2 * NETLINK Kernel-user communication protocol.
4 * Authors: Alan Cox <alan@lxorguk.ukuu.org.uk>
5 * Alexey Kuznetsov <kuznet@ms2.inr.ac.ru>
6 * Patrick McHardy <kaber@trash.net>
8 * This program is free software; you can redistribute it and/or
9 * modify it under the terms of the GNU General Public License
10 * as published by the Free Software Foundation; either version
11 * 2 of the License, or (at your option) any later version.
13 * Tue Jun 26 14:36:48 MEST 2001 Herbert "herp" Rosmanith
14 * added netlink_proto_exit
15 * Tue Jan 22 18:32:44 BRST 2002 Arnaldo C. de Melo <acme@conectiva.com.br>
16 * use nlk_sk, as sk->protinfo is on a diet 8)
17 * Fri Jul 22 19:51:12 MEST 2005 Harald Welte <laforge@gnumonks.org>
18 * - inc module use count of module that owns
19 * the kernel socket in case userspace opens
20 * socket of same protocol
21 * - remove all module support, since netlink is
22 * mandatory if CONFIG_NET=y these days
25 #include <linux/module.h>
27 #include <linux/capability.h>
28 #include <linux/kernel.h>
29 #include <linux/init.h>
30 #include <linux/signal.h>
31 #include <linux/sched.h>
32 #include <linux/errno.h>
33 #include <linux/string.h>
34 #include <linux/stat.h>
35 #include <linux/socket.h>
37 #include <linux/fcntl.h>
38 #include <linux/termios.h>
39 #include <linux/sockios.h>
40 #include <linux/net.h>
42 #include <linux/slab.h>
43 #include <asm/uaccess.h>
44 #include <linux/skbuff.h>
45 #include <linux/netdevice.h>
46 #include <linux/rtnetlink.h>
47 #include <linux/proc_fs.h>
48 #include <linux/seq_file.h>
49 #include <linux/notifier.h>
50 #include <linux/security.h>
51 #include <linux/jhash.h>
52 #include <linux/jiffies.h>
53 #include <linux/random.h>
54 #include <linux/bitops.h>
56 #include <linux/types.h>
57 #include <linux/audit.h>
58 #include <linux/mutex.h>
59 #include <linux/vmalloc.h>
60 #include <linux/if_arp.h>
61 #include <linux/rhashtable.h>
62 #include <asm/cacheflush.h>
63 #include <linux/hash.h>
64 #include <linux/genetlink.h>
66 #include <net/net_namespace.h>
69 #include <net/netlink.h>
71 #include "af_netlink.h"
75 unsigned long masks
[0];
79 #define NETLINK_S_CONGESTED 0x0
82 #define NETLINK_F_KERNEL_SOCKET 0x1
83 #define NETLINK_F_RECV_PKTINFO 0x2
84 #define NETLINK_F_BROADCAST_SEND_ERROR 0x4
85 #define NETLINK_F_RECV_NO_ENOBUFS 0x8
86 #define NETLINK_F_LISTEN_ALL_NSID 0x10
87 #define NETLINK_F_CAP_ACK 0x20
89 static inline int netlink_is_kernel(struct sock
*sk
)
91 return nlk_sk(sk
)->flags
& NETLINK_F_KERNEL_SOCKET
;
94 struct netlink_table
*nl_table __read_mostly
;
95 EXPORT_SYMBOL_GPL(nl_table
);
97 static DECLARE_WAIT_QUEUE_HEAD(nl_table_wait
);
99 static int netlink_dump(struct sock
*sk
);
100 static void netlink_skb_destructor(struct sk_buff
*skb
);
102 /* nl_table locking explained:
103 * Lookup and traversal are protected with an RCU read-side lock. Insertion
104 * and removal are protected with per bucket lock while using RCU list
105 * modification primitives and may run in parallel to RCU protected lookups.
106 * Destruction of the Netlink socket may only occur *after* nl_table_lock has
107 * been acquired * either during or after the socket has been removed from
108 * the list and after an RCU grace period.
110 DEFINE_RWLOCK(nl_table_lock
);
111 EXPORT_SYMBOL_GPL(nl_table_lock
);
112 static atomic_t nl_table_users
= ATOMIC_INIT(0);
114 #define nl_deref_protected(X) rcu_dereference_protected(X, lockdep_is_held(&nl_table_lock));
116 static ATOMIC_NOTIFIER_HEAD(netlink_chain
);
118 static DEFINE_SPINLOCK(netlink_tap_lock
);
119 static struct list_head netlink_tap_all __read_mostly
;
121 static const struct rhashtable_params netlink_rhashtable_params
;
123 static inline u32
netlink_group_mask(u32 group
)
125 return group
? 1 << (group
- 1) : 0;
128 static struct sk_buff
*netlink_to_full_skb(const struct sk_buff
*skb
,
131 unsigned int len
= skb_end_offset(skb
);
134 new = alloc_skb(len
, gfp_mask
);
138 NETLINK_CB(new).portid
= NETLINK_CB(skb
).portid
;
139 NETLINK_CB(new).dst_group
= NETLINK_CB(skb
).dst_group
;
140 NETLINK_CB(new).creds
= NETLINK_CB(skb
).creds
;
142 memcpy(skb_put(new, len
), skb
->data
, len
);
146 int netlink_add_tap(struct netlink_tap
*nt
)
148 if (unlikely(nt
->dev
->type
!= ARPHRD_NETLINK
))
151 spin_lock(&netlink_tap_lock
);
152 list_add_rcu(&nt
->list
, &netlink_tap_all
);
153 spin_unlock(&netlink_tap_lock
);
155 __module_get(nt
->module
);
159 EXPORT_SYMBOL_GPL(netlink_add_tap
);
161 static int __netlink_remove_tap(struct netlink_tap
*nt
)
164 struct netlink_tap
*tmp
;
166 spin_lock(&netlink_tap_lock
);
168 list_for_each_entry(tmp
, &netlink_tap_all
, list
) {
170 list_del_rcu(&nt
->list
);
176 pr_warn("__netlink_remove_tap: %p not found\n", nt
);
178 spin_unlock(&netlink_tap_lock
);
181 module_put(nt
->module
);
183 return found
? 0 : -ENODEV
;
186 int netlink_remove_tap(struct netlink_tap
*nt
)
190 ret
= __netlink_remove_tap(nt
);
195 EXPORT_SYMBOL_GPL(netlink_remove_tap
);
197 static bool netlink_filter_tap(const struct sk_buff
*skb
)
199 struct sock
*sk
= skb
->sk
;
201 /* We take the more conservative approach and
202 * whitelist socket protocols that may pass.
204 switch (sk
->sk_protocol
) {
206 case NETLINK_USERSOCK
:
207 case NETLINK_SOCK_DIAG
:
210 case NETLINK_FIB_LOOKUP
:
211 case NETLINK_NETFILTER
:
212 case NETLINK_GENERIC
:
219 static int __netlink_deliver_tap_skb(struct sk_buff
*skb
,
220 struct net_device
*dev
)
222 struct sk_buff
*nskb
;
223 struct sock
*sk
= skb
->sk
;
228 if (netlink_skb_is_mmaped(skb
) || is_vmalloc_addr(skb
->head
))
229 nskb
= netlink_to_full_skb(skb
, GFP_ATOMIC
);
231 nskb
= skb_clone(skb
, GFP_ATOMIC
);
234 nskb
->protocol
= htons((u16
) sk
->sk_protocol
);
235 nskb
->pkt_type
= netlink_is_kernel(sk
) ?
236 PACKET_KERNEL
: PACKET_USER
;
237 skb_reset_network_header(nskb
);
238 ret
= dev_queue_xmit(nskb
);
239 if (unlikely(ret
> 0))
240 ret
= net_xmit_errno(ret
);
247 static void __netlink_deliver_tap(struct sk_buff
*skb
)
250 struct netlink_tap
*tmp
;
252 if (!netlink_filter_tap(skb
))
255 list_for_each_entry_rcu(tmp
, &netlink_tap_all
, list
) {
256 ret
= __netlink_deliver_tap_skb(skb
, tmp
->dev
);
262 static void netlink_deliver_tap(struct sk_buff
*skb
)
266 if (unlikely(!list_empty(&netlink_tap_all
)))
267 __netlink_deliver_tap(skb
);
272 static void netlink_deliver_tap_kernel(struct sock
*dst
, struct sock
*src
,
275 if (!(netlink_is_kernel(dst
) && netlink_is_kernel(src
)))
276 netlink_deliver_tap(skb
);
279 static void netlink_overrun(struct sock
*sk
)
281 struct netlink_sock
*nlk
= nlk_sk(sk
);
283 if (!(nlk
->flags
& NETLINK_F_RECV_NO_ENOBUFS
)) {
284 if (!test_and_set_bit(NETLINK_S_CONGESTED
,
285 &nlk_sk(sk
)->state
)) {
286 sk
->sk_err
= ENOBUFS
;
287 sk
->sk_error_report(sk
);
290 atomic_inc(&sk
->sk_drops
);
293 static void netlink_rcv_wake(struct sock
*sk
)
295 struct netlink_sock
*nlk
= nlk_sk(sk
);
297 if (skb_queue_empty(&sk
->sk_receive_queue
))
298 clear_bit(NETLINK_S_CONGESTED
, &nlk
->state
);
299 if (!test_bit(NETLINK_S_CONGESTED
, &nlk
->state
))
300 wake_up_interruptible(&nlk
->wait
);
303 #ifdef CONFIG_NETLINK_MMAP
304 static bool netlink_rx_is_mmaped(struct sock
*sk
)
306 return nlk_sk(sk
)->rx_ring
.pg_vec
!= NULL
;
309 static bool netlink_tx_is_mmaped(struct sock
*sk
)
311 return nlk_sk(sk
)->tx_ring
.pg_vec
!= NULL
;
314 static __pure
struct page
*pgvec_to_page(const void *addr
)
316 if (is_vmalloc_addr(addr
))
317 return vmalloc_to_page(addr
);
319 return virt_to_page(addr
);
322 static void free_pg_vec(void **pg_vec
, unsigned int order
, unsigned int len
)
326 for (i
= 0; i
< len
; i
++) {
327 if (pg_vec
[i
] != NULL
) {
328 if (is_vmalloc_addr(pg_vec
[i
]))
331 free_pages((unsigned long)pg_vec
[i
], order
);
337 static void *alloc_one_pg_vec_page(unsigned long order
)
340 gfp_t gfp_flags
= GFP_KERNEL
| __GFP_COMP
| __GFP_ZERO
|
341 __GFP_NOWARN
| __GFP_NORETRY
;
343 buffer
= (void *)__get_free_pages(gfp_flags
, order
);
347 buffer
= vzalloc((1 << order
) * PAGE_SIZE
);
351 gfp_flags
&= ~__GFP_NORETRY
;
352 return (void *)__get_free_pages(gfp_flags
, order
);
355 static void **alloc_pg_vec(struct netlink_sock
*nlk
,
356 struct nl_mmap_req
*req
, unsigned int order
)
358 unsigned int block_nr
= req
->nm_block_nr
;
362 pg_vec
= kcalloc(block_nr
, sizeof(void *), GFP_KERNEL
);
366 for (i
= 0; i
< block_nr
; i
++) {
367 pg_vec
[i
] = alloc_one_pg_vec_page(order
);
368 if (pg_vec
[i
] == NULL
)
374 free_pg_vec(pg_vec
, order
, block_nr
);
380 __netlink_set_ring(struct sock
*sk
, struct nl_mmap_req
*req
, bool tx_ring
, void **pg_vec
,
383 struct netlink_sock
*nlk
= nlk_sk(sk
);
384 struct sk_buff_head
*queue
;
385 struct netlink_ring
*ring
;
387 queue
= tx_ring
? &sk
->sk_write_queue
: &sk
->sk_receive_queue
;
388 ring
= tx_ring
? &nlk
->tx_ring
: &nlk
->rx_ring
;
390 spin_lock_bh(&queue
->lock
);
392 ring
->frame_max
= req
->nm_frame_nr
- 1;
394 ring
->frame_size
= req
->nm_frame_size
;
395 ring
->pg_vec_pages
= req
->nm_block_size
/ PAGE_SIZE
;
397 swap(ring
->pg_vec_len
, req
->nm_block_nr
);
398 swap(ring
->pg_vec_order
, order
);
399 swap(ring
->pg_vec
, pg_vec
);
401 __skb_queue_purge(queue
);
402 spin_unlock_bh(&queue
->lock
);
404 WARN_ON(atomic_read(&nlk
->mapped
));
407 free_pg_vec(pg_vec
, order
, req
->nm_block_nr
);
410 static int netlink_set_ring(struct sock
*sk
, struct nl_mmap_req
*req
,
413 struct netlink_sock
*nlk
= nlk_sk(sk
);
414 struct netlink_ring
*ring
;
415 void **pg_vec
= NULL
;
416 unsigned int order
= 0;
418 ring
= tx_ring
? &nlk
->tx_ring
: &nlk
->rx_ring
;
420 if (atomic_read(&nlk
->mapped
))
422 if (atomic_read(&ring
->pending
))
425 if (req
->nm_block_nr
) {
426 if (ring
->pg_vec
!= NULL
)
429 if ((int)req
->nm_block_size
<= 0)
431 if (!PAGE_ALIGNED(req
->nm_block_size
))
433 if (req
->nm_frame_size
< NL_MMAP_HDRLEN
)
435 if (!IS_ALIGNED(req
->nm_frame_size
, NL_MMAP_MSG_ALIGNMENT
))
438 ring
->frames_per_block
= req
->nm_block_size
/
440 if (ring
->frames_per_block
== 0)
442 if (ring
->frames_per_block
* req
->nm_block_nr
!=
446 order
= get_order(req
->nm_block_size
);
447 pg_vec
= alloc_pg_vec(nlk
, req
, order
);
451 if (req
->nm_frame_nr
)
455 mutex_lock(&nlk
->pg_vec_lock
);
456 if (atomic_read(&nlk
->mapped
) == 0) {
457 __netlink_set_ring(sk
, req
, tx_ring
, pg_vec
, order
);
458 mutex_unlock(&nlk
->pg_vec_lock
);
462 mutex_unlock(&nlk
->pg_vec_lock
);
465 free_pg_vec(pg_vec
, order
, req
->nm_block_nr
);
470 static void netlink_mm_open(struct vm_area_struct
*vma
)
472 struct file
*file
= vma
->vm_file
;
473 struct socket
*sock
= file
->private_data
;
474 struct sock
*sk
= sock
->sk
;
477 atomic_inc(&nlk_sk(sk
)->mapped
);
480 static void netlink_mm_close(struct vm_area_struct
*vma
)
482 struct file
*file
= vma
->vm_file
;
483 struct socket
*sock
= file
->private_data
;
484 struct sock
*sk
= sock
->sk
;
487 atomic_dec(&nlk_sk(sk
)->mapped
);
490 static const struct vm_operations_struct netlink_mmap_ops
= {
491 .open
= netlink_mm_open
,
492 .close
= netlink_mm_close
,
495 static int netlink_mmap(struct file
*file
, struct socket
*sock
,
496 struct vm_area_struct
*vma
)
498 struct sock
*sk
= sock
->sk
;
499 struct netlink_sock
*nlk
= nlk_sk(sk
);
500 struct netlink_ring
*ring
;
501 unsigned long start
, size
, expected
;
508 mutex_lock(&nlk
->pg_vec_lock
);
511 for (ring
= &nlk
->rx_ring
; ring
<= &nlk
->tx_ring
; ring
++) {
512 if (ring
->pg_vec
== NULL
)
514 expected
+= ring
->pg_vec_len
* ring
->pg_vec_pages
* PAGE_SIZE
;
520 size
= vma
->vm_end
- vma
->vm_start
;
521 if (size
!= expected
)
524 start
= vma
->vm_start
;
525 for (ring
= &nlk
->rx_ring
; ring
<= &nlk
->tx_ring
; ring
++) {
526 if (ring
->pg_vec
== NULL
)
529 for (i
= 0; i
< ring
->pg_vec_len
; i
++) {
531 void *kaddr
= ring
->pg_vec
[i
];
534 for (pg_num
= 0; pg_num
< ring
->pg_vec_pages
; pg_num
++) {
535 page
= pgvec_to_page(kaddr
);
536 err
= vm_insert_page(vma
, start
, page
);
545 atomic_inc(&nlk
->mapped
);
546 vma
->vm_ops
= &netlink_mmap_ops
;
549 mutex_unlock(&nlk
->pg_vec_lock
);
553 static void netlink_frame_flush_dcache(const struct nl_mmap_hdr
*hdr
, unsigned int nm_len
)
555 #if ARCH_IMPLEMENTS_FLUSH_DCACHE_PAGE == 1
556 struct page
*p_start
, *p_end
;
558 /* First page is flushed through netlink_{get,set}_status */
559 p_start
= pgvec_to_page(hdr
+ PAGE_SIZE
);
560 p_end
= pgvec_to_page((void *)hdr
+ NL_MMAP_HDRLEN
+ nm_len
- 1);
561 while (p_start
<= p_end
) {
562 flush_dcache_page(p_start
);
568 static enum nl_mmap_status
netlink_get_status(const struct nl_mmap_hdr
*hdr
)
571 flush_dcache_page(pgvec_to_page(hdr
));
572 return hdr
->nm_status
;
575 static void netlink_set_status(struct nl_mmap_hdr
*hdr
,
576 enum nl_mmap_status status
)
579 hdr
->nm_status
= status
;
580 flush_dcache_page(pgvec_to_page(hdr
));
583 static struct nl_mmap_hdr
*
584 __netlink_lookup_frame(const struct netlink_ring
*ring
, unsigned int pos
)
586 unsigned int pg_vec_pos
, frame_off
;
588 pg_vec_pos
= pos
/ ring
->frames_per_block
;
589 frame_off
= pos
% ring
->frames_per_block
;
591 return ring
->pg_vec
[pg_vec_pos
] + (frame_off
* ring
->frame_size
);
594 static struct nl_mmap_hdr
*
595 netlink_lookup_frame(const struct netlink_ring
*ring
, unsigned int pos
,
596 enum nl_mmap_status status
)
598 struct nl_mmap_hdr
*hdr
;
600 hdr
= __netlink_lookup_frame(ring
, pos
);
601 if (netlink_get_status(hdr
) != status
)
607 static struct nl_mmap_hdr
*
608 netlink_current_frame(const struct netlink_ring
*ring
,
609 enum nl_mmap_status status
)
611 return netlink_lookup_frame(ring
, ring
->head
, status
);
614 static void netlink_increment_head(struct netlink_ring
*ring
)
616 ring
->head
= ring
->head
!= ring
->frame_max
? ring
->head
+ 1 : 0;
619 static void netlink_forward_ring(struct netlink_ring
*ring
)
621 unsigned int head
= ring
->head
;
622 const struct nl_mmap_hdr
*hdr
;
625 hdr
= __netlink_lookup_frame(ring
, ring
->head
);
626 if (hdr
->nm_status
== NL_MMAP_STATUS_UNUSED
)
628 if (hdr
->nm_status
!= NL_MMAP_STATUS_SKIP
)
630 netlink_increment_head(ring
);
631 } while (ring
->head
!= head
);
634 static bool netlink_has_valid_frame(struct netlink_ring
*ring
)
636 unsigned int head
= ring
->head
, pos
= head
;
637 const struct nl_mmap_hdr
*hdr
;
640 hdr
= __netlink_lookup_frame(ring
, pos
);
641 if (hdr
->nm_status
== NL_MMAP_STATUS_VALID
)
643 pos
= pos
!= 0 ? pos
- 1 : ring
->frame_max
;
644 } while (pos
!= head
);
649 static bool netlink_dump_space(struct netlink_sock
*nlk
)
651 struct netlink_ring
*ring
= &nlk
->rx_ring
;
652 struct nl_mmap_hdr
*hdr
;
655 hdr
= netlink_current_frame(ring
, NL_MMAP_STATUS_UNUSED
);
659 n
= ring
->head
+ ring
->frame_max
/ 2;
660 if (n
> ring
->frame_max
)
661 n
-= ring
->frame_max
;
663 hdr
= __netlink_lookup_frame(ring
, n
);
665 return hdr
->nm_status
== NL_MMAP_STATUS_UNUSED
;
668 static unsigned int netlink_poll(struct file
*file
, struct socket
*sock
,
671 struct sock
*sk
= sock
->sk
;
672 struct netlink_sock
*nlk
= nlk_sk(sk
);
676 if (nlk
->rx_ring
.pg_vec
!= NULL
) {
677 /* Memory mapped sockets don't call recvmsg(), so flow control
678 * for dumps is performed here. A dump is allowed to continue
679 * if at least half the ring is unused.
681 while (nlk
->cb_running
&& netlink_dump_space(nlk
)) {
682 err
= netlink_dump(sk
);
685 sk
->sk_error_report(sk
);
689 netlink_rcv_wake(sk
);
692 mask
= datagram_poll(file
, sock
, wait
);
694 /* We could already have received frames in the normal receive
695 * queue, that will show up as NL_MMAP_STATUS_COPY in the ring,
696 * so if mask contains pollin/etc already, there's no point
699 if ((mask
& (POLLIN
| POLLRDNORM
)) != (POLLIN
| POLLRDNORM
)) {
700 spin_lock_bh(&sk
->sk_receive_queue
.lock
);
701 if (nlk
->rx_ring
.pg_vec
) {
702 if (netlink_has_valid_frame(&nlk
->rx_ring
))
703 mask
|= POLLIN
| POLLRDNORM
;
705 spin_unlock_bh(&sk
->sk_receive_queue
.lock
);
708 spin_lock_bh(&sk
->sk_write_queue
.lock
);
709 if (nlk
->tx_ring
.pg_vec
) {
710 if (netlink_current_frame(&nlk
->tx_ring
, NL_MMAP_STATUS_UNUSED
))
711 mask
|= POLLOUT
| POLLWRNORM
;
713 spin_unlock_bh(&sk
->sk_write_queue
.lock
);
718 static struct nl_mmap_hdr
*netlink_mmap_hdr(struct sk_buff
*skb
)
720 return (struct nl_mmap_hdr
*)(skb
->head
- NL_MMAP_HDRLEN
);
723 static void netlink_ring_setup_skb(struct sk_buff
*skb
, struct sock
*sk
,
724 struct netlink_ring
*ring
,
725 struct nl_mmap_hdr
*hdr
)
730 size
= ring
->frame_size
- NL_MMAP_HDRLEN
;
731 data
= (void *)hdr
+ NL_MMAP_HDRLEN
;
735 skb_reset_tail_pointer(skb
);
736 skb
->end
= skb
->tail
+ size
;
739 skb
->destructor
= netlink_skb_destructor
;
740 NETLINK_CB(skb
).flags
|= NETLINK_SKB_MMAPED
;
741 NETLINK_CB(skb
).sk
= sk
;
744 static int netlink_mmap_sendmsg(struct sock
*sk
, struct msghdr
*msg
,
745 u32 dst_portid
, u32 dst_group
,
746 struct scm_cookie
*scm
)
748 struct netlink_sock
*nlk
= nlk_sk(sk
);
749 struct netlink_ring
*ring
;
750 struct nl_mmap_hdr
*hdr
;
753 int err
= 0, len
= 0;
755 mutex_lock(&nlk
->pg_vec_lock
);
757 ring
= &nlk
->tx_ring
;
758 maxlen
= ring
->frame_size
- NL_MMAP_HDRLEN
;
763 hdr
= netlink_current_frame(ring
, NL_MMAP_STATUS_VALID
);
765 if (!(msg
->msg_flags
& MSG_DONTWAIT
) &&
766 atomic_read(&nlk
->tx_ring
.pending
))
771 nm_len
= ACCESS_ONCE(hdr
->nm_len
);
772 if (nm_len
> maxlen
) {
777 netlink_frame_flush_dcache(hdr
, nm_len
);
779 skb
= alloc_skb(nm_len
, GFP_KERNEL
);
784 __skb_put(skb
, nm_len
);
785 memcpy(skb
->data
, (void *)hdr
+ NL_MMAP_HDRLEN
, nm_len
);
786 netlink_set_status(hdr
, NL_MMAP_STATUS_UNUSED
);
788 netlink_increment_head(ring
);
790 NETLINK_CB(skb
).portid
= nlk
->portid
;
791 NETLINK_CB(skb
).dst_group
= dst_group
;
792 NETLINK_CB(skb
).creds
= scm
->creds
;
794 err
= security_netlink_send(sk
, skb
);
800 if (unlikely(dst_group
)) {
801 atomic_inc(&skb
->users
);
802 netlink_broadcast(sk
, skb
, dst_portid
, dst_group
,
805 err
= netlink_unicast(sk
, skb
, dst_portid
,
806 msg
->msg_flags
& MSG_DONTWAIT
);
811 } while (hdr
!= NULL
||
812 (!(msg
->msg_flags
& MSG_DONTWAIT
) &&
813 atomic_read(&nlk
->tx_ring
.pending
)));
818 mutex_unlock(&nlk
->pg_vec_lock
);
822 static void netlink_queue_mmaped_skb(struct sock
*sk
, struct sk_buff
*skb
)
824 struct nl_mmap_hdr
*hdr
;
826 hdr
= netlink_mmap_hdr(skb
);
827 hdr
->nm_len
= skb
->len
;
828 hdr
->nm_group
= NETLINK_CB(skb
).dst_group
;
829 hdr
->nm_pid
= NETLINK_CB(skb
).creds
.pid
;
830 hdr
->nm_uid
= from_kuid(sk_user_ns(sk
), NETLINK_CB(skb
).creds
.uid
);
831 hdr
->nm_gid
= from_kgid(sk_user_ns(sk
), NETLINK_CB(skb
).creds
.gid
);
832 netlink_frame_flush_dcache(hdr
, hdr
->nm_len
);
833 netlink_set_status(hdr
, NL_MMAP_STATUS_VALID
);
835 NETLINK_CB(skb
).flags
|= NETLINK_SKB_DELIVERED
;
839 static void netlink_ring_set_copied(struct sock
*sk
, struct sk_buff
*skb
)
841 struct netlink_sock
*nlk
= nlk_sk(sk
);
842 struct netlink_ring
*ring
= &nlk
->rx_ring
;
843 struct nl_mmap_hdr
*hdr
;
845 spin_lock_bh(&sk
->sk_receive_queue
.lock
);
846 hdr
= netlink_current_frame(ring
, NL_MMAP_STATUS_UNUSED
);
848 spin_unlock_bh(&sk
->sk_receive_queue
.lock
);
853 netlink_increment_head(ring
);
854 __skb_queue_tail(&sk
->sk_receive_queue
, skb
);
855 spin_unlock_bh(&sk
->sk_receive_queue
.lock
);
857 hdr
->nm_len
= skb
->len
;
858 hdr
->nm_group
= NETLINK_CB(skb
).dst_group
;
859 hdr
->nm_pid
= NETLINK_CB(skb
).creds
.pid
;
860 hdr
->nm_uid
= from_kuid(sk_user_ns(sk
), NETLINK_CB(skb
).creds
.uid
);
861 hdr
->nm_gid
= from_kgid(sk_user_ns(sk
), NETLINK_CB(skb
).creds
.gid
);
862 netlink_set_status(hdr
, NL_MMAP_STATUS_COPY
);
865 #else /* CONFIG_NETLINK_MMAP */
866 #define netlink_rx_is_mmaped(sk) false
867 #define netlink_tx_is_mmaped(sk) false
868 #define netlink_mmap sock_no_mmap
869 #define netlink_poll datagram_poll
870 #define netlink_mmap_sendmsg(sk, msg, dst_portid, dst_group, scm) 0
871 #endif /* CONFIG_NETLINK_MMAP */
873 static void netlink_skb_destructor(struct sk_buff
*skb
)
875 #ifdef CONFIG_NETLINK_MMAP
876 struct nl_mmap_hdr
*hdr
;
877 struct netlink_ring
*ring
;
880 /* If a packet from the kernel to userspace was freed because of an
881 * error without being delivered to userspace, the kernel must reset
882 * the status. In the direction userspace to kernel, the status is
883 * always reset here after the packet was processed and freed.
885 if (netlink_skb_is_mmaped(skb
)) {
886 hdr
= netlink_mmap_hdr(skb
);
887 sk
= NETLINK_CB(skb
).sk
;
889 if (NETLINK_CB(skb
).flags
& NETLINK_SKB_TX
) {
890 netlink_set_status(hdr
, NL_MMAP_STATUS_UNUSED
);
891 ring
= &nlk_sk(sk
)->tx_ring
;
893 if (!(NETLINK_CB(skb
).flags
& NETLINK_SKB_DELIVERED
)) {
895 netlink_set_status(hdr
, NL_MMAP_STATUS_VALID
);
897 ring
= &nlk_sk(sk
)->rx_ring
;
900 WARN_ON(atomic_read(&ring
->pending
) == 0);
901 atomic_dec(&ring
->pending
);
907 if (is_vmalloc_addr(skb
->head
)) {
909 !atomic_dec_return(&(skb_shinfo(skb
)->dataref
)))
918 static void netlink_skb_set_owner_r(struct sk_buff
*skb
, struct sock
*sk
)
920 WARN_ON(skb
->sk
!= NULL
);
922 skb
->destructor
= netlink_skb_destructor
;
923 atomic_add(skb
->truesize
, &sk
->sk_rmem_alloc
);
924 sk_mem_charge(sk
, skb
->truesize
);
927 static void netlink_sock_destruct(struct sock
*sk
)
929 struct netlink_sock
*nlk
= nlk_sk(sk
);
931 if (nlk
->cb_running
) {
933 nlk
->cb
.done(&nlk
->cb
);
935 module_put(nlk
->cb
.module
);
936 kfree_skb(nlk
->cb
.skb
);
939 skb_queue_purge(&sk
->sk_receive_queue
);
940 #ifdef CONFIG_NETLINK_MMAP
942 struct nl_mmap_req req
;
944 memset(&req
, 0, sizeof(req
));
945 if (nlk
->rx_ring
.pg_vec
)
946 __netlink_set_ring(sk
, &req
, false, NULL
, 0);
947 memset(&req
, 0, sizeof(req
));
948 if (nlk
->tx_ring
.pg_vec
)
949 __netlink_set_ring(sk
, &req
, true, NULL
, 0);
951 #endif /* CONFIG_NETLINK_MMAP */
953 if (!sock_flag(sk
, SOCK_DEAD
)) {
954 printk(KERN_ERR
"Freeing alive netlink socket %p\n", sk
);
958 WARN_ON(atomic_read(&sk
->sk_rmem_alloc
));
959 WARN_ON(atomic_read(&sk
->sk_wmem_alloc
));
960 WARN_ON(nlk_sk(sk
)->groups
);
963 /* This lock without WQ_FLAG_EXCLUSIVE is good on UP and it is _very_ bad on
964 * SMP. Look, when several writers sleep and reader wakes them up, all but one
965 * immediately hit write lock and grab all the cpus. Exclusive sleep solves
966 * this, _but_ remember, it adds useless work on UP machines.
969 void netlink_table_grab(void)
970 __acquires(nl_table_lock
)
974 write_lock_irq(&nl_table_lock
);
976 if (atomic_read(&nl_table_users
)) {
977 DECLARE_WAITQUEUE(wait
, current
);
979 add_wait_queue_exclusive(&nl_table_wait
, &wait
);
981 set_current_state(TASK_UNINTERRUPTIBLE
);
982 if (atomic_read(&nl_table_users
) == 0)
984 write_unlock_irq(&nl_table_lock
);
986 write_lock_irq(&nl_table_lock
);
989 __set_current_state(TASK_RUNNING
);
990 remove_wait_queue(&nl_table_wait
, &wait
);
994 void netlink_table_ungrab(void)
995 __releases(nl_table_lock
)
997 write_unlock_irq(&nl_table_lock
);
998 wake_up(&nl_table_wait
);
1002 netlink_lock_table(void)
1004 /* read_lock() synchronizes us to netlink_table_grab */
1006 read_lock(&nl_table_lock
);
1007 atomic_inc(&nl_table_users
);
1008 read_unlock(&nl_table_lock
);
1012 netlink_unlock_table(void)
1014 if (atomic_dec_and_test(&nl_table_users
))
1015 wake_up(&nl_table_wait
);
1018 struct netlink_compare_arg
1020 possible_net_t pnet
;
1024 /* Doing sizeof directly may yield 4 extra bytes on 64-bit. */
1025 #define netlink_compare_arg_len \
1026 (offsetof(struct netlink_compare_arg, portid) + sizeof(u32))
1028 static inline int netlink_compare(struct rhashtable_compare_arg
*arg
,
1031 const struct netlink_compare_arg
*x
= arg
->key
;
1032 const struct netlink_sock
*nlk
= ptr
;
1034 return nlk
->portid
!= x
->portid
||
1035 !net_eq(sock_net(&nlk
->sk
), read_pnet(&x
->pnet
));
1038 static void netlink_compare_arg_init(struct netlink_compare_arg
*arg
,
1039 struct net
*net
, u32 portid
)
1041 memset(arg
, 0, sizeof(*arg
));
1042 write_pnet(&arg
->pnet
, net
);
1043 arg
->portid
= portid
;
1046 static struct sock
*__netlink_lookup(struct netlink_table
*table
, u32 portid
,
1049 struct netlink_compare_arg arg
;
1051 netlink_compare_arg_init(&arg
, net
, portid
);
1052 return rhashtable_lookup_fast(&table
->hash
, &arg
,
1053 netlink_rhashtable_params
);
1056 static int __netlink_insert(struct netlink_table
*table
, struct sock
*sk
)
1058 struct netlink_compare_arg arg
;
1060 netlink_compare_arg_init(&arg
, sock_net(sk
), nlk_sk(sk
)->portid
);
1061 return rhashtable_lookup_insert_key(&table
->hash
, &arg
,
1063 netlink_rhashtable_params
);
1066 static struct sock
*netlink_lookup(struct net
*net
, int protocol
, u32 portid
)
1068 struct netlink_table
*table
= &nl_table
[protocol
];
1072 sk
= __netlink_lookup(table
, portid
, net
);
1080 static const struct proto_ops netlink_ops
;
1083 netlink_update_listeners(struct sock
*sk
)
1085 struct netlink_table
*tbl
= &nl_table
[sk
->sk_protocol
];
1088 struct listeners
*listeners
;
1090 listeners
= nl_deref_protected(tbl
->listeners
);
1094 for (i
= 0; i
< NLGRPLONGS(tbl
->groups
); i
++) {
1096 sk_for_each_bound(sk
, &tbl
->mc_list
) {
1097 if (i
< NLGRPLONGS(nlk_sk(sk
)->ngroups
))
1098 mask
|= nlk_sk(sk
)->groups
[i
];
1100 listeners
->masks
[i
] = mask
;
1102 /* this function is only called with the netlink table "grabbed", which
1103 * makes sure updates are visible before bind or setsockopt return. */
1106 static int netlink_insert(struct sock
*sk
, u32 portid
)
1108 struct netlink_table
*table
= &nl_table
[sk
->sk_protocol
];
1113 err
= nlk_sk(sk
)->portid
== portid
? 0 : -EBUSY
;
1114 if (nlk_sk(sk
)->bound
)
1118 if (BITS_PER_LONG
> 32 &&
1119 unlikely(atomic_read(&table
->hash
.nelems
) >= UINT_MAX
))
1122 nlk_sk(sk
)->portid
= portid
;
1125 err
= __netlink_insert(table
, sk
);
1127 /* In case the hashtable backend returns with -EBUSY
1128 * from here, it must not escape to the caller.
1130 if (unlikely(err
== -EBUSY
))
1138 /* We need to ensure that the socket is hashed and visible. */
1140 nlk_sk(sk
)->bound
= portid
;
1147 static void netlink_remove(struct sock
*sk
)
1149 struct netlink_table
*table
;
1151 table
= &nl_table
[sk
->sk_protocol
];
1152 if (!rhashtable_remove_fast(&table
->hash
, &nlk_sk(sk
)->node
,
1153 netlink_rhashtable_params
)) {
1154 WARN_ON(atomic_read(&sk
->sk_refcnt
) == 1);
1158 netlink_table_grab();
1159 if (nlk_sk(sk
)->subscriptions
) {
1160 __sk_del_bind_node(sk
);
1161 netlink_update_listeners(sk
);
1163 if (sk
->sk_protocol
== NETLINK_GENERIC
)
1164 atomic_inc(&genl_sk_destructing_cnt
);
1165 netlink_table_ungrab();
1168 static struct proto netlink_proto
= {
1170 .owner
= THIS_MODULE
,
1171 .obj_size
= sizeof(struct netlink_sock
),
1174 static int __netlink_create(struct net
*net
, struct socket
*sock
,
1175 struct mutex
*cb_mutex
, int protocol
,
1179 struct netlink_sock
*nlk
;
1181 sock
->ops
= &netlink_ops
;
1183 sk
= sk_alloc(net
, PF_NETLINK
, GFP_KERNEL
, &netlink_proto
, kern
);
1187 sock_init_data(sock
, sk
);
1191 nlk
->cb_mutex
= cb_mutex
;
1193 nlk
->cb_mutex
= &nlk
->cb_def_mutex
;
1194 mutex_init(nlk
->cb_mutex
);
1196 init_waitqueue_head(&nlk
->wait
);
1197 #ifdef CONFIG_NETLINK_MMAP
1198 mutex_init(&nlk
->pg_vec_lock
);
1201 sk
->sk_destruct
= netlink_sock_destruct
;
1202 sk
->sk_protocol
= protocol
;
1206 static int netlink_create(struct net
*net
, struct socket
*sock
, int protocol
,
1209 struct module
*module
= NULL
;
1210 struct mutex
*cb_mutex
;
1211 struct netlink_sock
*nlk
;
1212 int (*bind
)(struct net
*net
, int group
);
1213 void (*unbind
)(struct net
*net
, int group
);
1216 sock
->state
= SS_UNCONNECTED
;
1218 if (sock
->type
!= SOCK_RAW
&& sock
->type
!= SOCK_DGRAM
)
1219 return -ESOCKTNOSUPPORT
;
1221 if (protocol
< 0 || protocol
>= MAX_LINKS
)
1222 return -EPROTONOSUPPORT
;
1224 netlink_lock_table();
1225 #ifdef CONFIG_MODULES
1226 if (!nl_table
[protocol
].registered
) {
1227 netlink_unlock_table();
1228 request_module("net-pf-%d-proto-%d", PF_NETLINK
, protocol
);
1229 netlink_lock_table();
1232 if (nl_table
[protocol
].registered
&&
1233 try_module_get(nl_table
[protocol
].module
))
1234 module
= nl_table
[protocol
].module
;
1236 err
= -EPROTONOSUPPORT
;
1237 cb_mutex
= nl_table
[protocol
].cb_mutex
;
1238 bind
= nl_table
[protocol
].bind
;
1239 unbind
= nl_table
[protocol
].unbind
;
1240 netlink_unlock_table();
1245 err
= __netlink_create(net
, sock
, cb_mutex
, protocol
, kern
);
1250 sock_prot_inuse_add(net
, &netlink_proto
, 1);
1253 nlk
= nlk_sk(sock
->sk
);
1254 nlk
->module
= module
;
1255 nlk
->netlink_bind
= bind
;
1256 nlk
->netlink_unbind
= unbind
;
1265 static void deferred_put_nlk_sk(struct rcu_head
*head
)
1267 struct netlink_sock
*nlk
= container_of(head
, struct netlink_sock
, rcu
);
1272 static int netlink_release(struct socket
*sock
)
1274 struct sock
*sk
= sock
->sk
;
1275 struct netlink_sock
*nlk
;
1285 * OK. Socket is unlinked, any packets that arrive now
1289 /* must not acquire netlink_table_lock in any way again before unbind
1290 * and notifying genetlink is done as otherwise it might deadlock
1292 if (nlk
->netlink_unbind
) {
1295 for (i
= 0; i
< nlk
->ngroups
; i
++)
1296 if (test_bit(i
, nlk
->groups
))
1297 nlk
->netlink_unbind(sock_net(sk
), i
+ 1);
1299 if (sk
->sk_protocol
== NETLINK_GENERIC
&&
1300 atomic_dec_return(&genl_sk_destructing_cnt
) == 0)
1301 wake_up(&genl_sk_destructing_waitq
);
1304 wake_up_interruptible_all(&nlk
->wait
);
1306 skb_queue_purge(&sk
->sk_write_queue
);
1309 struct netlink_notify n
= {
1310 .net
= sock_net(sk
),
1311 .protocol
= sk
->sk_protocol
,
1312 .portid
= nlk
->portid
,
1314 atomic_notifier_call_chain(&netlink_chain
,
1315 NETLINK_URELEASE
, &n
);
1318 module_put(nlk
->module
);
1320 if (netlink_is_kernel(sk
)) {
1321 netlink_table_grab();
1322 BUG_ON(nl_table
[sk
->sk_protocol
].registered
== 0);
1323 if (--nl_table
[sk
->sk_protocol
].registered
== 0) {
1324 struct listeners
*old
;
1326 old
= nl_deref_protected(nl_table
[sk
->sk_protocol
].listeners
);
1327 RCU_INIT_POINTER(nl_table
[sk
->sk_protocol
].listeners
, NULL
);
1328 kfree_rcu(old
, rcu
);
1329 nl_table
[sk
->sk_protocol
].module
= NULL
;
1330 nl_table
[sk
->sk_protocol
].bind
= NULL
;
1331 nl_table
[sk
->sk_protocol
].unbind
= NULL
;
1332 nl_table
[sk
->sk_protocol
].flags
= 0;
1333 nl_table
[sk
->sk_protocol
].registered
= 0;
1335 netlink_table_ungrab();
1342 sock_prot_inuse_add(sock_net(sk
), &netlink_proto
, -1);
1344 call_rcu(&nlk
->rcu
, deferred_put_nlk_sk
);
1348 static int netlink_autobind(struct socket
*sock
)
1350 struct sock
*sk
= sock
->sk
;
1351 struct net
*net
= sock_net(sk
);
1352 struct netlink_table
*table
= &nl_table
[sk
->sk_protocol
];
1353 s32 portid
= task_tgid_vnr(current
);
1361 ok
= !__netlink_lookup(table
, portid
, net
);
1364 /* Bind collision, search negative portid values. */
1366 /* rover will be in range [S32_MIN, -4097] */
1367 rover
= S32_MIN
+ prandom_u32_max(-4096 - S32_MIN
);
1368 else if (rover
>= -4096)
1374 err
= netlink_insert(sk
, portid
);
1375 if (err
== -EADDRINUSE
)
1378 /* If 2 threads race to autobind, that is fine. */
1386 * __netlink_ns_capable - General netlink message capability test
1387 * @nsp: NETLINK_CB of the socket buffer holding a netlink command from userspace.
1388 * @user_ns: The user namespace of the capability to use
1389 * @cap: The capability to use
1391 * Test to see if the opener of the socket we received the message
1392 * from had when the netlink socket was created and the sender of the
1393 * message has has the capability @cap in the user namespace @user_ns.
1395 bool __netlink_ns_capable(const struct netlink_skb_parms
*nsp
,
1396 struct user_namespace
*user_ns
, int cap
)
1398 return ((nsp
->flags
& NETLINK_SKB_DST
) ||
1399 file_ns_capable(nsp
->sk
->sk_socket
->file
, user_ns
, cap
)) &&
1400 ns_capable(user_ns
, cap
);
1402 EXPORT_SYMBOL(__netlink_ns_capable
);
1405 * netlink_ns_capable - General netlink message capability test
1406 * @skb: socket buffer holding a netlink command from userspace
1407 * @user_ns: The user namespace of the capability to use
1408 * @cap: The capability to use
1410 * Test to see if the opener of the socket we received the message
1411 * from had when the netlink socket was created and the sender of the
1412 * message has has the capability @cap in the user namespace @user_ns.
1414 bool netlink_ns_capable(const struct sk_buff
*skb
,
1415 struct user_namespace
*user_ns
, int cap
)
1417 return __netlink_ns_capable(&NETLINK_CB(skb
), user_ns
, cap
);
1419 EXPORT_SYMBOL(netlink_ns_capable
);
1422 * netlink_capable - Netlink global message capability test
1423 * @skb: socket buffer holding a netlink command from userspace
1424 * @cap: The capability to use
1426 * Test to see if the opener of the socket we received the message
1427 * from had when the netlink socket was created and the sender of the
1428 * message has has the capability @cap in all user namespaces.
1430 bool netlink_capable(const struct sk_buff
*skb
, int cap
)
1432 return netlink_ns_capable(skb
, &init_user_ns
, cap
);
1434 EXPORT_SYMBOL(netlink_capable
);
1437 * netlink_net_capable - Netlink network namespace message capability test
1438 * @skb: socket buffer holding a netlink command from userspace
1439 * @cap: The capability to use
1441 * Test to see if the opener of the socket we received the message
1442 * from had when the netlink socket was created and the sender of the
1443 * message has has the capability @cap over the network namespace of
1444 * the socket we received the message from.
1446 bool netlink_net_capable(const struct sk_buff
*skb
, int cap
)
1448 return netlink_ns_capable(skb
, sock_net(skb
->sk
)->user_ns
, cap
);
1450 EXPORT_SYMBOL(netlink_net_capable
);
1452 static inline int netlink_allowed(const struct socket
*sock
, unsigned int flag
)
1454 return (nl_table
[sock
->sk
->sk_protocol
].flags
& flag
) ||
1455 ns_capable(sock_net(sock
->sk
)->user_ns
, CAP_NET_ADMIN
);
1459 netlink_update_subscriptions(struct sock
*sk
, unsigned int subscriptions
)
1461 struct netlink_sock
*nlk
= nlk_sk(sk
);
1463 if (nlk
->subscriptions
&& !subscriptions
)
1464 __sk_del_bind_node(sk
);
1465 else if (!nlk
->subscriptions
&& subscriptions
)
1466 sk_add_bind_node(sk
, &nl_table
[sk
->sk_protocol
].mc_list
);
1467 nlk
->subscriptions
= subscriptions
;
1470 static int netlink_realloc_groups(struct sock
*sk
)
1472 struct netlink_sock
*nlk
= nlk_sk(sk
);
1473 unsigned int groups
;
1474 unsigned long *new_groups
;
1477 netlink_table_grab();
1479 groups
= nl_table
[sk
->sk_protocol
].groups
;
1480 if (!nl_table
[sk
->sk_protocol
].registered
) {
1485 if (nlk
->ngroups
>= groups
)
1488 new_groups
= krealloc(nlk
->groups
, NLGRPSZ(groups
), GFP_ATOMIC
);
1489 if (new_groups
== NULL
) {
1493 memset((char *)new_groups
+ NLGRPSZ(nlk
->ngroups
), 0,
1494 NLGRPSZ(groups
) - NLGRPSZ(nlk
->ngroups
));
1496 nlk
->groups
= new_groups
;
1497 nlk
->ngroups
= groups
;
1499 netlink_table_ungrab();
1503 static void netlink_undo_bind(int group
, long unsigned int groups
,
1506 struct netlink_sock
*nlk
= nlk_sk(sk
);
1509 if (!nlk
->netlink_unbind
)
1512 for (undo
= 0; undo
< group
; undo
++)
1513 if (test_bit(undo
, &groups
))
1514 nlk
->netlink_unbind(sock_net(sk
), undo
+ 1);
1517 static int netlink_bind(struct socket
*sock
, struct sockaddr
*addr
,
1520 struct sock
*sk
= sock
->sk
;
1521 struct net
*net
= sock_net(sk
);
1522 struct netlink_sock
*nlk
= nlk_sk(sk
);
1523 struct sockaddr_nl
*nladdr
= (struct sockaddr_nl
*)addr
;
1525 long unsigned int groups
= nladdr
->nl_groups
;
1528 if (addr_len
< sizeof(struct sockaddr_nl
))
1531 if (nladdr
->nl_family
!= AF_NETLINK
)
1534 /* Only superuser is allowed to listen multicasts */
1536 if (!netlink_allowed(sock
, NL_CFG_F_NONROOT_RECV
))
1538 err
= netlink_realloc_groups(sk
);
1545 /* Ensure nlk->portid is up-to-date. */
1548 if (nladdr
->nl_pid
!= nlk
->portid
)
1552 if (nlk
->netlink_bind
&& groups
) {
1555 for (group
= 0; group
< nlk
->ngroups
; group
++) {
1556 if (!test_bit(group
, &groups
))
1558 err
= nlk
->netlink_bind(net
, group
+ 1);
1561 netlink_undo_bind(group
, groups
, sk
);
1566 /* No need for barriers here as we return to user-space without
1567 * using any of the bound attributes.
1570 err
= nladdr
->nl_pid
?
1571 netlink_insert(sk
, nladdr
->nl_pid
) :
1572 netlink_autobind(sock
);
1574 netlink_undo_bind(nlk
->ngroups
, groups
, sk
);
1579 if (!groups
&& (nlk
->groups
== NULL
|| !(u32
)nlk
->groups
[0]))
1582 netlink_table_grab();
1583 netlink_update_subscriptions(sk
, nlk
->subscriptions
+
1585 hweight32(nlk
->groups
[0]));
1586 nlk
->groups
[0] = (nlk
->groups
[0] & ~0xffffffffUL
) | groups
;
1587 netlink_update_listeners(sk
);
1588 netlink_table_ungrab();
1593 static int netlink_connect(struct socket
*sock
, struct sockaddr
*addr
,
1594 int alen
, int flags
)
1597 struct sock
*sk
= sock
->sk
;
1598 struct netlink_sock
*nlk
= nlk_sk(sk
);
1599 struct sockaddr_nl
*nladdr
= (struct sockaddr_nl
*)addr
;
1601 if (alen
< sizeof(addr
->sa_family
))
1604 if (addr
->sa_family
== AF_UNSPEC
) {
1605 sk
->sk_state
= NETLINK_UNCONNECTED
;
1606 nlk
->dst_portid
= 0;
1610 if (addr
->sa_family
!= AF_NETLINK
)
1613 if ((nladdr
->nl_groups
|| nladdr
->nl_pid
) &&
1614 !netlink_allowed(sock
, NL_CFG_F_NONROOT_SEND
))
1617 /* No need for barriers here as we return to user-space without
1618 * using any of the bound attributes.
1621 err
= netlink_autobind(sock
);
1624 sk
->sk_state
= NETLINK_CONNECTED
;
1625 nlk
->dst_portid
= nladdr
->nl_pid
;
1626 nlk
->dst_group
= ffs(nladdr
->nl_groups
);
1632 static int netlink_getname(struct socket
*sock
, struct sockaddr
*addr
,
1633 int *addr_len
, int peer
)
1635 struct sock
*sk
= sock
->sk
;
1636 struct netlink_sock
*nlk
= nlk_sk(sk
);
1637 DECLARE_SOCKADDR(struct sockaddr_nl
*, nladdr
, addr
);
1639 nladdr
->nl_family
= AF_NETLINK
;
1641 *addr_len
= sizeof(*nladdr
);
1644 nladdr
->nl_pid
= nlk
->dst_portid
;
1645 nladdr
->nl_groups
= netlink_group_mask(nlk
->dst_group
);
1647 nladdr
->nl_pid
= nlk
->portid
;
1648 nladdr
->nl_groups
= nlk
->groups
? nlk
->groups
[0] : 0;
1653 static struct sock
*netlink_getsockbyportid(struct sock
*ssk
, u32 portid
)
1656 struct netlink_sock
*nlk
;
1658 sock
= netlink_lookup(sock_net(ssk
), ssk
->sk_protocol
, portid
);
1660 return ERR_PTR(-ECONNREFUSED
);
1662 /* Don't bother queuing skb if kernel socket has no input function */
1664 if (sock
->sk_state
== NETLINK_CONNECTED
&&
1665 nlk
->dst_portid
!= nlk_sk(ssk
)->portid
) {
1667 return ERR_PTR(-ECONNREFUSED
);
1672 struct sock
*netlink_getsockbyfilp(struct file
*filp
)
1674 struct inode
*inode
= file_inode(filp
);
1677 if (!S_ISSOCK(inode
->i_mode
))
1678 return ERR_PTR(-ENOTSOCK
);
1680 sock
= SOCKET_I(inode
)->sk
;
1681 if (sock
->sk_family
!= AF_NETLINK
)
1682 return ERR_PTR(-EINVAL
);
1688 static struct sk_buff
*netlink_alloc_large_skb(unsigned int size
,
1691 struct sk_buff
*skb
;
1694 if (size
<= NLMSG_GOODSIZE
|| broadcast
)
1695 return alloc_skb(size
, GFP_KERNEL
);
1697 size
= SKB_DATA_ALIGN(size
) +
1698 SKB_DATA_ALIGN(sizeof(struct skb_shared_info
));
1700 data
= vmalloc(size
);
1704 skb
= __build_skb(data
, size
);
1708 skb
->destructor
= netlink_skb_destructor
;
1714 * Attach a skb to a netlink socket.
1715 * The caller must hold a reference to the destination socket. On error, the
1716 * reference is dropped. The skb is not send to the destination, just all
1717 * all error checks are performed and memory in the queue is reserved.
1719 * < 0: error. skb freed, reference to sock dropped.
1721 * 1: repeat lookup - reference dropped while waiting for socket memory.
1723 int netlink_attachskb(struct sock
*sk
, struct sk_buff
*skb
,
1724 long *timeo
, struct sock
*ssk
)
1726 struct netlink_sock
*nlk
;
1730 if ((atomic_read(&sk
->sk_rmem_alloc
) > sk
->sk_rcvbuf
||
1731 test_bit(NETLINK_S_CONGESTED
, &nlk
->state
)) &&
1732 !netlink_skb_is_mmaped(skb
)) {
1733 DECLARE_WAITQUEUE(wait
, current
);
1735 if (!ssk
|| netlink_is_kernel(ssk
))
1736 netlink_overrun(sk
);
1742 __set_current_state(TASK_INTERRUPTIBLE
);
1743 add_wait_queue(&nlk
->wait
, &wait
);
1745 if ((atomic_read(&sk
->sk_rmem_alloc
) > sk
->sk_rcvbuf
||
1746 test_bit(NETLINK_S_CONGESTED
, &nlk
->state
)) &&
1747 !sock_flag(sk
, SOCK_DEAD
))
1748 *timeo
= schedule_timeout(*timeo
);
1750 __set_current_state(TASK_RUNNING
);
1751 remove_wait_queue(&nlk
->wait
, &wait
);
1754 if (signal_pending(current
)) {
1756 return sock_intr_errno(*timeo
);
1760 netlink_skb_set_owner_r(skb
, sk
);
1764 static int __netlink_sendskb(struct sock
*sk
, struct sk_buff
*skb
)
1768 netlink_deliver_tap(skb
);
1770 #ifdef CONFIG_NETLINK_MMAP
1771 if (netlink_skb_is_mmaped(skb
))
1772 netlink_queue_mmaped_skb(sk
, skb
);
1773 else if (netlink_rx_is_mmaped(sk
))
1774 netlink_ring_set_copied(sk
, skb
);
1776 #endif /* CONFIG_NETLINK_MMAP */
1777 skb_queue_tail(&sk
->sk_receive_queue
, skb
);
1778 sk
->sk_data_ready(sk
);
1782 int netlink_sendskb(struct sock
*sk
, struct sk_buff
*skb
)
1784 int len
= __netlink_sendskb(sk
, skb
);
1790 void netlink_detachskb(struct sock
*sk
, struct sk_buff
*skb
)
1796 static struct sk_buff
*netlink_trim(struct sk_buff
*skb
, gfp_t allocation
)
1800 WARN_ON(skb
->sk
!= NULL
);
1801 if (netlink_skb_is_mmaped(skb
))
1804 delta
= skb
->end
- skb
->tail
;
1805 if (is_vmalloc_addr(skb
->head
) || delta
* 2 < skb
->truesize
)
1808 if (skb_shared(skb
)) {
1809 struct sk_buff
*nskb
= skb_clone(skb
, allocation
);
1816 if (!pskb_expand_head(skb
, 0, -delta
, allocation
))
1817 skb
->truesize
-= delta
;
1822 static int netlink_unicast_kernel(struct sock
*sk
, struct sk_buff
*skb
,
1826 struct netlink_sock
*nlk
= nlk_sk(sk
);
1828 ret
= -ECONNREFUSED
;
1829 if (nlk
->netlink_rcv
!= NULL
) {
1831 netlink_skb_set_owner_r(skb
, sk
);
1832 NETLINK_CB(skb
).sk
= ssk
;
1833 netlink_deliver_tap_kernel(sk
, ssk
, skb
);
1834 nlk
->netlink_rcv(skb
);
1843 int netlink_unicast(struct sock
*ssk
, struct sk_buff
*skb
,
1844 u32 portid
, int nonblock
)
1850 skb
= netlink_trim(skb
, gfp_any());
1852 timeo
= sock_sndtimeo(ssk
, nonblock
);
1854 sk
= netlink_getsockbyportid(ssk
, portid
);
1859 if (netlink_is_kernel(sk
))
1860 return netlink_unicast_kernel(sk
, skb
, ssk
);
1862 if (sk_filter(sk
, skb
)) {
1869 err
= netlink_attachskb(sk
, skb
, &timeo
, ssk
);
1875 return netlink_sendskb(sk
, skb
);
1877 EXPORT_SYMBOL(netlink_unicast
);
1879 struct sk_buff
*__netlink_alloc_skb(struct sock
*ssk
, unsigned int size
,
1880 unsigned int ldiff
, u32 dst_portid
,
1883 #ifdef CONFIG_NETLINK_MMAP
1884 unsigned int maxlen
, linear_size
;
1885 struct sock
*sk
= NULL
;
1886 struct sk_buff
*skb
;
1887 struct netlink_ring
*ring
;
1888 struct nl_mmap_hdr
*hdr
;
1890 sk
= netlink_getsockbyportid(ssk
, dst_portid
);
1894 ring
= &nlk_sk(sk
)->rx_ring
;
1895 /* fast-path without atomic ops for common case: non-mmaped receiver */
1896 if (ring
->pg_vec
== NULL
)
1899 /* We need to account the full linear size needed as a ring
1900 * slot cannot have non-linear parts.
1902 linear_size
= size
+ ldiff
;
1903 if (ring
->frame_size
- NL_MMAP_HDRLEN
< linear_size
)
1906 skb
= alloc_skb_head(gfp_mask
);
1910 spin_lock_bh(&sk
->sk_receive_queue
.lock
);
1911 /* check again under lock */
1912 if (ring
->pg_vec
== NULL
)
1915 /* check again under lock */
1916 maxlen
= ring
->frame_size
- NL_MMAP_HDRLEN
;
1917 if (maxlen
< linear_size
)
1920 netlink_forward_ring(ring
);
1921 hdr
= netlink_current_frame(ring
, NL_MMAP_STATUS_UNUSED
);
1925 netlink_ring_setup_skb(skb
, sk
, ring
, hdr
);
1926 netlink_set_status(hdr
, NL_MMAP_STATUS_RESERVED
);
1927 atomic_inc(&ring
->pending
);
1928 netlink_increment_head(ring
);
1930 spin_unlock_bh(&sk
->sk_receive_queue
.lock
);
1935 spin_unlock_bh(&sk
->sk_receive_queue
.lock
);
1936 netlink_overrun(sk
);
1943 spin_unlock_bh(&sk
->sk_receive_queue
.lock
);
1948 return alloc_skb(size
, gfp_mask
);
1950 EXPORT_SYMBOL_GPL(__netlink_alloc_skb
);
1952 int netlink_has_listeners(struct sock
*sk
, unsigned int group
)
1955 struct listeners
*listeners
;
1957 BUG_ON(!netlink_is_kernel(sk
));
1960 listeners
= rcu_dereference(nl_table
[sk
->sk_protocol
].listeners
);
1962 if (listeners
&& group
- 1 < nl_table
[sk
->sk_protocol
].groups
)
1963 res
= test_bit(group
- 1, listeners
->masks
);
1969 EXPORT_SYMBOL_GPL(netlink_has_listeners
);
1971 static int netlink_broadcast_deliver(struct sock
*sk
, struct sk_buff
*skb
)
1973 struct netlink_sock
*nlk
= nlk_sk(sk
);
1975 if (atomic_read(&sk
->sk_rmem_alloc
) <= sk
->sk_rcvbuf
&&
1976 !test_bit(NETLINK_S_CONGESTED
, &nlk
->state
)) {
1977 netlink_skb_set_owner_r(skb
, sk
);
1978 __netlink_sendskb(sk
, skb
);
1979 return atomic_read(&sk
->sk_rmem_alloc
) > (sk
->sk_rcvbuf
>> 1);
1984 struct netlink_broadcast_data
{
1985 struct sock
*exclude_sk
;
1990 int delivery_failure
;
1994 struct sk_buff
*skb
, *skb2
;
1995 int (*tx_filter
)(struct sock
*dsk
, struct sk_buff
*skb
, void *data
);
1999 static void do_one_broadcast(struct sock
*sk
,
2000 struct netlink_broadcast_data
*p
)
2002 struct netlink_sock
*nlk
= nlk_sk(sk
);
2005 if (p
->exclude_sk
== sk
)
2008 if (nlk
->portid
== p
->portid
|| p
->group
- 1 >= nlk
->ngroups
||
2009 !test_bit(p
->group
- 1, nlk
->groups
))
2012 if (!net_eq(sock_net(sk
), p
->net
)) {
2013 if (!(nlk
->flags
& NETLINK_F_LISTEN_ALL_NSID
))
2016 if (!peernet_has_id(sock_net(sk
), p
->net
))
2019 if (!file_ns_capable(sk
->sk_socket
->file
, p
->net
->user_ns
,
2025 netlink_overrun(sk
);
2030 if (p
->skb2
== NULL
) {
2031 if (skb_shared(p
->skb
)) {
2032 p
->skb2
= skb_clone(p
->skb
, p
->allocation
);
2034 p
->skb2
= skb_get(p
->skb
);
2036 * skb ownership may have been set when
2037 * delivered to a previous socket.
2039 skb_orphan(p
->skb2
);
2042 if (p
->skb2
== NULL
) {
2043 netlink_overrun(sk
);
2044 /* Clone failed. Notify ALL listeners. */
2046 if (nlk
->flags
& NETLINK_F_BROADCAST_SEND_ERROR
)
2047 p
->delivery_failure
= 1;
2050 if (p
->tx_filter
&& p
->tx_filter(sk
, p
->skb2
, p
->tx_data
)) {
2055 if (sk_filter(sk
, p
->skb2
)) {
2060 NETLINK_CB(p
->skb2
).nsid
= peernet2id(sock_net(sk
), p
->net
);
2061 NETLINK_CB(p
->skb2
).nsid_is_set
= true;
2062 val
= netlink_broadcast_deliver(sk
, p
->skb2
);
2064 netlink_overrun(sk
);
2065 if (nlk
->flags
& NETLINK_F_BROADCAST_SEND_ERROR
)
2066 p
->delivery_failure
= 1;
2068 p
->congested
|= val
;
2076 int netlink_broadcast_filtered(struct sock
*ssk
, struct sk_buff
*skb
, u32 portid
,
2077 u32 group
, gfp_t allocation
,
2078 int (*filter
)(struct sock
*dsk
, struct sk_buff
*skb
, void *data
),
2081 struct net
*net
= sock_net(ssk
);
2082 struct netlink_broadcast_data info
;
2085 skb
= netlink_trim(skb
, allocation
);
2087 info
.exclude_sk
= ssk
;
2089 info
.portid
= portid
;
2092 info
.delivery_failure
= 0;
2095 info
.allocation
= allocation
;
2098 info
.tx_filter
= filter
;
2099 info
.tx_data
= filter_data
;
2101 /* While we sleep in clone, do not allow to change socket list */
2103 netlink_lock_table();
2105 sk_for_each_bound(sk
, &nl_table
[ssk
->sk_protocol
].mc_list
)
2106 do_one_broadcast(sk
, &info
);
2110 netlink_unlock_table();
2112 if (info
.delivery_failure
) {
2113 kfree_skb(info
.skb2
);
2116 consume_skb(info
.skb2
);
2118 if (info
.delivered
) {
2119 if (info
.congested
&& gfpflags_allow_blocking(allocation
))
2125 EXPORT_SYMBOL(netlink_broadcast_filtered
);
2127 int netlink_broadcast(struct sock
*ssk
, struct sk_buff
*skb
, u32 portid
,
2128 u32 group
, gfp_t allocation
)
2130 return netlink_broadcast_filtered(ssk
, skb
, portid
, group
, allocation
,
2133 EXPORT_SYMBOL(netlink_broadcast
);
2135 struct netlink_set_err_data
{
2136 struct sock
*exclude_sk
;
2142 static int do_one_set_err(struct sock
*sk
, struct netlink_set_err_data
*p
)
2144 struct netlink_sock
*nlk
= nlk_sk(sk
);
2147 if (sk
== p
->exclude_sk
)
2150 if (!net_eq(sock_net(sk
), sock_net(p
->exclude_sk
)))
2153 if (nlk
->portid
== p
->portid
|| p
->group
- 1 >= nlk
->ngroups
||
2154 !test_bit(p
->group
- 1, nlk
->groups
))
2157 if (p
->code
== ENOBUFS
&& nlk
->flags
& NETLINK_F_RECV_NO_ENOBUFS
) {
2162 sk
->sk_err
= p
->code
;
2163 sk
->sk_error_report(sk
);
2169 * netlink_set_err - report error to broadcast listeners
2170 * @ssk: the kernel netlink socket, as returned by netlink_kernel_create()
2171 * @portid: the PORTID of a process that we want to skip (if any)
2172 * @group: the broadcast group that will notice the error
2173 * @code: error code, must be negative (as usual in kernelspace)
2175 * This function returns the number of broadcast listeners that have set the
2176 * NETLINK_NO_ENOBUFS socket option.
2178 int netlink_set_err(struct sock
*ssk
, u32 portid
, u32 group
, int code
)
2180 struct netlink_set_err_data info
;
2184 info
.exclude_sk
= ssk
;
2185 info
.portid
= portid
;
2187 /* sk->sk_err wants a positive error value */
2190 read_lock(&nl_table_lock
);
2192 sk_for_each_bound(sk
, &nl_table
[ssk
->sk_protocol
].mc_list
)
2193 ret
+= do_one_set_err(sk
, &info
);
2195 read_unlock(&nl_table_lock
);
2198 EXPORT_SYMBOL(netlink_set_err
);
2200 /* must be called with netlink table grabbed */
2201 static void netlink_update_socket_mc(struct netlink_sock
*nlk
,
2205 int old
, new = !!is_new
, subscriptions
;
2207 old
= test_bit(group
- 1, nlk
->groups
);
2208 subscriptions
= nlk
->subscriptions
- old
+ new;
2210 __set_bit(group
- 1, nlk
->groups
);
2212 __clear_bit(group
- 1, nlk
->groups
);
2213 netlink_update_subscriptions(&nlk
->sk
, subscriptions
);
2214 netlink_update_listeners(&nlk
->sk
);
2217 static int netlink_setsockopt(struct socket
*sock
, int level
, int optname
,
2218 char __user
*optval
, unsigned int optlen
)
2220 struct sock
*sk
= sock
->sk
;
2221 struct netlink_sock
*nlk
= nlk_sk(sk
);
2222 unsigned int val
= 0;
2225 if (level
!= SOL_NETLINK
)
2226 return -ENOPROTOOPT
;
2228 if (optname
!= NETLINK_RX_RING
&& optname
!= NETLINK_TX_RING
&&
2229 optlen
>= sizeof(int) &&
2230 get_user(val
, (unsigned int __user
*)optval
))
2234 case NETLINK_PKTINFO
:
2236 nlk
->flags
|= NETLINK_F_RECV_PKTINFO
;
2238 nlk
->flags
&= ~NETLINK_F_RECV_PKTINFO
;
2241 case NETLINK_ADD_MEMBERSHIP
:
2242 case NETLINK_DROP_MEMBERSHIP
: {
2243 if (!netlink_allowed(sock
, NL_CFG_F_NONROOT_RECV
))
2245 err
= netlink_realloc_groups(sk
);
2248 if (!val
|| val
- 1 >= nlk
->ngroups
)
2250 if (optname
== NETLINK_ADD_MEMBERSHIP
&& nlk
->netlink_bind
) {
2251 err
= nlk
->netlink_bind(sock_net(sk
), val
);
2255 netlink_table_grab();
2256 netlink_update_socket_mc(nlk
, val
,
2257 optname
== NETLINK_ADD_MEMBERSHIP
);
2258 netlink_table_ungrab();
2259 if (optname
== NETLINK_DROP_MEMBERSHIP
&& nlk
->netlink_unbind
)
2260 nlk
->netlink_unbind(sock_net(sk
), val
);
2265 case NETLINK_BROADCAST_ERROR
:
2267 nlk
->flags
|= NETLINK_F_BROADCAST_SEND_ERROR
;
2269 nlk
->flags
&= ~NETLINK_F_BROADCAST_SEND_ERROR
;
2272 case NETLINK_NO_ENOBUFS
:
2274 nlk
->flags
|= NETLINK_F_RECV_NO_ENOBUFS
;
2275 clear_bit(NETLINK_S_CONGESTED
, &nlk
->state
);
2276 wake_up_interruptible(&nlk
->wait
);
2278 nlk
->flags
&= ~NETLINK_F_RECV_NO_ENOBUFS
;
2282 #ifdef CONFIG_NETLINK_MMAP
2283 case NETLINK_RX_RING
:
2284 case NETLINK_TX_RING
: {
2285 struct nl_mmap_req req
;
2287 /* Rings might consume more memory than queue limits, require
2290 if (!capable(CAP_NET_ADMIN
))
2292 if (optlen
< sizeof(req
))
2294 if (copy_from_user(&req
, optval
, sizeof(req
)))
2296 err
= netlink_set_ring(sk
, &req
,
2297 optname
== NETLINK_TX_RING
);
2300 #endif /* CONFIG_NETLINK_MMAP */
2301 case NETLINK_LISTEN_ALL_NSID
:
2302 if (!ns_capable(sock_net(sk
)->user_ns
, CAP_NET_BROADCAST
))
2306 nlk
->flags
|= NETLINK_F_LISTEN_ALL_NSID
;
2308 nlk
->flags
&= ~NETLINK_F_LISTEN_ALL_NSID
;
2311 case NETLINK_CAP_ACK
:
2313 nlk
->flags
|= NETLINK_F_CAP_ACK
;
2315 nlk
->flags
&= ~NETLINK_F_CAP_ACK
;
2324 static int netlink_getsockopt(struct socket
*sock
, int level
, int optname
,
2325 char __user
*optval
, int __user
*optlen
)
2327 struct sock
*sk
= sock
->sk
;
2328 struct netlink_sock
*nlk
= nlk_sk(sk
);
2331 if (level
!= SOL_NETLINK
)
2332 return -ENOPROTOOPT
;
2334 if (get_user(len
, optlen
))
2340 case NETLINK_PKTINFO
:
2341 if (len
< sizeof(int))
2344 val
= nlk
->flags
& NETLINK_F_RECV_PKTINFO
? 1 : 0;
2345 if (put_user(len
, optlen
) ||
2346 put_user(val
, optval
))
2350 case NETLINK_BROADCAST_ERROR
:
2351 if (len
< sizeof(int))
2354 val
= nlk
->flags
& NETLINK_F_BROADCAST_SEND_ERROR
? 1 : 0;
2355 if (put_user(len
, optlen
) ||
2356 put_user(val
, optval
))
2360 case NETLINK_NO_ENOBUFS
:
2361 if (len
< sizeof(int))
2364 val
= nlk
->flags
& NETLINK_F_RECV_NO_ENOBUFS
? 1 : 0;
2365 if (put_user(len
, optlen
) ||
2366 put_user(val
, optval
))
2370 case NETLINK_LIST_MEMBERSHIPS
: {
2371 int pos
, idx
, shift
;
2374 netlink_lock_table();
2375 for (pos
= 0; pos
* 8 < nlk
->ngroups
; pos
+= sizeof(u32
)) {
2376 if (len
- pos
< sizeof(u32
))
2379 idx
= pos
/ sizeof(unsigned long);
2380 shift
= (pos
% sizeof(unsigned long)) * 8;
2381 if (put_user((u32
)(nlk
->groups
[idx
] >> shift
),
2382 (u32 __user
*)(optval
+ pos
))) {
2387 if (put_user(ALIGN(nlk
->ngroups
/ 8, sizeof(u32
)), optlen
))
2389 netlink_unlock_table();
2392 case NETLINK_CAP_ACK
:
2393 if (len
< sizeof(int))
2396 val
= nlk
->flags
& NETLINK_F_CAP_ACK
? 1 : 0;
2397 if (put_user(len
, optlen
) ||
2398 put_user(val
, optval
))
2408 static void netlink_cmsg_recv_pktinfo(struct msghdr
*msg
, struct sk_buff
*skb
)
2410 struct nl_pktinfo info
;
2412 info
.group
= NETLINK_CB(skb
).dst_group
;
2413 put_cmsg(msg
, SOL_NETLINK
, NETLINK_PKTINFO
, sizeof(info
), &info
);
2416 static void netlink_cmsg_listen_all_nsid(struct sock
*sk
, struct msghdr
*msg
,
2417 struct sk_buff
*skb
)
2419 if (!NETLINK_CB(skb
).nsid_is_set
)
2422 put_cmsg(msg
, SOL_NETLINK
, NETLINK_LISTEN_ALL_NSID
, sizeof(int),
2423 &NETLINK_CB(skb
).nsid
);
2426 static int netlink_sendmsg(struct socket
*sock
, struct msghdr
*msg
, size_t len
)
2428 struct sock
*sk
= sock
->sk
;
2429 struct netlink_sock
*nlk
= nlk_sk(sk
);
2430 DECLARE_SOCKADDR(struct sockaddr_nl
*, addr
, msg
->msg_name
);
2433 struct sk_buff
*skb
;
2435 struct scm_cookie scm
;
2436 u32 netlink_skb_flags
= 0;
2438 if (msg
->msg_flags
&MSG_OOB
)
2441 err
= scm_send(sock
, msg
, &scm
, true);
2445 if (msg
->msg_namelen
) {
2447 if (addr
->nl_family
!= AF_NETLINK
)
2449 dst_portid
= addr
->nl_pid
;
2450 dst_group
= ffs(addr
->nl_groups
);
2452 if ((dst_group
|| dst_portid
) &&
2453 !netlink_allowed(sock
, NL_CFG_F_NONROOT_SEND
))
2455 netlink_skb_flags
|= NETLINK_SKB_DST
;
2457 dst_portid
= nlk
->dst_portid
;
2458 dst_group
= nlk
->dst_group
;
2462 err
= netlink_autobind(sock
);
2466 /* Ensure nlk is hashed and visible. */
2470 /* It's a really convoluted way for userland to ask for mmaped
2471 * sendmsg(), but that's what we've got...
2473 if (netlink_tx_is_mmaped(sk
) &&
2474 iter_is_iovec(&msg
->msg_iter
) &&
2475 msg
->msg_iter
.nr_segs
== 1 &&
2476 msg
->msg_iter
.iov
->iov_base
== NULL
) {
2477 err
= netlink_mmap_sendmsg(sk
, msg
, dst_portid
, dst_group
,
2483 if (len
> sk
->sk_sndbuf
- 32)
2486 skb
= netlink_alloc_large_skb(len
, dst_group
);
2490 NETLINK_CB(skb
).portid
= nlk
->portid
;
2491 NETLINK_CB(skb
).dst_group
= dst_group
;
2492 NETLINK_CB(skb
).creds
= scm
.creds
;
2493 NETLINK_CB(skb
).flags
= netlink_skb_flags
;
2496 if (memcpy_from_msg(skb_put(skb
, len
), msg
, len
)) {
2501 err
= security_netlink_send(sk
, skb
);
2508 atomic_inc(&skb
->users
);
2509 netlink_broadcast(sk
, skb
, dst_portid
, dst_group
, GFP_KERNEL
);
2511 err
= netlink_unicast(sk
, skb
, dst_portid
, msg
->msg_flags
&MSG_DONTWAIT
);
2518 static int netlink_recvmsg(struct socket
*sock
, struct msghdr
*msg
, size_t len
,
2521 struct scm_cookie scm
;
2522 struct sock
*sk
= sock
->sk
;
2523 struct netlink_sock
*nlk
= nlk_sk(sk
);
2524 int noblock
= flags
&MSG_DONTWAIT
;
2526 struct sk_buff
*skb
, *data_skb
;
2534 skb
= skb_recv_datagram(sk
, flags
, noblock
, &err
);
2540 #ifdef CONFIG_COMPAT_NETLINK_MESSAGES
2541 if (unlikely(skb_shinfo(skb
)->frag_list
)) {
2543 * If this skb has a frag_list, then here that means that we
2544 * will have to use the frag_list skb's data for compat tasks
2545 * and the regular skb's data for normal (non-compat) tasks.
2547 * If we need to send the compat skb, assign it to the
2548 * 'data_skb' variable so that it will be used below for data
2549 * copying. We keep 'skb' for everything else, including
2550 * freeing both later.
2552 if (flags
& MSG_CMSG_COMPAT
)
2553 data_skb
= skb_shinfo(skb
)->frag_list
;
2557 /* Record the max length of recvmsg() calls for future allocations */
2558 nlk
->max_recvmsg_len
= max(nlk
->max_recvmsg_len
, len
);
2559 nlk
->max_recvmsg_len
= min_t(size_t, nlk
->max_recvmsg_len
,
2562 copied
= data_skb
->len
;
2564 msg
->msg_flags
|= MSG_TRUNC
;
2568 skb_reset_transport_header(data_skb
);
2569 err
= skb_copy_datagram_msg(data_skb
, 0, msg
, copied
);
2571 if (msg
->msg_name
) {
2572 DECLARE_SOCKADDR(struct sockaddr_nl
*, addr
, msg
->msg_name
);
2573 addr
->nl_family
= AF_NETLINK
;
2575 addr
->nl_pid
= NETLINK_CB(skb
).portid
;
2576 addr
->nl_groups
= netlink_group_mask(NETLINK_CB(skb
).dst_group
);
2577 msg
->msg_namelen
= sizeof(*addr
);
2580 if (nlk
->flags
& NETLINK_F_RECV_PKTINFO
)
2581 netlink_cmsg_recv_pktinfo(msg
, skb
);
2582 if (nlk
->flags
& NETLINK_F_LISTEN_ALL_NSID
)
2583 netlink_cmsg_listen_all_nsid(sk
, msg
, skb
);
2585 memset(&scm
, 0, sizeof(scm
));
2586 scm
.creds
= *NETLINK_CREDS(skb
);
2587 if (flags
& MSG_TRUNC
)
2588 copied
= data_skb
->len
;
2590 skb_free_datagram(sk
, skb
);
2592 if (nlk
->cb_running
&&
2593 atomic_read(&sk
->sk_rmem_alloc
) <= sk
->sk_rcvbuf
/ 2) {
2594 ret
= netlink_dump(sk
);
2597 sk
->sk_error_report(sk
);
2601 scm_recv(sock
, msg
, &scm
, flags
);
2603 netlink_rcv_wake(sk
);
2604 return err
? : copied
;
2607 static void netlink_data_ready(struct sock
*sk
)
2613 * We export these functions to other modules. They provide a
2614 * complete set of kernel non-blocking support for message
2619 __netlink_kernel_create(struct net
*net
, int unit
, struct module
*module
,
2620 struct netlink_kernel_cfg
*cfg
)
2622 struct socket
*sock
;
2624 struct netlink_sock
*nlk
;
2625 struct listeners
*listeners
= NULL
;
2626 struct mutex
*cb_mutex
= cfg
? cfg
->cb_mutex
: NULL
;
2627 unsigned int groups
;
2631 if (unit
< 0 || unit
>= MAX_LINKS
)
2634 if (sock_create_lite(PF_NETLINK
, SOCK_DGRAM
, unit
, &sock
))
2637 if (__netlink_create(net
, sock
, cb_mutex
, unit
, 1) < 0)
2638 goto out_sock_release_nosk
;
2642 if (!cfg
|| cfg
->groups
< 32)
2645 groups
= cfg
->groups
;
2647 listeners
= kzalloc(sizeof(*listeners
) + NLGRPSZ(groups
), GFP_KERNEL
);
2649 goto out_sock_release
;
2651 sk
->sk_data_ready
= netlink_data_ready
;
2652 if (cfg
&& cfg
->input
)
2653 nlk_sk(sk
)->netlink_rcv
= cfg
->input
;
2655 if (netlink_insert(sk
, 0))
2656 goto out_sock_release
;
2659 nlk
->flags
|= NETLINK_F_KERNEL_SOCKET
;
2661 netlink_table_grab();
2662 if (!nl_table
[unit
].registered
) {
2663 nl_table
[unit
].groups
= groups
;
2664 rcu_assign_pointer(nl_table
[unit
].listeners
, listeners
);
2665 nl_table
[unit
].cb_mutex
= cb_mutex
;
2666 nl_table
[unit
].module
= module
;
2668 nl_table
[unit
].bind
= cfg
->bind
;
2669 nl_table
[unit
].unbind
= cfg
->unbind
;
2670 nl_table
[unit
].flags
= cfg
->flags
;
2672 nl_table
[unit
].compare
= cfg
->compare
;
2674 nl_table
[unit
].registered
= 1;
2677 nl_table
[unit
].registered
++;
2679 netlink_table_ungrab();
2684 netlink_kernel_release(sk
);
2687 out_sock_release_nosk
:
2691 EXPORT_SYMBOL(__netlink_kernel_create
);
2694 netlink_kernel_release(struct sock
*sk
)
2696 if (sk
== NULL
|| sk
->sk_socket
== NULL
)
2699 sock_release(sk
->sk_socket
);
2701 EXPORT_SYMBOL(netlink_kernel_release
);
2703 int __netlink_change_ngroups(struct sock
*sk
, unsigned int groups
)
2705 struct listeners
*new, *old
;
2706 struct netlink_table
*tbl
= &nl_table
[sk
->sk_protocol
];
2711 if (NLGRPSZ(tbl
->groups
) < NLGRPSZ(groups
)) {
2712 new = kzalloc(sizeof(*new) + NLGRPSZ(groups
), GFP_ATOMIC
);
2715 old
= nl_deref_protected(tbl
->listeners
);
2716 memcpy(new->masks
, old
->masks
, NLGRPSZ(tbl
->groups
));
2717 rcu_assign_pointer(tbl
->listeners
, new);
2719 kfree_rcu(old
, rcu
);
2721 tbl
->groups
= groups
;
2727 * netlink_change_ngroups - change number of multicast groups
2729 * This changes the number of multicast groups that are available
2730 * on a certain netlink family. Note that it is not possible to
2731 * change the number of groups to below 32. Also note that it does
2732 * not implicitly call netlink_clear_multicast_users() when the
2733 * number of groups is reduced.
2735 * @sk: The kernel netlink socket, as returned by netlink_kernel_create().
2736 * @groups: The new number of groups.
2738 int netlink_change_ngroups(struct sock
*sk
, unsigned int groups
)
2742 netlink_table_grab();
2743 err
= __netlink_change_ngroups(sk
, groups
);
2744 netlink_table_ungrab();
2749 void __netlink_clear_multicast_users(struct sock
*ksk
, unsigned int group
)
2752 struct netlink_table
*tbl
= &nl_table
[ksk
->sk_protocol
];
2754 sk_for_each_bound(sk
, &tbl
->mc_list
)
2755 netlink_update_socket_mc(nlk_sk(sk
), group
, 0);
2759 __nlmsg_put(struct sk_buff
*skb
, u32 portid
, u32 seq
, int type
, int len
, int flags
)
2761 struct nlmsghdr
*nlh
;
2762 int size
= nlmsg_msg_size(len
);
2764 nlh
= (struct nlmsghdr
*)skb_put(skb
, NLMSG_ALIGN(size
));
2765 nlh
->nlmsg_type
= type
;
2766 nlh
->nlmsg_len
= size
;
2767 nlh
->nlmsg_flags
= flags
;
2768 nlh
->nlmsg_pid
= portid
;
2769 nlh
->nlmsg_seq
= seq
;
2770 if (!__builtin_constant_p(size
) || NLMSG_ALIGN(size
) - size
!= 0)
2771 memset(nlmsg_data(nlh
) + len
, 0, NLMSG_ALIGN(size
) - size
);
2774 EXPORT_SYMBOL(__nlmsg_put
);
2777 * It looks a bit ugly.
2778 * It would be better to create kernel thread.
2781 static int netlink_dump(struct sock
*sk
)
2783 struct netlink_sock
*nlk
= nlk_sk(sk
);
2784 struct netlink_callback
*cb
;
2785 struct sk_buff
*skb
= NULL
;
2786 struct nlmsghdr
*nlh
;
2787 int len
, err
= -ENOBUFS
;
2791 mutex_lock(nlk
->cb_mutex
);
2792 if (!nlk
->cb_running
) {
2797 if (!netlink_rx_is_mmaped(sk
) &&
2798 atomic_read(&sk
->sk_rmem_alloc
) >= sk
->sk_rcvbuf
)
2801 /* NLMSG_GOODSIZE is small to avoid high order allocations being
2802 * required, but it makes sense to _attempt_ a 16K bytes allocation
2803 * to reduce number of system calls on dump operations, if user
2804 * ever provided a big enough buffer.
2807 alloc_min_size
= max_t(int, cb
->min_dump_alloc
, NLMSG_GOODSIZE
);
2809 if (alloc_min_size
< nlk
->max_recvmsg_len
) {
2810 alloc_size
= nlk
->max_recvmsg_len
;
2811 skb
= netlink_alloc_skb(sk
, alloc_size
, nlk
->portid
,
2817 alloc_size
= alloc_min_size
;
2818 skb
= netlink_alloc_skb(sk
, alloc_size
, nlk
->portid
,
2824 /* Trim skb to allocated size. User is expected to provide buffer as
2825 * large as max(min_dump_alloc, 16KiB (mac_recvmsg_len capped at
2826 * netlink_recvmsg())). dump will pack as many smaller messages as
2827 * could fit within the allocated skb. skb is typically allocated
2828 * with larger space than required (could be as much as near 2x the
2829 * requested size with align to next power of 2 approach). Allowing
2830 * dump to use the excess space makes it difficult for a user to have a
2831 * reasonable static buffer based on the expected largest dump of a
2832 * single netdev. The outcome is MSG_TRUNC error.
2834 skb_reserve(skb
, skb_tailroom(skb
) - alloc_size
);
2835 netlink_skb_set_owner_r(skb
, sk
);
2837 len
= cb
->dump(skb
, cb
);
2840 mutex_unlock(nlk
->cb_mutex
);
2842 if (sk_filter(sk
, skb
))
2845 __netlink_sendskb(sk
, skb
);
2849 nlh
= nlmsg_put_answer(skb
, cb
, NLMSG_DONE
, sizeof(len
), NLM_F_MULTI
);
2853 nl_dump_check_consistent(cb
, nlh
);
2855 memcpy(nlmsg_data(nlh
), &len
, sizeof(len
));
2857 if (sk_filter(sk
, skb
))
2860 __netlink_sendskb(sk
, skb
);
2865 nlk
->cb_running
= false;
2866 mutex_unlock(nlk
->cb_mutex
);
2867 module_put(cb
->module
);
2868 consume_skb(cb
->skb
);
2872 mutex_unlock(nlk
->cb_mutex
);
2877 int __netlink_dump_start(struct sock
*ssk
, struct sk_buff
*skb
,
2878 const struct nlmsghdr
*nlh
,
2879 struct netlink_dump_control
*control
)
2881 struct netlink_callback
*cb
;
2883 struct netlink_sock
*nlk
;
2886 /* Memory mapped dump requests need to be copied to avoid looping
2887 * on the pending state in netlink_mmap_sendmsg() while the CB hold
2888 * a reference to the skb.
2890 if (netlink_skb_is_mmaped(skb
)) {
2891 skb
= skb_copy(skb
, GFP_KERNEL
);
2895 atomic_inc(&skb
->users
);
2897 sk
= netlink_lookup(sock_net(ssk
), ssk
->sk_protocol
, NETLINK_CB(skb
).portid
);
2899 ret
= -ECONNREFUSED
;
2904 mutex_lock(nlk
->cb_mutex
);
2905 /* A dump is in progress... */
2906 if (nlk
->cb_running
) {
2910 /* add reference of module which cb->dump belongs to */
2911 if (!try_module_get(control
->module
)) {
2912 ret
= -EPROTONOSUPPORT
;
2917 memset(cb
, 0, sizeof(*cb
));
2918 cb
->dump
= control
->dump
;
2919 cb
->done
= control
->done
;
2921 cb
->data
= control
->data
;
2922 cb
->module
= control
->module
;
2923 cb
->min_dump_alloc
= control
->min_dump_alloc
;
2926 nlk
->cb_running
= true;
2928 mutex_unlock(nlk
->cb_mutex
);
2930 ret
= netlink_dump(sk
);
2936 /* We successfully started a dump, by returning -EINTR we
2937 * signal not to send ACK even if it was requested.
2943 mutex_unlock(nlk
->cb_mutex
);
2948 EXPORT_SYMBOL(__netlink_dump_start
);
2950 void netlink_ack(struct sk_buff
*in_skb
, struct nlmsghdr
*nlh
, int err
)
2952 struct sk_buff
*skb
;
2953 struct nlmsghdr
*rep
;
2954 struct nlmsgerr
*errmsg
;
2955 size_t payload
= sizeof(*errmsg
);
2956 struct netlink_sock
*nlk
= nlk_sk(NETLINK_CB(in_skb
).sk
);
2958 /* Error messages get the original request appened, unless the user
2959 * requests to cap the error message.
2961 if (!(nlk
->flags
& NETLINK_F_CAP_ACK
) && err
)
2962 payload
+= nlmsg_len(nlh
);
2964 skb
= netlink_alloc_skb(in_skb
->sk
, nlmsg_total_size(payload
),
2965 NETLINK_CB(in_skb
).portid
, GFP_KERNEL
);
2969 sk
= netlink_lookup(sock_net(in_skb
->sk
),
2970 in_skb
->sk
->sk_protocol
,
2971 NETLINK_CB(in_skb
).portid
);
2973 sk
->sk_err
= ENOBUFS
;
2974 sk
->sk_error_report(sk
);
2980 rep
= __nlmsg_put(skb
, NETLINK_CB(in_skb
).portid
, nlh
->nlmsg_seq
,
2981 NLMSG_ERROR
, payload
, 0);
2982 errmsg
= nlmsg_data(rep
);
2983 errmsg
->error
= err
;
2984 memcpy(&errmsg
->msg
, nlh
, payload
> sizeof(*errmsg
) ? nlh
->nlmsg_len
: sizeof(*nlh
));
2985 netlink_unicast(in_skb
->sk
, skb
, NETLINK_CB(in_skb
).portid
, MSG_DONTWAIT
);
2987 EXPORT_SYMBOL(netlink_ack
);
2989 int netlink_rcv_skb(struct sk_buff
*skb
, int (*cb
)(struct sk_buff
*,
2992 struct nlmsghdr
*nlh
;
2995 while (skb
->len
>= nlmsg_total_size(0)) {
2998 nlh
= nlmsg_hdr(skb
);
3001 if (nlh
->nlmsg_len
< NLMSG_HDRLEN
|| skb
->len
< nlh
->nlmsg_len
)
3004 /* Only requests are handled by the kernel */
3005 if (!(nlh
->nlmsg_flags
& NLM_F_REQUEST
))
3008 /* Skip control messages */
3009 if (nlh
->nlmsg_type
< NLMSG_MIN_TYPE
)
3017 if (nlh
->nlmsg_flags
& NLM_F_ACK
|| err
)
3018 netlink_ack(skb
, nlh
, err
);
3021 msglen
= NLMSG_ALIGN(nlh
->nlmsg_len
);
3022 if (msglen
> skb
->len
)
3024 skb_pull(skb
, msglen
);
3029 EXPORT_SYMBOL(netlink_rcv_skb
);
3032 * nlmsg_notify - send a notification netlink message
3033 * @sk: netlink socket to use
3034 * @skb: notification message
3035 * @portid: destination netlink portid for reports or 0
3036 * @group: destination multicast group or 0
3037 * @report: 1 to report back, 0 to disable
3038 * @flags: allocation flags
3040 int nlmsg_notify(struct sock
*sk
, struct sk_buff
*skb
, u32 portid
,
3041 unsigned int group
, int report
, gfp_t flags
)
3046 int exclude_portid
= 0;
3049 atomic_inc(&skb
->users
);
3050 exclude_portid
= portid
;
3053 /* errors reported via destination sk->sk_err, but propagate
3054 * delivery errors if NETLINK_BROADCAST_ERROR flag is set */
3055 err
= nlmsg_multicast(sk
, skb
, exclude_portid
, group
, flags
);
3061 err2
= nlmsg_unicast(sk
, skb
, portid
);
3062 if (!err
|| err
== -ESRCH
)
3068 EXPORT_SYMBOL(nlmsg_notify
);
3070 #ifdef CONFIG_PROC_FS
3071 struct nl_seq_iter
{
3072 struct seq_net_private p
;
3073 struct rhashtable_iter hti
;
3077 static int netlink_walk_start(struct nl_seq_iter
*iter
)
3081 err
= rhashtable_walk_init(&nl_table
[iter
->link
].hash
, &iter
->hti
);
3083 iter
->link
= MAX_LINKS
;
3087 err
= rhashtable_walk_start(&iter
->hti
);
3088 return err
== -EAGAIN
? 0 : err
;
3091 static void netlink_walk_stop(struct nl_seq_iter
*iter
)
3093 rhashtable_walk_stop(&iter
->hti
);
3094 rhashtable_walk_exit(&iter
->hti
);
3097 static void *__netlink_seq_next(struct seq_file
*seq
)
3099 struct nl_seq_iter
*iter
= seq
->private;
3100 struct netlink_sock
*nlk
;
3106 nlk
= rhashtable_walk_next(&iter
->hti
);
3109 if (PTR_ERR(nlk
) == -EAGAIN
)
3118 netlink_walk_stop(iter
);
3119 if (++iter
->link
>= MAX_LINKS
)
3122 err
= netlink_walk_start(iter
);
3124 return ERR_PTR(err
);
3126 } while (sock_net(&nlk
->sk
) != seq_file_net(seq
));
3131 static void *netlink_seq_start(struct seq_file
*seq
, loff_t
*posp
)
3133 struct nl_seq_iter
*iter
= seq
->private;
3134 void *obj
= SEQ_START_TOKEN
;
3140 err
= netlink_walk_start(iter
);
3142 return ERR_PTR(err
);
3144 for (pos
= *posp
; pos
&& obj
&& !IS_ERR(obj
); pos
--)
3145 obj
= __netlink_seq_next(seq
);
3150 static void *netlink_seq_next(struct seq_file
*seq
, void *v
, loff_t
*pos
)
3153 return __netlink_seq_next(seq
);
3156 static void netlink_seq_stop(struct seq_file
*seq
, void *v
)
3158 struct nl_seq_iter
*iter
= seq
->private;
3160 if (iter
->link
>= MAX_LINKS
)
3163 netlink_walk_stop(iter
);
3167 static int netlink_seq_show(struct seq_file
*seq
, void *v
)
3169 if (v
== SEQ_START_TOKEN
) {
3171 "sk Eth Pid Groups "
3172 "Rmem Wmem Dump Locks Drops Inode\n");
3175 struct netlink_sock
*nlk
= nlk_sk(s
);
3177 seq_printf(seq
, "%pK %-3d %-6u %08x %-8d %-8d %d %-8d %-8d %-8lu\n",
3181 nlk
->groups
? (u32
)nlk
->groups
[0] : 0,
3182 sk_rmem_alloc_get(s
),
3183 sk_wmem_alloc_get(s
),
3185 atomic_read(&s
->sk_refcnt
),
3186 atomic_read(&s
->sk_drops
),
3194 static const struct seq_operations netlink_seq_ops
= {
3195 .start
= netlink_seq_start
,
3196 .next
= netlink_seq_next
,
3197 .stop
= netlink_seq_stop
,
3198 .show
= netlink_seq_show
,
3202 static int netlink_seq_open(struct inode
*inode
, struct file
*file
)
3204 return seq_open_net(inode
, file
, &netlink_seq_ops
,
3205 sizeof(struct nl_seq_iter
));
3208 static const struct file_operations netlink_seq_fops
= {
3209 .owner
= THIS_MODULE
,
3210 .open
= netlink_seq_open
,
3212 .llseek
= seq_lseek
,
3213 .release
= seq_release_net
,
3218 int netlink_register_notifier(struct notifier_block
*nb
)
3220 return atomic_notifier_chain_register(&netlink_chain
, nb
);
3222 EXPORT_SYMBOL(netlink_register_notifier
);
3224 int netlink_unregister_notifier(struct notifier_block
*nb
)
3226 return atomic_notifier_chain_unregister(&netlink_chain
, nb
);
3228 EXPORT_SYMBOL(netlink_unregister_notifier
);
3230 static const struct proto_ops netlink_ops
= {
3231 .family
= PF_NETLINK
,
3232 .owner
= THIS_MODULE
,
3233 .release
= netlink_release
,
3234 .bind
= netlink_bind
,
3235 .connect
= netlink_connect
,
3236 .socketpair
= sock_no_socketpair
,
3237 .accept
= sock_no_accept
,
3238 .getname
= netlink_getname
,
3239 .poll
= netlink_poll
,
3240 .ioctl
= sock_no_ioctl
,
3241 .listen
= sock_no_listen
,
3242 .shutdown
= sock_no_shutdown
,
3243 .setsockopt
= netlink_setsockopt
,
3244 .getsockopt
= netlink_getsockopt
,
3245 .sendmsg
= netlink_sendmsg
,
3246 .recvmsg
= netlink_recvmsg
,
3247 .mmap
= netlink_mmap
,
3248 .sendpage
= sock_no_sendpage
,
3251 static const struct net_proto_family netlink_family_ops
= {
3252 .family
= PF_NETLINK
,
3253 .create
= netlink_create
,
3254 .owner
= THIS_MODULE
, /* for consistency 8) */
3257 static int __net_init
netlink_net_init(struct net
*net
)
3259 #ifdef CONFIG_PROC_FS
3260 if (!proc_create("netlink", 0, net
->proc_net
, &netlink_seq_fops
))
3266 static void __net_exit
netlink_net_exit(struct net
*net
)
3268 #ifdef CONFIG_PROC_FS
3269 remove_proc_entry("netlink", net
->proc_net
);
3273 static void __init
netlink_add_usersock_entry(void)
3275 struct listeners
*listeners
;
3278 listeners
= kzalloc(sizeof(*listeners
) + NLGRPSZ(groups
), GFP_KERNEL
);
3280 panic("netlink_add_usersock_entry: Cannot allocate listeners\n");
3282 netlink_table_grab();
3284 nl_table
[NETLINK_USERSOCK
].groups
= groups
;
3285 rcu_assign_pointer(nl_table
[NETLINK_USERSOCK
].listeners
, listeners
);
3286 nl_table
[NETLINK_USERSOCK
].module
= THIS_MODULE
;
3287 nl_table
[NETLINK_USERSOCK
].registered
= 1;
3288 nl_table
[NETLINK_USERSOCK
].flags
= NL_CFG_F_NONROOT_SEND
;
3290 netlink_table_ungrab();
3293 static struct pernet_operations __net_initdata netlink_net_ops
= {
3294 .init
= netlink_net_init
,
3295 .exit
= netlink_net_exit
,
3298 static inline u32
netlink_hash(const void *data
, u32 len
, u32 seed
)
3300 const struct netlink_sock
*nlk
= data
;
3301 struct netlink_compare_arg arg
;
3303 netlink_compare_arg_init(&arg
, sock_net(&nlk
->sk
), nlk
->portid
);
3304 return jhash2((u32
*)&arg
, netlink_compare_arg_len
/ sizeof(u32
), seed
);
3307 static const struct rhashtable_params netlink_rhashtable_params
= {
3308 .head_offset
= offsetof(struct netlink_sock
, node
),
3309 .key_len
= netlink_compare_arg_len
,
3310 .obj_hashfn
= netlink_hash
,
3311 .obj_cmpfn
= netlink_compare
,
3312 .automatic_shrinking
= true,
3315 static int __init
netlink_proto_init(void)
3318 int err
= proto_register(&netlink_proto
, 0);
3323 BUILD_BUG_ON(sizeof(struct netlink_skb_parms
) > FIELD_SIZEOF(struct sk_buff
, cb
));
3325 nl_table
= kcalloc(MAX_LINKS
, sizeof(*nl_table
), GFP_KERNEL
);
3329 for (i
= 0; i
< MAX_LINKS
; i
++) {
3330 if (rhashtable_init(&nl_table
[i
].hash
,
3331 &netlink_rhashtable_params
) < 0) {
3333 rhashtable_destroy(&nl_table
[i
].hash
);
3339 INIT_LIST_HEAD(&netlink_tap_all
);
3341 netlink_add_usersock_entry();
3343 sock_register(&netlink_family_ops
);
3344 register_pernet_subsys(&netlink_net_ops
);
3345 /* The netlink device handler may be needed early. */
3350 panic("netlink_init: Cannot allocate nl_table\n");
3353 core_initcall(netlink_proto_init
);