( src ) ;
s = src ;
d = dbuf ;
i = 0 ;
while ( 1 ) {
int c ;
c = xdigit2bin ( srclen > 0 ? * s : ' \0 ' , delim ) ;
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if ( ! ( c & ( IN6PTON_DIGIT | IN6PTON_DOT | IN6PTON_DELIM | IN6PTON_COLON_MASK ) ) ) {
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goto out ;
}
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if ( c & ( IN6PTON_DOT | IN6PTON_DELIM | IN6PTON_COLON_MASK ) ) {
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if ( w = = 0 )
goto out ;
* d + + = w & 0xff ;
w = 0 ;
i + + ;
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if ( c & ( IN6PTON_DELIM | IN6PTON_COLON_MASK ) ) {
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if ( i ! = 4 )
goto out ;
break ;
}
goto cont ;
}
w = ( w * 10 ) + c ;
if ( ( w & 0xffff ) > 255 ) {
goto out ;
}
cont :
if ( i > = 4 )
goto out ;
s + + ;
srclen - - ;
}
ret = 1 ;
memcpy ( dst , dbuf , sizeof ( dbuf ) ) ;
out :
if ( end )
* end = s ;
return ret ;
}
EXPORT_SYMBOL ( in4_pton ) ;
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/**
* in6_pton - convert an IPv6 address from literal to binary representation
* @ src : the start of the IPv6 address string
* @ srclen : the length of the string , - 1 means strlen ( src )
* @ dst : the binary ( u8 [ 16 ] array ) representation of the IPv6 address
* @ delim : the delimiter of the IPv6 address in @ src , - 1 means no delimiter
* @ end : A pointer to the end of the parsed string will be placed here
*
* Return one on success , return zero when any error occurs
* and @ end will point to the end of the parsed string .
*
*/
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int in6_pton ( const char * src , int srclen ,
u8 * dst ,
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int delim , const char * * end )
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{
const char * s , * tok = NULL ;
u8 * d , * dc = NULL ;
u8 dbuf [ 16 ] ;
int ret = 0 ;
int i ;
int state = IN6PTON_COLON_1_2 | IN6PTON_XDIGIT | IN6PTON_NULL ;
int w = 0 ;
memset ( dbuf , 0 , sizeof ( dbuf ) ) ;
s = src ;
d = dbuf ;
if ( srclen < 0 )
srclen = strlen ( src ) ;
while ( 1 ) {
int c ;
c = xdigit2bin ( srclen > 0 ? * s : ' \0 ' , delim ) ;
if ( ! ( c & state ) )
goto out ;
if ( c & ( IN6PTON_DELIM | IN6PTON_COLON_MASK ) ) {
/* process one 16-bit word */
if ( ! ( state & IN6PTON_NULL ) ) {
* d + + = ( w > > 8 ) & 0xff ;
* d + + = w & 0xff ;
}
w = 0 ;
if ( c & IN6PTON_DELIM ) {
/* We've processed last word */
break ;
}
/*
* COLON_1 = > XDIGIT
* COLON_2 = > XDIGIT | DELIM
* COLON_1_2 = > COLON_2
*/
switch ( state & IN6PTON_COLON_MASK ) {
case IN6PTON_COLON_2 :
dc = d ;
state = IN6PTON_XDIGIT | IN6PTON_DELIM ;
if ( dc - dbuf > = sizeof ( dbuf ) )
state | = IN6PTON_NULL ;
break ;
case IN6PTON_COLON_1 | IN6PTON_COLON_1_2 :
state = IN6PTON_XDIGIT | IN6PTON_COLON_2 ;
break ;
case IN6PTON_COLON_1 :
state = IN6PTON_XDIGIT ;
break ;
case IN6PTON_COLON_1_2 :
state = IN6PTON_COLON_2 ;
break ;
default :
state = 0 ;
}
tok = s + 1 ;
goto cont ;
}
if ( c & IN6PTON_DOT ) {
ret = in4_pton ( tok ? tok : s , srclen + ( int ) ( s - tok ) , d , delim , & s ) ;
if ( ret > 0 ) {
d + = 4 ;
break ;
}
goto out ;
}
w = ( w < < 4 ) | ( 0xff & c ) ;
state = IN6PTON_COLON_1 | IN6PTON_DELIM ;
if ( ! ( w & 0xf000 ) ) {
state | = IN6PTON_XDIGIT ;
}
if ( ! dc & & d + 2 < dbuf + sizeof ( dbuf ) ) {
state | = IN6PTON_COLON_1_2 ;
state & = ~ IN6PTON_DELIM ;
}
if ( d + 2 > = dbuf + sizeof ( dbuf ) ) {
state & = ~ ( IN6PTON_COLON_1 | IN6PTON_COLON_1_2 ) ;
}
cont :
if ( ( dc & & d + 4 < dbuf + sizeof ( dbuf ) ) | |
d + 4 = = dbuf + sizeof ( dbuf ) ) {
state | = IN6PTON_DOT ;
}
if ( d > = dbuf + sizeof ( dbuf ) ) {
state & = ~ ( IN6PTON_XDIGIT | IN6PTON_COLON_MASK ) ;
}
s + + ;
srclen - - ;
}
i = 15 ; d - - ;
if ( dc ) {
while ( d > = dc )
dst [ i - - ] = * d - - ;
while ( i > = dc - dbuf )
dst [ i - - ] = 0 ;
while ( i > = 0 )
dst [ i - - ] = * d - - ;
} else
memcpy ( dst , dbuf , sizeof ( dbuf ) ) ;
ret = 1 ;
out :
if ( end )
* end = s ;
return ret ;
}
EXPORT_SYMBOL ( in6_pton ) ;
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void inet_proto_csum_replace4 ( __sum16 * sum , struct sk_buff * skb ,
__be32 from , __be32 to , int pseudohdr )
{
if ( skb - > ip_summed ! = CHECKSUM_PARTIAL ) {
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* sum = csum_fold ( csum_add ( csum_sub ( ~ csum_unfold ( * sum ) , from ) ,
to ) ) ;
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if ( skb - > ip_summed = = CHECKSUM_COMPLETE & & pseudohdr )
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skb - > csum = ~ csum_add ( csum_sub ( ~ ( skb - > csum ) , from ) , to ) ;
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} else if ( pseudohdr )
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* sum = ~ csum_fold ( csum_add ( csum_sub ( csum_unfold ( * sum ) , from ) ,
to ) ) ;
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}
EXPORT_SYMBOL ( inet_proto_csum_replace4 ) ;
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void inet_proto_csum_replace16 ( __sum16 * sum , struct sk_buff * skb ,
const __be32 * from , const __be32 * to ,
int pseudohdr )
{
__be32 diff [ ] = {
~ from [ 0 ] , ~ from [ 1 ] , ~ from [ 2 ] , ~ from [ 3 ] ,
to [ 0 ] , to [ 1 ] , to [ 2 ] , to [ 3 ] ,
} ;
if ( skb - > ip_summed ! = CHECKSUM_PARTIAL ) {
* sum = csum_fold ( csum_partial ( diff , sizeof ( diff ) ,
~ csum_unfold ( * sum ) ) ) ;
if ( skb - > ip_summed = = CHECKSUM_COMPLETE & & pseudohdr )
skb - > csum = ~ csum_partial ( diff , sizeof ( diff ) ,
~ skb - > csum ) ;
} else if ( pseudohdr )
* sum = ~ csum_fold ( csum_partial ( diff , sizeof ( diff ) ,
csum_unfold ( * sum ) ) ) ;
}
EXPORT_SYMBOL ( inet_proto_csum_replace16 ) ;
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struct __net_random_once_work {
struct work_struct work ;
struct static_key * key ;
} ;
static void __net_random_once_deferred ( struct work_struct * w )
{
struct __net_random_once_work * work =
container_of ( w , struct __net_random_once_work , work ) ;
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BUG_ON ( ! static_key_enabled ( work - > key ) ) ;
static_key_slow_dec ( work - > key ) ;
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kfree ( work ) ;
}
static void __net_random_once_disable_jump ( struct static_key * key )
{
struct __net_random_once_work * w ;
w = kmalloc ( sizeof ( * w ) , GFP_ATOMIC ) ;
if ( ! w )
return ;
INIT_WORK ( & w - > work , __net_random_once_deferred ) ;
w - > key = key ;
schedule_work ( & w - > work ) ;
}
bool __net_get_random_once ( void * buf , int nbytes , bool * done ,
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struct static_key * once_key )
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{
static DEFINE_SPINLOCK ( lock ) ;
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unsigned long flags ;
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spin_lock_irqsave ( & lock , flags ) ;
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if ( * done ) {
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spin_unlock_irqrestore ( & lock , flags ) ;
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return false ;
}
get_random_bytes ( buf , nbytes ) ;
* done = true ;
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spin_unlock_irqrestore ( & lock , flags ) ;
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__net_random_once_disable_jump ( once_key ) ;
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return true ;
}
EXPORT_SYMBOL ( __net_get_random_once ) ;