libnl 3.9.0
queue_msg_obj.c
1/* SPDX-License-Identifier: LGPL-2.1-only */
2/*
3 * Copyright (c) 2007, 2008 Patrick McHardy <kaber@trash.net>
4 */
5
6#include "nl-default.h"
7
8#include <linux/netfilter.h>
9
10#include <netlink/netfilter/nfnl.h>
11#include <netlink/netfilter/netfilter.h>
12#include <netlink/netfilter/queue_msg.h>
13#include <netlink/route/link.h>
14
15#include "nl-netfilter.h"
16#include "nl-priv-dynamic-core/nl-core.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
35static 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
45static 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 dst->queue_msg_payload = NULL;
52 dst->queue_msg_payload_len = 0;
53
54 if (src->queue_msg_payload) {
55 err = nfnl_queue_msg_set_payload(dst, src->queue_msg_payload,
56 src->queue_msg_payload_len);
57 if (err < 0)
58 return err;
59 }
60
61 return 0;
62}
63
64static void nfnl_queue_msg_dump(struct nl_object *a, struct nl_dump_params *p)
65{
66 struct nfnl_queue_msg *msg = (struct nfnl_queue_msg *) a;
67 struct nl_cache *link_cache;
68 char buf[64];
69
70 link_cache = nl_cache_mngt_require_safe("route/link");
71
72 nl_new_line(p);
73
74 if (msg->ce_mask & QUEUE_MSG_ATTR_GROUP)
75 nl_dump(p, "GROUP=%u ", msg->queue_msg_group);
76
77 if (msg->ce_mask & QUEUE_MSG_ATTR_INDEV) {
78 if (link_cache)
79 nl_dump(p, "IN=%s ",
80 rtnl_link_i2name(link_cache,
81 msg->queue_msg_indev,
82 buf, sizeof(buf)));
83 else
84 nl_dump(p, "IN=%d ", msg->queue_msg_indev);
85 }
86
87 if (msg->ce_mask & QUEUE_MSG_ATTR_PHYSINDEV) {
88 if (link_cache)
89 nl_dump(p, "PHYSIN=%s ",
90 rtnl_link_i2name(link_cache,
91 msg->queue_msg_physindev,
92 buf, sizeof(buf)));
93 else
94 nl_dump(p, "IN=%d ", msg->queue_msg_physindev);
95 }
96
97 if (msg->ce_mask & QUEUE_MSG_ATTR_OUTDEV) {
98 if (link_cache)
99 nl_dump(p, "OUT=%s ",
100 rtnl_link_i2name(link_cache,
101 msg->queue_msg_outdev,
102 buf, sizeof(buf)));
103 else
104 nl_dump(p, "OUT=%d ", msg->queue_msg_outdev);
105 }
106
107 if (msg->ce_mask & QUEUE_MSG_ATTR_PHYSOUTDEV) {
108 if (link_cache)
109 nl_dump(p, "PHYSOUT=%s ",
110 rtnl_link_i2name(link_cache,
111 msg->queue_msg_physoutdev,
112 buf, sizeof(buf)));
113 else
114 nl_dump(p, "PHYSOUT=%d ", msg->queue_msg_physoutdev);
115 }
116
117 if (msg->ce_mask & QUEUE_MSG_ATTR_HWADDR) {
118 int i;
119
120 nl_dump(p, "MAC");
121 for (i = 0; i < msg->queue_msg_hwaddr_len; i++)
122 nl_dump(p, "%c%02x", i?':':'=',
123 msg->queue_msg_hwaddr[i]);
124 nl_dump(p, " ");
125 }
126
127 if (msg->ce_mask & QUEUE_MSG_ATTR_FAMILY)
128 nl_dump(p, "FAMILY=%s ",
129 nl_af2str(msg->queue_msg_family, buf, sizeof(buf)));
130
131 if (msg->ce_mask & QUEUE_MSG_ATTR_HWPROTO)
132 nl_dump(p, "HWPROTO=%s ",
133 nl_ether_proto2str(ntohs(msg->queue_msg_hwproto),
134 buf, sizeof(buf)));
135
136 if (msg->ce_mask & QUEUE_MSG_ATTR_HOOK)
137 nl_dump(p, "HOOK=%s ",
138 nfnl_inet_hook2str(msg->queue_msg_hook,
139 buf, sizeof(buf)));
140
141 if (msg->ce_mask & QUEUE_MSG_ATTR_MARK)
142 nl_dump(p, "MARK=%d ", msg->queue_msg_mark);
143
144 if (msg->ce_mask & QUEUE_MSG_ATTR_PAYLOAD)
145 nl_dump(p, "PAYLOADLEN=%d ", msg->queue_msg_payload_len);
146
147 if (msg->ce_mask & QUEUE_MSG_ATTR_PACKETID)
148 nl_dump(p, "PACKETID=%u ", msg->queue_msg_packetid);
149
150 if (msg->ce_mask & QUEUE_MSG_ATTR_VERDICT)
151 nl_dump(p, "VERDICT=%s ",
152 nfnl_verdict2str(msg->queue_msg_verdict,
153 buf, sizeof(buf)));
154
155 nl_dump(p, "\n");
156
157 if (link_cache)
158 nl_cache_put(link_cache);
159}
160
161/**
162 * @name Allocation/Freeing
163 * @{
164 */
165
166struct nfnl_queue_msg *nfnl_queue_msg_alloc(void)
167{
168 return (struct nfnl_queue_msg *) nl_object_alloc(&queue_msg_obj_ops);
169}
170
171void nfnl_queue_msg_get(struct nfnl_queue_msg *msg)
172{
173 nl_object_get((struct nl_object *) msg);
174}
175
176void nfnl_queue_msg_put(struct nfnl_queue_msg *msg)
177{
178 nl_object_put((struct nl_object *) msg);
179}
180
181/** @} */
182
183/**
184 * @name Attributes
185 * @{
186 */
187
188void nfnl_queue_msg_set_group(struct nfnl_queue_msg *msg, uint16_t group)
189{
190 msg->queue_msg_group = group;
191 msg->ce_mask |= QUEUE_MSG_ATTR_GROUP;
192}
193
194int nfnl_queue_msg_test_group(const struct nfnl_queue_msg *msg)
195{
196 return !!(msg->ce_mask & QUEUE_MSG_ATTR_GROUP);
197}
198
199uint16_t nfnl_queue_msg_get_group(const struct nfnl_queue_msg *msg)
200{
201 return msg->queue_msg_group;
202}
203
204/**
205* Set the protocol family
206* @arg msg NF queue message
207* @arg family AF_XXX address family example: AF_INET, AF_UNIX, etc
208*/
209void nfnl_queue_msg_set_family(struct nfnl_queue_msg *msg, uint8_t family)
210{
211 msg->queue_msg_family = family;
212 msg->ce_mask |= QUEUE_MSG_ATTR_FAMILY;
213}
214
215int nfnl_queue_msg_test_family(const struct nfnl_queue_msg *msg)
216{
217 return !!(msg->ce_mask & QUEUE_MSG_ATTR_FAMILY);
218}
219
220uint8_t nfnl_queue_msg_get_family(const struct nfnl_queue_msg *msg)
221{
222 if (msg->ce_mask & QUEUE_MSG_ATTR_FAMILY)
223 return msg->queue_msg_family;
224 else
225 return AF_UNSPEC;
226}
227
228void nfnl_queue_msg_set_packetid(struct nfnl_queue_msg *msg, uint32_t packetid)
229{
230 msg->queue_msg_packetid = packetid;
231 msg->ce_mask |= QUEUE_MSG_ATTR_PACKETID;
232}
233
234int nfnl_queue_msg_test_packetid(const struct nfnl_queue_msg *msg)
235{
236 return !!(msg->ce_mask & QUEUE_MSG_ATTR_PACKETID);
237}
238
239uint32_t nfnl_queue_msg_get_packetid(const struct nfnl_queue_msg *msg)
240{
241 return msg->queue_msg_packetid;
242}
243
244void nfnl_queue_msg_set_hwproto(struct nfnl_queue_msg *msg, uint16_t hwproto)
245{
246 msg->queue_msg_hwproto = hwproto;
247 msg->ce_mask |= QUEUE_MSG_ATTR_HWPROTO;
248}
249
250int nfnl_queue_msg_test_hwproto(const struct nfnl_queue_msg *msg)
251{
252 return !!(msg->ce_mask & QUEUE_MSG_ATTR_HWPROTO);
253}
254
255uint16_t nfnl_queue_msg_get_hwproto(const struct nfnl_queue_msg *msg)
256{
257 return msg->queue_msg_hwproto;
258}
259
260void nfnl_queue_msg_set_hook(struct nfnl_queue_msg *msg, uint8_t hook)
261{
262 msg->queue_msg_hook = hook;
263 msg->ce_mask |= QUEUE_MSG_ATTR_HOOK;
264}
265
266int nfnl_queue_msg_test_hook(const struct nfnl_queue_msg *msg)
267{
268 return !!(msg->ce_mask & QUEUE_MSG_ATTR_HOOK);
269}
270
271uint8_t nfnl_queue_msg_get_hook(const struct nfnl_queue_msg *msg)
272{
273 return msg->queue_msg_hook;
274}
275
276void nfnl_queue_msg_set_mark(struct nfnl_queue_msg *msg, uint32_t mark)
277{
278 msg->queue_msg_mark = mark;
279 msg->ce_mask |= QUEUE_MSG_ATTR_MARK;
280}
281
282int nfnl_queue_msg_test_mark(const struct nfnl_queue_msg *msg)
283{
284 return !!(msg->ce_mask & QUEUE_MSG_ATTR_MARK);
285}
286
287uint32_t nfnl_queue_msg_get_mark(const struct nfnl_queue_msg *msg)
288{
289 return msg->queue_msg_mark;
290}
291
292void nfnl_queue_msg_set_timestamp(struct nfnl_queue_msg *msg,
293 struct timeval *tv)
294{
295 msg->queue_msg_timestamp.tv_sec = tv->tv_sec;
296 msg->queue_msg_timestamp.tv_usec = tv->tv_usec;
297 msg->ce_mask |= QUEUE_MSG_ATTR_TIMESTAMP;
298}
299
300int nfnl_queue_msg_test_timestamp(const struct nfnl_queue_msg *msg)
301{
302 return !!(msg->ce_mask & QUEUE_MSG_ATTR_TIMESTAMP);
303}
304
305const struct timeval *nfnl_queue_msg_get_timestamp(const struct nfnl_queue_msg *msg)
306{
307 if (!(msg->ce_mask & QUEUE_MSG_ATTR_TIMESTAMP))
308 return NULL;
309 return &msg->queue_msg_timestamp;
310}
311
312void nfnl_queue_msg_set_indev(struct nfnl_queue_msg *msg, uint32_t indev)
313{
314 msg->queue_msg_indev = indev;
315 msg->ce_mask |= QUEUE_MSG_ATTR_INDEV;
316}
317
318int nfnl_queue_msg_test_indev(const struct nfnl_queue_msg *msg)
319{
320 return !!(msg->ce_mask & QUEUE_MSG_ATTR_INDEV);
321}
322
323uint32_t nfnl_queue_msg_get_indev(const struct nfnl_queue_msg *msg)
324{
325 return msg->queue_msg_indev;
326}
327
328void nfnl_queue_msg_set_outdev(struct nfnl_queue_msg *msg, uint32_t outdev)
329{
330 msg->queue_msg_outdev = outdev;
331 msg->ce_mask |= QUEUE_MSG_ATTR_OUTDEV;
332}
333
334int nfnl_queue_msg_test_outdev(const struct nfnl_queue_msg *msg)
335{
336 return !!(msg->ce_mask & QUEUE_MSG_ATTR_OUTDEV);
337}
338
339uint32_t nfnl_queue_msg_get_outdev(const struct nfnl_queue_msg *msg)
340{
341 return msg->queue_msg_outdev;
342}
343
344void nfnl_queue_msg_set_physindev(struct nfnl_queue_msg *msg,
345 uint32_t physindev)
346{
347 msg->queue_msg_physindev = physindev;
348 msg->ce_mask |= QUEUE_MSG_ATTR_PHYSINDEV;
349}
350
351int nfnl_queue_msg_test_physindev(const struct nfnl_queue_msg *msg)
352{
353 return !!(msg->ce_mask & QUEUE_MSG_ATTR_PHYSINDEV);
354}
355
356uint32_t nfnl_queue_msg_get_physindev(const struct nfnl_queue_msg *msg)
357{
358 return msg->queue_msg_physindev;
359}
360
361void nfnl_queue_msg_set_physoutdev(struct nfnl_queue_msg *msg,
362 uint32_t physoutdev)
363{
364 msg->queue_msg_physoutdev = physoutdev;
365 msg->ce_mask |= QUEUE_MSG_ATTR_PHYSOUTDEV;
366}
367
368int nfnl_queue_msg_test_physoutdev(const struct nfnl_queue_msg *msg)
369{
370 return !!(msg->ce_mask & QUEUE_MSG_ATTR_PHYSOUTDEV);
371}
372
373uint32_t nfnl_queue_msg_get_physoutdev(const struct nfnl_queue_msg *msg)
374{
375 return msg->queue_msg_physoutdev;
376}
377
378void nfnl_queue_msg_set_hwaddr(struct nfnl_queue_msg *msg, uint8_t *hwaddr,
379 int len)
380{
381 if (len > sizeof(msg->queue_msg_hwaddr))
382 len = sizeof(msg->queue_msg_hwaddr);
383
384 msg->queue_msg_hwaddr_len = len;
385 memcpy(msg->queue_msg_hwaddr, hwaddr, len);
386 msg->ce_mask |= QUEUE_MSG_ATTR_HWADDR;
387}
388
389int nfnl_queue_msg_test_hwaddr(const struct nfnl_queue_msg *msg)
390{
391 return !!(msg->ce_mask & QUEUE_MSG_ATTR_HWADDR);
392}
393
394const uint8_t *nfnl_queue_msg_get_hwaddr(const struct nfnl_queue_msg *msg,
395 int *len)
396{
397 if (!(msg->ce_mask & QUEUE_MSG_ATTR_HWADDR)) {
398 *len = 0;
399 return NULL;
400 }
401
402 *len = msg->queue_msg_hwaddr_len;
403 return msg->queue_msg_hwaddr;
404}
405
406int nfnl_queue_msg_set_payload(struct nfnl_queue_msg *msg, uint8_t *payload,
407 int len)
408{
409 void *p = NULL;
410
411 if (len < 0)
412 return -NLE_INVAL;
413
414 p = _nl_memdup(payload, len);
415 if (!p && len > 0)
416 return -NLE_NOMEM;
417
418 free(msg->queue_msg_payload);
419 msg->queue_msg_payload = p;
420 msg->queue_msg_payload_len = len;
421 if (len > 0)
422 msg->ce_mask |= QUEUE_MSG_ATTR_PAYLOAD;
423 else
424 msg->ce_mask &= ~QUEUE_MSG_ATTR_PAYLOAD;
425 return 0;
426}
427
428int nfnl_queue_msg_test_payload(const struct nfnl_queue_msg *msg)
429{
430 return !!(msg->ce_mask & QUEUE_MSG_ATTR_PAYLOAD);
431}
432
433const void *nfnl_queue_msg_get_payload(const struct nfnl_queue_msg *msg, int *len)
434{
435 if (!(msg->ce_mask & QUEUE_MSG_ATTR_PAYLOAD)) {
436 *len = 0;
437 return NULL;
438 }
439
440 *len = msg->queue_msg_payload_len;
441 return msg->queue_msg_payload;
442}
443
444/**
445* Return the number of items matching a filter in the cache
446* @arg msg queue msg
447* @arg verdict NF_DROP, NF_ACCEPT, NF_REPEAT, etc
448*/
449void nfnl_queue_msg_set_verdict(struct nfnl_queue_msg *msg,
450 unsigned int verdict)
451{
452 msg->queue_msg_verdict = verdict;
453 msg->ce_mask |= QUEUE_MSG_ATTR_VERDICT;
454}
455
456int nfnl_queue_msg_test_verdict(const struct nfnl_queue_msg *msg)
457{
458 return !!(msg->ce_mask & QUEUE_MSG_ATTR_VERDICT);
459}
460
461unsigned int nfnl_queue_msg_get_verdict(const struct nfnl_queue_msg *msg)
462{
463 return msg->queue_msg_verdict;
464}
465
466static const struct trans_tbl nfnl_queue_msg_attrs[] = {
467 __ADD(QUEUE_MSG_ATTR_GROUP, group),
468 __ADD(QUEUE_MSG_ATTR_FAMILY, family),
469 __ADD(QUEUE_MSG_ATTR_PACKETID, packetid),
470 __ADD(QUEUE_MSG_ATTR_HWPROTO, hwproto),
471 __ADD(QUEUE_MSG_ATTR_HOOK, hook),
472 __ADD(QUEUE_MSG_ATTR_MARK, mark),
473 __ADD(QUEUE_MSG_ATTR_TIMESTAMP, timestamp),
474 __ADD(QUEUE_MSG_ATTR_INDEV, indev),
475 __ADD(QUEUE_MSG_ATTR_OUTDEV, outdev),
476 __ADD(QUEUE_MSG_ATTR_PHYSINDEV, physindev),
477 __ADD(QUEUE_MSG_ATTR_PHYSOUTDEV, physoutdev),
478 __ADD(QUEUE_MSG_ATTR_HWADDR, hwaddr),
479 __ADD(QUEUE_MSG_ATTR_PAYLOAD, payload),
480 __ADD(QUEUE_MSG_ATTR_VERDICT, verdict),
481};
482
483static char *nfnl_queue_msg_attrs2str(int attrs, char *buf, size_t len)
484{
485 return __flags2str(attrs, buf, len, nfnl_queue_msg_attrs,
486 ARRAY_SIZE(nfnl_queue_msg_attrs));
487}
488
489/** @} */
490
491struct nl_object_ops queue_msg_obj_ops = {
492 .oo_name = "netfilter/queuemsg",
493 .oo_size = sizeof(struct nfnl_queue_msg),
494 .oo_free_data = nfnl_queue_msg_free_data,
495 .oo_clone = nfnl_queue_msg_clone,
496 .oo_dump = {
497 [NL_DUMP_LINE] = nfnl_queue_msg_dump,
498 [NL_DUMP_DETAILS] = nfnl_queue_msg_dump,
499 [NL_DUMP_STATS] = nfnl_queue_msg_dump,
500 },
501 .oo_attrs2str = nfnl_queue_msg_attrs2str,
502};
503
504/** @} */
struct nl_cache * nl_cache_mngt_require_safe(const char *name)
Return cache previously provided via nl_cache_mngt_provide()
Definition cache_mngt.c:430
void nl_object_put(struct nl_object *obj)
Release a reference from an object.
Definition object.c:221
void nl_object_get(struct nl_object *obj)
Acquire a reference on a object.
Definition object.c:210
struct nl_object * nl_object_alloc(struct nl_object_ops *ops)
Allocate a new object of kind specified by the operations handle.
Definition object.c:55
void nl_dump(struct nl_dump_params *params, const char *fmt,...)
Dump a formatted character string.
Definition utils.c:1017
void nl_new_line(struct nl_dump_params *params)
Handle a new line while dumping.
Definition utils.c:968
@ NL_DUMP_STATS
Dump all attributes including statistics.
Definition types.h:22
@ NL_DUMP_LINE
Dump object briefly on one line.
Definition types.h:20
@ NL_DUMP_DETAILS
Dump all attributes but no statistics.
Definition types.h:21
Dumping parameters.
Definition types.h:32