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1 /*
2  * lib/route/addr.c		Addresses
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) 2003-2012 Thomas Graf <tgraf@suug.ch>
10  * Copyright (c) 2003-2006 Baruch Even <baruch@ev-en.org>,
11  *                         Mediatrix Telecom, inc. <ericb@mediatrix.com>
12  */
13 
14 /**
15  * @ingroup rtnl
16  * @defgroup rtaddr Addresses
17  * @brief
18  *
19  * @note The maximum size of an address label is IFNAMSIZ.
20  *
21  * @note The address may not contain a prefix length if the peer address
22  *       has been specified already.
23  *
24  * @par 1) Address Addition
25  * @code
26  * // Allocate an empty address object to be filled out with the attributes
27  * // of the new address.
28  * struct rtnl_addr *addr = rtnl_addr_alloc();
29  *
30  * // Fill out the mandatory attributes of the new address. Setting the
31  * // local address will automatically set the address family and the
32  * // prefix length to the correct values.
33  * rtnl_addr_set_ifindex(addr, ifindex);
34  * rtnl_addr_set_local(addr, local_addr);
35  *
36  * // The label of the address can be specified, currently only supported
37  * // by IPv4 and DECnet.
38  * rtnl_addr_set_label(addr, "mylabel");
39  *
40  * // The peer address can be specified if necessary, in either case a peer
41  * // address will be sent to the kernel in order to fullfil the interface
42  * // requirements. If none is set, it will equal the local address.
43  * // Note: Real peer addresses are only supported by IPv4 for now.
44  * rtnl_addr_set_peer(addr, peer_addr);
45  *
46  * // In case you want to have the address have a scope other than global
47  * // it may be overwritten using rtnl_addr_set_scope(). The scope currently
48  * // cannot be set for IPv6 addresses.
49  * rtnl_addr_set_scope(addr, rtnl_str2scope("site"));
50  *
51  * // Broadcast address may be specified using the relevant
52  * // functions, the address family will be verified if one of the other
53  * // addresses has been set already. Currently only works for IPv4.
54  * rtnl_addr_set_broadcast(addr, broadcast_addr);
55  *
56  * // Build the netlink message and send it to the kernel, the operation will
57  * // block until the operation has been completed. Alternatively the required
58  * // netlink message can be built using rtnl_addr_build_add_request() to be
59  * // sent out using nl_send_auto_complete().
60  * rtnl_addr_add(sk, addr, 0);
61  *
62  * // Free the memory
63  * rtnl_addr_put(addr);
64  * @endcode
65  *
66  * @par 2) Address Deletion
67  * @code
68  * // Allocate an empty address object to be filled out with the attributes
69  * // matching the address to be deleted. Alternatively a fully equipped
70  * // address object out of a cache can be used instead.
71  * struct rtnl_addr *addr = rtnl_addr_alloc();
72  *
73  * // The only mandatory parameter besides the address family is the interface
74  * // index the address is on, i.e. leaving out all other parameters will
75  * // result in all addresses of the specified address family interface tuple
76  * // to be deleted.
77  * rtnl_addr_set_ifindex(addr, ifindex);
78  *
79  * // Specyfing the address family manually is only required if neither the
80  * // local nor peer address have been specified.
81  * rtnl_addr_set_family(addr, AF_INET);
82  *
83  * // Specyfing the local address is optional but the best choice to delete
84  * // specific addresses.
85  * rtnl_addr_set_local(addr, local_addr);
86  *
87  * // The label of the address can be specified, currently only supported
88  * // by IPv4 and DECnet.
89  * rtnl_addr_set_label(addr, "mylabel");
90  *
91  * // The peer address can be specified if necessary, in either case a peer
92  * // address will be sent to the kernel in order to fullfil the interface
93  * // requirements. If none is set, it will equal the local address.
94  * // Note: Real peer addresses are only supported by IPv4 for now.
95  * rtnl_addr_set_peer(addr, peer_addr);
96  *
97  * // Build the netlink message and send it to the kernel, the operation will
98  * // block until the operation has been completed. Alternatively the required
99  * // netlink message can be built using rtnl_addr_build_delete_request()
100  * // to be sent out using nl_send_auto_complete().
101  * rtnl_addr_delete(sk, addr, 0);
102  *
103  * // Free the memory
104  * rtnl_addr_put(addr);
105  * @endcode
106  * @{
107  */
108 
109 #include <netlink-private/netlink.h>
110 #include <netlink/netlink.h>
111 #include <netlink/route/rtnl.h>
112 #include <netlink/route/addr.h>
113 #include <netlink/route/route.h>
114 #include <netlink/route/link.h>
115 #include <netlink/utils.h>
116 
117 /** @cond SKIP */
118 #define ADDR_ATTR_FAMILY	0x0001
119 #define ADDR_ATTR_PREFIXLEN	0x0002
120 #define ADDR_ATTR_FLAGS		0x0004
121 #define ADDR_ATTR_SCOPE		0x0008
122 #define ADDR_ATTR_IFINDEX	0x0010
123 #define ADDR_ATTR_LABEL		0x0020
124 #define ADDR_ATTR_CACHEINFO	0x0040
125 #define ADDR_ATTR_PEER		0x0080
126 #define ADDR_ATTR_LOCAL		0x0100
127 #define ADDR_ATTR_BROADCAST	0x0200
128 #define ADDR_ATTR_MULTICAST	0x0400
129 #define ADDR_ATTR_ANYCAST	0x0800
130 
131 static struct nl_cache_ops rtnl_addr_ops;
132 static struct nl_object_ops addr_obj_ops;
133 /** @endcond */
134 
addr_constructor(struct nl_object * obj)135 static void addr_constructor(struct nl_object *obj)
136 {
137 	struct rtnl_addr *addr = nl_object_priv(obj);
138 
139 	addr->a_scope = RT_SCOPE_NOWHERE;
140 }
141 
addr_free_data(struct nl_object * obj)142 static void addr_free_data(struct nl_object *obj)
143 {
144 	struct rtnl_addr *addr = nl_object_priv(obj);
145 
146 	if (!addr)
147 		return;
148 
149 	nl_addr_put(addr->a_peer);
150 	nl_addr_put(addr->a_local);
151 	nl_addr_put(addr->a_bcast);
152 	nl_addr_put(addr->a_multicast);
153 	nl_addr_put(addr->a_anycast);
154 	rtnl_link_put(addr->a_link);
155 }
156 
addr_clone(struct nl_object * _dst,struct nl_object * _src)157 static int addr_clone(struct nl_object *_dst, struct nl_object *_src)
158 {
159 	struct rtnl_addr *dst = nl_object_priv(_dst);
160 	struct rtnl_addr *src = nl_object_priv(_src);
161 
162 	if (src->a_link) {
163 		nl_object_get(OBJ_CAST(src->a_link));
164 		dst->a_link = src->a_link;
165 	}
166 
167 	if (src->a_peer)
168 		if (!(dst->a_peer = nl_addr_clone(src->a_peer)))
169 			return -NLE_NOMEM;
170 
171 	if (src->a_local)
172 		if (!(dst->a_local = nl_addr_clone(src->a_local)))
173 			return -NLE_NOMEM;
174 
175 	if (src->a_bcast)
176 		if (!(dst->a_bcast = nl_addr_clone(src->a_bcast)))
177 			return -NLE_NOMEM;
178 
179 	if (src->a_multicast)
180 		if (!(dst->a_multicast = nl_addr_clone(src->a_multicast)))
181 			return -NLE_NOMEM;
182 
183 	if (src->a_anycast)
184 		if (!(dst->a_anycast = nl_addr_clone(src->a_anycast)))
185 			return -NLE_NOMEM;
186 
187 	return 0;
188 }
189 
190 static struct nla_policy addr_policy[IFA_MAX+1] = {
191 	[IFA_LABEL]	= { .type = NLA_STRING,
192 			    .maxlen = IFNAMSIZ },
193 	[IFA_CACHEINFO]	= { .minlen = sizeof(struct ifa_cacheinfo) },
194 };
195 
addr_msg_parser(struct nl_cache_ops * ops,struct sockaddr_nl * who,struct nlmsghdr * nlh,struct nl_parser_param * pp)196 static int addr_msg_parser(struct nl_cache_ops *ops, struct sockaddr_nl *who,
197 			   struct nlmsghdr *nlh, struct nl_parser_param *pp)
198 {
199 	struct rtnl_addr *addr;
200 	struct ifaddrmsg *ifa;
201 	struct nlattr *tb[IFA_MAX+1];
202 	int err, family;
203 	struct nl_cache *link_cache;
204 	struct nl_addr *plen_addr = NULL;
205 
206 	addr = rtnl_addr_alloc();
207 	if (!addr)
208 		return -NLE_NOMEM;
209 
210 	addr->ce_msgtype = nlh->nlmsg_type;
211 
212 	err = nlmsg_parse(nlh, sizeof(*ifa), tb, IFA_MAX, addr_policy);
213 	if (err < 0)
214 		goto errout;
215 
216 	ifa = nlmsg_data(nlh);
217 	addr->a_family = family = ifa->ifa_family;
218 	addr->a_prefixlen = ifa->ifa_prefixlen;
219 	addr->a_scope = ifa->ifa_scope;
220 	addr->a_flags = tb[IFA_FLAGS] ? nla_get_u32(tb[IFA_FLAGS]) :
221 					ifa->ifa_flags;
222 	addr->a_ifindex = ifa->ifa_index;
223 
224 	addr->ce_mask = (ADDR_ATTR_FAMILY | ADDR_ATTR_PREFIXLEN |
225 			 ADDR_ATTR_FLAGS | ADDR_ATTR_SCOPE | ADDR_ATTR_IFINDEX);
226 
227 	if (tb[IFA_LABEL]) {
228 		nla_strlcpy(addr->a_label, tb[IFA_LABEL], IFNAMSIZ);
229 		addr->ce_mask |= ADDR_ATTR_LABEL;
230 	}
231 
232 	/* IPv6 only */
233 	if (tb[IFA_CACHEINFO]) {
234 		struct ifa_cacheinfo *ca;
235 
236 		ca = nla_data(tb[IFA_CACHEINFO]);
237 		addr->a_cacheinfo.aci_prefered = ca->ifa_prefered;
238 		addr->a_cacheinfo.aci_valid = ca->ifa_valid;
239 		addr->a_cacheinfo.aci_cstamp = ca->cstamp;
240 		addr->a_cacheinfo.aci_tstamp = ca->tstamp;
241 		addr->ce_mask |= ADDR_ATTR_CACHEINFO;
242 	}
243 
244 	if (tb[IFA_LOCAL]) {
245 		addr->a_local = nl_addr_alloc_attr(tb[IFA_LOCAL], family);
246 		if (!addr->a_local)
247 			goto errout_nomem;
248 		addr->ce_mask |= ADDR_ATTR_LOCAL;
249 		plen_addr = addr->a_local;
250 	}
251 
252 	if (tb[IFA_ADDRESS]) {
253 		struct nl_addr *a;
254 
255 		a = nl_addr_alloc_attr(tb[IFA_ADDRESS], family);
256 		if (!a)
257 			goto errout_nomem;
258 
259 		/* IPv6 sends the local address as IFA_ADDRESS with
260 		 * no IFA_LOCAL, IPv4 sends both IFA_LOCAL and IFA_ADDRESS
261 		 * with IFA_ADDRESS being the peer address if they differ */
262 		if (!tb[IFA_LOCAL] || !nl_addr_cmp(a, addr->a_local)) {
263 			nl_addr_put(addr->a_local);
264 			addr->a_local = a;
265 			addr->ce_mask |= ADDR_ATTR_LOCAL;
266 		} else {
267 			addr->a_peer = a;
268 			addr->ce_mask |= ADDR_ATTR_PEER;
269 		}
270 
271 		plen_addr = a;
272 	}
273 
274 	if (plen_addr)
275 		nl_addr_set_prefixlen(plen_addr, addr->a_prefixlen);
276 
277 	/* IPv4 only */
278 	if (tb[IFA_BROADCAST]) {
279 		addr->a_bcast = nl_addr_alloc_attr(tb[IFA_BROADCAST], family);
280 		if (!addr->a_bcast)
281 			goto errout_nomem;
282 
283 		addr->ce_mask |= ADDR_ATTR_BROADCAST;
284 	}
285 
286 	/* IPv6 only */
287 	if (tb[IFA_MULTICAST]) {
288 		addr->a_multicast = nl_addr_alloc_attr(tb[IFA_MULTICAST],
289 						       family);
290 		if (!addr->a_multicast)
291 			goto errout_nomem;
292 
293 		addr->ce_mask |= ADDR_ATTR_MULTICAST;
294 	}
295 
296 	/* IPv6 only */
297 	if (tb[IFA_ANYCAST]) {
298 		addr->a_anycast = nl_addr_alloc_attr(tb[IFA_ANYCAST],
299 						       family);
300 		if (!addr->a_anycast)
301 			goto errout_nomem;
302 
303 		addr->ce_mask |= ADDR_ATTR_ANYCAST;
304 	}
305 
306 	if ((link_cache = __nl_cache_mngt_require("route/link"))) {
307 		struct rtnl_link *link;
308 
309 		if ((link = rtnl_link_get(link_cache, addr->a_ifindex))) {
310 			rtnl_addr_set_link(addr, link);
311 
312 			/* rtnl_addr_set_link incs refcnt */
313 			rtnl_link_put(link);
314 		}
315 	}
316 
317 	err = pp->pp_cb((struct nl_object *) addr, pp);
318 errout:
319 	rtnl_addr_put(addr);
320 
321 	return err;
322 
323 errout_nomem:
324 	err = -NLE_NOMEM;
325 	goto errout;
326 }
327 
addr_request_update(struct nl_cache * cache,struct nl_sock * sk)328 static int addr_request_update(struct nl_cache *cache, struct nl_sock *sk)
329 {
330 	return nl_rtgen_request(sk, RTM_GETADDR, AF_UNSPEC, NLM_F_DUMP);
331 }
332 
addr_dump_line(struct nl_object * obj,struct nl_dump_params * p)333 static void addr_dump_line(struct nl_object *obj, struct nl_dump_params *p)
334 {
335 	struct rtnl_addr *addr = (struct rtnl_addr *) obj;
336 	struct nl_cache *link_cache;
337 	char buf[128];
338 
339 	link_cache = nl_cache_mngt_require_safe("route/link");
340 
341 	if (addr->ce_mask & ADDR_ATTR_LOCAL)
342 		nl_dump_line(p, "%s",
343 			nl_addr2str(addr->a_local, buf, sizeof(buf)));
344 	else
345 		nl_dump_line(p, "none");
346 
347 	if (addr->ce_mask & ADDR_ATTR_PEER)
348 		nl_dump(p, " peer %s",
349 			nl_addr2str(addr->a_peer, buf, sizeof(buf)));
350 
351 	nl_dump(p, " %s ", nl_af2str(addr->a_family, buf, sizeof(buf)));
352 
353 	if (link_cache)
354 		nl_dump(p, "dev %s ",
355 			rtnl_link_i2name(link_cache, addr->a_ifindex,
356 					 buf, sizeof(buf)));
357 	else
358 		nl_dump(p, "dev %d ", addr->a_ifindex);
359 
360 	nl_dump(p, "scope %s",
361 		rtnl_scope2str(addr->a_scope, buf, sizeof(buf)));
362 
363 	rtnl_addr_flags2str(addr->a_flags, buf, sizeof(buf));
364 	if (buf[0])
365 		nl_dump(p, " <%s>", buf);
366 
367 	nl_dump(p, "\n");
368 
369 	if (link_cache)
370 		nl_cache_put(link_cache);
371 }
372 
addr_dump_details(struct nl_object * obj,struct nl_dump_params * p)373 static void addr_dump_details(struct nl_object *obj, struct nl_dump_params *p)
374 {
375 	struct rtnl_addr *addr = (struct rtnl_addr *) obj;
376 	char buf[128];
377 
378 	addr_dump_line(obj, p);
379 
380 	if (addr->ce_mask & (ADDR_ATTR_LABEL | ADDR_ATTR_BROADCAST |
381 			     ADDR_ATTR_MULTICAST)) {
382 		nl_dump_line(p, "  ");
383 
384 		if (addr->ce_mask & ADDR_ATTR_LABEL)
385 			nl_dump(p, " label %s", addr->a_label);
386 
387 		if (addr->ce_mask & ADDR_ATTR_BROADCAST)
388 			nl_dump(p, " broadcast %s",
389 				nl_addr2str(addr->a_bcast, buf, sizeof(buf)));
390 
391 		if (addr->ce_mask & ADDR_ATTR_MULTICAST)
392 			nl_dump(p, " multicast %s",
393 				nl_addr2str(addr->a_multicast, buf,
394 					      sizeof(buf)));
395 
396 		if (addr->ce_mask & ADDR_ATTR_ANYCAST)
397 			nl_dump(p, " anycast %s",
398 				nl_addr2str(addr->a_anycast, buf,
399 					      sizeof(buf)));
400 
401 		nl_dump(p, "\n");
402 	}
403 
404 	if (addr->ce_mask & ADDR_ATTR_CACHEINFO) {
405 		struct rtnl_addr_cacheinfo *ci = &addr->a_cacheinfo;
406 
407 		nl_dump_line(p, "   valid-lifetime %s",
408 			     ci->aci_valid == 0xFFFFFFFFU ? "forever" :
409 			     nl_msec2str(ci->aci_valid * 1000,
410 					   buf, sizeof(buf)));
411 
412 		nl_dump(p, " preferred-lifetime %s\n",
413 			ci->aci_prefered == 0xFFFFFFFFU ? "forever" :
414 			nl_msec2str(ci->aci_prefered * 1000,
415 				      buf, sizeof(buf)));
416 
417 		nl_dump_line(p, "   created boot-time+%s ",
418 			     nl_msec2str(addr->a_cacheinfo.aci_cstamp * 10,
419 					   buf, sizeof(buf)));
420 
421 		nl_dump(p, "last-updated boot-time+%s\n",
422 			nl_msec2str(addr->a_cacheinfo.aci_tstamp * 10,
423 				      buf, sizeof(buf)));
424 	}
425 }
426 
addr_dump_stats(struct nl_object * obj,struct nl_dump_params * p)427 static void addr_dump_stats(struct nl_object *obj, struct nl_dump_params *p)
428 {
429 	addr_dump_details(obj, p);
430 }
431 
addr_compare(struct nl_object * _a,struct nl_object * _b,uint32_t attrs,int flags)432 static int addr_compare(struct nl_object *_a, struct nl_object *_b,
433 			uint32_t attrs, int flags)
434 {
435 	struct rtnl_addr *a = (struct rtnl_addr *) _a;
436 	struct rtnl_addr *b = (struct rtnl_addr *) _b;
437 	int diff = 0;
438 
439 #define ADDR_DIFF(ATTR, EXPR) ATTR_DIFF(attrs, ADDR_ATTR_##ATTR, a, b, EXPR)
440 
441 	diff |= ADDR_DIFF(IFINDEX,	a->a_ifindex != b->a_ifindex);
442 	diff |= ADDR_DIFF(FAMILY,	a->a_family != b->a_family);
443 	diff |= ADDR_DIFF(SCOPE,	a->a_scope != b->a_scope);
444 	diff |= ADDR_DIFF(LABEL,	strcmp(a->a_label, b->a_label));
445 	diff |= ADDR_DIFF(PEER,		nl_addr_cmp(a->a_peer, b->a_peer));
446 	diff |= ADDR_DIFF(LOCAL,	nl_addr_cmp(a->a_local, b->a_local));
447 	diff |= ADDR_DIFF(MULTICAST,	nl_addr_cmp(a->a_multicast,
448 						    b->a_multicast));
449 	diff |= ADDR_DIFF(BROADCAST,	nl_addr_cmp(a->a_bcast, b->a_bcast));
450 	diff |= ADDR_DIFF(ANYCAST,	nl_addr_cmp(a->a_anycast, b->a_anycast));
451 
452 	if (flags & LOOSE_COMPARISON)
453 		diff |= ADDR_DIFF(FLAGS,
454 				  (a->a_flags ^ b->a_flags) & b->a_flag_mask);
455 	else
456 		diff |= ADDR_DIFF(FLAGS, a->a_flags != b->a_flags);
457 
458 #undef ADDR_DIFF
459 
460 	return diff;
461 }
462 
463 static const struct trans_tbl addr_attrs[] = {
464 	__ADD(ADDR_ATTR_FAMILY, family)
465 	__ADD(ADDR_ATTR_PREFIXLEN, prefixlen)
466 	__ADD(ADDR_ATTR_FLAGS, flags)
467 	__ADD(ADDR_ATTR_SCOPE, scope)
468 	__ADD(ADDR_ATTR_IFINDEX, ifindex)
469 	__ADD(ADDR_ATTR_LABEL, label)
470 	__ADD(ADDR_ATTR_CACHEINFO, cacheinfo)
471 	__ADD(ADDR_ATTR_PEER, peer)
472 	__ADD(ADDR_ATTR_LOCAL, local)
473 	__ADD(ADDR_ATTR_BROADCAST, broadcast)
474 	__ADD(ADDR_ATTR_MULTICAST, multicast)
475 };
476 
addr_attrs2str(int attrs,char * buf,size_t len)477 static char *addr_attrs2str(int attrs, char *buf, size_t len)
478 {
479 	return __flags2str(attrs, buf, len, addr_attrs,
480 			   ARRAY_SIZE(addr_attrs));
481 }
482 
483 /**
484  * @name Allocation/Freeing
485  * @{
486  */
487 
rtnl_addr_alloc(void)488 struct rtnl_addr *rtnl_addr_alloc(void)
489 {
490 	return (struct rtnl_addr *) nl_object_alloc(&addr_obj_ops);
491 }
492 
rtnl_addr_put(struct rtnl_addr * addr)493 void rtnl_addr_put(struct rtnl_addr *addr)
494 {
495 	nl_object_put((struct nl_object *) addr);
496 }
497 
498 /** @} */
499 
500 /**
501  * @name Cache Management
502  * @{
503  */
504 
rtnl_addr_alloc_cache(struct nl_sock * sk,struct nl_cache ** result)505 int rtnl_addr_alloc_cache(struct nl_sock *sk, struct nl_cache **result)
506 {
507 	return nl_cache_alloc_and_fill(&rtnl_addr_ops, sk, result);
508 }
509 
510 /**
511  * Search address in cache
512  * @arg cache		Address cache
513  * @arg ifindex		Interface index of address
514  * @arg addr		Local address part
515  *
516  * Searches address cache previously allocated with rtnl_addr_alloc_cache()
517  * for an address with a matching local address.
518  *
519  * The reference counter is incremented before returning the address, therefore
520  * the reference must be given back with rtnl_addr_put() after usage.
521  *
522  * @return Address object or NULL if no match was found.
523  */
rtnl_addr_get(struct nl_cache * cache,int ifindex,struct nl_addr * addr)524 struct rtnl_addr *rtnl_addr_get(struct nl_cache *cache, int ifindex,
525 				struct nl_addr *addr)
526 {
527 	struct rtnl_addr *a;
528 
529 	if (cache->c_ops != &rtnl_addr_ops)
530 		return NULL;
531 
532 	nl_list_for_each_entry(a, &cache->c_items, ce_list) {
533 		if (ifindex && a->a_ifindex != ifindex)
534 			continue;
535 
536 		if (a->ce_mask & ADDR_ATTR_LOCAL &&
537 		    !nl_addr_cmp(a->a_local, addr)) {
538 			nl_object_get((struct nl_object *) a);
539 			return a;
540 		}
541 	}
542 
543 	return NULL;
544 }
545 
546 /** @} */
547 
build_addr_msg(struct rtnl_addr * tmpl,int cmd,int flags,struct nl_msg ** result)548 static int build_addr_msg(struct rtnl_addr *tmpl, int cmd, int flags,
549 			  struct nl_msg **result)
550 {
551 	struct nl_msg *msg;
552 	struct ifaddrmsg am = {
553 		.ifa_family = tmpl->a_family,
554 		.ifa_index = tmpl->a_ifindex,
555 		.ifa_prefixlen = tmpl->a_prefixlen,
556 		.ifa_flags = tmpl->a_flags,
557 	};
558 
559 	if (tmpl->ce_mask & ADDR_ATTR_SCOPE)
560 		am.ifa_scope = tmpl->a_scope;
561 	else {
562 		/* compatibility hack */
563 		if (tmpl->a_family == AF_INET &&
564 		    tmpl->ce_mask & ADDR_ATTR_LOCAL &&
565 		    *((char *) nl_addr_get_binary_addr(tmpl->a_local)) == 127)
566 			am.ifa_scope = RT_SCOPE_HOST;
567 		else
568 			am.ifa_scope = RT_SCOPE_UNIVERSE;
569 	}
570 
571 	msg = nlmsg_alloc_simple(cmd, flags);
572 	if (!msg)
573 		return -NLE_NOMEM;
574 
575 	if (nlmsg_append(msg, &am, sizeof(am), NLMSG_ALIGNTO) < 0)
576 		goto nla_put_failure;
577 
578 	if (tmpl->ce_mask & ADDR_ATTR_LOCAL)
579 		NLA_PUT_ADDR(msg, IFA_LOCAL, tmpl->a_local);
580 
581 	if (tmpl->ce_mask & ADDR_ATTR_PEER)
582 		NLA_PUT_ADDR(msg, IFA_ADDRESS, tmpl->a_peer);
583 	else if (tmpl->ce_mask & ADDR_ATTR_LOCAL)
584 		NLA_PUT_ADDR(msg, IFA_ADDRESS, tmpl->a_local);
585 
586 	if (tmpl->ce_mask & ADDR_ATTR_LABEL)
587 		NLA_PUT_STRING(msg, IFA_LABEL, tmpl->a_label);
588 
589 	if (tmpl->ce_mask & ADDR_ATTR_BROADCAST)
590 		NLA_PUT_ADDR(msg, IFA_BROADCAST, tmpl->a_bcast);
591 
592 	if (tmpl->ce_mask & ADDR_ATTR_CACHEINFO) {
593 		struct ifa_cacheinfo ca = {
594 			.ifa_valid = tmpl->a_cacheinfo.aci_valid,
595 			.ifa_prefered = tmpl->a_cacheinfo.aci_prefered,
596 		};
597 
598 		NLA_PUT(msg, IFA_CACHEINFO, sizeof(ca), &ca);
599 	}
600 
601 	if (tmpl->a_flags & ~0xFF) {
602 		/* only set the IFA_FLAGS attribute, if they actually contain additional
603 		 * flags that are not already set to am.ifa_flags.
604 		 *
605 		 * Older kernels refuse RTM_NEWADDR and RTM_NEWROUTE messages with EINVAL
606 		 * if they contain unknown netlink attributes. See net/core/rtnetlink.c, which
607 		 * was fixed by kernel commit 661d2967b3f1b34eeaa7e212e7b9bbe8ee072b59.
608 		 *
609 		 * With this workaround, libnl will function correctly with older kernels,
610 		 * unless there is a new libnl user that wants to set these flags. In this
611 		 * case it's up to the user to workaround this issue. */
612 		NLA_PUT_U32(msg, IFA_FLAGS, tmpl->a_flags);
613 	}
614 
615 	*result = msg;
616 	return 0;
617 
618 nla_put_failure:
619 	nlmsg_free(msg);
620 	return -NLE_MSGSIZE;
621 }
622 
623 /**
624  * @name Addition
625  * @{
626  */
627 
628 /**
629  * Build netlink request message to request addition of new address
630  * @arg addr		Address object representing the new address.
631  * @arg flags		Additional netlink message flags.
632  * @arg result		Pointer to store resulting message.
633  *
634  * Builds a new netlink message requesting the addition of a new
635  * address. The netlink message header isn't fully equipped with
636  * all relevant fields and must thus be sent out via nl_send_auto_complete()
637  * or supplemented as needed.
638  *
639  * Minimal required attributes:
640  *   - interface index (rtnl_addr_set_ifindex())
641  *   - local address (rtnl_addr_set_local())
642  *
643  * The scope will default to universe except for loopback addresses in
644  * which case a host scope is used if not specified otherwise.
645  *
646  * @note Free the memory after usage using nlmsg_free().
647  *
648  * @return 0 on success or a negative error code.
649  */
rtnl_addr_build_add_request(struct rtnl_addr * addr,int flags,struct nl_msg ** result)650 int rtnl_addr_build_add_request(struct rtnl_addr *addr, int flags,
651 				struct nl_msg **result)
652 {
653 	uint32_t required = ADDR_ATTR_IFINDEX | ADDR_ATTR_FAMILY |
654 		       ADDR_ATTR_PREFIXLEN | ADDR_ATTR_LOCAL;
655 
656 	if ((addr->ce_mask & required) != required)
657 		return -NLE_MISSING_ATTR;
658 
659 	return build_addr_msg(addr, RTM_NEWADDR, NLM_F_CREATE | flags, result);
660 }
661 
662 /**
663  * Request addition of new address
664  * @arg sk		Netlink socket.
665  * @arg addr		Address object representing the new address.
666  * @arg flags		Additional netlink message flags.
667  *
668  * Builds a netlink message by calling rtnl_addr_build_add_request(),
669  * sends the request to the kernel and waits for the next ACK to be
670  * received and thus blocks until the request has been fullfilled.
671  *
672  * @see rtnl_addr_build_add_request()
673  *
674  * @return 0 on sucess or a negative error if an error occured.
675  */
rtnl_addr_add(struct nl_sock * sk,struct rtnl_addr * addr,int flags)676 int rtnl_addr_add(struct nl_sock *sk, struct rtnl_addr *addr, int flags)
677 {
678 	struct nl_msg *msg;
679 	int err;
680 
681 	if ((err = rtnl_addr_build_add_request(addr, flags, &msg)) < 0)
682 		return err;
683 
684 	err = nl_send_auto_complete(sk, msg);
685 	nlmsg_free(msg);
686 	if (err < 0)
687 		return err;
688 
689 	return wait_for_ack(sk);
690 }
691 
692 /** @} */
693 
694 /**
695  * @name Deletion
696  * @{
697  */
698 
699 /**
700  * Build a netlink request message to request deletion of an address
701  * @arg addr		Address object to be deleteted.
702  * @arg flags		Additional netlink message flags.
703  * @arg result		Pointer to store resulting message.
704  *
705  * Builds a new netlink message requesting a deletion of an address.
706  * The netlink message header isn't fully equipped with all relevant
707  * fields and must thus be sent out via nl_send_auto_complete()
708  * or supplemented as needed.
709  *
710  * Minimal required attributes:
711  *   - interface index (rtnl_addr_set_ifindex())
712  *   - address family (rtnl_addr_set_family())
713  *
714  * Optional attributes:
715  *   - local address (rtnl_addr_set_local())
716  *   - label (rtnl_addr_set_label(), IPv4/DECnet only)
717  *   - peer address (rtnl_addr_set_peer(), IPv4 only)
718  *
719  * @note Free the memory after usage using nlmsg_free().
720  *
721  * @return 0 on success or a negative error code.
722  */
rtnl_addr_build_delete_request(struct rtnl_addr * addr,int flags,struct nl_msg ** result)723 int rtnl_addr_build_delete_request(struct rtnl_addr *addr, int flags,
724 				   struct nl_msg **result)
725 {
726 	uint32_t required = ADDR_ATTR_IFINDEX | ADDR_ATTR_FAMILY;
727 
728 	if ((addr->ce_mask & required) != required)
729 		return -NLE_MISSING_ATTR;
730 
731 	return build_addr_msg(addr, RTM_DELADDR, flags, result);
732 }
733 
734 /**
735  * Request deletion of an address
736  * @arg sk		Netlink socket.
737  * @arg addr		Address object to be deleted.
738  * @arg flags		Additional netlink message flags.
739  *
740  * Builds a netlink message by calling rtnl_addr_build_delete_request(),
741  * sends the request to the kernel and waits for the next ACK to be
742  * received and thus blocks until the request has been fullfilled.
743  *
744  * @see rtnl_addr_build_delete_request();
745  *
746  * @return 0 on sucess or a negative error if an error occured.
747  */
rtnl_addr_delete(struct nl_sock * sk,struct rtnl_addr * addr,int flags)748 int rtnl_addr_delete(struct nl_sock *sk, struct rtnl_addr *addr, int flags)
749 {
750 	struct nl_msg *msg;
751 	int err;
752 
753 	if ((err = rtnl_addr_build_delete_request(addr, flags, &msg)) < 0)
754 		return err;
755 
756 	err = nl_send_auto_complete(sk, msg);
757 	nlmsg_free(msg);
758 	if (err < 0)
759 		return err;
760 
761 	return wait_for_ack(sk);
762 }
763 
764 /** @} */
765 
766 /**
767  * @name Attributes
768  * @{
769  */
770 
rtnl_addr_set_label(struct rtnl_addr * addr,const char * label)771 int rtnl_addr_set_label(struct rtnl_addr *addr, const char *label)
772 {
773 	if (strlen(label) > sizeof(addr->a_label) - 1)
774 		return -NLE_RANGE;
775 
776 	strcpy(addr->a_label, label);
777 	addr->ce_mask |= ADDR_ATTR_LABEL;
778 
779 	return 0;
780 }
781 
rtnl_addr_get_label(struct rtnl_addr * addr)782 char *rtnl_addr_get_label(struct rtnl_addr *addr)
783 {
784 	if (addr->ce_mask & ADDR_ATTR_LABEL)
785 		return addr->a_label;
786 	else
787 		return NULL;
788 }
789 
rtnl_addr_set_ifindex(struct rtnl_addr * addr,int ifindex)790 void rtnl_addr_set_ifindex(struct rtnl_addr *addr, int ifindex)
791 {
792 	addr->a_ifindex = ifindex;
793 	addr->ce_mask |= ADDR_ATTR_IFINDEX;
794 }
795 
rtnl_addr_get_ifindex(struct rtnl_addr * addr)796 int rtnl_addr_get_ifindex(struct rtnl_addr *addr)
797 {
798 	return addr->a_ifindex;
799 }
800 
rtnl_addr_set_link(struct rtnl_addr * addr,struct rtnl_link * link)801 void rtnl_addr_set_link(struct rtnl_addr *addr, struct rtnl_link *link)
802 {
803 	rtnl_link_put(addr->a_link);
804 
805 	if (!link)
806 		return;
807 
808 	nl_object_get(OBJ_CAST(link));
809 	addr->a_link = link;
810 	addr->a_ifindex = link->l_index;
811 	addr->ce_mask |= ADDR_ATTR_IFINDEX;
812 }
813 
rtnl_addr_get_link(struct rtnl_addr * addr)814 struct rtnl_link *rtnl_addr_get_link(struct rtnl_addr *addr)
815 {
816 	if (addr->a_link) {
817 		nl_object_get(OBJ_CAST(addr->a_link));
818 		return addr->a_link;
819 	}
820 
821 	return NULL;
822 }
823 
rtnl_addr_set_family(struct rtnl_addr * addr,int family)824 void rtnl_addr_set_family(struct rtnl_addr *addr, int family)
825 {
826 	addr->a_family = family;
827 	addr->ce_mask |= ADDR_ATTR_FAMILY;
828 }
829 
rtnl_addr_get_family(struct rtnl_addr * addr)830 int rtnl_addr_get_family(struct rtnl_addr *addr)
831 {
832 	return addr->a_family;
833 }
834 
835 /**
836  * Set the prefix length / netmask
837  * @arg addr		Address
838  * @arg prefixlen	Length of prefix (netmask)
839  *
840  * Modifies the length of the prefix. If the address object contains a peer
841  * address the prefix length will apply to it, otherwise the prefix length
842  * will apply to the local address of the address.
843  *
844  * If the address object contains a peer or local address the corresponding
845  * `struct nl_addr` will be updated with the new prefix length.
846  *
847  * @note Specifying a length of 0 will remove the prefix length alltogether.
848  *
849  * @see rtnl_addr_get_prefixlen()
850  */
rtnl_addr_set_prefixlen(struct rtnl_addr * addr,int prefixlen)851 void rtnl_addr_set_prefixlen(struct rtnl_addr *addr, int prefixlen)
852 {
853 	addr->a_prefixlen = prefixlen;
854 
855 	if (prefixlen)
856 		addr->ce_mask |= ADDR_ATTR_PREFIXLEN;
857 	else
858 		addr->ce_mask &= ~ADDR_ATTR_PREFIXLEN;
859 
860 	/*
861 	 * The prefix length always applies to the peer address if
862 	 * a peer address is present.
863 	 */
864 	if (addr->a_peer)
865 		nl_addr_set_prefixlen(addr->a_peer, prefixlen);
866 	else if (addr->a_local)
867 		nl_addr_set_prefixlen(addr->a_local, prefixlen);
868 }
869 
rtnl_addr_get_prefixlen(struct rtnl_addr * addr)870 int rtnl_addr_get_prefixlen(struct rtnl_addr *addr)
871 {
872 	return addr->a_prefixlen;
873 }
874 
rtnl_addr_set_scope(struct rtnl_addr * addr,int scope)875 void rtnl_addr_set_scope(struct rtnl_addr *addr, int scope)
876 {
877 	addr->a_scope = scope;
878 	addr->ce_mask |= ADDR_ATTR_SCOPE;
879 }
880 
rtnl_addr_get_scope(struct rtnl_addr * addr)881 int rtnl_addr_get_scope(struct rtnl_addr *addr)
882 {
883 	return addr->a_scope;
884 }
885 
rtnl_addr_set_flags(struct rtnl_addr * addr,unsigned int flags)886 void rtnl_addr_set_flags(struct rtnl_addr *addr, unsigned int flags)
887 {
888 	addr->a_flag_mask |= flags;
889 	addr->a_flags |= flags;
890 	addr->ce_mask |= ADDR_ATTR_FLAGS;
891 }
892 
rtnl_addr_unset_flags(struct rtnl_addr * addr,unsigned int flags)893 void rtnl_addr_unset_flags(struct rtnl_addr *addr, unsigned int flags)
894 {
895 	addr->a_flag_mask |= flags;
896 	addr->a_flags &= ~flags;
897 	addr->ce_mask |= ADDR_ATTR_FLAGS;
898 }
899 
rtnl_addr_get_flags(struct rtnl_addr * addr)900 unsigned int rtnl_addr_get_flags(struct rtnl_addr *addr)
901 {
902 	return addr->a_flags;
903 }
904 
__assign_addr(struct rtnl_addr * addr,struct nl_addr ** pos,struct nl_addr * new,int flag)905 static inline int __assign_addr(struct rtnl_addr *addr, struct nl_addr **pos,
906 			        struct nl_addr *new, int flag)
907 {
908 	if (new) {
909 		if (addr->ce_mask & ADDR_ATTR_FAMILY) {
910 			if (new->a_family != addr->a_family)
911 				return -NLE_AF_MISMATCH;
912 		} else
913 			addr->a_family = new->a_family;
914 
915 		if (*pos)
916 			nl_addr_put(*pos);
917 
918 		*pos = nl_addr_get(new);
919 		addr->ce_mask |= (flag | ADDR_ATTR_FAMILY);
920 	} else {
921 		if (*pos)
922 			nl_addr_put(*pos);
923 
924 		*pos = NULL;
925 		addr->ce_mask &= ~flag;
926 	}
927 
928 	return 0;
929 }
930 
rtnl_addr_set_local(struct rtnl_addr * addr,struct nl_addr * local)931 int rtnl_addr_set_local(struct rtnl_addr *addr, struct nl_addr *local)
932 {
933 	int err;
934 
935 	/* Prohibit local address with prefix length if peer address is present */
936 	if ((addr->ce_mask & ADDR_ATTR_PEER) && local &&
937 	    nl_addr_get_prefixlen(local))
938 		return -NLE_INVAL;
939 
940 	err = __assign_addr(addr, &addr->a_local, local, ADDR_ATTR_LOCAL);
941 	if (err < 0)
942 		return err;
943 
944 	/* Never overwrite the prefix length if a peer address is present */
945 	if (!(addr->ce_mask & ADDR_ATTR_PEER))
946 		rtnl_addr_set_prefixlen(addr, local ? nl_addr_get_prefixlen(local) : 0);
947 
948 	return 0;
949 }
950 
rtnl_addr_get_local(struct rtnl_addr * addr)951 struct nl_addr *rtnl_addr_get_local(struct rtnl_addr *addr)
952 {
953 	return addr->a_local;
954 }
955 
rtnl_addr_set_peer(struct rtnl_addr * addr,struct nl_addr * peer)956 int rtnl_addr_set_peer(struct rtnl_addr *addr, struct nl_addr *peer)
957 {
958 	int err;
959 
960 	if (peer && peer->a_family != AF_INET)
961 		return -NLE_AF_NOSUPPORT;
962 
963 	err = __assign_addr(addr, &addr->a_peer, peer, ADDR_ATTR_PEER);
964 	if (err < 0)
965 		return err;
966 
967 	rtnl_addr_set_prefixlen(addr, peer ? nl_addr_get_prefixlen(peer) : 0);
968 
969 	return 0;
970 }
971 
rtnl_addr_get_peer(struct rtnl_addr * addr)972 struct nl_addr *rtnl_addr_get_peer(struct rtnl_addr *addr)
973 {
974 	return addr->a_peer;
975 }
976 
rtnl_addr_set_broadcast(struct rtnl_addr * addr,struct nl_addr * bcast)977 int rtnl_addr_set_broadcast(struct rtnl_addr *addr, struct nl_addr *bcast)
978 {
979 	if (bcast && bcast->a_family != AF_INET)
980 		return -NLE_AF_NOSUPPORT;
981 
982 	return __assign_addr(addr, &addr->a_bcast, bcast, ADDR_ATTR_BROADCAST);
983 }
984 
rtnl_addr_get_broadcast(struct rtnl_addr * addr)985 struct nl_addr *rtnl_addr_get_broadcast(struct rtnl_addr *addr)
986 {
987 	return addr->a_bcast;
988 }
989 
rtnl_addr_set_multicast(struct rtnl_addr * addr,struct nl_addr * multicast)990 int rtnl_addr_set_multicast(struct rtnl_addr *addr, struct nl_addr *multicast)
991 {
992 	if (multicast && multicast->a_family != AF_INET6)
993 		return -NLE_AF_NOSUPPORT;
994 
995 	return __assign_addr(addr, &addr->a_multicast, multicast,
996 			     ADDR_ATTR_MULTICAST);
997 }
998 
rtnl_addr_get_multicast(struct rtnl_addr * addr)999 struct nl_addr *rtnl_addr_get_multicast(struct rtnl_addr *addr)
1000 {
1001 	return addr->a_multicast;
1002 }
1003 
rtnl_addr_set_anycast(struct rtnl_addr * addr,struct nl_addr * anycast)1004 int rtnl_addr_set_anycast(struct rtnl_addr *addr, struct nl_addr *anycast)
1005 {
1006 	if (anycast && anycast->a_family != AF_INET6)
1007 		return -NLE_AF_NOSUPPORT;
1008 
1009 	return __assign_addr(addr, &addr->a_anycast, anycast,
1010 			     ADDR_ATTR_ANYCAST);
1011 }
1012 
rtnl_addr_get_anycast(struct rtnl_addr * addr)1013 struct nl_addr *rtnl_addr_get_anycast(struct rtnl_addr *addr)
1014 {
1015 	return addr->a_anycast;
1016 }
1017 
rtnl_addr_get_valid_lifetime(struct rtnl_addr * addr)1018 uint32_t rtnl_addr_get_valid_lifetime(struct rtnl_addr *addr)
1019 {
1020 	if (addr->ce_mask & ADDR_ATTR_CACHEINFO)
1021 		return addr->a_cacheinfo.aci_valid;
1022 	else
1023 		return 0xFFFFFFFFU;
1024 }
1025 
rtnl_addr_set_valid_lifetime(struct rtnl_addr * addr,uint32_t lifetime)1026 void rtnl_addr_set_valid_lifetime(struct rtnl_addr *addr, uint32_t lifetime)
1027 {
1028 	addr->a_cacheinfo.aci_valid = lifetime;
1029 	addr->ce_mask |= ADDR_ATTR_CACHEINFO;
1030 }
1031 
rtnl_addr_get_preferred_lifetime(struct rtnl_addr * addr)1032 uint32_t rtnl_addr_get_preferred_lifetime(struct rtnl_addr *addr)
1033 {
1034 	if (addr->ce_mask & ADDR_ATTR_CACHEINFO)
1035 		return addr->a_cacheinfo.aci_prefered;
1036 	else
1037 		return 0xFFFFFFFFU;
1038 }
1039 
rtnl_addr_set_preferred_lifetime(struct rtnl_addr * addr,uint32_t lifetime)1040 void rtnl_addr_set_preferred_lifetime(struct rtnl_addr *addr, uint32_t lifetime)
1041 {
1042 	addr->a_cacheinfo.aci_prefered = lifetime;
1043 	addr->ce_mask |= ADDR_ATTR_CACHEINFO;
1044 }
1045 
rtnl_addr_get_create_time(struct rtnl_addr * addr)1046 uint32_t rtnl_addr_get_create_time(struct rtnl_addr *addr)
1047 {
1048 	return addr->a_cacheinfo.aci_cstamp;
1049 }
1050 
rtnl_addr_get_last_update_time(struct rtnl_addr * addr)1051 uint32_t rtnl_addr_get_last_update_time(struct rtnl_addr *addr)
1052 {
1053 	return addr->a_cacheinfo.aci_tstamp;
1054 }
1055 
1056 /** @} */
1057 
1058 /**
1059  * @name Flags Translations
1060  * @{
1061  */
1062 
1063 static const struct trans_tbl addr_flags[] = {
1064 	__ADD(IFA_F_SECONDARY, secondary)
1065 	__ADD(IFA_F_NODAD, nodad)
1066 	__ADD(IFA_F_OPTIMISTIC, optimistic)
1067 	__ADD(IFA_F_HOMEADDRESS, homeaddress)
1068 	__ADD(IFA_F_DEPRECATED, deprecated)
1069 	__ADD(IFA_F_TENTATIVE, tentative)
1070 	__ADD(IFA_F_PERMANENT, permanent)
1071 	__ADD(IFA_F_MANAGETEMPADDR, mngtmpaddr)
1072 	__ADD(IFA_F_NOPREFIXROUTE, noprefixroute)
1073 };
1074 
rtnl_addr_flags2str(int flags,char * buf,size_t size)1075 char *rtnl_addr_flags2str(int flags, char *buf, size_t size)
1076 {
1077 	return __flags2str(flags, buf, size, addr_flags,
1078 			   ARRAY_SIZE(addr_flags));
1079 }
1080 
rtnl_addr_str2flags(const char * name)1081 int rtnl_addr_str2flags(const char *name)
1082 {
1083 	return __str2flags(name, addr_flags, ARRAY_SIZE(addr_flags));
1084 }
1085 
1086 /** @} */
1087 
1088 static struct nl_object_ops addr_obj_ops = {
1089 	.oo_name		= "route/addr",
1090 	.oo_size		= sizeof(struct rtnl_addr),
1091 	.oo_constructor		= addr_constructor,
1092 	.oo_free_data		= addr_free_data,
1093 	.oo_clone		= addr_clone,
1094 	.oo_dump = {
1095 	    [NL_DUMP_LINE] 	= addr_dump_line,
1096 	    [NL_DUMP_DETAILS]	= addr_dump_details,
1097 	    [NL_DUMP_STATS]	= addr_dump_stats,
1098 	},
1099 	.oo_compare		= addr_compare,
1100 	.oo_attrs2str		= addr_attrs2str,
1101 	.oo_id_attrs		= (ADDR_ATTR_FAMILY | ADDR_ATTR_IFINDEX |
1102 				   ADDR_ATTR_LOCAL | ADDR_ATTR_PREFIXLEN),
1103 };
1104 
1105 static struct nl_af_group addr_groups[] = {
1106 	{ AF_INET,	RTNLGRP_IPV4_IFADDR },
1107 	{ AF_INET6,	RTNLGRP_IPV6_IFADDR },
1108 	{ END_OF_GROUP_LIST },
1109 };
1110 
1111 static struct nl_cache_ops rtnl_addr_ops = {
1112 	.co_name		= "route/addr",
1113 	.co_hdrsize		= sizeof(struct ifaddrmsg),
1114 	.co_msgtypes		= {
1115 					{ RTM_NEWADDR, NL_ACT_NEW, "new" },
1116 					{ RTM_DELADDR, NL_ACT_DEL, "del" },
1117 					{ RTM_GETADDR, NL_ACT_GET, "get" },
1118 					END_OF_MSGTYPES_LIST,
1119 				  },
1120 	.co_protocol		= NETLINK_ROUTE,
1121 	.co_groups		= addr_groups,
1122 	.co_request_update      = addr_request_update,
1123 	.co_msg_parser          = addr_msg_parser,
1124 	.co_obj_ops		= &addr_obj_ops,
1125 };
1126 
addr_init(void)1127 static void __init addr_init(void)
1128 {
1129 	nl_cache_mngt_register(&rtnl_addr_ops);
1130 }
1131 
addr_exit(void)1132 static void __exit addr_exit(void)
1133 {
1134 	nl_cache_mngt_unregister(&rtnl_addr_ops);
1135 }
1136 
1137 /** @} */
1138