xref: /freebsd/lib/libc/net/getaddrinfo.3 (revision fe75646a0234a261c0013bf1840fdac4acaf0cec)
1.\"	$KAME: getaddrinfo.3,v 1.36 2005/01/05 03:23:05 itojun Exp $
2.\"	$OpenBSD: getaddrinfo.3,v 1.35 2004/12/21 03:40:31 jaredy Exp $
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19.Dd June 27, 2022
20.Dt GETADDRINFO 3
21.Os
22.Sh NAME
23.Nm getaddrinfo ,
24.Nm freeaddrinfo
25.Nd socket address structure to host and service name
26.Sh SYNOPSIS
27.In sys/types.h
28.In sys/socket.h
29.In netdb.h
30.Ft int
31.Fo getaddrinfo
32.Fa "const char *hostname" "const char *servname"
33.Fa "const struct addrinfo *hints" "struct addrinfo **res"
34.Fc
35.Ft void
36.Fn freeaddrinfo "struct addrinfo *ai"
37.Sh DESCRIPTION
38The
39.Fn getaddrinfo
40function is used to get a list of
41addresses and port numbers for host
42.Fa hostname
43and service
44.Fa servname .
45It is a replacement for and provides more flexibility than the
46.Xr gethostbyname 3
47and
48.Xr getservbyname 3
49functions.
50.Pp
51The
52.Fa hostname
53and
54.Fa servname
55arguments are either pointers to NUL-terminated strings or the null pointer.
56An acceptable value for
57.Fa hostname
58is either a valid host name or a numeric host address string consisting
59of a dotted decimal IPv4 address,
60an IPv6 address,
61or a UNIX-domain address.
62The
63.Fa servname
64is either a decimal port number or a service name listed in
65.Xr services 5 .
66At least one of
67.Fa hostname
68and
69.Fa servname
70must be non-null.
71.Pp
72.Fa hints
73is an optional pointer to a
74.Li struct addrinfo ,
75as defined by
76.Aq Pa netdb.h :
77.Bd -literal
78struct addrinfo {
79        int     ai_flags;       /* AI_PASSIVE, AI_CANONNAME, .. */
80        int     ai_family;      /* AF_xxx */
81        int     ai_socktype;    /* SOCK_xxx */
82        int     ai_protocol;    /* 0 or IPPROTO_xxx for IPv4 and IPv6 */
83        socklen_t ai_addrlen;   /* length of ai_addr */
84        char    *ai_canonname;  /* canonical name for hostname */
85        struct  sockaddr *ai_addr;      /* binary address */
86        struct  addrinfo *ai_next;      /* next structure in linked list */
87};
88.Ed
89.Pp
90This structure can be used to provide hints concerning the type of socket
91that the caller supports or wishes to use.
92The caller can supply the following structure elements in
93.Fa hints :
94.Bl -tag -width "ai_socktypeXX"
95.It Fa ai_family
96The address family that should be used.
97When
98.Fa ai_family
99is set to
100.Dv AF_UNSPEC ,
101it means the caller will accept any address family supported by the
102operating system.
103.It Fa ai_socktype
104Denotes the type of socket that is wanted:
105.Dv SOCK_STREAM ,
106.Dv SOCK_DGRAM ,
107.Dv SOCK_SEQPACKET ,
108or
109.Dv SOCK_RAW .
110When
111.Fa ai_socktype
112is zero the caller will accept any socket type.
113.It Fa ai_protocol
114Indicates which transport protocol is desired,
115.Dv IPPROTO_UDP ,
116.Dv IPPROTO_TCP ,
117.Dv IPPROTO_SCTP ,
118or
119.Dv IPPROTO_UDPLITE .
120If
121.Fa ai_protocol
122is zero the caller will accept any protocol.
123.It Fa ai_flags
124The
125.Fa ai_flags
126field to which the
127.Fa hints
128parameter points shall be set to zero
129or be the bitwise-inclusive OR of one or more of the values
130.Dv AI_ADDRCONFIG ,
131.Dv AI_ALL ,
132.Dv AI_CANONNAME ,
133.Dv AI_NUMERICHOST ,
134.Dv AI_NUMERICSERV ,
135.Dv AI_PASSIVE
136and
137.Dv AI_V4MAPPED .
138For a UNIX-domain address,
139.Fa ai_flags
140is ignored.
141.Bl -tag -width "AI_CANONNAMEXX"
142.It Dv AI_ADDRCONFIG
143If the
144.Dv AI_ADDRCONFIG
145bit is set, IPv4 addresses shall be returned only if
146an IPv4 address is configured on the local system,
147and IPv6 addresses shall be returned only if
148an IPv6 address is configured on the local system.
149.It Dv AI_ALL
150If the
151.Dv AI_ALL
152flag is used with the
153.Dv AI_V4MAPPED
154flag, then
155.Fn getaddrinfo
156shall return all matching IPv6 and IPv4 addresses.
157.Pp
158For example, when using the DNS, queries are made for both AAAA records and A records, and
159.Fn getaddrinfo
160returns the combined results of both queries.
161Any IPv4 addresses found are returned as IPv4-mapped IPv6 addresses.
162.Pp
163The
164.Dv AI_ALL
165flag without the
166.Dv AI_V4MAPPED
167flag is ignored.
168.It Dv AI_CANONNAME
169If the
170.Dv AI_CANONNAME
171bit is set, a successful call to
172.Fn getaddrinfo
173will return a NUL-terminated string containing the canonical name
174of the specified hostname in the
175.Fa ai_canonname
176element of the first
177.Li addrinfo
178structure returned.
179.It Dv AI_NUMERICHOST
180If the
181.Dv AI_NUMERICHOST
182bit is set, it indicates that
183.Fa hostname
184should be treated as a numeric string defining an IPv4 or IPv6 address
185and no name resolution should be attempted.
186.It Dv AI_NUMERICSERV
187If the
188.Dv AI_NUMERICSERV
189bit is set,
190then a non-null
191.Fa servname
192string supplied shall be a numeric port string.
193Otherwise, an
194.Dv EAI_NONAME
195error shall be returned.
196This bit shall prevent any type of name resolution service
197(for example, NIS+) from being invoked.
198.It Dv AI_PASSIVE
199If the
200.Dv AI_PASSIVE
201bit is set it indicates that the returned socket address structure
202is intended for use in a call to
203.Xr bind 2 .
204In this case, if the
205.Fa hostname
206argument is the null pointer, then the IP address portion of the
207socket address structure will be set to
208.Dv INADDR_ANY
209for an IPv4 address or
210.Dv IN6ADDR_ANY_INIT
211for an IPv6 address.
212.Pp
213If the
214.Dv AI_PASSIVE
215bit is not set, the returned socket address structure will be ready
216for use in a call to
217.Xr connect 2
218for a connection-oriented protocol or
219.Xr connect 2 ,
220.Xr sendto 2 ,
221or
222.Xr sendmsg 2
223if a connectionless protocol was chosen.
224The
225.Tn IP
226address portion of the socket address structure will be set to the
227loopback address if
228.Fa hostname
229is the null pointer and
230.Dv AI_PASSIVE
231is not set.
232.It Dv AI_V4MAPPED
233If the
234.Dv AI_V4MAPPED
235flag is specified along with an ai_family of
236.Dv AF_INET6 ,
237then
238.Fn getaddrinfo
239shall return IPv4-mapped IPv6 addresses on finding no matching IPv6 addresses (
240.Fa ai_addrlen
241shall be 16).
242.Pp
243For example, when using the DNS, if no AAAA records are found then a query is made for A records and any found are returned as IPv4-mapped IPv6 addresses.
244.Pp
245The
246.Dv AI_V4MAPPED
247flag shall be ignored unless
248.Fa ai_family
249equals
250.Dv AF_INET6 .
251.El
252.El
253.Pp
254All other elements of the
255.Li addrinfo
256structure passed via
257.Fa hints
258must be zero or the null pointer.
259.Pp
260If
261.Fa hints
262is the null pointer,
263.Fn getaddrinfo
264behaves as if the caller provided a
265.Li struct addrinfo
266with
267.Fa ai_family
268set to
269.Dv AF_UNSPEC
270and all other elements set to zero or
271.Dv NULL .
272.Pp
273After a successful call to
274.Fn getaddrinfo ,
275.Fa *res
276is a pointer to a linked list of one or more
277.Li addrinfo
278structures.
279The list can be traversed by following the
280.Fa ai_next
281pointer in each
282.Li addrinfo
283structure until a null pointer is encountered.
284Each returned
285.Li addrinfo
286structure contains three members that are suitable for a call to
287.Xr socket 2 :
288.Fa ai_family ,
289.Fa ai_socktype ,
290and
291.Fa ai_protocol .
292For each
293.Li addrinfo
294structure in the list, the
295.Fa ai_addr
296member points to a filled-in socket address structure of length
297.Fa ai_addrlen .
298.Pp
299This implementation of
300.Fn getaddrinfo
301allows numeric IPv6 address notation with scope identifier,
302as documented in chapter 11 of RFC 4007.
303By appending the percent character and scope identifier to addresses,
304one can fill the
305.Li sin6_scope_id
306field for addresses.
307This would make management of scoped addresses easier
308and allows cut-and-paste input of scoped addresses.
309.Pp
310At this moment the code supports only link-local addresses with the format.
311The scope identifier is hardcoded to the name of the hardware interface
312associated
313with the link
314.Po
315such as
316.Li ne0
317.Pc .
318An example is
319.Dq Li fe80::1%ne0 ,
320which means
321.Do
322.Li fe80::1
323on the link associated with the
324.Li ne0
325interface
326.Dc .
327.Pp
328The current implementation assumes a one-to-one relationship between
329the interface and link, which is not necessarily true from the specification.
330.Pp
331All of the information returned by
332.Fn getaddrinfo
333is dynamically allocated: the
334.Li addrinfo
335structures themselves as well as the socket address structures and
336the canonical host name strings included in the
337.Li addrinfo
338structures.
339.Pp
340Memory allocated for the dynamically allocated structures created by
341a successful call to
342.Fn getaddrinfo
343is released by the
344.Fn freeaddrinfo
345function.
346The
347.Fa ai
348pointer should be a
349.Li addrinfo
350structure created by a call to
351.Fn getaddrinfo .
352.Sh IMPLEMENTATION NOTES
353The behavior of
354.Li freeaddrinfo(NULL)
355is left unspecified by both
356.St -susv4
357and
358.Dv "RFC 3493" .
359The current implementation ignores a
360.Dv NULL
361argument for compatibility with programs that rely on the implementation
362details of other operating systems.
363.Sh RETURN VALUES
364.Fn getaddrinfo
365returns zero on success or one of the error codes listed in
366.Xr gai_strerror 3
367if an error occurs.
368.Sh EXAMPLES
369The following code tries to connect to
370.Dq Li www.kame.net
371service
372.Dq Li http
373via a stream socket.
374It loops through all the addresses available, regardless of address family.
375If the destination resolves to an IPv4 address, it will use an
376.Dv AF_INET
377socket.
378Similarly, if it resolves to IPv6, an
379.Dv AF_INET6
380socket is used.
381Observe that there is no hardcoded reference to a particular address family.
382The code works even if
383.Fn getaddrinfo
384returns addresses that are not IPv4/v6.
385.Bd -literal -offset indent
386struct addrinfo hints, *res, *res0;
387int error;
388int s;
389const char *cause = NULL;
390
391memset(&hints, 0, sizeof(hints));
392hints.ai_family = AF_UNSPEC;
393hints.ai_socktype = SOCK_STREAM;
394error = getaddrinfo("www.kame.net", "http", &hints, &res0);
395if (error) {
396	errx(1, "%s", gai_strerror(error));
397	/* NOTREACHED */
398}
399s = -1;
400for (res = res0; res; res = res->ai_next) {
401	s = socket(res->ai_family, res->ai_socktype,
402	    res->ai_protocol);
403	if (s < 0) {
404		cause = "socket";
405		continue;
406	}
407
408	if (connect(s, res->ai_addr, res->ai_addrlen) < 0) {
409		cause = "connect";
410		close(s);
411		s = -1;
412		continue;
413	}
414
415	break;	/* okay we got one */
416}
417if (s < 0) {
418	err(1, "%s", cause);
419	/* NOTREACHED */
420}
421freeaddrinfo(res0);
422.Ed
423.Pp
424The following example tries to open a wildcard listening socket onto service
425.Dq Li http ,
426for all the address families available.
427.Bd -literal -offset indent
428struct addrinfo hints, *res, *res0;
429int error;
430int s[MAXSOCK];
431int nsock;
432const char *cause = NULL;
433
434memset(&hints, 0, sizeof(hints));
435hints.ai_family = AF_UNSPEC;
436hints.ai_socktype = SOCK_STREAM;
437hints.ai_flags = AI_PASSIVE;
438error = getaddrinfo(NULL, "http", &hints, &res0);
439if (error) {
440	errx(1, "%s", gai_strerror(error));
441	/* NOTREACHED */
442}
443nsock = 0;
444for (res = res0; res && nsock < MAXSOCK; res = res->ai_next) {
445	s[nsock] = socket(res->ai_family, res->ai_socktype,
446	    res->ai_protocol);
447	if (s[nsock] < 0) {
448		cause = "socket";
449		continue;
450	}
451
452	if (bind(s[nsock], res->ai_addr, res->ai_addrlen) < 0) {
453		cause = "bind";
454		close(s[nsock]);
455		continue;
456	}
457	(void) listen(s[nsock], 5);
458
459	nsock++;
460}
461if (nsock == 0) {
462	err(1, "%s", cause);
463	/* NOTREACHED */
464}
465freeaddrinfo(res0);
466.Ed
467.Sh SEE ALSO
468.Xr bind 2 ,
469.Xr connect 2 ,
470.Xr send 2 ,
471.Xr socket 2 ,
472.Xr gai_strerror 3 ,
473.Xr gethostbyname 3 ,
474.Xr getnameinfo 3 ,
475.Xr getservbyname 3 ,
476.Xr resolver 3 ,
477.Xr inet 4 ,
478.Xr inet6 4 ,
479.Xr unix 4 ,
480.Xr hosts 5 ,
481.Xr resolv.conf 5 ,
482.Xr services 5 ,
483.Xr hostname 7
484.Rs
485.%A R. Gilligan
486.%A S. Thomson
487.%A J. Bound
488.%A J. McCann
489.%A W. Stevens
490.%T Basic Socket Interface Extensions for IPv6
491.%R RFC 3493
492.%D February 2003
493.Re
494.Rs
495.%A S. Deering
496.%A B. Haberman
497.%A T. Jinmei
498.%A E. Nordmark
499.%A B. Zill
500.%T "IPv6 Scoped Address Architecture"
501.%R RFC 4007
502.%D March 2005
503.Re
504.Rs
505.%A Craig Metz
506.%T Protocol Independence Using the Sockets API
507.%B "Proceedings of the freenix track: 2000 USENIX annual technical conference"
508.%D June 2000
509.Re
510.Sh STANDARDS
511The
512.Fn getaddrinfo
513function is defined by the
514.St -p1003.1-2004
515specification and documented in
516.Dv "RFC 3493" ,
517.Dq Basic Socket Interface Extensions for IPv6 .
518