1.\" 2.\" This file and its contents are supplied under the terms of the 3.\" Common Development and Distribution License ("CDDL"), version 1.0. 4.\" You may only use this file in accordance with the terms of version 5.\" 1.0 of the CDDL. 6.\" 7.\" A full copy of the text of the CDDL should have accompanied this 8.\" source. A copy of the CDDL is also available via the Internet at 9.\" http://www.illumos.org/license/CDDL. 10.\" 11.\" 12.\" Copyright 2015, Joyent, Inc. 13.\" 14.Dd April 9, 2016 15.Dt SOCKADDR 3SOCKET 16.Os 17.Sh NAME 18.Nm sockaddr , 19.Nm sockaddr_dl , 20.Nm sockaddr_in , 21.Nm sockaddr_in6 , 22.Nm sockaddr_ll , 23.Nm sockaddr_storage , 24.Nm sockaddr_un 25.Nd Socket Address Structures 26.Sh SYNOPSIS 27.In sys/socket.h 28.Lp 29.Sy struct sockaddr 30.Em sock ; 31.Lp 32.In sys/socket.h 33.In net/if_dl.h 34.Lp 35.Sy struct sockaddr_dl 36.Em dl_sock ; 37.Lp 38.In sys/socket.h 39.In netinet/in.h 40.Lp 41.Sy struct sockaddr_in 42.Em in_sock ; 43.Lp 44.In sys/socket.h 45.In netinet/in.h 46.Lp 47.Sy struct sockaddr_in6 48.Em in6_sock ; 49.Lp 50.In sys/socket.h 51.Lp 52.Sy struct sockaddr_ll 53.Em ll_sock ; 54.Lp 55.In sys/socket.h 56.Lp 57.Sy struct sockaddr_storage 58.Em storage_sock ; 59.Lp 60.In sys/un.h 61.Lp 62.Sy struct sockaddr_un 63.Em un_sock ; 64.Sh DESCRIPTION 65The 66.Nm 67family of structures are designed to represent network addresses for 68different networking protocols. The structure 69.Sy struct sockaddr 70is a generic structure that is used across calls to various socket 71library routines 72.Po 73.Xr libsocket 3LIB 74.Pc 75such as 76.Xr accept 3SOCKET 77and 78.Xr bind 3SOCKET . 79Applications do not use the 80.Sy struct sockaddr 81directly, but instead cast the appropriate networking family specific 82.Nm 83structure to a 84.Sy struct sockaddr * . 85.Lp 86Every structure in the 87.Nm 88family begins with a member of the same type, the 89.Sy sa_family_t , 90though the different structures all have different names for the member. 91For example, the structure 92.Sy struct sockaddr 93has the following members defined: 94.Bd -literal -offset indent 95sa_family_t sa_family /* address family */ 96char sa_data[] /* socket address (variable-length data) */ 97.Ed 98.Lp 99The member 100.Em sa_family 101corresponds to the socket family that's actually in use. The following 102table describes the mapping between the address family and the 103corresponding socket structure that's used. Note that both the generic 104.Sy struct sockaddr 105and the 106.Sy struct sockaddr_storage 107are not included, because these are both generic structures. More on the 108.Sy struct sockaddr_storage 109can be found in the next section. 110.Bl -column -offset indent ".Sy Socket Structure" ".Sy Address Family" 111.It Sy Socket Structure Ta Sy Address Family 112.It struct sockaddr_dl Ta AF_LINK 113.It struct sockaddr_in Ta AF_INET 114.It struct sockaddr_in6 Ta AF_INET6 115.It struct sockaddr_ll Ta AF_PACKET 116.It struct sockaddr_un Ta AF_UNIX 117.El 118.Ss struct sockaddr_storage 119The 120.Sy sockaddr_storage 121structure is a 122.Nm 123that is not associated with an address family. Instead, it is large 124enough to hold the contents of any of the other 125.Nm 126structures. It can be used to embed sufficient storage for a 127.Sy sockaddr 128of any type within a larger structure. 129.Lp 130The structure only has a single member defined. While there are other 131members that are used to pad out the size of the 132.Sy struct sockaddr_storage , 133they are not defined and must not be consumed. The only valid 134member is: 135.Bd -literal -offset indent 136sa_family_t ss_family /* address family */ 137.Ed 138.Lp 139For example, 140.Sy struct sockaddr_storage 141is useful when running a service that accepts traffic over both 142.Sy IPv4 143and 144.Sy IPv6 145where it is common to use a single socket for both address families. In that 146case, rather than guessing whether a 147.Sy struct sockaddr_in 148or a 149.Sy struct sockaddr_in6 150is more appropriate, one can simply use a 151.Sy struct sockaddr_storage 152and cast to the appropriate family-specific structure type based on the 153value of the member 154.Em ss_family . 155.Ss struct sockaddr_in 156The 157.Sy sockaddr_in 158is the socket type which is used for for the Internet Protocol version 159four (IPv4). It has the following members defined: 160.Bd -literal -offset indent 161sa_family_t sin_family /* address family */ 162in_port_t sin_port /* IP port */ 163struct in_addr sin_addr /* IP address */ 164.Ed 165.Lp 166The member 167.Em sin_family 168must always have the value 169.Sy AF_INET 170for 171.Sy IPv4 . 172The members 173.Em sin_port 174and 175.Em sin_addr 176describe the IP address and IP port to use. In the case of a call to 177.Xr connect 3SOCKET 178these represent the remote IP address and port to which the connection 179is being made. In the case of 180.Xr bind 3SOCKET 181these represent the IP address and port on the local host to which the socket 182is to be bound. In the case of 183.Xr accept 3SOCKET 184these represent the remote IP address and port of the machine whose 185connection was accepted. 186.Lp 187The member 188.Em sin_port 189is always stored in 190.Sy Network Byte Order . 191On many systems, this differs from the native host byte order. 192Applications should read from the member with the function 193.Xr ntohs 3SOCKET 194and write to the member with the function 195.Xr htons 3SOCKET . 196The member 197.Em sin_addr 198is the four byte IPv4 address. It is also stored in network byte order. 199The common way to write out the address is to use the function 200.Xr inet_pton 3SOCKET 201which converts between a human readable IP address such as "10.1.2.3" 202and the corresponding representation. 203.Lp 204Example 1 shows how to prepare an IPv4 socket and deal with 205network byte-order. See 206.Xr inet 7P 207and 208.Xr ip 7P 209for more information on IPv4, socket options, etc. 210.Ss struct sockaddr_in6 211The 212.Sy sockaddr_in6 213structure is the 214.Nm 215for the Internet Protocol version six (IPv6). Unlike the 216.Sy struct sockaddr_in , 217the 218.Sy struct sockaddr_in6 219has additional members beyond those shown here which are required to be 220initialized to zero through a function such as 221.Xr bzero 3C 222or 223.Xr memset 3C . 224If the entire 225.Sy struct sockaddr_in6 226is not zeroed before use, applications will experience undefined behavior. The 227.Sy struct sockaddr_in6 228has the following public members: 229.Bd -literal -offset indent 230sa_family_t sin6_family /* address family */ 231in_port_t sin6_port /* IPv6 port */ 232struct in6_addr sin6_addr /* IPv6 address */ 233uint32_t sin6_flowinfo; /* traffic class and flow info */ 234uint32_t sin6_scope_id; /* interface scope */ 235.Ed 236.Lp 237The member 238.Em sin6_family 239must always have the value 240.Sy AF_INET6 . 241The members 242.Em sin6_port 243and 244.Em sin6_addr 245are the IPv6 equivalents of the 246.Sy struct sockaddr_in 247.Em sin_port 248and 249.Em sin_addr . 250Like their IPv4 counterparts, both of these members must be in network 251byte order. The member 252.Em sin6_port 253describes the IPv6 port and should be manipulated with the functions 254.Xr ntohs 3SOCKET 255and 256.Xr htons 3SOCKET . 257The member 258.Em sin6_addr 259describes the 16-byte IPv6 address. In addition to the function 260.Xr inet_pton 3SOCKET , 261the header file 262.In netinet/in.h 263defines many macros for manipulating and testing IPv6 addresses. 264.Lp 265The member 266.Em sin6_flowinfo 267contains the traffic class and flow label associated with the IPv6 268header. The member 269.Em sin6_scope_id 270may contain an identifier which varies based on the scope of the address 271in 272.Em sin6_addr . 273Applications do not need to initialize 274.Em sin6_scope_id ; 275it will be populated by the operating system as a result of various library 276calls. 277.Lp 278Example 2 shows how to prepare an IPv6 socket. For more information on 279IPv6, please see 280.Xr inet6 7P 281and 282.Xr ip6 7P . 283.Ss struct sockaddr_un 284The 285.Sy sockaddr_un 286structure specifies the address of a socket used to communicate between 287processes running on a single system, commonly known as a 288.Em UNIX domain socket . 289Sockets of this type are identified by a path in the file system. The 290.Sy struct sockaddr_un 291has the following members: 292.Bd -literal -offset indent 293sa_family_t sun_family /* address family */ 294char sun_path[108] /* path name */ 295.Ed 296.Lp 297The member 298.Em sun_family 299must always have the value 300.Sy AF_UNIX . 301The member 302.Em sun_path 303is populated with a 304.Sy NUL 305terminated array of characters that specify a file system path. The maximum 306length of any such path, including the 307.Sy NUL 308terminator, is 108 bytes. 309.Ss struct sockaddr_dl 310The 311.Sy sockaddr_dl 312structure is used to describe a layer 2 link-level address. This is used 313as part of various socket ioctls, such as those for 314.Xr arp 7P . 315The structure has the following members: 316.Bd -literal -offset indent 317ushort_t sdl_family; /* address family */ 318ushort_t sdl_index; /* if != 0, system interface index */ 319uchar_t sdl_type; /* interface type */ 320uchar_t sdl_nlen; /* interface name length */ 321uchar_t sdl_alen; /* link level address length */ 322uchar_t sdl_slen; /* link layer selector length */ 323char sdl_data[244]; /* contains both if name and ll address 324.Ed 325.Lp 326The member 327.Em sdl_family 328must always have the value 329.Sy AF_LINK . 330When the member 331.Em sdl_index 332is non-zero this refers to the interface identifier that corresponds to 333the 334.Sy struct sockaddr_dl . 335This identifier is the same identifier that's shown by tools like 336.Xr ifconfig 1M 337and used in the SIOC* set of socket ioctls. The member 338.Em sdl_type 339refers to the media that is used for the socket. The most common case is 340that the medium for the interface is Ethernet which has the value 341.Sy IFT_ETHER . 342The full set of types is derived from RFC1573 and recorded in the file 343.In net/if_types.h . 344The member 345.Em sdl_slen 346describes the length of a selector, if it exists, for the specified 347medium. This is used in protocols such as Trill. 348.Lp 349The 350.Em sdl_data , 351.Em sdl_nlen 352and 353.Em sdl_alen 354members together describe a character string containing the interface name and 355the link-layer network address. The name starts at the beginning of 356.Em sdl_data , 357i.e. at 358.Em sdl_data[0] . 359The name of the interface occupies the next 360.Em sdl_nlen 361bytes and is not 362.Sy NUL 363terminated. The link-layer network address begins immediately after the 364interface name, and is 365.Em sdl_alen 366bytes long. The macro 367.Sy LLADDR(struct sockaddr_dl *) 368returns the start of the link-layer network address. 369The interpretation of the link-layer address depends on the value of 370.Em sdl_type . 371For example, if the type is 372.Sy IFT_ETHER 373then the address is expressed as a 6-byte MAC address. 374.Ss struct sockaddr_ll 375The 376.Sy sockaddr_ll 377is used as part of a socket type which is responsible for packet 378capture: 379.Sy AF_PACKET 380sockets. It is generally designed for use with Ethernet networks. The members 381of the 382.Sy struct sockaddr_ll 383are: 384.Bd -literal -offset indent 385uint16_t sll_family; /* address family */ 386uint16_t sll_protocol; /* link layer protocol */ 387int32_t sll_ifindex; /* interface index */ 388uint16_t sll_hatype; /* ARP hardware type */ 389uint8_t sll_pkttype; /* packet type */ 390uint8_t sll_halen; /* hardware address length */ 391uint8_t sll_addr[8]; /* hardware type */ 392.Ed 393.Lp 394The member 395.Em sll_family 396must be 397.Sy AF_PACKET . 398The member 399.Em sll_protocol 400refers to a link-layer protocol. For example, when capturing Ethernet frames 401the value of 402.Em sll_protocol 403is the Ethertype. This member is written in network byte order and 404applications should use 405.Xr htons 3SOCKET 406and 407.Xr ntohs 3SOCKET 408to read and write the member. 409.Lp 410The member 411.Em sll_ifindex 412is the interface's index. It is used as an identifier in various ioctls 413and included in the output of 414.Xr ifconfig 1M . 415When calling 416.Xr bind 3SOCKET 417it should be filled in with the index that corresponds to the interface 418for which packets should be captured on. 419.Lp 420The member 421.Em sll_pkttype 422describes the type of the packet based on a list of types in the header 423file 424.In netpacket/packet.h . 425These types include: 426.Sy PACKET_OUTGOING , 427a packet that was leaving the host and has been looped back for packet capture; 428.Sy PACKET_HOST , 429a packet that was destined for this host; 430.Sy PACKET_BROADCAST , 431a packet that was broadcast across the link-layer; 432.Sy PACKET_MULTICAST , 433a packet that was sent to a link-layer multicast address; and 434.Sy PACKET_OTHERHOST , 435a packet that was captured only because the device in question was in 436promiscuous mode. 437.Lp 438The member 439.Em sll_hatype 440contains the hardware type as defined by 441.Xr arp 7P . 442The list of types can be found in 443.In net/if_arp.h . 444The member 445.Em sll_halen 446contains the length, in bytes, of the hardware address, while the member 447.Em sll_addr 448contains the actual address in network byte order. 449.Sh EXAMPLES 450.Sy Example 1 451Preparing an IPv4 452.Sy sockaddr_in 453to connect to a remote host 454.Lp 455The following example shows how one would open a socket and prepare it 456to connect to the remote host whose address is the IP address 127.0.0.1 457on port 80. This program should be compiled with the C compiler 458.Sy cc 459and linked against the libraries libsocket and libnsl. If this example 460was named ip4.c, then the full link line would be 461.Ic cc ip4.c -lsocket -lnsl . 462.Bd -literal 463#include <sys/types.h> 464#include <sys/socket.h> 465#include <stdio.h> 466#include <netinet/in.h> 467#include <inttypes.h> 468#include <strings.h> 469 470int 471main(void) 472{ 473 int sock; 474 struct sockaddr_in in; 475 476 if ((sock = socket(AF_INET, SOCK_STREAM, 0)) < 0) { 477 perror("socket"); 478 return (1); 479 } 480 481 bzero(&in, sizeof (struct sockaddr_in)); 482 in.sin_family = AF_INET; 483 in.sin_port = htons(80); 484 if (inet_pton(AF_INET, "127.0.0.1", &in.sin_addr) != 1) { 485 perror("inet_pton"); 486 return (1); 487 } 488 489 if (connect(sock, (struct sockaddr *)&in, 490 sizeof (struct sockaddr_in)) != 0) { 491 perror("connect"); 492 return (1); 493 } 494 495 /* use socket */ 496 497 return (0); 498} 499.Ed 500.Lp 501.Sy Example 2 502Preparing an IPv6 503.Sy sockaddr_in6 504to bind to a local address 505.Lp 506The following example shows how one would open a socket and prepare it 507to bind to the local IPv6 address ::1 port on port 12345. This program 508should be compiled with the C compiler 509.Sy cc 510and linked against the libraries libsocket and libnsl. If this example 511was named ip6.c, then the full compiler line would be 512.Ic cc ip6.c -lsocket -lnsl . 513.Bd -literal 514#include <sys/types.h> 515#include <sys/socket.h> 516#include <stdio.h> 517#include <netinet/in.h> 518#include <inttypes.h> 519#include <strings.h> 520 521int 522main(void) 523{ 524 int sock6; 525 struct sockaddr_in6 in6; 526 527 if ((sock6 = socket(AF_INET6, SOCK_STREAM, 0)) < 0) { 528 perror("socket"); 529 return (1); 530 } 531 532 bzero(&in6, sizeof (struct sockaddr_in6)); 533 in6.sin6_family = AF_INET6; 534 in6.sin6_port = htons(12345); 535 if (inet_pton(AF_INET6, "::1", &in6.sin6_addr) != 1) { 536 perror("inet_pton"); 537 return (1); 538 } 539 540 if (bind(sock6, (struct sockaddr *)&in6, 541 sizeof (struct sockaddr_in6)) != 0) { 542 perror("bind"); 543 return (1); 544 } 545 546 /* use server socket */ 547 548 return (0); 549} 550.Ed 551.Sh SEE ALSO 552.Xr socket 3HEAD , 553.Xr uh.h 3HEAD , 554.Xr accept 3SOCKET , 555.Xr bind 3SOCKET , 556.Xr connect 3SOCKET , 557.Xr socket 3SOCKET , 558.Xr arp 7P , 559.Xr inet 7P , 560.Xr inet6 7P , 561.Xr ip 7P , 562.Xr ip6 7P 563