xref: /freebsd/share/man/man4/ip6.4 (revision a2f733abcff64628b7771a47089628b7327a88bd)
1.\"	$KAME: ip6.4,v 1.23 2005/01/11 05:56:25 itojun Exp $
2.\"	$OpenBSD: ip6.4,v 1.21 2005/01/06 03:50:46 itojun Exp $
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31.Dd July 24, 2022
32.Dt IP6 4
33.Os
34.Sh NAME
35.Nm ip6
36.Nd Internet Protocol version 6 (IPv6) network layer
37.Sh SYNOPSIS
38.In sys/socket.h
39.In netinet/in.h
40.Ft int
41.Fn socket AF_INET6 SOCK_RAW proto
42.Sh DESCRIPTION
43The IPv6 network layer is used by the IPv6 protocol family for
44transporting data.
45IPv6 packets contain an IPv6 header that is not provided as part of the
46payload contents when passed to an application.
47IPv6 header options affect the behavior of this protocol and may be used
48by high-level protocols (such as the
49.Xr tcp 4
50and
51.Xr udp 4
52protocols) as well as directly by
53.Dq raw sockets ,
54which process IPv6 messages at a lower-level and may be useful for
55developing new protocols and special-purpose applications.
56.Ss Header
57All IPv6 packets begin with an IPv6 header.
58When data received by the kernel are passed to the application, this
59header is not included in buffer, even when raw sockets are being used.
60Likewise, when data are sent to the kernel for transmit from the
61application, the buffer is not examined for an IPv6 header:
62the kernel always constructs the header.
63To directly access IPv6 headers from received packets and specify them
64as part of the buffer passed to the kernel, link-level access
65.Po
66.Xr bpf 4 ,
67for example
68.Pc
69must instead be utilized.
70.Pp
71The header has the following definition:
72.Bd -literal -offset indent
73struct ip6_hdr {
74     union {
75          struct ip6_hdrctl {
76               uint32_t ip6_un1_flow;	/* 20 bits of flow ID */
77               uint16_t ip6_un1_plen;	/* payload length */
78               uint8_t  ip6_un1_nxt;	/* next header */
79               uint8_t  ip6_un1_hlim;	/* hop limit */
80          } ip6_un1;
81          uint8_t ip6_un2_vfc;	/* version and class */
82     } ip6_ctlun;
83     struct in6_addr ip6_src;	/* source address */
84     struct in6_addr ip6_dst;	/* destination address */
85} __packed;
86
87#define ip6_vfc		ip6_ctlun.ip6_un2_vfc
88#define ip6_flow	ip6_ctlun.ip6_un1.ip6_un1_flow
89#define ip6_plen	ip6_ctlun.ip6_un1.ip6_un1_plen
90#define ip6_nxt		ip6_ctlun.ip6_un1.ip6_un1_nxt
91#define ip6_hlim	ip6_ctlun.ip6_un1.ip6_un1_hlim
92#define ip6_hops	ip6_ctlun.ip6_un1.ip6_un1_hlim
93.Ed
94.Pp
95All fields are in network-byte order.
96Any options specified (see
97.Sx Options
98below) must also be specified in network-byte order.
99.Pp
100.Va ip6_flow
101specifies the flow ID.
102.Va ip6_plen
103specifies the payload length.
104.Va ip6_nxt
105specifies the type of the next header.
106.Va ip6_hlim
107specifies the hop limit.
108.Pp
109The top 4 bits of
110.Va ip6_vfc
111specify the class and the bottom 4 bits specify the version.
112.Pp
113.Va ip6_src
114and
115.Va ip6_dst
116specify the source and destination addresses.
117.Pp
118The IPv6 header may be followed by any number of extension headers that start
119with the following generic definition:
120.Bd -literal -offset indent
121struct ip6_ext {
122     uint8_t ip6e_nxt;
123     uint8_t ip6e_len;
124} __packed;
125.Ed
126.Ss Options
127IPv6 allows header options on packets to manipulate the behavior of the
128protocol.
129These options and other control requests are accessed with the
130.Xr getsockopt 2
131and
132.Xr setsockopt 2
133system calls at level
134.Dv IPPROTO_IPV6
135and by using ancillary data in
136.Xr recvmsg 2
137and
138.Xr sendmsg 2 .
139They can be used to access most of the fields in the IPv6 header and
140extension headers.
141.Pp
142The following socket options are supported:
143.Bl -tag -width Ds
144.\" .It Dv IPV6_OPTIONS
145.It Dv IPV6_UNICAST_HOPS Fa "int *"
146Get or set the default hop limit header field for outgoing unicast
147datagrams sent on this socket.
148.\" .It Dv IPV6_RECVOPTS Fa "int *"
149.\" Get or set the status of whether all header options will be
150.\" delivered along with the datagram when it is received.
151.\" .It Dv IPV6_RECVRETOPTS Fa "int *"
152.\" Get or set the status of whether header options will be delivered
153.\" for reply.
154.\" .It Dv IPV6_RECVDSTADDR Fa "int *"
155.\" Get or set the status of whether datagrams are received with
156.\" destination addresses.
157.\" .It Dv IPV6_RETOPTS
158.\" Get or set IPv6 options.
159.It Dv IPV6_MULTICAST_IF Fa "u_int *"
160Get or set the interface from which multicast packets will be sent.
161For hosts with multiple interfaces, each multicast transmission is sent
162from the primary network interface.
163The interface is specified as its index as provided by
164.Xr if_nametoindex 3 .
165A value of zero specifies the default interface.
166.It Dv IPV6_MULTICAST_HOPS Fa "int *"
167Get or set the default hop limit header field for outgoing multicast
168datagrams sent on this socket.
169This option controls the scope of multicast datagram transmissions.
170.Pp
171Datagrams with a hop limit of 1 are not forwarded beyond the local
172network.
173Multicast datagrams with a hop limit of zero will not be transmitted on
174any network but may be delivered locally if the sending host belongs to
175the destination group and if multicast loopback (see below) has not been
176disabled on the sending socket.
177Multicast datagrams with a hop limit greater than 1 may be forwarded to
178the other networks if a multicast router (such as
179.Xr mrouted 8 Pq Pa ports/net/mrouted )
180is attached to the local network.
181.It Dv IPV6_MULTICAST_LOOP Fa "u_int *"
182Get or set the status of whether multicast datagrams will be looped back
183for local delivery when a multicast datagram is sent to a group to which
184the sending host belongs.
185.Pp
186This option improves performance for applications that may have no more
187than one instance on a single host (such as a router daemon) by
188eliminating the overhead of receiving their own transmissions.
189It should generally not be used by applications for which there may be
190more than one instance on a single host (such as a conferencing program)
191or for which the sender does not belong to the destination group
192(such as a time-querying program).
193.Pp
194A multicast datagram sent with an initial hop limit greater than 1 may
195be delivered to the sending host on a different interface from that on
196which it was sent if the host belongs to the destination group on that
197other interface.
198The multicast loopback control option has no effect on such delivery.
199.It Dv IPV6_JOIN_GROUP Fa "struct ipv6_mreq *"
200Join a multicast group.
201A host must become a member of a multicast group before it can receive
202datagrams sent to the group.
203.Bd -literal
204struct ipv6_mreq {
205	struct in6_addr	ipv6mr_multiaddr;
206	unsigned int	ipv6mr_interface;
207};
208.Ed
209.Pp
210.Va ipv6mr_interface
211may be set to zeroes to choose the default multicast interface or to the
212index of a particular multicast-capable interface if the host is
213multihomed.
214Membership is associated with a single interface; programs running on
215multihomed hosts may need to join the same group on more than one
216interface.
217.Pp
218If the multicast address is unspecified (i.e., all zeroes), messages
219from all multicast addresses will be accepted by this group.
220Note that setting to this value requires superuser privileges.
221.It Dv IPV6_LEAVE_GROUP Fa "struct ipv6_mreq *"
222Drop membership from the associated multicast group.
223Memberships are automatically dropped when the socket is closed or when
224the process exits.
225.It Dv IPV6_ORIGDSTADDR Fa "int *"
226Get or set whether a datagram's original destination address and port are
227returned as ancillary data along with the payload in subsequent
228.Xr recvmsg 2
229calls.
230The information is stored in the ancillary data as a
231.Tn sockaddr_in6
232structure.
233.It Dv IPV6_PORTRANGE Fa "int *"
234Get or set the allocation policy of ephemeral ports for when the kernel
235automatically binds a local address to this socket.
236The following values are available:
237.Pp
238.Bl -tag -width IPV6_PORTRANGE_DEFAULT -compact
239.It Dv IPV6_PORTRANGE_DEFAULT
240Use the regular range of non-reserved ports (varies, see
241.Xr ip 4 ) .
242.It Dv IPV6_PORTRANGE_HIGH
243Use a high range (varies, see
244.Xr ip 4 ) .
245.It Dv IPV6_PORTRANGE_LOW
246Use a low, reserved range (600\-1023, see
247.Xr ip 4 ) .
248.El
249.It Dv IPV6_PKTINFO Fa "int *"
250Get or set whether additional information about subsequent packets will
251be provided as ancillary data along with the payload in subsequent
252.Xr recvmsg 2
253calls.
254The information is stored in the following structure in the ancillary
255data returned:
256.Bd -literal
257struct in6_pktinfo {
258	struct in6_addr ipi6_addr;    /* src/dst IPv6 address */
259	unsigned int    ipi6_ifindex; /* send/recv if index */
260};
261.Ed
262.It Dv IPV6_HOPLIMIT Fa "int *"
263Get or set whether the hop limit header field from subsequent packets
264will be provided as ancillary data along with the payload in subsequent
265.Xr recvmsg 2
266calls.
267The value is stored as an
268.Vt int
269in the ancillary data returned.
270.\" .It Dv IPV6_NEXTHOP Fa "int *"
271.\" Get or set whether the address of the next hop for subsequent
272.\" packets will be provided as ancillary data along with the payload in
273.\" subsequent
274.\" .Xr recvmsg 2
275.\" calls.
276.\" The option is stored as a
277.\" .Vt sockaddr
278.\" structure in the ancillary data returned.
279.\" .Pp
280.\" This option requires superuser privileges.
281.It Dv IPV6_HOPOPTS Fa "int *"
282Get or set whether the hop-by-hop options from subsequent packets will be
283provided as ancillary data along with the payload in subsequent
284.Xr recvmsg 2
285calls.
286The option is stored in the following structure in the ancillary data
287returned:
288.Bd -literal
289struct ip6_hbh {
290	uint8_t ip6h_nxt;	/* next header */
291	uint8_t ip6h_len;	/* length in units of 8 octets */
292/* followed by options */
293} __packed;
294.Ed
295.Pp
296The
297.Fn inet6_opt_init
298routine and family of routines may be used to manipulate this data.
299.Pp
300This option requires superuser privileges.
301.It Dv IPV6_DSTOPTS Fa "int *"
302Get or set whether the destination options from subsequent packets will
303be provided as ancillary data along with the payload in subsequent
304.Xr recvmsg 2
305calls.
306The option is stored in the following structure in the ancillary data
307returned:
308.Bd -literal
309struct ip6_dest {
310	uint8_t ip6d_nxt;	/* next header */
311	uint8_t ip6d_len;	/* length in units of 8 octets */
312/* followed by options */
313} __packed;
314.Ed
315.Pp
316The
317.Fn inet6_opt_init
318routine and family of routines may be used to manipulate this data.
319.Pp
320This option requires superuser privileges.
321.It Dv IPV6_TCLASS Fa "int *"
322Get or set the value of the traffic class field used for outgoing datagrams
323on this socket.
324The value must be between \-1 and 255.
325A value of \-1 resets to the default value.
326.It Dv IPV6_RECVTCLASS Fa "int *"
327Get or set the status of whether the traffic class header field will be
328provided as ancillary data along with the payload in subsequent
329.Xr recvmsg 2
330calls.
331The header field is stored as a single value of type
332.Vt int .
333.It Dv IPV6_RTHDR Fa "int *"
334Get or set whether the routing header from subsequent packets will be
335provided as ancillary data along with the payload in subsequent
336.Xr recvmsg 2
337calls.
338The header is stored in the following structure in the ancillary data
339returned:
340.Bd -literal
341struct ip6_rthdr {
342	uint8_t ip6r_nxt;	/* next header */
343	uint8_t ip6r_len;	/* length in units of 8 octets */
344	uint8_t ip6r_type;	/* routing type */
345	uint8_t ip6r_segleft;	/* segments left */
346/* followed by routing-type-specific data */
347} __packed;
348.Ed
349.Pp
350The
351.Fn inet6_opt_init
352routine and family of routines may be used to manipulate this data.
353.Pp
354This option requires superuser privileges.
355.It Dv IPV6_PKTOPTIONS Fa "struct cmsghdr *"
356Get or set all header options and extension headers at one time on the
357last packet sent or received on the socket.
358All options must fit within the size of an mbuf (see
359.Xr mbuf 9 ) .
360Options are specified as a series of
361.Vt cmsghdr
362structures followed by corresponding values.
363.Va cmsg_level
364is set to
365.Dv IPPROTO_IPV6 ,
366.Va cmsg_type
367to one of the other values in this list, and trailing data to the option
368value.
369When setting options, if the length
370.Va optlen
371to
372.Xr setsockopt 2
373is zero, all header options will be reset to their default values.
374Otherwise, the length should specify the size the series of control
375messages consumes.
376.Pp
377Instead of using
378.Xr sendmsg 2
379to specify option values, the ancillary data used in these calls that
380correspond to the desired header options may be directly specified as
381the control message in the series of control messages provided as the
382argument to
383.Xr setsockopt 2 .
384.It Dv IPV6_CHECKSUM Fa "int *"
385Get or set the byte offset into a packet where the 16-bit checksum is
386located.
387When set, this byte offset is where incoming packets will be expected
388to have checksums of their data stored and where outgoing packets will
389have checksums of their data computed and stored by the kernel.
390A value of \-1 specifies that no checksums will be checked on incoming
391packets and that no checksums will be computed or stored on outgoing
392packets.
393The offset of the checksum for ICMPv6 sockets cannot be relocated or
394turned off.
395.It Dv IPV6_V6ONLY Fa "int *"
396Get or set whether only IPv6 connections can be made to this socket.
397For wildcard sockets, this can restrict connections to IPv6 only.
398.\"With
399.\".Ox
400.\"IPv6 sockets are always IPv6-only, so the socket option is read-only
401.\"(not modifiable).
402.It Dv IPV6_USE_MIN_MTU Fa "int *"
403Get or set whether the minimal IPv6 maximum transmission unit (MTU) size
404will be used to avoid fragmentation from occurring for subsequent
405outgoing datagrams.
406.It Dv IPV6_AUTH_LEVEL Fa "int *"
407Get or set the
408.Xr ipsec 4
409authentication level.
410.It Dv IPV6_ESP_TRANS_LEVEL Fa "int *"
411Get or set the ESP transport level.
412.It Dv IPV6_ESP_NETWORK_LEVEL Fa "int *"
413Get or set the ESP encapsulation level.
414.It Dv IPV6_IPCOMP_LEVEL Fa "int *"
415Get or set the
416.Xr ipcomp 4
417level.
418.El
419.Pp
420The
421.Dv IPV6_PKTINFO ,
422.\" .Dv IPV6_NEXTHOP ,
423.Dv IPV6_HOPLIMIT ,
424.Dv IPV6_HOPOPTS ,
425.Dv IPV6_DSTOPTS ,
426.Dv IPV6_RTHDR ,
427and
428.Dv IPV6_ORIGDSTADDR
429options will return ancillary data along with payload contents in subsequent
430.Xr recvmsg 2
431calls with
432.Va cmsg_level
433set to
434.Dv IPPROTO_IPV6
435and
436.Va cmsg_type
437set to respective option name value (e.g.,
438.Dv IPV6_HOPTLIMIT ) .
439Some of these options may also be used directly as ancillary
440.Va cmsg_type
441values in
442.Xr sendmsg 2
443to set options on the packet being transmitted by the call.
444The
445.Va cmsg_level
446value must be
447.Dv IPPROTO_IPV6 .
448For these options, the ancillary data object value format is the same
449as the value returned as explained for each when received with
450.Xr recvmsg 2 .
451.Pp
452Note that using
453.Xr sendmsg 2
454to specify options on particular packets works only on UDP and raw sockets.
455To manipulate header options for packets on TCP sockets, only the socket
456options may be used.
457.Pp
458In some cases, there are multiple APIs defined for manipulating an IPv6
459header field.
460A good example is the outgoing interface for multicast datagrams, which
461can be set by the
462.Dv IPV6_MULTICAST_IF
463socket option, through the
464.Dv IPV6_PKTINFO
465option, and through the
466.Va sin6_scope_id
467field of the socket address passed to the
468.Xr sendto 2
469system call.
470.Pp
471Resolving these conflicts is implementation dependent.
472This implementation determines the value in the following way:
473options specified by using ancillary data (i.e.,
474.Xr sendmsg 2 )
475are considered first,
476options specified by using
477.Dv IPV6_PKTOPTIONS
478to set
479.Dq sticky
480options are considered second,
481options specified by using the individual, basic, and direct socket
482options (e.g.,
483.Dv IPV6_UNICAST_HOPS )
484are considered third,
485and options specified in the socket address supplied to
486.Xr sendto 2
487are the last choice.
488.Ss Multicasting
489IPv6 multicasting is supported only on
490.Dv AF_INET6
491sockets of type
492.Dv SOCK_DGRAM
493and
494.Dv SOCK_RAW ,
495and only on networks where the interface driver supports
496multicasting.
497Socket options (see above) that manipulate membership of
498multicast groups and other multicast options include
499.Dv IPV6_MULTICAST_IF ,
500.Dv IPV6_MULTICAST_HOPS ,
501.Dv IPV6_MULTICAST_LOOP ,
502.Dv IPV6_LEAVE_GROUP ,
503and
504.Dv IPV6_JOIN_GROUP .
505.Ss Raw Sockets
506Raw IPv6 sockets are connectionless and are normally used with the
507.Xr sendto 2
508and
509.Xr recvfrom 2
510calls, although the
511.Xr connect 2
512call may be used to fix the destination address for future outgoing
513packets so that
514.Xr send 2
515may instead be used and the
516.Xr bind 2
517call may be used to fix the source address for future outgoing
518packets instead of having the kernel choose a source address.
519.Pp
520By using
521.Xr connect 2
522or
523.Xr bind 2 ,
524raw socket input is constrained to only packets with their
525source address matching the socket destination address if
526.Xr connect 2
527was used and to packets with their destination address
528matching the socket source address if
529.Xr bind 2
530was used.
531.Pp
532If the
533.Ar proto
534argument to
535.Xr socket 2
536is zero, the default protocol
537.Pq Dv IPPROTO_RAW
538is used for outgoing packets.
539For incoming packets, protocols recognized by kernel are
540.Sy not
541passed to the application socket (e.g.,
542.Xr tcp 4
543and
544.Xr udp 4 )
545except for some ICMPv6 messages.
546The ICMPv6 messages not passed to raw sockets include echo, timestamp,
547and address mask requests.
548If
549.Ar proto
550is non-zero, only packets with this protocol will be passed to the
551socket.
552.Pp
553IPv6 fragments are also not passed to application sockets until
554they have been reassembled.
555If reception of all packets is desired, link-level access (such as
556.Xr bpf 4 )
557must be used instead.
558.Pp
559Outgoing packets automatically have an IPv6 header prepended to them
560(based on the destination address and the protocol number the socket
561was created with).
562Incoming packets are received by an application without the IPv6 header
563or any extension headers.
564.Pp
565Outgoing packets will be fragmented automatically by the kernel if they
566are too large.
567Incoming packets will be reassembled before being sent to the raw socket,
568so packet fragments or fragment headers will never be seen on a raw socket.
569.Sh EXAMPLES
570The following determines the hop limit on the next packet received:
571.Bd -literal
572struct iovec iov[2];
573u_char buf[BUFSIZ];
574struct cmsghdr *cm;
575struct msghdr m;
576int optval;
577bool found;
578u_char data[2048];
579
580/* Create socket. */
581
582(void)memset(&m, 0, sizeof(m));
583(void)memset(&iov, 0, sizeof(iov));
584
585iov[0].iov_base = data;		/* buffer for packet payload */
586iov[0].iov_len = sizeof(data);	/* expected packet length */
587
588m.msg_name = &from;		/* sockaddr_in6 of peer */
589m.msg_namelen = sizeof(from);
590m.msg_iov = iov;
591m.msg_iovlen = 1;
592m.msg_control = (caddr_t)buf;	/* buffer for control messages */
593m.msg_controllen = sizeof(buf);
594
595/*
596 * Enable the hop limit value from received packets to be
597 * returned along with the payload.
598 */
599optval = 1;
600if (setsockopt(s, IPPROTO_IPV6, IPV6_HOPLIMIT, &optval,
601    sizeof(optval)) == -1)
602	err(1, "setsockopt");
603
604found = false;
605do {
606	if (recvmsg(s, &m, 0) == -1)
607		err(1, "recvmsg");
608	for (cm = CMSG_FIRSTHDR(&m); cm != NULL;
609	     cm = CMSG_NXTHDR(&m, cm)) {
610		if (cm->cmsg_level == IPPROTO_IPV6 &&
611		    cm->cmsg_type == IPV6_HOPLIMIT &&
612		    cm->cmsg_len == CMSG_LEN(sizeof(int))) {
613			found = true;
614			(void)printf("hop limit: %d\en",
615			    *(int *)CMSG_DATA(cm));
616			break;
617		}
618	}
619} while (!found);
620.Ed
621.Sh DIAGNOSTICS
622A socket operation may fail with one of the following errors returned:
623.Bl -tag -width EADDRNOTAVAILxx
624.It Bq Er EISCONN
625when trying to establish a connection on a socket which
626already has one or when trying to send a datagram with the destination
627address specified and the socket is already connected.
628.It Bq Er ENOTCONN
629when trying to send a datagram, but
630no destination address is specified, and the socket has not been
631connected.
632.It Bq Er ENOBUFS
633when the system runs out of memory for
634an internal data structure.
635.It Bq Er EADDRNOTAVAIL
636when an attempt is made to create a
637socket with a network address for which no network interface
638exists.
639.It Bq Er EACCES
640when an attempt is made to create
641a raw IPv6 socket by a non-privileged process.
642.El
643.Pp
644The following errors specific to IPv6 may occur when setting or getting
645header options:
646.Bl -tag -width EADDRNOTAVAILxx
647.It Bq Er EINVAL
648An unknown socket option name was given.
649.It Bq Er EINVAL
650An ancillary data object was improperly formed.
651.El
652.Sh SEE ALSO
653.Xr getsockopt 2 ,
654.Xr recv 2 ,
655.Xr send 2 ,
656.Xr setsockopt 2 ,
657.Xr socket 2 ,
658.Xr CMSG_DATA 3 ,
659.Xr if_nametoindex 3 ,
660.Xr inet6_opt_init 3 ,
661.Xr bpf 4 ,
662.Xr icmp6 4 ,
663.Xr inet6 4 ,
664.Xr ip 4 ,
665.Xr netintro 4 ,
666.Xr tcp 4 ,
667.Xr udp 4
668.Rs
669.%A W. Stevens
670.%A M. Thomas
671.%T Advanced Sockets API for IPv6
672.%R RFC 2292
673.%D February 1998
674.Re
675.Rs
676.%A S. Deering
677.%A R. Hinden
678.%T Internet Protocol, Version 6 (IPv6) Specification
679.%R RFC 2460
680.%D December 1998
681.Re
682.Rs
683.%A R. Gilligan
684.%A S. Thomson
685.%A J. Bound
686.%A W. Stevens
687.%T Basic Socket Interface Extensions for IPv6
688.%R RFC 2553
689.%D March 1999
690.Re
691.Rs
692.%A R. Gilligan
693.%A S. Thomson
694.%A J. Bound
695.%A J. McCann
696.%A W. Stevens
697.%T Basic Socket Interface Extensions for IPv6
698.%R RFC 3493
699.%D February 2003
700.Re
701.Rs
702.%A W. Stevens
703.%A M. Thomas
704.%A E. Nordmark
705.%A T. Jinmei
706.%T Advanced Sockets Application Program Interface (API) for IPv6
707.%R RFC 3542
708.%D May 2003
709.Re
710.Rs
711.%A S. Deering
712.%A R. Hinden
713.%T Internet Protocol, Version 6 (IPv6) Specification
714.%R RFC 8200
715.%D July 2017
716.Re
717.Rs
718.%A W. Stevens
719.%A B. Fenner
720.%A A. Rudoff
721.%T UNIX Network Programming, 3rd Edition
722.%I Addison-Wesley Professional
723.%D November 2003
724.Re
725.Sh STANDARDS
726Most of the socket options are defined in RFC 2292 / 3542 or
727RFC 2553 / 3493.
728The
729.Dv IPV6_PORTRANGE
730socket option and the conflict resolution rule are not defined in the
731RFCs and should be considered implementation dependent.
732