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/*
* INET An implementation of the TCP / IP protocol suite for the LINUX
* operating system . INET is implemented using the BSD Socket
* interface as the means of communication with the user level .
*
* The IP fragmentation functionality .
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*
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* Version : $ Id : ip_fragment . c , v 1.59 2002 / 01 / 12 07 : 54 : 56 davem Exp $
*
* Authors : Fred N . van Kempen < waltje @ uWalt . NL . Mugnet . ORG >
* Alan Cox < Alan . Cox @ linux . org >
*
* Fixes :
* Alan Cox : Split from ip . c , see ip_input . c for history .
* David S . Miller : Begin massive cleanup . . .
* Andi Kleen : Add sysctls .
* xxxx : Overlapfrag bug .
* Ultima : ip_expire ( ) kernel panic .
* Bill Hawes : Frag accounting and evictor fixes .
* John McDonald : 0 length frag bug .
* Alexey Kuznetsov : SMP races , threading , cleanup .
* Patrick McHardy : LRU queue of frag heads for evictor .
*/
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# include <linux/compiler.h>
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# include <linux/module.h>
# include <linux/types.h>
# include <linux/mm.h>
# include <linux/jiffies.h>
# include <linux/skbuff.h>
# include <linux/list.h>
# include <linux/ip.h>
# include <linux/icmp.h>
# include <linux/netdevice.h>
# include <linux/jhash.h>
# include <linux/random.h>
# include <net/sock.h>
# include <net/ip.h>
# include <net/icmp.h>
# include <net/checksum.h>
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# include <net/inetpeer.h>
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# include <net/inet_frag.h>
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# include <linux/tcp.h>
# include <linux/udp.h>
# include <linux/inet.h>
# include <linux/netfilter_ipv4.h>
/* NOTE. Logic of IP defragmentation is parallel to corresponding IPv6
* code now . If you change something here , _PLEASE_ update ipv6 / reassembly . c
* as well . Or notify me , at least . - - ANK
*/
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static int sysctl_ipfrag_max_dist __read_mostly = 64 ;
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struct ipfrag_skb_cb
{
struct inet_skb_parm h ;
int offset ;
} ;
# define FRAG_CB(skb) ((struct ipfrag_skb_cb*)((skb)->cb))
/* Describe an entry in the "incomplete datagrams" queue. */
struct ipq {
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struct inet_frag_queue q ;
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u32 user ;
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__be32 saddr ;
__be32 daddr ;
__be16 id ;
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u8 protocol ;
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int iif ;
unsigned int rid ;
struct inet_peer * peer ;
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} ;
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static struct inet_frags_ctl ip4_frags_ctl __read_mostly = {
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/*
* Fragment cache limits . We will commit 256 K at one time . Should we
* cross that limit we will prune down to 192 K . This should cope with
* even the most extreme cases without allowing an attacker to
* measurably harm machine performance .
*/
. high_thresh = 256 * 1024 ,
. low_thresh = 192 * 1024 ,
/*
* Important NOTE ! Fragment queue must be destroyed before MSL expires .
* RFC791 is wrong proposing to prolongate timer each fragment arrival
* by TTL .
*/
. timeout = IP_FRAG_TIME ,
. secret_interval = 10 * 60 * HZ ,
} ;
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static struct inet_frags ip4_frags ;
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int ip_frag_nqueues ( void )
{
return ip4_frags . nqueues ;
}
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int ip_frag_mem ( void )
{
return atomic_read ( & ip4_frags . mem ) ;
}
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static int ip_frag_reasm ( struct ipq * qp , struct sk_buff * prev ,
struct net_device * dev ) ;
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struct ip4_create_arg {
struct iphdr * iph ;
u32 user ;
} ;
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static unsigned int ipqhashfn ( __be16 id , __be32 saddr , __be32 daddr , u8 prot )
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{
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return jhash_3words ( ( __force u32 ) id < < 16 | prot ,
( __force u32 ) saddr , ( __force u32 ) daddr ,
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ip4_frags . rnd ) & ( INETFRAGS_HASHSZ - 1 ) ;
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}
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static unsigned int ip4_hashfn ( struct inet_frag_queue * q )
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{
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struct ipq * ipq ;
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ipq = container_of ( q , struct ipq , q ) ;
return ipqhashfn ( ipq - > id , ipq - > saddr , ipq - > daddr , ipq - > protocol ) ;
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}
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static int ip4_frag_match ( struct inet_frag_queue * q , void * a )
{
struct ipq * qp ;
struct ip4_create_arg * arg = a ;
qp = container_of ( q , struct ipq , q ) ;
return ( qp - > id = = arg - > iph - > id & &
qp - > saddr = = arg - > iph - > saddr & &
qp - > daddr = = arg - > iph - > daddr & &
qp - > protocol = = arg - > iph - > protocol & &
qp - > user = = arg - > user ) ;
}
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/* Memory Tracking Functions. */
static __inline__ void frag_kfree_skb ( struct sk_buff * skb , int * work )
{
if ( work )
* work - = skb - > truesize ;
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atomic_sub ( skb - > truesize , & ip4_frags . mem ) ;
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kfree_skb ( skb ) ;
}
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static void ip4_frag_init ( struct inet_frag_queue * q , void * a )
{
struct ipq * qp = container_of ( q , struct ipq , q ) ;
struct ip4_create_arg * arg = a ;
qp - > protocol = arg - > iph - > protocol ;
qp - > id = arg - > iph - > id ;
qp - > saddr = arg - > iph - > saddr ;
qp - > daddr = arg - > iph - > daddr ;
qp - > user = arg - > user ;
qp - > peer = sysctl_ipfrag_max_dist ?
inet_getpeer ( arg - > iph - > saddr , 1 ) : NULL ;
}
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static __inline__ void ip4_frag_free ( struct inet_frag_queue * q )
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{
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struct ipq * qp ;
qp = container_of ( q , struct ipq , q ) ;
if ( qp - > peer )
inet_putpeer ( qp - > peer ) ;
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}
/* Destruction primitives. */
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static __inline__ void ipq_put ( struct ipq * ipq )
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{
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inet_frag_put ( & ipq - > q , & ip4_frags ) ;
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}
/* Kill ipq entry. It is not destroyed immediately,
* because caller ( and someone more ) holds reference count .
*/
static void ipq_kill ( struct ipq * ipq )
{
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inet_frag_kill ( & ipq - > q , & ip4_frags ) ;
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}
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/* Memory limiting on fragments. Evictor trashes the oldest
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* fragment queue until we are back under the threshold .
*/
static void ip_evictor ( void )
{
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int evicted ;
evicted = inet_frag_evictor ( & ip4_frags ) ;
if ( evicted )
IP_ADD_STATS_BH ( IPSTATS_MIB_REASMFAILS , evicted ) ;
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}
/*
* Oops , a fragment queue timed out . Kill it and send an ICMP reply .
*/
static void ip_expire ( unsigned long arg )
{
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struct ipq * qp ;
qp = container_of ( ( struct inet_frag_queue * ) arg , struct ipq , q ) ;
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spin_lock ( & qp - > q . lock ) ;
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if ( qp - > q . last_in & COMPLETE )
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goto out ;
ipq_kill ( qp ) ;
IP_INC_STATS_BH ( IPSTATS_MIB_REASMTIMEOUT ) ;
IP_INC_STATS_BH ( IPSTATS_MIB_REASMFAILS ) ;
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if ( ( qp - > q . last_in & FIRST_IN ) & & qp - > q . fragments ! = NULL ) {
struct sk_buff * head = qp - > q . fragments ;
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/* Send an ICMP "Fragment Reassembly Timeout" message. */
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if ( ( head - > dev = dev_get_by_index ( & init_net , qp - > iif ) ) ! = NULL ) {
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icmp_send ( head , ICMP_TIME_EXCEEDED , ICMP_EXC_FRAGTIME , 0 ) ;
dev_put ( head - > dev ) ;
}
}
out :
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spin_unlock ( & qp - > q . lock ) ;
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ipq_put ( qp ) ;
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}
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/* Find the correct entry in the "incomplete datagrams" queue for
* this IP datagram , and create new one , if nothing is found .
*/
static inline struct ipq * ip_find ( struct iphdr * iph , u32 user )
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{
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struct inet_frag_queue * q ;
struct ip4_create_arg arg ;
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unsigned int hash ;
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arg . iph = iph ;
arg . user = user ;
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hash = ipqhashfn ( iph - > id , iph - > saddr , iph - > daddr , iph - > protocol ) ;
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q = inet_frag_find ( & ip4_frags , & arg , hash ) ;
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if ( q = = NULL )
goto out_nomem ;
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return container_of ( q , struct ipq , q ) ;
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out_nomem :
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LIMIT_NETDEBUG ( KERN_ERR " ip_frag_create: no memory left ! \n " ) ;
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return NULL ;
}
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/* Is the fragment too far ahead to be part of ipq? */
static inline int ip_frag_too_far ( struct ipq * qp )
{
struct inet_peer * peer = qp - > peer ;
unsigned int max = sysctl_ipfrag_max_dist ;
unsigned int start , end ;
int rc ;
if ( ! peer | | ! max )
return 0 ;
start = qp - > rid ;
end = atomic_inc_return ( & peer - > rid ) ;
qp - > rid = end ;
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rc = qp - > q . fragments & & ( end - start ) > max ;
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if ( rc ) {
IP_INC_STATS_BH ( IPSTATS_MIB_REASMFAILS ) ;
}
return rc ;
}
static int ip_frag_reinit ( struct ipq * qp )
{
struct sk_buff * fp ;
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if ( ! mod_timer ( & qp - > q . timer , jiffies + ip4_frags_ctl . timeout ) ) {
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atomic_inc ( & qp - > q . refcnt ) ;
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return - ETIMEDOUT ;
}
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fp = qp - > q . fragments ;
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do {
struct sk_buff * xp = fp - > next ;
frag_kfree_skb ( fp , NULL ) ;
fp = xp ;
} while ( fp ) ;
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qp - > q . last_in = 0 ;
qp - > q . len = 0 ;
qp - > q . meat = 0 ;
qp - > q . fragments = NULL ;
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qp - > iif = 0 ;
return 0 ;
}
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/* Add new segment to existing queue. */
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static int ip_frag_queue ( struct ipq * qp , struct sk_buff * skb )
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{
struct sk_buff * prev , * next ;
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struct net_device * dev ;
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int flags , offset ;
int ihl , end ;
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int err = - ENOENT ;
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if ( qp - > q . last_in & COMPLETE )
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goto err ;
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if ( ! ( IPCB ( skb ) - > flags & IPSKB_FRAG_COMPLETE ) & &
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unlikely ( ip_frag_too_far ( qp ) ) & &
unlikely ( err = ip_frag_reinit ( qp ) ) ) {
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ipq_kill ( qp ) ;
goto err ;
}
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offset = ntohs ( ip_hdr ( skb ) - > frag_off ) ;
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flags = offset & ~ IP_OFFSET ;
offset & = IP_OFFSET ;
offset < < = 3 ; /* offset is in 8-byte chunks */
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ihl = ip_hdrlen ( skb ) ;
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/* Determine the position of this fragment. */
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end = offset + skb - > len - ihl ;
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err = - EINVAL ;
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/* Is this the final fragment? */
if ( ( flags & IP_MF ) = = 0 ) {
/* If we already have some bits beyond end
* or have different end , the segment is corrrupted .
*/
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if ( end < qp - > q . len | |
( ( qp - > q . last_in & LAST_IN ) & & end ! = qp - > q . len ) )
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goto err ;
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qp - > q . last_in | = LAST_IN ;
qp - > q . len = end ;
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} else {
if ( end & 7 ) {
end & = ~ 7 ;
if ( skb - > ip_summed ! = CHECKSUM_UNNECESSARY )
skb - > ip_summed = CHECKSUM_NONE ;
}
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if ( end > qp - > q . len ) {
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/* Some bits beyond end -> corruption. */
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if ( qp - > q . last_in & LAST_IN )
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goto err ;
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qp - > q . len = end ;
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}
}
if ( end = = offset )
goto err ;
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err = - ENOMEM ;
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if ( pskb_pull ( skb , ihl ) = = NULL )
goto err ;
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err = pskb_trim_rcsum ( skb , end - offset ) ;
if ( err )
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goto err ;
/* Find out which fragments are in front and at the back of us
* in the chain of fragments so far . We must know where to put
* this fragment , right ?
*/
prev = NULL ;
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for ( next = qp - > q . fragments ; next ! = NULL ; next = next - > next ) {
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if ( FRAG_CB ( next ) - > offset > = offset )
break ; /* bingo! */
prev = next ;
}
/* We found where to put this one. Check for overlap with
* preceding fragment , and , if needed , align things so that
* any overlaps are eliminated .
*/
if ( prev ) {
int i = ( FRAG_CB ( prev ) - > offset + prev - > len ) - offset ;
if ( i > 0 ) {
offset + = i ;
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err = - EINVAL ;
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if ( end < = offset )
goto err ;
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err = - ENOMEM ;
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if ( ! pskb_pull ( skb , i ) )
goto err ;
if ( skb - > ip_summed ! = CHECKSUM_UNNECESSARY )
skb - > ip_summed = CHECKSUM_NONE ;
}
}
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err = - ENOMEM ;
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while ( next & & FRAG_CB ( next ) - > offset < end ) {
int i = end - FRAG_CB ( next ) - > offset ; /* overlap is 'i' bytes */
if ( i < next - > len ) {
/* Eat head of the next overlapped fragment
* and leave the loop . The next ones cannot overlap .
*/
if ( ! pskb_pull ( next , i ) )
goto err ;
FRAG_CB ( next ) - > offset + = i ;
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qp - > q . meat - = i ;
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if ( next - > ip_summed ! = CHECKSUM_UNNECESSARY )
next - > ip_summed = CHECKSUM_NONE ;
break ;
} else {
struct sk_buff * free_it = next ;
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/* Old fragment is completely overridden with
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* new one drop it .
*/
next = next - > next ;
if ( prev )
prev - > next = next ;
else
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qp - > q . fragments = next ;
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qp - > q . meat - = free_it - > len ;
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frag_kfree_skb ( free_it , NULL ) ;
}
}
FRAG_CB ( skb ) - > offset = offset ;
/* Insert this fragment in the chain of fragments. */
skb - > next = next ;
if ( prev )
prev - > next = skb ;
else
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qp - > q . fragments = skb ;
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dev = skb - > dev ;
if ( dev ) {
qp - > iif = dev - > ifindex ;
skb - > dev = NULL ;
}
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qp - > q . stamp = skb - > tstamp ;
qp - > q . meat + = skb - > len ;
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atomic_add ( skb - > truesize , & ip4_frags . mem ) ;
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if ( offset = = 0 )
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qp - > q . last_in | = FIRST_IN ;
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if ( qp - > q . last_in = = ( FIRST_IN | LAST_IN ) & & qp - > q . meat = = qp - > q . len )
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return ip_frag_reasm ( qp , prev , dev ) ;
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write_lock ( & ip4_frags . lock ) ;
list_move_tail ( & qp - > q . lru_list , & ip4_frags . lru_list ) ;
write_unlock ( & ip4_frags . lock ) ;
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return - EINPROGRESS ;
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err :
kfree_skb ( skb ) ;
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return err ;
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}
/* Build a new IP datagram from all its fragments. */
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static int ip_frag_reasm ( struct ipq * qp , struct sk_buff * prev ,
struct net_device * dev )
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{
struct iphdr * iph ;
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struct sk_buff * fp , * head = qp - > q . fragments ;
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int len ;
int ihlen ;
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int err ;
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ipq_kill ( qp ) ;
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/* Make the one we just received the head. */
if ( prev ) {
head = prev - > next ;
fp = skb_clone ( head , GFP_ATOMIC ) ;
if ( ! fp )
goto out_nomem ;
fp - > next = head - > next ;
prev - > next = fp ;
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skb_morph ( head , qp - > q . fragments ) ;
head - > next = qp - > q . fragments - > next ;
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kfree_skb ( qp - > q . fragments ) ;
qp - > q . fragments = head ;
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}
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BUG_TRAP ( head ! = NULL ) ;
BUG_TRAP ( FRAG_CB ( head ) - > offset = = 0 ) ;
/* Allocate a new buffer for the datagram. */
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ihlen = ip_hdrlen ( head ) ;
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len = ihlen + qp - > q . len ;
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err = - E2BIG ;
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if ( len > 65535 )
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goto out_oversize ;
/* Head of list must not be cloned. */
if ( skb_cloned ( head ) & & pskb_expand_head ( head , 0 , 0 , GFP_ATOMIC ) )
goto out_nomem ;
/* If the first fragment is fragmented itself, we split
* it to two chunks : the first with data and paged part
* and the second , holding only fragments . */
if ( skb_shinfo ( head ) - > frag_list ) {
struct sk_buff * clone ;
int i , plen = 0 ;
if ( ( clone = alloc_skb ( 0 , GFP_ATOMIC ) ) = = NULL )
goto out_nomem ;
clone - > next = head - > next ;
head - > next = clone ;
skb_shinfo ( clone ) - > frag_list = skb_shinfo ( head ) - > frag_list ;
skb_shinfo ( head ) - > frag_list = NULL ;
for ( i = 0 ; i < skb_shinfo ( head ) - > nr_frags ; i + + )
plen + = skb_shinfo ( head ) - > frags [ i ] . size ;
clone - > len = clone - > data_len = head - > data_len - plen ;
head - > data_len - = clone - > len ;
head - > len - = clone - > len ;
clone - > csum = 0 ;
clone - > ip_summed = head - > ip_summed ;
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atomic_add ( clone - > truesize , & ip4_frags . mem ) ;
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}
skb_shinfo ( head ) - > frag_list = head - > next ;
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skb_push ( head , head - > data - skb_network_header ( head ) ) ;
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atomic_sub ( head - > truesize , & ip4_frags . mem ) ;
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for ( fp = head - > next ; fp ; fp = fp - > next ) {
head - > data_len + = fp - > len ;
head - > len + = fp - > len ;
if ( head - > ip_summed ! = fp - > ip_summed )
head - > ip_summed = CHECKSUM_NONE ;
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else if ( head - > ip_summed = = CHECKSUM_COMPLETE )
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head - > csum = csum_add ( head - > csum , fp - > csum ) ;
head - > truesize + = fp - > truesize ;
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atomic_sub ( fp - > truesize , & ip4_frags . mem ) ;
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}
head - > next = NULL ;
head - > dev = dev ;
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head - > tstamp = qp - > q . stamp ;
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iph = ip_hdr ( head ) ;
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iph - > frag_off = 0 ;
iph - > tot_len = htons ( len ) ;
IP_INC_STATS_BH ( IPSTATS_MIB_REASMOKS ) ;
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qp - > q . fragments = NULL ;
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return 0 ;
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out_nomem :
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LIMIT_NETDEBUG ( KERN_ERR " IP: queue_glue: no memory for gluing "
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" queue %p \n " , qp ) ;
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err = - ENOMEM ;
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goto out_fail ;
out_oversize :
if ( net_ratelimit ( ) )
printk ( KERN_INFO
" Oversized IP packet from %d.%d.%d.%d. \n " ,
NIPQUAD ( qp - > saddr ) ) ;
out_fail :
IP_INC_STATS_BH ( IPSTATS_MIB_REASMFAILS ) ;
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return err ;
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}
/* Process an incoming IP datagram fragment. */
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int ip_defrag ( struct sk_buff * skb , u32 user )
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{
struct ipq * qp ;
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IP_INC_STATS_BH ( IPSTATS_MIB_REASMREQDS ) ;
/* Start by cleaning up the memory. */
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if ( atomic_read ( & ip4_frags . mem ) > ip4_frags_ctl . high_thresh )
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ip_evictor ( ) ;
/* Lookup (or create) queue header */
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if ( ( qp = ip_find ( ip_hdr ( skb ) , user ) ) ! = NULL ) {
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int ret ;
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spin_lock ( & qp - > q . lock ) ;
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ret = ip_frag_queue ( qp , skb ) ;
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spin_unlock ( & qp - > q . lock ) ;
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ipq_put ( qp ) ;
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return ret ;
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}
IP_INC_STATS_BH ( IPSTATS_MIB_REASMFAILS ) ;
kfree_skb ( skb ) ;
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return - ENOMEM ;
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}
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# ifdef CONFIG_SYSCTL
static int zero ;
static struct ctl_table ip4_frags_ctl_table [ ] = {
{
. ctl_name = NET_IPV4_IPFRAG_HIGH_THRESH ,
. procname = " ipfrag_high_thresh " ,
. data = & ip4_frags_ctl . high_thresh ,
. maxlen = sizeof ( int ) ,
. mode = 0644 ,
. proc_handler = & proc_dointvec
} ,
{
. ctl_name = NET_IPV4_IPFRAG_LOW_THRESH ,
. procname = " ipfrag_low_thresh " ,
. data = & ip4_frags_ctl . low_thresh ,
. maxlen = sizeof ( int ) ,
. mode = 0644 ,
. proc_handler = & proc_dointvec
} ,
{
. ctl_name = NET_IPV4_IPFRAG_TIME ,
. procname = " ipfrag_time " ,
. data = & ip4_frags_ctl . timeout ,
. maxlen = sizeof ( int ) ,
. mode = 0644 ,
. proc_handler = & proc_dointvec_jiffies ,
. strategy = & sysctl_jiffies
} ,
{
. ctl_name = NET_IPV4_IPFRAG_SECRET_INTERVAL ,
. procname = " ipfrag_secret_interval " ,
. data = & ip4_frags_ctl . secret_interval ,
. maxlen = sizeof ( int ) ,
. mode = 0644 ,
. proc_handler = & proc_dointvec_jiffies ,
. strategy = & sysctl_jiffies
} ,
{
. procname = " ipfrag_max_dist " ,
. data = & sysctl_ipfrag_max_dist ,
. maxlen = sizeof ( int ) ,
. mode = 0644 ,
. proc_handler = & proc_dointvec_minmax ,
. extra1 = & zero
} ,
{ }
} ;
static int ip4_frags_ctl_register ( struct net * net )
{
struct ctl_table_header * hdr ;
hdr = register_net_sysctl_table ( net , net_ipv4_ctl_path ,
ip4_frags_ctl_table ) ;
return hdr = = NULL ? - ENOMEM : 0 ;
}
# else
static inline int ip4_frags_ctl_register ( struct net * net )
{
return 0 ;
}
# endif
static int ipv4_frags_init_net ( struct net * net )
{
return ip4_frags_ctl_register ( net ) ;
}
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void __init ipfrag_init ( void )
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{
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ipv4_frags_init_net ( & init_net ) ;
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ip4_frags . ctl = & ip4_frags_ctl ;
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ip4_frags . hashfn = ip4_hashfn ;
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ip4_frags . constructor = ip4_frag_init ;
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ip4_frags . destructor = ip4_frag_free ;
ip4_frags . skb_free = NULL ;
ip4_frags . qsize = sizeof ( struct ipq ) ;
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ip4_frags . match = ip4_frag_match ;
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ip4_frags . frag_expire = ip_expire ;
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inet_frags_init ( & ip4_frags ) ;
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}
EXPORT_SYMBOL ( ip_defrag ) ;