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1.\" $NetBSD: netintro.4,v 1.4 1995/10/19 08:03:40 jtc Exp $
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34.\" @(#)netintro.4 8.2 (Berkeley) 11/30/93
35.\"
36.Dd November 30, 1993
37.Dt NETINTRO 4
38.Os BSD 4.2
39.Sh NAME
40.Nm networking
41.Nd introduction to networking facilities
42.Sh SYNOPSIS
43.Fd #include <sys/socket.h>
44.Fd #include <net/route.h>
45.Fd #include <net/if.h>
46.Sh DESCRIPTION
47This section is a general introduction to the networking facilities
48available in the system.
49Documentation in this part of section
504 is broken up into three areas:
51.Em protocol families
52(domains),
53.Em protocols ,
54and
55.Em network interfaces .
56.Pp
57All network protocols are associated with a specific
58.Em protocol family .
59A protocol family provides basic services to the protocol
60implementation to allow it to function within a specific
61network environment. These services may include
62packet fragmentation and reassembly, routing, addressing, and
63basic transport. A protocol family may support multiple
64methods of addressing, though the current protocol implementations
65do not. A protocol family is normally comprised of a number
66of protocols, one per
67.Xr socket 2
68type. It is not required that a protocol family support
69all socket types. A protocol family may contain multiple
70protocols supporting the same socket abstraction.
71.Pp
72A protocol supports one of the socket abstractions detailed in
73.Xr socket 2 .
74A specific protocol may be accessed either by creating a
75socket of the appropriate type and protocol family, or
76by requesting the protocol explicitly when creating a socket.
77Protocols normally accept only one type of address format,
78usually determined by the addressing structure inherent in
79the design of the protocol family/network architecture.
80Certain semantics of the basic socket abstractions are
81protocol specific. All protocols are expected to support
82the basic model for their particular socket type, but may,
83in addition, provide non-standard facilities or extensions
84to a mechanism. For example, a protocol supporting the
85.Dv SOCK_STREAM
86abstraction may allow more than one byte of out-of-band
87data to be transmitted per out-of-band message.
88.Pp
89A network interface is similar to a device interface.
90Network interfaces comprise the lowest layer of the
91networking subsystem, interacting with the actual transport
92hardware. An interface may support one or more protocol
93families and/or address formats.
94The SYNOPSIS section of each network interface
95entry gives a sample specification
96of the related drivers for use in providing
97a system description to the
98.Xr config 8
99program.
100The DIAGNOSTICS section lists messages which may appear on the console
101and/or in the system error log,
102.Pa /var/log/messages
103(see
104.Xr syslogd 8 ) ,
105due to errors in device operation.
106.Sh PROTOCOLS
107The system currently supports the
108Internet
109protocols, the Xerox Network Systems(tm) protocols,
110and some of the
111.Tn ISO OSI
112protocols.
113Raw socket interfaces are provided to the
114.Tn IP
115protocol
116layer of the
117Internet, and to the
118.Tn IDP
119protocol of Xerox
120.Tn NS .
121Consult the appropriate manual pages in this section for more
122information regarding the support for each protocol family.
123.Sh ADDRESSING
124Associated with each protocol family is an address
125format. All network address adhere to a general structure,
126called a sockaddr, described below. However, each protocol
127imposes finer and more specific structure, generally renaming
128the variant, which is discussed in the protocol family manual
129page alluded to above.
130.Bd -literal -offset indent
131 struct sockaddr {
132 u_char sa_len;
133 u_char sa_family;
134 char sa_data[14];
135};
136.Ed
137.Pp
138The field
139.Ar sa_len
140contains the total length of the of the structure,
141which may exceed 16 bytes.
142The following address values for
143.Ar sa_family
144are known to the system
145(and additional formats are defined for possible future implementation):
146.Bd -literal
147#define AF_UNIX 1 /* local to host (pipes) */
6d2010ae
A
148#define AF_INET 2 /* IPv4: UDP, TCP, etc. */
149#define AF_INET6 30 /* IPv6: UDP, TCP, etc. */
9bccf70c
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150#define AF_NS 6 /* Xerox NS protocols */
151#define AF_CCITT 10 /* CCITT protocols, X.25 etc */
152#define AF_HYLINK 15 /* NSC Hyperchannel */
153#define AF_ISO 18 /* ISO protocols */
154.Ed
155.Sh ROUTING
156Mac OS X provides some packet routing facilities.
157The kernel maintains a routing information database, which
158is used in selecting the appropriate network interface when
159transmitting packets.
160.Pp
161A user process (or possibly multiple co-operating processes)
162maintains this database by sending messages over a special kind
163of socket.
164This supplants fixed size
165.Xr ioctl 2
166used in earlier releases.
167.Pp
168This facility is described in
169.Xr route 4 .
170.Sh INTERFACES
171Each network interface in a system corresponds to a
172path through which messages may be sent and received. A network
173interface usually has a hardware device associated with it, though
174certain interfaces such as the loopback interface,
175.Xr lo 4 ,
176do not.
177.Pp
178The following
179.Xr ioctl
180calls may be used to manipulate network interfaces.
181The
182.Xr ioctl
183is made on a socket (typically of type
184.Dv SOCK_DGRAM )
185in the desired domain.
186Most of the requests supported in earlier releases
187take an
188.Ar ifreq
189structure as its parameter. This structure has the form
190.Bd -literal
191struct ifreq {
192#define IFNAMSIZ 16
193 char ifr_name[IFNAMSIZ]; /* if name, e.g. "en0" */
194 union {
195 struct sockaddr ifru_addr;
196 struct sockaddr ifru_dstaddr;
197 struct sockaddr ifru_broadaddr;
198 short ifru_flags;
199 int ifru_metric;
200 caddr_t ifru_data;
201 } ifr_ifru;
202#define ifr_addr ifr_ifru.ifru_addr /* address */
203#define ifr_dstaddr ifr_ifru.ifru_dstaddr /* other end of p-to-p link */
204#define ifr_broadaddr ifr_ifru.ifru_broadaddr /* broadcast address */
205#define ifr_flags ifr_ifru.ifru_flags /* flags */
206#define ifr_metric ifr_ifru.ifru_metric /* metric */
207#define ifr_data ifr_ifru.ifru_data /* for use by interface */
208};
209.Ed
210.Pp
211Calls which are now deprecated are:
212.Bl -tag -width SIOCGIFBRDADDR
213.It Dv SIOCSIFADDR
214Set interface address for protocol family. Following the address
215assignment, the ``initialization'' routine for
216the interface is called.
217.It Dv SIOCSIFDSTADDR
218Set point to point address for protocol family and interface.
219.It Dv SIOCSIFBRDADDR
220Set broadcast address for protocol family and interface.
221.El
222.Pp
223.Xr Ioctl
224requests to obtain addresses and requests both to set and
225retrieve other data are still fully supported
226and use the
227.Ar ifreq
228structure:
229.Bl -tag -width SIOCGIFBRDADDR
230.It Dv SIOCGIFADDR
231Get interface address for protocol family.
232.It Dv SIOCGIFDSTADDR
233Get point to point address for protocol family and interface.
234.It Dv SIOCGIFBRDADDR
235Get broadcast address for protocol family and interface.
236.It Dv SIOCSIFFLAGS
237Set interface flags field. If the interface is marked down,
238any processes currently routing packets through the interface
239are notified;
240some interfaces may be reset so that incoming packets are no longer received.
241When marked up again, the interface is reinitialized.
242.It Dv SIOCGIFFLAGS
243Get interface flags.
244.It Dv SIOCSIFMETRIC
245Set interface routing metric.
246The metric is used only by user-level routers.
247.It Dv SIOCGIFMETRIC
248Get interface metric.
249.El
250.Pp
251There are two requests that make use of a new structure:
252.Bl -tag -width SIOCGIFBRDADDR
253.It Dv SIOCAIFADDR
254An interface may have more than one address associated with it
255in some protocols. This request provides a means to
256add additional addresses (or modify characteristics of the
257primary address if the default address for the address family
258is specified). Rather than making separate calls to
259set destination or broadcast addresses, or network masks
260(now an integral feature of multiple protocols)
261a separate structure is used to specify all three facets simultaneously
262(see below).
263One would use a slightly tailored version of this struct specific
264to each family (replacing each sockaddr by one
265of the family-specific type).
266Where the sockaddr itself is larger than the
267default size, one needs to modify the
268.Xr ioctl
269identifier itself to include the total size, as described in
270.Xr ioctl .
271.It Dv SIOCDIFADDR
272This requests deletes the specified address from the list
273associated with an interface. It also uses the
274.Ar if_aliasreq
275structure to allow for the possibility of protocols allowing
276multiple masks or destination addresses, and also adopts the
277convention that specification of the default address means
278to delete the first address for the interface belonging to
279the address family in which the original socket was opened.
280.It Dv SIOCGIFCONF
281Get interface configuration list. This request takes an
282.Ar ifconf
283structure (see below) as a value-result parameter. The
284.Ar ifc_len
285field should be initially set to the size of the buffer
286pointed to by
287.Ar ifc_buf .
288On return it will contain the length, in bytes, of the
289configuration list.
290.El
291.Bd -literal
292/*
293* Structure used in SIOCAIFADDR request.
294*/
295struct ifaliasreq {
296 char ifra_name[IFNAMSIZ]; /* if name, e.g. "en0" */
297 struct sockaddr ifra_addr;
298 struct sockaddr ifra_broadaddr;
299 struct sockaddr ifra_mask;
300};
301.Ed
302.Pp
303.Bd -literal
304/*
305* Structure used in SIOCGIFCONF request.
306* Used to retrieve interface configuration
307* for machine (useful for programs which
308* must know all networks accessible).
309*/
310struct ifconf {
311 int ifc_len; /* size of associated buffer */
312 union {
313 caddr_t ifcu_buf;
314 struct ifreq *ifcu_req;
315 } ifc_ifcu;
316#define ifc_buf ifc_ifcu.ifcu_buf /* buffer address */
317#define ifc_req ifc_ifcu.ifcu_req /* array of structures returned */
318};
319.Ed
320.Sh SEE ALSO
9bccf70c 321.Xr ioctl 2 ,
2d21ac55 322.Xr socket 2 ,
9bccf70c 323.Xr intro 4 ,
2d21ac55 324.Xr config 5 ,
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325.Xr routed 8
326.Sh HISTORY
327The
328.Nm netintro
329manual appeared in
330.Bx 4.3 tahoe .