1 /* SIP extension for IP connection tracking.
3 * (C) 2005 by Christian Hentschel <chentschel@arnet.com.ar>
4 * based on RR's ip_conntrack_ftp.c and other modules.
5 * (C) 2007 United Security Providers
6 * (C) 2007, 2008 Patrick McHardy <kaber@trash.net>
8 * This program is free software; you can redistribute it and/or modify
9 * it under the terms of the GNU General Public License version 2 as
10 * published by the Free Software Foundation.
13 #include <linux/module.h>
14 #include <linux/ctype.h>
15 #include <linux/skbuff.h>
16 #include <linux/inet.h>
18 #include <linux/udp.h>
19 #include <linux/netfilter.h>
21 #include <net/netfilter/nf_conntrack.h>
22 #include <net/netfilter/nf_conntrack_core.h>
23 #include <net/netfilter/nf_conntrack_expect.h>
24 #include <net/netfilter/nf_conntrack_helper.h>
25 #include <linux/netfilter/nf_conntrack_sip.h>
27 MODULE_LICENSE("GPL");
28 MODULE_AUTHOR("Christian Hentschel <chentschel@arnet.com.ar>");
29 MODULE_DESCRIPTION("SIP connection tracking helper");
30 MODULE_ALIAS("ip_conntrack_sip");
33 static unsigned short ports
[MAX_PORTS
];
34 static unsigned int ports_c
;
35 module_param_array(ports
, ushort
, &ports_c
, 0400);
36 MODULE_PARM_DESC(ports
, "port numbers of SIP servers");
38 static unsigned int sip_timeout __read_mostly
= SIP_TIMEOUT
;
39 module_param(sip_timeout
, uint
, 0600);
40 MODULE_PARM_DESC(sip_timeout
, "timeout for the master SIP session");
42 static int sip_direct_signalling __read_mostly
= 1;
43 module_param(sip_direct_signalling
, int, 0600);
44 MODULE_PARM_DESC(sip_direct_signalling
, "expect incoming calls from registrar "
47 static int sip_direct_media __read_mostly
= 1;
48 module_param(sip_direct_media
, int, 0600);
49 MODULE_PARM_DESC(sip_direct_media
, "Expect Media streams between signalling "
50 "endpoints only (default 1)");
52 unsigned int (*nf_nat_sip_hook
)(struct sk_buff
*skb
,
54 unsigned int *datalen
) __read_mostly
;
55 EXPORT_SYMBOL_GPL(nf_nat_sip_hook
);
57 unsigned int (*nf_nat_sip_expect_hook
)(struct sk_buff
*skb
,
59 unsigned int *datalen
,
60 struct nf_conntrack_expect
*exp
,
61 unsigned int matchoff
,
62 unsigned int matchlen
) __read_mostly
;
63 EXPORT_SYMBOL_GPL(nf_nat_sip_expect_hook
);
65 unsigned int (*nf_nat_sdp_addr_hook
)(struct sk_buff
*skb
,
68 unsigned int *datalen
,
69 enum sdp_header_types type
,
70 enum sdp_header_types term
,
71 const union nf_inet_addr
*addr
)
73 EXPORT_SYMBOL_GPL(nf_nat_sdp_addr_hook
);
75 unsigned int (*nf_nat_sdp_port_hook
)(struct sk_buff
*skb
,
77 unsigned int *datalen
,
78 unsigned int matchoff
,
79 unsigned int matchlen
,
80 u_int16_t port
) __read_mostly
;
81 EXPORT_SYMBOL_GPL(nf_nat_sdp_port_hook
);
83 unsigned int (*nf_nat_sdp_session_hook
)(struct sk_buff
*skb
,
86 unsigned int *datalen
,
87 const union nf_inet_addr
*addr
)
89 EXPORT_SYMBOL_GPL(nf_nat_sdp_session_hook
);
91 unsigned int (*nf_nat_sdp_media_hook
)(struct sk_buff
*skb
,
93 unsigned int *datalen
,
94 struct nf_conntrack_expect
*rtp_exp
,
95 struct nf_conntrack_expect
*rtcp_exp
,
96 unsigned int mediaoff
,
97 unsigned int medialen
,
98 union nf_inet_addr
*rtp_addr
)
100 EXPORT_SYMBOL_GPL(nf_nat_sdp_media_hook
);
102 static int string_len(const struct nf_conn
*ct
, const char *dptr
,
103 const char *limit
, int *shift
)
107 while (dptr
< limit
&& isalpha(*dptr
)) {
114 static int digits_len(const struct nf_conn
*ct
, const char *dptr
,
115 const char *limit
, int *shift
)
118 while (dptr
< limit
&& isdigit(*dptr
)) {
125 /* get media type + port length */
126 static int media_len(const struct nf_conn
*ct
, const char *dptr
,
127 const char *limit
, int *shift
)
129 int len
= string_len(ct
, dptr
, limit
, shift
);
132 if (dptr
>= limit
|| *dptr
!= ' ')
137 return len
+ digits_len(ct
, dptr
, limit
, shift
);
140 static int parse_addr(const struct nf_conn
*ct
, const char *cp
,
141 const char **endp
, union nf_inet_addr
*addr
,
147 memset(addr
, 0, sizeof(*addr
));
148 switch (nf_ct_l3num(ct
)) {
150 ret
= in4_pton(cp
, limit
- cp
, (u8
*)&addr
->ip
, -1, &end
);
153 ret
= in6_pton(cp
, limit
- cp
, (u8
*)&addr
->ip6
, -1, &end
);
159 if (ret
== 0 || end
== cp
)
166 /* skip ip address. returns its length. */
167 static int epaddr_len(const struct nf_conn
*ct
, const char *dptr
,
168 const char *limit
, int *shift
)
170 union nf_inet_addr addr
;
171 const char *aux
= dptr
;
173 if (!parse_addr(ct
, dptr
, &dptr
, &addr
, limit
)) {
174 pr_debug("ip: %s parse failed.!\n", dptr
);
181 dptr
+= digits_len(ct
, dptr
, limit
, shift
);
186 /* get address length, skiping user info. */
187 static int skp_epaddr_len(const struct nf_conn
*ct
, const char *dptr
,
188 const char *limit
, int *shift
)
190 const char *start
= dptr
;
193 /* Search for @, but stop at the end of the line.
194 * We are inside a sip: URI, so we don't need to worry about
195 * continuation lines. */
196 while (dptr
< limit
&&
197 *dptr
!= '@' && *dptr
!= '\r' && *dptr
!= '\n') {
202 if (dptr
< limit
&& *dptr
== '@') {
210 return epaddr_len(ct
, dptr
, limit
, shift
);
213 /* Parse a SIP request line of the form:
215 * Request-Line = Method SP Request-URI SP SIP-Version CRLF
217 * and return the offset and length of the address contained in the Request-URI.
219 int ct_sip_parse_request(const struct nf_conn
*ct
,
220 const char *dptr
, unsigned int datalen
,
221 unsigned int *matchoff
, unsigned int *matchlen
,
222 union nf_inet_addr
*addr
, __be16
*port
)
224 const char *start
= dptr
, *limit
= dptr
+ datalen
, *end
;
229 /* Skip method and following whitespace */
230 mlen
= string_len(ct
, dptr
, limit
, NULL
);
238 limit
-= strlen("sip:");
239 for (; dptr
< limit
; dptr
++) {
240 if (*dptr
== '\r' || *dptr
== '\n')
242 if (strnicmp(dptr
, "sip:", strlen("sip:")) == 0)
245 if (!skp_epaddr_len(ct
, dptr
, limit
, &shift
))
249 if (!parse_addr(ct
, dptr
, &end
, addr
, limit
))
251 if (end
< limit
&& *end
== ':') {
253 p
= simple_strtoul(end
, (char **)&end
, 10);
254 if (p
< 1024 || p
> 65535)
258 *port
= htons(SIP_PORT
);
262 *matchoff
= dptr
- start
;
263 *matchlen
= end
- dptr
;
266 EXPORT_SYMBOL_GPL(ct_sip_parse_request
);
268 /* SIP header parsing: SIP headers are located at the beginning of a line, but
269 * may span several lines, in which case the continuation lines begin with a
270 * whitespace character. RFC 2543 allows lines to be terminated with CR, LF or
271 * CRLF, RFC 3261 allows only CRLF, we support both.
273 * Headers are followed by (optionally) whitespace, a colon, again (optionally)
274 * whitespace and the values. Whitespace in this context means any amount of
275 * tabs, spaces and continuation lines, which are treated as a single whitespace
278 * Some headers may appear multiple times. A comma seperated list of values is
279 * equivalent to multiple headers.
281 static const struct sip_header ct_sip_hdrs
[] = {
282 [SIP_HDR_CSEQ
] = SIP_HDR("CSeq", NULL
, NULL
, digits_len
),
283 [SIP_HDR_FROM
] = SIP_HDR("From", "f", "sip:", skp_epaddr_len
),
284 [SIP_HDR_TO
] = SIP_HDR("To", "t", "sip:", skp_epaddr_len
),
285 [SIP_HDR_CONTACT
] = SIP_HDR("Contact", "m", "sip:", skp_epaddr_len
),
286 [SIP_HDR_VIA
] = SIP_HDR("Via", "v", "UDP ", epaddr_len
),
287 [SIP_HDR_EXPIRES
] = SIP_HDR("Expires", NULL
, NULL
, digits_len
),
288 [SIP_HDR_CONTENT_LENGTH
] = SIP_HDR("Content-Length", "l", NULL
, digits_len
),
291 static const char *sip_follow_continuation(const char *dptr
, const char *limit
)
293 /* Walk past newline */
297 /* Skip '\n' in CR LF */
298 if (*(dptr
- 1) == '\r' && *dptr
== '\n') {
303 /* Continuation line? */
304 if (*dptr
!= ' ' && *dptr
!= '\t')
307 /* skip leading whitespace */
308 for (; dptr
< limit
; dptr
++) {
309 if (*dptr
!= ' ' && *dptr
!= '\t')
315 static const char *sip_skip_whitespace(const char *dptr
, const char *limit
)
317 for (; dptr
< limit
; dptr
++) {
320 if (*dptr
!= '\r' && *dptr
!= '\n')
322 dptr
= sip_follow_continuation(dptr
, limit
);
329 /* Search within a SIP header value, dealing with continuation lines */
330 static const char *ct_sip_header_search(const char *dptr
, const char *limit
,
331 const char *needle
, unsigned int len
)
333 for (limit
-= len
; dptr
< limit
; dptr
++) {
334 if (*dptr
== '\r' || *dptr
== '\n') {
335 dptr
= sip_follow_continuation(dptr
, limit
);
341 if (strnicmp(dptr
, needle
, len
) == 0)
347 int ct_sip_get_header(const struct nf_conn
*ct
, const char *dptr
,
348 unsigned int dataoff
, unsigned int datalen
,
349 enum sip_header_types type
,
350 unsigned int *matchoff
, unsigned int *matchlen
)
352 const struct sip_header
*hdr
= &ct_sip_hdrs
[type
];
353 const char *start
= dptr
, *limit
= dptr
+ datalen
;
356 for (dptr
+= dataoff
; dptr
< limit
; dptr
++) {
357 /* Find beginning of line */
358 if (*dptr
!= '\r' && *dptr
!= '\n')
362 if (*(dptr
- 1) == '\r' && *dptr
== '\n') {
367 /* Skip continuation lines */
368 if (*dptr
== ' ' || *dptr
== '\t')
371 /* Find header. Compact headers must be followed by a
372 * non-alphabetic character to avoid mismatches. */
373 if (limit
- dptr
>= hdr
->len
&&
374 strnicmp(dptr
, hdr
->name
, hdr
->len
) == 0)
376 else if (hdr
->cname
&& limit
- dptr
>= hdr
->clen
+ 1 &&
377 strnicmp(dptr
, hdr
->cname
, hdr
->clen
) == 0 &&
378 !isalpha(*(dptr
+ hdr
->clen
+ 1)))
383 /* Find and skip colon */
384 dptr
= sip_skip_whitespace(dptr
, limit
);
387 if (*dptr
!= ':' || ++dptr
>= limit
)
390 /* Skip whitespace after colon */
391 dptr
= sip_skip_whitespace(dptr
, limit
);
395 *matchoff
= dptr
- start
;
397 dptr
= ct_sip_header_search(dptr
, limit
, hdr
->search
,
404 *matchlen
= hdr
->match_len(ct
, dptr
, limit
, &shift
);
407 *matchoff
= dptr
- start
+ shift
;
412 EXPORT_SYMBOL_GPL(ct_sip_get_header
);
414 /* Get next header field in a list of comma seperated values */
415 static int ct_sip_next_header(const struct nf_conn
*ct
, const char *dptr
,
416 unsigned int dataoff
, unsigned int datalen
,
417 enum sip_header_types type
,
418 unsigned int *matchoff
, unsigned int *matchlen
)
420 const struct sip_header
*hdr
= &ct_sip_hdrs
[type
];
421 const char *start
= dptr
, *limit
= dptr
+ datalen
;
426 dptr
= ct_sip_header_search(dptr
, limit
, ",", strlen(","));
430 dptr
= ct_sip_header_search(dptr
, limit
, hdr
->search
, hdr
->slen
);
435 *matchoff
= dptr
- start
;
436 *matchlen
= hdr
->match_len(ct
, dptr
, limit
, &shift
);
443 /* Walk through headers until a parsable one is found or no header of the
444 * given type is left. */
445 static int ct_sip_walk_headers(const struct nf_conn
*ct
, const char *dptr
,
446 unsigned int dataoff
, unsigned int datalen
,
447 enum sip_header_types type
, int *in_header
,
448 unsigned int *matchoff
, unsigned int *matchlen
)
452 if (in_header
&& *in_header
) {
454 ret
= ct_sip_next_header(ct
, dptr
, dataoff
, datalen
,
455 type
, matchoff
, matchlen
);
460 dataoff
+= *matchoff
;
466 ret
= ct_sip_get_header(ct
, dptr
, dataoff
, datalen
,
467 type
, matchoff
, matchlen
);
472 dataoff
+= *matchoff
;
480 /* Locate a SIP header, parse the URI and return the offset and length of
481 * the address as well as the address and port themselves. A stream of
482 * headers can be parsed by handing in a non-NULL datalen and in_header
485 int ct_sip_parse_header_uri(const struct nf_conn
*ct
, const char *dptr
,
486 unsigned int *dataoff
, unsigned int datalen
,
487 enum sip_header_types type
, int *in_header
,
488 unsigned int *matchoff
, unsigned int *matchlen
,
489 union nf_inet_addr
*addr
, __be16
*port
)
491 const char *c
, *limit
= dptr
+ datalen
;
495 ret
= ct_sip_walk_headers(ct
, dptr
, dataoff
? *dataoff
: 0, datalen
,
496 type
, in_header
, matchoff
, matchlen
);
501 if (!parse_addr(ct
, dptr
+ *matchoff
, &c
, addr
, limit
))
505 p
= simple_strtoul(c
, (char **)&c
, 10);
506 if (p
< 1024 || p
> 65535)
510 *port
= htons(SIP_PORT
);
516 EXPORT_SYMBOL_GPL(ct_sip_parse_header_uri
);
518 /* Parse address from header parameter and return address, offset and length */
519 int ct_sip_parse_address_param(const struct nf_conn
*ct
, const char *dptr
,
520 unsigned int dataoff
, unsigned int datalen
,
522 unsigned int *matchoff
, unsigned int *matchlen
,
523 union nf_inet_addr
*addr
)
525 const char *limit
= dptr
+ datalen
;
526 const char *start
, *end
;
528 limit
= ct_sip_header_search(dptr
+ dataoff
, limit
, ",", strlen(","));
530 limit
= dptr
+ datalen
;
532 start
= ct_sip_header_search(dptr
+ dataoff
, limit
, name
, strlen(name
));
536 start
+= strlen(name
);
537 if (!parse_addr(ct
, start
, &end
, addr
, limit
))
539 *matchoff
= start
- dptr
;
540 *matchlen
= end
- start
;
543 EXPORT_SYMBOL_GPL(ct_sip_parse_address_param
);
545 /* Parse numerical header parameter and return value, offset and length */
546 int ct_sip_parse_numerical_param(const struct nf_conn
*ct
, const char *dptr
,
547 unsigned int dataoff
, unsigned int datalen
,
549 unsigned int *matchoff
, unsigned int *matchlen
,
552 const char *limit
= dptr
+ datalen
;
556 limit
= ct_sip_header_search(dptr
+ dataoff
, limit
, ",", strlen(","));
558 limit
= dptr
+ datalen
;
560 start
= ct_sip_header_search(dptr
+ dataoff
, limit
, name
, strlen(name
));
564 start
+= strlen(name
);
565 *val
= simple_strtoul(start
, &end
, 0);
568 if (matchoff
&& matchlen
) {
569 *matchoff
= start
- dptr
;
570 *matchlen
= end
- start
;
574 EXPORT_SYMBOL_GPL(ct_sip_parse_numerical_param
);
576 /* SDP header parsing: a SDP session description contains an ordered set of
577 * headers, starting with a section containing general session parameters,
578 * optionally followed by multiple media descriptions.
580 * SDP headers always start at the beginning of a line. According to RFC 2327:
581 * "The sequence CRLF (0x0d0a) is used to end a record, although parsers should
582 * be tolerant and also accept records terminated with a single newline
583 * character". We handle both cases.
585 static const struct sip_header ct_sdp_hdrs
[] = {
586 [SDP_HDR_VERSION
] = SDP_HDR("v=", NULL
, digits_len
),
587 [SDP_HDR_OWNER_IP4
] = SDP_HDR("o=", "IN IP4 ", epaddr_len
),
588 [SDP_HDR_CONNECTION_IP4
] = SDP_HDR("c=", "IN IP4 ", epaddr_len
),
589 [SDP_HDR_OWNER_IP6
] = SDP_HDR("o=", "IN IP6 ", epaddr_len
),
590 [SDP_HDR_CONNECTION_IP6
] = SDP_HDR("c=", "IN IP6 ", epaddr_len
),
591 [SDP_HDR_MEDIA
] = SDP_HDR("m=", NULL
, media_len
),
594 /* Linear string search within SDP header values */
595 static const char *ct_sdp_header_search(const char *dptr
, const char *limit
,
596 const char *needle
, unsigned int len
)
598 for (limit
-= len
; dptr
< limit
; dptr
++) {
599 if (*dptr
== '\r' || *dptr
== '\n')
601 if (strncmp(dptr
, needle
, len
) == 0)
607 /* Locate a SDP header (optionally a substring within the header value),
608 * optionally stopping at the first occurence of the term header, parse
609 * it and return the offset and length of the data we're interested in.
611 int ct_sip_get_sdp_header(const struct nf_conn
*ct
, const char *dptr
,
612 unsigned int dataoff
, unsigned int datalen
,
613 enum sdp_header_types type
,
614 enum sdp_header_types term
,
615 unsigned int *matchoff
, unsigned int *matchlen
)
617 const struct sip_header
*hdr
= &ct_sdp_hdrs
[type
];
618 const struct sip_header
*thdr
= &ct_sdp_hdrs
[term
];
619 const char *start
= dptr
, *limit
= dptr
+ datalen
;
622 for (dptr
+= dataoff
; dptr
< limit
; dptr
++) {
623 /* Find beginning of line */
624 if (*dptr
!= '\r' && *dptr
!= '\n')
628 if (*(dptr
- 1) == '\r' && *dptr
== '\n') {
633 if (term
!= SDP_HDR_UNSPEC
&&
634 limit
- dptr
>= thdr
->len
&&
635 strnicmp(dptr
, thdr
->name
, thdr
->len
) == 0)
637 else if (limit
- dptr
>= hdr
->len
&&
638 strnicmp(dptr
, hdr
->name
, hdr
->len
) == 0)
643 *matchoff
= dptr
- start
;
645 dptr
= ct_sdp_header_search(dptr
, limit
, hdr
->search
,
652 *matchlen
= hdr
->match_len(ct
, dptr
, limit
, &shift
);
655 *matchoff
= dptr
- start
+ shift
;
660 EXPORT_SYMBOL_GPL(ct_sip_get_sdp_header
);
662 static int ct_sip_parse_sdp_addr(const struct nf_conn
*ct
, const char *dptr
,
663 unsigned int dataoff
, unsigned int datalen
,
664 enum sdp_header_types type
,
665 enum sdp_header_types term
,
666 unsigned int *matchoff
, unsigned int *matchlen
,
667 union nf_inet_addr
*addr
)
671 ret
= ct_sip_get_sdp_header(ct
, dptr
, dataoff
, datalen
, type
, term
,
676 if (!parse_addr(ct
, dptr
+ *matchoff
, NULL
, addr
,
677 dptr
+ *matchoff
+ *matchlen
))
682 static int refresh_signalling_expectation(struct nf_conn
*ct
,
683 union nf_inet_addr
*addr
,
685 unsigned int expires
)
687 struct nf_conn_help
*help
= nfct_help(ct
);
688 struct nf_conntrack_expect
*exp
;
689 struct hlist_node
*n
, *next
;
692 spin_lock_bh(&nf_conntrack_lock
);
693 hlist_for_each_entry_safe(exp
, n
, next
, &help
->expectations
, lnode
) {
694 if (exp
->class != SIP_EXPECT_SIGNALLING
||
695 !nf_inet_addr_cmp(&exp
->tuple
.dst
.u3
, addr
) ||
696 exp
->tuple
.dst
.u
.udp
.port
!= port
)
698 if (!del_timer(&exp
->timeout
))
700 exp
->flags
&= ~NF_CT_EXPECT_INACTIVE
;
701 exp
->timeout
.expires
= jiffies
+ expires
* HZ
;
702 add_timer(&exp
->timeout
);
706 spin_unlock_bh(&nf_conntrack_lock
);
710 static void flush_expectations(struct nf_conn
*ct
, bool media
)
712 struct nf_conn_help
*help
= nfct_help(ct
);
713 struct nf_conntrack_expect
*exp
;
714 struct hlist_node
*n
, *next
;
716 spin_lock_bh(&nf_conntrack_lock
);
717 hlist_for_each_entry_safe(exp
, n
, next
, &help
->expectations
, lnode
) {
718 if ((exp
->class != SIP_EXPECT_SIGNALLING
) ^ media
)
720 if (!del_timer(&exp
->timeout
))
722 nf_ct_unlink_expect(exp
);
723 nf_ct_expect_put(exp
);
727 spin_unlock_bh(&nf_conntrack_lock
);
730 static int set_expected_rtp_rtcp(struct sk_buff
*skb
,
731 const char **dptr
, unsigned int *datalen
,
732 union nf_inet_addr
*daddr
, __be16 port
,
733 enum sip_expectation_classes
class,
734 unsigned int mediaoff
, unsigned int medialen
)
736 struct nf_conntrack_expect
*exp
, *rtp_exp
, *rtcp_exp
;
737 enum ip_conntrack_info ctinfo
;
738 struct nf_conn
*ct
= nf_ct_get(skb
, &ctinfo
);
739 enum ip_conntrack_dir dir
= CTINFO2DIR(ctinfo
);
740 union nf_inet_addr
*saddr
;
741 struct nf_conntrack_tuple tuple
;
742 int direct_rtp
= 0, skip_expect
= 0, ret
= NF_DROP
;
744 __be16 rtp_port
, rtcp_port
;
745 typeof(nf_nat_sdp_port_hook
) nf_nat_sdp_port
;
746 typeof(nf_nat_sdp_media_hook
) nf_nat_sdp_media
;
749 if (sip_direct_media
) {
750 if (!nf_inet_addr_cmp(daddr
, &ct
->tuplehash
[dir
].tuple
.src
.u3
))
752 saddr
= &ct
->tuplehash
[!dir
].tuple
.src
.u3
;
755 /* We need to check whether the registration exists before attempting
756 * to register it since we can see the same media description multiple
757 * times on different connections in case multiple endpoints receive
760 * RTP optimization: if we find a matching media channel expectation
761 * and both the expectation and this connection are SNATed, we assume
762 * both sides can reach each other directly and use the final
763 * destination address from the expectation. We still need to keep
764 * the NATed expectations for media that might arrive from the
765 * outside, and additionally need to expect the direct RTP stream
766 * in case it passes through us even without NAT.
768 memset(&tuple
, 0, sizeof(tuple
));
770 tuple
.src
.u3
= *saddr
;
771 tuple
.src
.l3num
= nf_ct_l3num(ct
);
772 tuple
.dst
.protonum
= IPPROTO_UDP
;
773 tuple
.dst
.u3
= *daddr
;
774 tuple
.dst
.u
.udp
.port
= port
;
778 exp
= __nf_ct_expect_find(&tuple
);
780 if (!exp
|| exp
->master
== ct
||
781 nfct_help(exp
->master
)->helper
!= nfct_help(ct
)->helper
||
784 #ifdef CONFIG_NF_NAT_NEEDED
785 if (exp
->tuple
.src
.l3num
== AF_INET
&& !direct_rtp
&&
786 (exp
->saved_ip
!= exp
->tuple
.dst
.u3
.ip
||
787 exp
->saved_proto
.udp
.port
!= exp
->tuple
.dst
.u
.udp
.port
) &&
788 ct
->status
& IPS_NAT_MASK
) {
789 daddr
->ip
= exp
->saved_ip
;
790 tuple
.dst
.u3
.ip
= exp
->saved_ip
;
791 tuple
.dst
.u
.udp
.port
= exp
->saved_proto
.udp
.port
;
796 } while (!skip_expect
);
799 base_port
= ntohs(tuple
.dst
.u
.udp
.port
) & ~1;
800 rtp_port
= htons(base_port
);
801 rtcp_port
= htons(base_port
+ 1);
804 nf_nat_sdp_port
= rcu_dereference(nf_nat_sdp_port_hook
);
805 if (nf_nat_sdp_port
&&
806 !nf_nat_sdp_port(skb
, dptr
, datalen
,
807 mediaoff
, medialen
, ntohs(rtp_port
)))
814 rtp_exp
= nf_ct_expect_alloc(ct
);
817 nf_ct_expect_init(rtp_exp
, class, nf_ct_l3num(ct
), saddr
, daddr
,
818 IPPROTO_UDP
, NULL
, &rtp_port
);
820 rtcp_exp
= nf_ct_expect_alloc(ct
);
821 if (rtcp_exp
== NULL
)
823 nf_ct_expect_init(rtcp_exp
, class, nf_ct_l3num(ct
), saddr
, daddr
,
824 IPPROTO_UDP
, NULL
, &rtcp_port
);
826 nf_nat_sdp_media
= rcu_dereference(nf_nat_sdp_media_hook
);
827 if (nf_nat_sdp_media
&& ct
->status
& IPS_NAT_MASK
&& !direct_rtp
)
828 ret
= nf_nat_sdp_media(skb
, dptr
, datalen
, rtp_exp
, rtcp_exp
,
829 mediaoff
, medialen
, daddr
);
831 if (nf_ct_expect_related(rtp_exp
) == 0) {
832 if (nf_ct_expect_related(rtcp_exp
) != 0)
833 nf_ct_unexpect_related(rtp_exp
);
838 nf_ct_expect_put(rtcp_exp
);
840 nf_ct_expect_put(rtp_exp
);
845 static const struct sdp_media_type sdp_media_types
[] = {
846 SDP_MEDIA_TYPE("audio ", SIP_EXPECT_AUDIO
),
847 SDP_MEDIA_TYPE("video ", SIP_EXPECT_VIDEO
),
850 static const struct sdp_media_type
*sdp_media_type(const char *dptr
,
851 unsigned int matchoff
,
852 unsigned int matchlen
)
854 const struct sdp_media_type
*t
;
857 for (i
= 0; i
< ARRAY_SIZE(sdp_media_types
); i
++) {
858 t
= &sdp_media_types
[i
];
859 if (matchlen
< t
->len
||
860 strncmp(dptr
+ matchoff
, t
->name
, t
->len
))
867 static int process_sdp(struct sk_buff
*skb
,
868 const char **dptr
, unsigned int *datalen
,
871 enum ip_conntrack_info ctinfo
;
872 struct nf_conn
*ct
= nf_ct_get(skb
, &ctinfo
);
873 unsigned int matchoff
, matchlen
;
874 unsigned int mediaoff
, medialen
;
876 unsigned int caddr_len
, maddr_len
;
878 union nf_inet_addr caddr
, maddr
, rtp_addr
;
880 enum sdp_header_types c_hdr
;
881 const struct sdp_media_type
*t
;
883 typeof(nf_nat_sdp_addr_hook
) nf_nat_sdp_addr
;
884 typeof(nf_nat_sdp_session_hook
) nf_nat_sdp_session
;
886 nf_nat_sdp_addr
= rcu_dereference(nf_nat_sdp_addr_hook
);
887 c_hdr
= nf_ct_l3num(ct
) == AF_INET
? SDP_HDR_CONNECTION_IP4
:
888 SDP_HDR_CONNECTION_IP6
;
890 /* Find beginning of session description */
891 if (ct_sip_get_sdp_header(ct
, *dptr
, 0, *datalen
,
892 SDP_HDR_VERSION
, SDP_HDR_UNSPEC
,
893 &matchoff
, &matchlen
) <= 0)
897 /* The connection information is contained in the session description
898 * and/or once per media description. The first media description marks
899 * the end of the session description. */
901 if (ct_sip_parse_sdp_addr(ct
, *dptr
, sdpoff
, *datalen
,
902 c_hdr
, SDP_HDR_MEDIA
,
903 &matchoff
, &matchlen
, &caddr
) > 0)
904 caddr_len
= matchlen
;
907 for (i
= 0; i
< ARRAY_SIZE(sdp_media_types
); ) {
908 if (ct_sip_get_sdp_header(ct
, *dptr
, mediaoff
, *datalen
,
909 SDP_HDR_MEDIA
, SDP_HDR_UNSPEC
,
910 &mediaoff
, &medialen
) <= 0)
913 /* Get media type and port number. A media port value of zero
914 * indicates an inactive stream. */
915 t
= sdp_media_type(*dptr
, mediaoff
, medialen
);
917 mediaoff
+= medialen
;
923 port
= simple_strtoul(*dptr
+ mediaoff
, NULL
, 10);
926 if (port
< 1024 || port
> 65535)
929 /* The media description overrides the session description. */
931 if (ct_sip_parse_sdp_addr(ct
, *dptr
, mediaoff
, *datalen
,
932 c_hdr
, SDP_HDR_MEDIA
,
933 &matchoff
, &matchlen
, &maddr
) > 0) {
934 maddr_len
= matchlen
;
935 memcpy(&rtp_addr
, &maddr
, sizeof(rtp_addr
));
936 } else if (caddr_len
)
937 memcpy(&rtp_addr
, &caddr
, sizeof(rtp_addr
));
941 ret
= set_expected_rtp_rtcp(skb
, dptr
, datalen
,
942 &rtp_addr
, htons(port
), t
->class,
944 if (ret
!= NF_ACCEPT
)
947 /* Update media connection address if present */
948 if (maddr_len
&& nf_nat_sdp_addr
&& ct
->status
& IPS_NAT_MASK
) {
949 ret
= nf_nat_sdp_addr(skb
, dptr
, mediaoff
, datalen
,
950 c_hdr
, SDP_HDR_MEDIA
, &rtp_addr
);
951 if (ret
!= NF_ACCEPT
)
957 /* Update session connection and owner addresses */
958 nf_nat_sdp_session
= rcu_dereference(nf_nat_sdp_session_hook
);
959 if (nf_nat_sdp_session
&& ct
->status
& IPS_NAT_MASK
)
960 ret
= nf_nat_sdp_session(skb
, dptr
, sdpoff
, datalen
, &rtp_addr
);
964 static int process_invite_response(struct sk_buff
*skb
,
965 const char **dptr
, unsigned int *datalen
,
966 unsigned int cseq
, unsigned int code
)
968 enum ip_conntrack_info ctinfo
;
969 struct nf_conn
*ct
= nf_ct_get(skb
, &ctinfo
);
971 if ((code
>= 100 && code
<= 199) ||
972 (code
>= 200 && code
<= 299))
973 return process_sdp(skb
, dptr
, datalen
, cseq
);
975 flush_expectations(ct
, true);
980 static int process_update_response(struct sk_buff
*skb
,
981 const char **dptr
, unsigned int *datalen
,
982 unsigned int cseq
, unsigned int code
)
984 enum ip_conntrack_info ctinfo
;
985 struct nf_conn
*ct
= nf_ct_get(skb
, &ctinfo
);
987 if ((code
>= 100 && code
<= 199) ||
988 (code
>= 200 && code
<= 299))
989 return process_sdp(skb
, dptr
, datalen
, cseq
);
991 flush_expectations(ct
, true);
996 static int process_prack_response(struct sk_buff
*skb
,
997 const char **dptr
, unsigned int *datalen
,
998 unsigned int cseq
, unsigned int code
)
1000 enum ip_conntrack_info ctinfo
;
1001 struct nf_conn
*ct
= nf_ct_get(skb
, &ctinfo
);
1003 if ((code
>= 100 && code
<= 199) ||
1004 (code
>= 200 && code
<= 299))
1005 return process_sdp(skb
, dptr
, datalen
, cseq
);
1007 flush_expectations(ct
, true);
1012 static int process_bye_request(struct sk_buff
*skb
,
1013 const char **dptr
, unsigned int *datalen
,
1016 enum ip_conntrack_info ctinfo
;
1017 struct nf_conn
*ct
= nf_ct_get(skb
, &ctinfo
);
1019 flush_expectations(ct
, true);
1023 /* Parse a REGISTER request and create a permanent expectation for incoming
1024 * signalling connections. The expectation is marked inactive and is activated
1025 * when receiving a response indicating success from the registrar.
1027 static int process_register_request(struct sk_buff
*skb
,
1028 const char **dptr
, unsigned int *datalen
,
1031 enum ip_conntrack_info ctinfo
;
1032 struct nf_conn
*ct
= nf_ct_get(skb
, &ctinfo
);
1033 struct nf_conn_help
*help
= nfct_help(ct
);
1034 enum ip_conntrack_dir dir
= CTINFO2DIR(ctinfo
);
1035 unsigned int matchoff
, matchlen
;
1036 struct nf_conntrack_expect
*exp
;
1037 union nf_inet_addr
*saddr
, daddr
;
1039 unsigned int expires
= 0;
1041 typeof(nf_nat_sip_expect_hook
) nf_nat_sip_expect
;
1043 /* Expected connections can not register again. */
1044 if (ct
->status
& IPS_EXPECTED
)
1047 /* We must check the expiration time: a value of zero signals the
1048 * registrar to release the binding. We'll remove our expectation
1049 * when receiving the new bindings in the response, but we don't
1050 * want to create new ones.
1052 * The expiration time may be contained in Expires: header, the
1053 * Contact: header parameters or the URI parameters.
1055 if (ct_sip_get_header(ct
, *dptr
, 0, *datalen
, SIP_HDR_EXPIRES
,
1056 &matchoff
, &matchlen
) > 0)
1057 expires
= simple_strtoul(*dptr
+ matchoff
, NULL
, 10);
1059 ret
= ct_sip_parse_header_uri(ct
, *dptr
, NULL
, *datalen
,
1060 SIP_HDR_CONTACT
, NULL
,
1061 &matchoff
, &matchlen
, &daddr
, &port
);
1067 /* We don't support third-party registrations */
1068 if (!nf_inet_addr_cmp(&ct
->tuplehash
[dir
].tuple
.src
.u3
, &daddr
))
1071 if (ct_sip_parse_numerical_param(ct
, *dptr
,
1072 matchoff
+ matchlen
, *datalen
,
1073 "expires=", NULL
, NULL
, &expires
) < 0)
1081 exp
= nf_ct_expect_alloc(ct
);
1086 if (sip_direct_signalling
)
1087 saddr
= &ct
->tuplehash
[!dir
].tuple
.src
.u3
;
1089 nf_ct_expect_init(exp
, SIP_EXPECT_SIGNALLING
, nf_ct_l3num(ct
),
1090 saddr
, &daddr
, IPPROTO_UDP
, NULL
, &port
);
1091 exp
->timeout
.expires
= sip_timeout
* HZ
;
1092 exp
->helper
= nfct_help(ct
)->helper
;
1093 exp
->flags
= NF_CT_EXPECT_PERMANENT
| NF_CT_EXPECT_INACTIVE
;
1095 nf_nat_sip_expect
= rcu_dereference(nf_nat_sip_expect_hook
);
1096 if (nf_nat_sip_expect
&& ct
->status
& IPS_NAT_MASK
)
1097 ret
= nf_nat_sip_expect(skb
, dptr
, datalen
, exp
,
1098 matchoff
, matchlen
);
1100 if (nf_ct_expect_related(exp
) != 0)
1105 nf_ct_expect_put(exp
);
1108 if (ret
== NF_ACCEPT
)
1109 help
->help
.ct_sip_info
.register_cseq
= cseq
;
1113 static int process_register_response(struct sk_buff
*skb
,
1114 const char **dptr
, unsigned int *datalen
,
1115 unsigned int cseq
, unsigned int code
)
1117 enum ip_conntrack_info ctinfo
;
1118 struct nf_conn
*ct
= nf_ct_get(skb
, &ctinfo
);
1119 struct nf_conn_help
*help
= nfct_help(ct
);
1120 enum ip_conntrack_dir dir
= CTINFO2DIR(ctinfo
);
1121 union nf_inet_addr addr
;
1123 unsigned int matchoff
, matchlen
, dataoff
= 0;
1124 unsigned int expires
= 0;
1125 int in_contact
= 0, ret
;
1127 /* According to RFC 3261, "UAs MUST NOT send a new registration until
1128 * they have received a final response from the registrar for the
1129 * previous one or the previous REGISTER request has timed out".
1131 * However, some servers fail to detect retransmissions and send late
1132 * responses, so we store the sequence number of the last valid
1133 * request and compare it here.
1135 if (help
->help
.ct_sip_info
.register_cseq
!= cseq
)
1138 if (code
>= 100 && code
<= 199)
1140 if (code
< 200 || code
> 299)
1143 if (ct_sip_get_header(ct
, *dptr
, 0, *datalen
, SIP_HDR_EXPIRES
,
1144 &matchoff
, &matchlen
) > 0)
1145 expires
= simple_strtoul(*dptr
+ matchoff
, NULL
, 10);
1148 unsigned int c_expires
= expires
;
1150 ret
= ct_sip_parse_header_uri(ct
, *dptr
, &dataoff
, *datalen
,
1151 SIP_HDR_CONTACT
, &in_contact
,
1152 &matchoff
, &matchlen
,
1159 /* We don't support third-party registrations */
1160 if (!nf_inet_addr_cmp(&ct
->tuplehash
[dir
].tuple
.dst
.u3
, &addr
))
1163 ret
= ct_sip_parse_numerical_param(ct
, *dptr
,
1164 matchoff
+ matchlen
,
1165 *datalen
, "expires=",
1166 NULL
, NULL
, &c_expires
);
1171 if (refresh_signalling_expectation(ct
, &addr
, port
, c_expires
))
1176 flush_expectations(ct
, false);
1180 static const struct sip_handler sip_handlers
[] = {
1181 SIP_HANDLER("INVITE", process_sdp
, process_invite_response
),
1182 SIP_HANDLER("UPDATE", process_sdp
, process_update_response
),
1183 SIP_HANDLER("ACK", process_sdp
, NULL
),
1184 SIP_HANDLER("PRACK", process_sdp
, process_prack_response
),
1185 SIP_HANDLER("BYE", process_bye_request
, NULL
),
1186 SIP_HANDLER("REGISTER", process_register_request
, process_register_response
),
1189 static int process_sip_response(struct sk_buff
*skb
,
1190 const char **dptr
, unsigned int *datalen
)
1192 static const struct sip_handler
*handler
;
1193 enum ip_conntrack_info ctinfo
;
1194 struct nf_conn
*ct
= nf_ct_get(skb
, &ctinfo
);
1195 unsigned int matchoff
, matchlen
;
1196 unsigned int code
, cseq
, dataoff
, i
;
1198 if (*datalen
< strlen("SIP/2.0 200"))
1200 code
= simple_strtoul(*dptr
+ strlen("SIP/2.0 "), NULL
, 10);
1204 if (ct_sip_get_header(ct
, *dptr
, 0, *datalen
, SIP_HDR_CSEQ
,
1205 &matchoff
, &matchlen
) <= 0)
1207 cseq
= simple_strtoul(*dptr
+ matchoff
, NULL
, 10);
1210 dataoff
= matchoff
+ matchlen
+ 1;
1212 for (i
= 0; i
< ARRAY_SIZE(sip_handlers
); i
++) {
1213 handler
= &sip_handlers
[i
];
1214 if (handler
->response
== NULL
)
1216 if (*datalen
< dataoff
+ handler
->len
||
1217 strnicmp(*dptr
+ dataoff
, handler
->method
, handler
->len
))
1219 return handler
->response(skb
, dptr
, datalen
, cseq
, code
);
1224 static int process_sip_request(struct sk_buff
*skb
,
1225 const char **dptr
, unsigned int *datalen
)
1227 static const struct sip_handler
*handler
;
1228 enum ip_conntrack_info ctinfo
;
1229 struct nf_conn
*ct
= nf_ct_get(skb
, &ctinfo
);
1230 unsigned int matchoff
, matchlen
;
1231 unsigned int cseq
, i
;
1233 for (i
= 0; i
< ARRAY_SIZE(sip_handlers
); i
++) {
1234 handler
= &sip_handlers
[i
];
1235 if (handler
->request
== NULL
)
1237 if (*datalen
< handler
->len
||
1238 strnicmp(*dptr
, handler
->method
, handler
->len
))
1241 if (ct_sip_get_header(ct
, *dptr
, 0, *datalen
, SIP_HDR_CSEQ
,
1242 &matchoff
, &matchlen
) <= 0)
1244 cseq
= simple_strtoul(*dptr
+ matchoff
, NULL
, 10);
1248 return handler
->request(skb
, dptr
, datalen
, cseq
);
1253 static int sip_help(struct sk_buff
*skb
,
1254 unsigned int protoff
,
1256 enum ip_conntrack_info ctinfo
)
1258 unsigned int dataoff
, datalen
;
1261 typeof(nf_nat_sip_hook
) nf_nat_sip
;
1264 dataoff
= protoff
+ sizeof(struct udphdr
);
1265 if (dataoff
>= skb
->len
)
1268 nf_ct_refresh(ct
, skb
, sip_timeout
* HZ
);
1270 if (!skb_is_nonlinear(skb
))
1271 dptr
= skb
->data
+ dataoff
;
1273 pr_debug("Copy of skbuff not supported yet.\n");
1277 datalen
= skb
->len
- dataoff
;
1278 if (datalen
< strlen("SIP/2.0 200"))
1281 if (strnicmp(dptr
, "SIP/2.0 ", strlen("SIP/2.0 ")) != 0)
1282 ret
= process_sip_request(skb
, &dptr
, &datalen
);
1284 ret
= process_sip_response(skb
, &dptr
, &datalen
);
1286 if (ret
== NF_ACCEPT
&& ct
->status
& IPS_NAT_MASK
) {
1287 nf_nat_sip
= rcu_dereference(nf_nat_sip_hook
);
1288 if (nf_nat_sip
&& !nf_nat_sip(skb
, &dptr
, &datalen
))
1295 static struct nf_conntrack_helper sip
[MAX_PORTS
][2] __read_mostly
;
1296 static char sip_names
[MAX_PORTS
][2][sizeof("sip-65535")] __read_mostly
;
1298 static const struct nf_conntrack_expect_policy sip_exp_policy
[SIP_EXPECT_MAX
+ 1] = {
1299 [SIP_EXPECT_SIGNALLING
] = {
1303 [SIP_EXPECT_AUDIO
] = {
1304 .max_expected
= 2 * IP_CT_DIR_MAX
,
1307 [SIP_EXPECT_VIDEO
] = {
1308 .max_expected
= 2 * IP_CT_DIR_MAX
,
1313 static void nf_conntrack_sip_fini(void)
1317 for (i
= 0; i
< ports_c
; i
++) {
1318 for (j
= 0; j
< 2; j
++) {
1319 if (sip
[i
][j
].me
== NULL
)
1321 nf_conntrack_helper_unregister(&sip
[i
][j
]);
1326 static int __init
nf_conntrack_sip_init(void)
1332 ports
[ports_c
++] = SIP_PORT
;
1334 for (i
= 0; i
< ports_c
; i
++) {
1335 memset(&sip
[i
], 0, sizeof(sip
[i
]));
1337 sip
[i
][0].tuple
.src
.l3num
= AF_INET
;
1338 sip
[i
][1].tuple
.src
.l3num
= AF_INET6
;
1339 for (j
= 0; j
< 2; j
++) {
1340 sip
[i
][j
].tuple
.dst
.protonum
= IPPROTO_UDP
;
1341 sip
[i
][j
].tuple
.src
.u
.udp
.port
= htons(ports
[i
]);
1342 sip
[i
][j
].expect_policy
= sip_exp_policy
;
1343 sip
[i
][j
].expect_class_max
= SIP_EXPECT_MAX
;
1344 sip
[i
][j
].me
= THIS_MODULE
;
1345 sip
[i
][j
].help
= sip_help
;
1347 tmpname
= &sip_names
[i
][j
][0];
1348 if (ports
[i
] == SIP_PORT
)
1349 sprintf(tmpname
, "sip");
1351 sprintf(tmpname
, "sip-%u", i
);
1352 sip
[i
][j
].name
= tmpname
;
1354 pr_debug("port #%u: %u\n", i
, ports
[i
]);
1356 ret
= nf_conntrack_helper_register(&sip
[i
][j
]);
1358 printk("nf_ct_sip: failed to register helper "
1359 "for pf: %u port: %u\n",
1360 sip
[i
][j
].tuple
.src
.l3num
, ports
[i
]);
1361 nf_conntrack_sip_fini();
1369 module_init(nf_conntrack_sip_init
);
1370 module_exit(nf_conntrack_sip_fini
);