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1 /*
2  * lib/netfilter/queue_msg_obj.c	Netfilter Queue Message Object
3  *
4  *	This library is free software; you can redistribute it and/or
5  *	modify it under the terms of the GNU Lesser General Public
6  *	License as published by the Free Software Foundation version 2.1
7  *	of the License.
8  *
9  * Copyright (c) 2007, 2008 Patrick McHardy <kaber@trash.net>
10  */
11 
12 #include <netlink-local.h>
13 #include <netlink/netfilter/nfnl.h>
14 #include <netlink/netfilter/netfilter.h>
15 #include <netlink/netfilter/queue_msg.h>
16 #include <linux/netfilter.h>
17 
18 /** @cond SKIP */
19 #define QUEUE_MSG_ATTR_GROUP		(1UL << 0)
20 #define QUEUE_MSG_ATTR_FAMILY		(1UL << 1)
21 #define QUEUE_MSG_ATTR_PACKETID		(1UL << 2)
22 #define QUEUE_MSG_ATTR_HWPROTO		(1UL << 3)
23 #define QUEUE_MSG_ATTR_HOOK		(1UL << 4)
24 #define QUEUE_MSG_ATTR_MARK		(1UL << 5)
25 #define QUEUE_MSG_ATTR_TIMESTAMP	(1UL << 6)
26 #define QUEUE_MSG_ATTR_INDEV		(1UL << 7)
27 #define QUEUE_MSG_ATTR_OUTDEV		(1UL << 8)
28 #define QUEUE_MSG_ATTR_PHYSINDEV	(1UL << 9)
29 #define QUEUE_MSG_ATTR_PHYSOUTDEV	(1UL << 10)
30 #define QUEUE_MSG_ATTR_HWADDR		(1UL << 11)
31 #define QUEUE_MSG_ATTR_PAYLOAD		(1UL << 12)
32 #define QUEUE_MSG_ATTR_VERDICT		(1UL << 13)
33 /** @endcond */
34 
nfnl_queue_msg_free_data(struct nl_object * c)35 static void nfnl_queue_msg_free_data(struct nl_object *c)
36 {
37 	struct nfnl_queue_msg *msg = (struct nfnl_queue_msg *) c;
38 
39 	if (msg == NULL)
40 		return;
41 
42 	free(msg->queue_msg_payload);
43 }
44 
nfnl_queue_msg_clone(struct nl_object * _dst,struct nl_object * _src)45 static int nfnl_queue_msg_clone(struct nl_object *_dst, struct nl_object *_src)
46 {
47 	struct nfnl_queue_msg *dst = (struct nfnl_queue_msg *) _dst;
48 	struct nfnl_queue_msg *src = (struct nfnl_queue_msg *) _src;
49 	int err;
50 
51 	if (src->queue_msg_payload) {
52 		err = nfnl_queue_msg_set_payload(dst, src->queue_msg_payload,
53 						 src->queue_msg_payload_len);
54 		if (err < 0)
55 			goto errout;
56 	}
57 
58 	return 0;
59 errout:
60 	return err;
61 }
62 
nfnl_queue_msg_dump(struct nl_object * a,struct nl_dump_params * p)63 static void nfnl_queue_msg_dump(struct nl_object *a, struct nl_dump_params *p)
64 {
65 	struct nfnl_queue_msg *msg = (struct nfnl_queue_msg *) a;
66 	struct nl_cache *link_cache;
67 	char buf[64];
68 
69 	link_cache = nl_cache_mngt_require("route/link");
70 
71 	nl_new_line(p);
72 
73 	if (msg->ce_mask & QUEUE_MSG_ATTR_GROUP)
74 		nl_dump(p, "GROUP=%u ", msg->queue_msg_group);
75 
76 	if (msg->ce_mask & QUEUE_MSG_ATTR_INDEV) {
77 		if (link_cache)
78 			nl_dump(p, "IN=%s ",
79 				rtnl_link_i2name(link_cache,
80 						 msg->queue_msg_indev,
81 						 buf, sizeof(buf)));
82 		else
83 			nl_dump(p, "IN=%d ", msg->queue_msg_indev);
84 	}
85 
86 	if (msg->ce_mask & QUEUE_MSG_ATTR_PHYSINDEV) {
87 		if (link_cache)
88 			nl_dump(p, "PHYSIN=%s ",
89 				rtnl_link_i2name(link_cache,
90 						 msg->queue_msg_physindev,
91 						 buf, sizeof(buf)));
92 		else
93 			nl_dump(p, "IN=%d ", msg->queue_msg_physindev);
94 	}
95 
96 	if (msg->ce_mask & QUEUE_MSG_ATTR_OUTDEV) {
97 		if (link_cache)
98 			nl_dump(p, "OUT=%s ",
99 				rtnl_link_i2name(link_cache,
100 						 msg->queue_msg_outdev,
101 						 buf, sizeof(buf)));
102 		else
103 			nl_dump(p, "OUT=%d ", msg->queue_msg_outdev);
104 	}
105 
106 	if (msg->ce_mask & QUEUE_MSG_ATTR_PHYSOUTDEV) {
107 		if (link_cache)
108 			nl_dump(p, "PHYSOUT=%s ",
109 				rtnl_link_i2name(link_cache,
110 						 msg->queue_msg_physoutdev,
111 						 buf, sizeof(buf)));
112 		else
113 			nl_dump(p, "PHYSOUT=%d ", msg->queue_msg_physoutdev);
114 	}
115 
116 	if (msg->ce_mask & QUEUE_MSG_ATTR_HWADDR) {
117 		int i;
118 
119 		nl_dump(p, "MAC");
120 		for (i = 0; i < msg->queue_msg_hwaddr_len; i++)
121 			nl_dump(p, "%c%02x", i?':':'=',
122 				msg->queue_msg_hwaddr[i]);
123 		nl_dump(p, " ");
124 	}
125 
126 	if (msg->ce_mask & QUEUE_MSG_ATTR_FAMILY)
127 		nl_dump(p, "FAMILY=%s ",
128 			nl_af2str(msg->queue_msg_family, buf, sizeof(buf)));
129 
130 	if (msg->ce_mask & QUEUE_MSG_ATTR_HWPROTO)
131 		nl_dump(p, "HWPROTO=%s ",
132 			nl_ether_proto2str(ntohs(msg->queue_msg_hwproto),
133 					   buf, sizeof(buf)));
134 
135 	if (msg->ce_mask & QUEUE_MSG_ATTR_HOOK)
136 		nl_dump(p, "HOOK=%s ",
137 			nfnl_inet_hook2str(msg->queue_msg_hook,
138 					   buf, sizeof(buf)));
139 
140 	if (msg->ce_mask & QUEUE_MSG_ATTR_MARK)
141 		nl_dump(p, "MARK=%d ", msg->queue_msg_mark);
142 
143 	if (msg->ce_mask & QUEUE_MSG_ATTR_PAYLOAD)
144 		nl_dump(p, "PAYLOADLEN=%d ", msg->queue_msg_payload_len);
145 
146 	if (msg->ce_mask & QUEUE_MSG_ATTR_PACKETID)
147 		nl_dump(p, "PACKETID=%u ", msg->queue_msg_packetid);
148 
149 	if (msg->ce_mask & QUEUE_MSG_ATTR_VERDICT)
150 		nl_dump(p, "VERDICT=%s ",
151 			nfnl_verdict2str(msg->queue_msg_verdict,
152 					 buf, sizeof(buf)));
153 
154 	nl_dump(p, "\n");
155 }
156 
157 /**
158  * @name Allocation/Freeing
159  * @{
160  */
161 
nfnl_queue_msg_alloc(void)162 struct nfnl_queue_msg *nfnl_queue_msg_alloc(void)
163 {
164 	return (struct nfnl_queue_msg *) nl_object_alloc(&queue_msg_obj_ops);
165 }
166 
nfnl_queue_msg_get(struct nfnl_queue_msg * msg)167 void nfnl_queue_msg_get(struct nfnl_queue_msg *msg)
168 {
169 	nl_object_get((struct nl_object *) msg);
170 }
171 
nfnl_queue_msg_put(struct nfnl_queue_msg * msg)172 void nfnl_queue_msg_put(struct nfnl_queue_msg *msg)
173 {
174 	nl_object_put((struct nl_object *) msg);
175 }
176 
177 /** @} */
178 
179 /**
180  * @name Attributes
181  * @{
182  */
183 
nfnl_queue_msg_set_group(struct nfnl_queue_msg * msg,uint16_t group)184 void nfnl_queue_msg_set_group(struct nfnl_queue_msg *msg, uint16_t group)
185 {
186 	msg->queue_msg_group = group;
187 	msg->ce_mask |= QUEUE_MSG_ATTR_GROUP;
188 }
189 
nfnl_queue_msg_test_group(const struct nfnl_queue_msg * msg)190 int nfnl_queue_msg_test_group(const struct nfnl_queue_msg *msg)
191 {
192 	return !!(msg->ce_mask & QUEUE_MSG_ATTR_GROUP);
193 }
194 
nfnl_queue_msg_get_group(const struct nfnl_queue_msg * msg)195 uint16_t nfnl_queue_msg_get_group(const struct nfnl_queue_msg *msg)
196 {
197 	return msg->queue_msg_group;
198 }
199 
200 /**
201 * Set the protocol family
202 * @arg msg         NF queue message
203 * @arg family      AF_XXX  address family  example: AF_INET, AF_UNIX, etc
204 */
nfnl_queue_msg_set_family(struct nfnl_queue_msg * msg,uint8_t family)205 void nfnl_queue_msg_set_family(struct nfnl_queue_msg *msg, uint8_t family)
206 {
207 	msg->queue_msg_family = family;
208 	msg->ce_mask |= QUEUE_MSG_ATTR_FAMILY;
209 }
210 
nfnl_queue_msg_test_family(const struct nfnl_queue_msg * msg)211 int nfnl_queue_msg_test_family(const struct nfnl_queue_msg *msg)
212 {
213 	return !!(msg->ce_mask & QUEUE_MSG_ATTR_FAMILY);
214 }
215 
nfnl_queue_msg_get_family(const struct nfnl_queue_msg * msg)216 uint8_t nfnl_queue_msg_get_family(const struct nfnl_queue_msg *msg)
217 {
218 	if (msg->ce_mask & QUEUE_MSG_ATTR_FAMILY)
219 		return msg->queue_msg_family;
220 	else
221 		return AF_UNSPEC;
222 }
223 
nfnl_queue_msg_set_packetid(struct nfnl_queue_msg * msg,uint32_t packetid)224 void nfnl_queue_msg_set_packetid(struct nfnl_queue_msg *msg, uint32_t packetid)
225 {
226 	msg->queue_msg_packetid = packetid;
227 	msg->ce_mask |= QUEUE_MSG_ATTR_PACKETID;
228 }
229 
nfnl_queue_msg_test_packetid(const struct nfnl_queue_msg * msg)230 int nfnl_queue_msg_test_packetid(const struct nfnl_queue_msg *msg)
231 {
232 	return !!(msg->ce_mask & QUEUE_MSG_ATTR_PACKETID);
233 }
234 
nfnl_queue_msg_get_packetid(const struct nfnl_queue_msg * msg)235 uint32_t nfnl_queue_msg_get_packetid(const struct nfnl_queue_msg *msg)
236 {
237 	return msg->queue_msg_packetid;
238 }
239 
nfnl_queue_msg_set_hwproto(struct nfnl_queue_msg * msg,uint16_t hwproto)240 void nfnl_queue_msg_set_hwproto(struct nfnl_queue_msg *msg, uint16_t hwproto)
241 {
242 	msg->queue_msg_hwproto = hwproto;
243 	msg->ce_mask |= QUEUE_MSG_ATTR_HWPROTO;
244 }
245 
nfnl_queue_msg_test_hwproto(const struct nfnl_queue_msg * msg)246 int nfnl_queue_msg_test_hwproto(const struct nfnl_queue_msg *msg)
247 {
248 	return !!(msg->ce_mask & QUEUE_MSG_ATTR_HWPROTO);
249 }
250 
nfnl_queue_msg_get_hwproto(const struct nfnl_queue_msg * msg)251 uint16_t nfnl_queue_msg_get_hwproto(const struct nfnl_queue_msg *msg)
252 {
253 	return msg->queue_msg_hwproto;
254 }
255 
nfnl_queue_msg_set_hook(struct nfnl_queue_msg * msg,uint8_t hook)256 void nfnl_queue_msg_set_hook(struct nfnl_queue_msg *msg, uint8_t hook)
257 {
258 	msg->queue_msg_hook = hook;
259 	msg->ce_mask |= QUEUE_MSG_ATTR_HOOK;
260 }
261 
nfnl_queue_msg_test_hook(const struct nfnl_queue_msg * msg)262 int nfnl_queue_msg_test_hook(const struct nfnl_queue_msg *msg)
263 {
264 	return !!(msg->ce_mask & QUEUE_MSG_ATTR_HOOK);
265 }
266 
nfnl_queue_msg_get_hook(const struct nfnl_queue_msg * msg)267 uint8_t nfnl_queue_msg_get_hook(const struct nfnl_queue_msg *msg)
268 {
269 	return msg->queue_msg_hook;
270 }
271 
nfnl_queue_msg_set_mark(struct nfnl_queue_msg * msg,uint32_t mark)272 void nfnl_queue_msg_set_mark(struct nfnl_queue_msg *msg, uint32_t mark)
273 {
274 	msg->queue_msg_mark = mark;
275 	msg->ce_mask |= QUEUE_MSG_ATTR_MARK;
276 }
277 
nfnl_queue_msg_test_mark(const struct nfnl_queue_msg * msg)278 int nfnl_queue_msg_test_mark(const struct nfnl_queue_msg *msg)
279 {
280 	return !!(msg->ce_mask & QUEUE_MSG_ATTR_MARK);
281 }
282 
nfnl_queue_msg_get_mark(const struct nfnl_queue_msg * msg)283 uint32_t nfnl_queue_msg_get_mark(const struct nfnl_queue_msg *msg)
284 {
285 	return msg->queue_msg_mark;
286 }
287 
nfnl_queue_msg_set_timestamp(struct nfnl_queue_msg * msg,struct timeval * tv)288 void nfnl_queue_msg_set_timestamp(struct nfnl_queue_msg *msg,
289 				  struct timeval *tv)
290 {
291 	msg->queue_msg_timestamp.tv_sec = tv->tv_sec;
292 	msg->queue_msg_timestamp.tv_usec = tv->tv_usec;
293 	msg->ce_mask |= QUEUE_MSG_ATTR_TIMESTAMP;
294 }
295 
nfnl_queue_msg_test_timestamp(const struct nfnl_queue_msg * msg)296 int nfnl_queue_msg_test_timestamp(const struct nfnl_queue_msg *msg)
297 {
298 	return !!(msg->ce_mask & QUEUE_MSG_ATTR_TIMESTAMP);
299 }
300 
nfnl_queue_msg_get_timestamp(const struct nfnl_queue_msg * msg)301 const struct timeval *nfnl_queue_msg_get_timestamp(const struct nfnl_queue_msg *msg)
302 {
303 	if (!(msg->ce_mask & QUEUE_MSG_ATTR_TIMESTAMP))
304 		return NULL;
305 	return &msg->queue_msg_timestamp;
306 }
307 
nfnl_queue_msg_set_indev(struct nfnl_queue_msg * msg,uint32_t indev)308 void nfnl_queue_msg_set_indev(struct nfnl_queue_msg *msg, uint32_t indev)
309 {
310 	msg->queue_msg_indev = indev;
311 	msg->ce_mask |= QUEUE_MSG_ATTR_INDEV;
312 }
313 
nfnl_queue_msg_test_indev(const struct nfnl_queue_msg * msg)314 int nfnl_queue_msg_test_indev(const struct nfnl_queue_msg *msg)
315 {
316 	return !!(msg->ce_mask & QUEUE_MSG_ATTR_INDEV);
317 }
318 
nfnl_queue_msg_get_indev(const struct nfnl_queue_msg * msg)319 uint32_t nfnl_queue_msg_get_indev(const struct nfnl_queue_msg *msg)
320 {
321 	return msg->queue_msg_indev;
322 }
323 
nfnl_queue_msg_set_outdev(struct nfnl_queue_msg * msg,uint32_t outdev)324 void nfnl_queue_msg_set_outdev(struct nfnl_queue_msg *msg, uint32_t outdev)
325 {
326 	msg->queue_msg_outdev = outdev;
327 	msg->ce_mask |= QUEUE_MSG_ATTR_OUTDEV;
328 }
329 
nfnl_queue_msg_test_outdev(const struct nfnl_queue_msg * msg)330 int nfnl_queue_msg_test_outdev(const struct nfnl_queue_msg *msg)
331 {
332 	return !!(msg->ce_mask & QUEUE_MSG_ATTR_OUTDEV);
333 }
334 
nfnl_queue_msg_get_outdev(const struct nfnl_queue_msg * msg)335 uint32_t nfnl_queue_msg_get_outdev(const struct nfnl_queue_msg *msg)
336 {
337 	return msg->queue_msg_outdev;
338 }
339 
nfnl_queue_msg_set_physindev(struct nfnl_queue_msg * msg,uint32_t physindev)340 void nfnl_queue_msg_set_physindev(struct nfnl_queue_msg *msg,
341 				  uint32_t physindev)
342 {
343 	msg->queue_msg_physindev = physindev;
344 	msg->ce_mask |= QUEUE_MSG_ATTR_PHYSINDEV;
345 }
346 
nfnl_queue_msg_test_physindev(const struct nfnl_queue_msg * msg)347 int nfnl_queue_msg_test_physindev(const struct nfnl_queue_msg *msg)
348 {
349 	return !!(msg->ce_mask & QUEUE_MSG_ATTR_PHYSINDEV);
350 }
351 
nfnl_queue_msg_get_physindev(const struct nfnl_queue_msg * msg)352 uint32_t nfnl_queue_msg_get_physindev(const struct nfnl_queue_msg *msg)
353 {
354 	return msg->queue_msg_physindev;
355 }
356 
nfnl_queue_msg_set_physoutdev(struct nfnl_queue_msg * msg,uint32_t physoutdev)357 void nfnl_queue_msg_set_physoutdev(struct nfnl_queue_msg *msg,
358 				   uint32_t physoutdev)
359 {
360 	msg->queue_msg_physoutdev = physoutdev;
361 	msg->ce_mask |= QUEUE_MSG_ATTR_PHYSOUTDEV;
362 }
363 
nfnl_queue_msg_test_physoutdev(const struct nfnl_queue_msg * msg)364 int nfnl_queue_msg_test_physoutdev(const struct nfnl_queue_msg *msg)
365 {
366 	return !!(msg->ce_mask & QUEUE_MSG_ATTR_PHYSOUTDEV);
367 }
368 
nfnl_queue_msg_get_physoutdev(const struct nfnl_queue_msg * msg)369 uint32_t nfnl_queue_msg_get_physoutdev(const struct nfnl_queue_msg *msg)
370 {
371 	return msg->queue_msg_physoutdev;
372 }
373 
nfnl_queue_msg_set_hwaddr(struct nfnl_queue_msg * msg,uint8_t * hwaddr,int len)374 void nfnl_queue_msg_set_hwaddr(struct nfnl_queue_msg *msg, uint8_t *hwaddr,
375 			       int len)
376 {
377 	if (len > sizeof(msg->queue_msg_hwaddr))
378 		len = sizeof(msg->queue_msg_hwaddr);
379 
380 	msg->queue_msg_hwaddr_len = len;
381 	memcpy(msg->queue_msg_hwaddr, hwaddr, len);
382 	msg->ce_mask |= QUEUE_MSG_ATTR_HWADDR;
383 }
384 
nfnl_queue_msg_test_hwaddr(const struct nfnl_queue_msg * msg)385 int nfnl_queue_msg_test_hwaddr(const struct nfnl_queue_msg *msg)
386 {
387 	return !!(msg->ce_mask & QUEUE_MSG_ATTR_HWADDR);
388 }
389 
nfnl_queue_msg_get_hwaddr(const struct nfnl_queue_msg * msg,int * len)390 const uint8_t *nfnl_queue_msg_get_hwaddr(const struct nfnl_queue_msg *msg,
391 					 int *len)
392 {
393 	if (!(msg->ce_mask & QUEUE_MSG_ATTR_HWADDR)) {
394 		*len = 0;
395 		return NULL;
396 	}
397 
398 	*len = msg->queue_msg_hwaddr_len;
399 	return msg->queue_msg_hwaddr;
400 }
401 
nfnl_queue_msg_set_payload(struct nfnl_queue_msg * msg,uint8_t * payload,int len)402 int nfnl_queue_msg_set_payload(struct nfnl_queue_msg *msg, uint8_t *payload,
403 			       int len)
404 {
405 	free(msg->queue_msg_payload);
406 	msg->queue_msg_payload = malloc(len);
407 	if (!msg->queue_msg_payload)
408 		return -NLE_NOMEM;
409 
410 	memcpy(msg->queue_msg_payload, payload, len);
411 	msg->queue_msg_payload_len = len;
412 	msg->ce_mask |= QUEUE_MSG_ATTR_PAYLOAD;
413 	return 0;
414 }
415 
nfnl_queue_msg_test_payload(const struct nfnl_queue_msg * msg)416 int nfnl_queue_msg_test_payload(const struct nfnl_queue_msg *msg)
417 {
418 	return !!(msg->ce_mask & QUEUE_MSG_ATTR_PAYLOAD);
419 }
420 
nfnl_queue_msg_get_payload(const struct nfnl_queue_msg * msg,int * len)421 const void *nfnl_queue_msg_get_payload(const struct nfnl_queue_msg *msg, int *len)
422 {
423 	if (!(msg->ce_mask & QUEUE_MSG_ATTR_PAYLOAD)) {
424 		*len = 0;
425 		return NULL;
426 	}
427 
428 	*len = msg->queue_msg_payload_len;
429 	return msg->queue_msg_payload;
430 }
431 
432 /**
433 * Return the number of items matching a filter in the cache
434 * @arg msg        queue msg
435 * @arg verdict    NF_DROP, NF_ACCEPT, NF_REPEAT, etc
436 */
nfnl_queue_msg_set_verdict(struct nfnl_queue_msg * msg,unsigned int verdict)437 void nfnl_queue_msg_set_verdict(struct nfnl_queue_msg *msg,
438 				unsigned int verdict)
439 {
440 	msg->queue_msg_verdict = verdict;
441 	msg->ce_mask |= QUEUE_MSG_ATTR_VERDICT;
442 }
443 
nfnl_queue_msg_test_verdict(const struct nfnl_queue_msg * msg)444 int nfnl_queue_msg_test_verdict(const struct nfnl_queue_msg *msg)
445 {
446 	return !!(msg->ce_mask & QUEUE_MSG_ATTR_VERDICT);
447 }
448 
nfnl_queue_msg_get_verdict(const struct nfnl_queue_msg * msg)449 unsigned int nfnl_queue_msg_get_verdict(const struct nfnl_queue_msg *msg)
450 {
451 	return msg->queue_msg_verdict;
452 }
453 
454 static struct trans_tbl nfnl_queue_msg_attrs[] = {
455 	__ADD(QUEUE_MSG_ATTR_GROUP,		group)
456 	__ADD(QUEUE_MSG_ATTR_FAMILY,		family)
457 	__ADD(QUEUE_MSG_ATTR_PACKETID,		packetid)
458 	__ADD(QUEUE_MSG_ATTR_HWPROTO,		hwproto)
459 	__ADD(QUEUE_MSG_ATTR_HOOK,		hook)
460 	__ADD(QUEUE_MSG_ATTR_MARK,		mark)
461 	__ADD(QUEUE_MSG_ATTR_TIMESTAMP,		timestamp)
462 	__ADD(QUEUE_MSG_ATTR_INDEV,		indev)
463 	__ADD(QUEUE_MSG_ATTR_OUTDEV,		outdev)
464 	__ADD(QUEUE_MSG_ATTR_PHYSINDEV,		physindev)
465 	__ADD(QUEUE_MSG_ATTR_PHYSOUTDEV,	physoutdev)
466 	__ADD(QUEUE_MSG_ATTR_HWADDR,		hwaddr)
467 	__ADD(QUEUE_MSG_ATTR_PAYLOAD,		payload)
468 	__ADD(QUEUE_MSG_ATTR_VERDICT,		verdict)
469 };
470 
nfnl_queue_msg_attrs2str(int attrs,char * buf,size_t len)471 static char *nfnl_queue_msg_attrs2str(int attrs, char *buf, size_t len)
472 {
473 	return __flags2str(attrs, buf, len, nfnl_queue_msg_attrs,
474 			   ARRAY_SIZE(nfnl_queue_msg_attrs));
475 }
476 
477 /** @} */
478 
479 struct nl_object_ops queue_msg_obj_ops = {
480 	.oo_name		= "netfilter/queuemsg",
481 	.oo_size		= sizeof(struct nfnl_queue_msg),
482 	.oo_free_data		= nfnl_queue_msg_free_data,
483 	.oo_clone		= nfnl_queue_msg_clone,
484 	.oo_dump = {
485 	    [NL_DUMP_LINE]	= nfnl_queue_msg_dump,
486 	    [NL_DUMP_DETAILS]	= nfnl_queue_msg_dump,
487 	    [NL_DUMP_STATS]	= nfnl_queue_msg_dump,
488 	},
489 	.oo_attrs2str		= nfnl_queue_msg_attrs2str,
490 };
491 
492 /** @} */
493