411 lines
14 KiB
Perl
411 lines
14 KiB
Perl
.\" $NetBSD: 3.t,v 1.2 1998/01/09 06:55:12 perry Exp $
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.\"
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.\" Copyright (c) 1986, 1993
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.\" The Regents of the University of California. All rights reserved.
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.\"
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.\" Redistribution and use in source and binary forms, with or without
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.\" modification, are permitted provided that the following conditions
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.\" are met:
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.\" 1. Redistributions of source code must retain the above copyright
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.\" notice, this list of conditions and the following disclaimer.
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.\" 2. Redistributions in binary form must reproduce the above copyright
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.\" notice, this list of conditions and the following disclaimer in the
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.\" documentation and/or other materials provided with the distribution.
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.\" 3. All advertising materials mentioning features or use of this software
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.\" must display the following acknowledgement:
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.\" This product includes software developed by the University of
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.\" California, Berkeley and its contributors.
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.\" 4. Neither the name of the University nor the names of its contributors
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.\" may be used to endorse or promote products derived from this software
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.\" without specific prior written permission.
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.\"
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.\" THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
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.\" ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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.\" IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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.\" ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
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.\" FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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.\" DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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.\" OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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.\" HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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.\" LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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.\" OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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.\" SUCH DAMAGE.
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.\"
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.\" @(#)3.t 8.2 (Berkeley) 6/1/94
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.\"
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.\".ds RH "Network Library Routines
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.nr H1 3
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.nr H2 0
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.LG
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.sp 2
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.B
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.ce
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3. NETWORK LIBRARY ROUTINES
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.sp 2
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.R
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.NL
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.PP
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The discussion in section 2 indicated the possible need to
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locate and construct network addresses when using the
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interprocess communication facilities in a distributed
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environment. To aid in this task a number of routines
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have been added to the standard C run-time library.
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In this section we will consider the new routines provided
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to manipulate network addresses. While the 4.4BSD networking
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facilities support the Internet protocols
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and the Xerox NS protocols,
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most of the routines presented
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in this section do not apply to the NS domain. Unless otherwise
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stated, it should be assumed that the routines presented in this
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section do not apply to the NS domain.
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.PP
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Locating a service on a remote host requires many levels of
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mapping before client and server may
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communicate. A service is assigned a name which is intended
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for human consumption; e.g. \*(lqthe \fIlogin server\fP on host
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monet\*(rq.
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This name, and the name of the peer host, must then be translated
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into network \fIaddresses\fP which are not necessarily suitable
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for human consumption. Finally, the address must then used in locating
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a physical \fIlocation\fP and \fIroute\fP to the service. The
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specifics of these three mappings are likely to vary between
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network architectures. For instance, it is desirable for a network
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to not require hosts to
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be named in such a way that their physical location is known by
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the client host. Instead, underlying services in the network
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may discover the actual location of the host at the time a client
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host wishes to communicate. This ability to have hosts named in
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a location independent manner may induce overhead in connection
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establishment, as a discovery process must take place,
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but allows a host to be physically mobile without requiring it to
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notify its clientele of its current location.
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.PP
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Standard routines are provided for: mapping host names
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to network addresses, network names to network numbers,
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protocol names to protocol numbers, and service names
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to port numbers and the appropriate protocol to
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use in communicating with the server process. The
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file <\fInetdb.h\fP> must be included when using any of these
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routines.
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.NH 2
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Host names
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.PP
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An Internet host name to address mapping is represented by
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the \fIhostent\fP structure:
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.DS
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.if t .ta 0.6i 1.1i 2.6i
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struct hostent {
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char *h_name; /* official name of host */
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char **h_aliases; /* alias list */
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int h_addrtype; /* host address type (e.g., AF_INET) */
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int h_length; /* length of address */
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char **h_addr_list; /* list of addresses, null terminated */
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};
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#define h_addr h_addr_list[0] /* first address, network byte order */
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.DE
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The routine \fIgethostbyname\fP(3N) takes an Internet host name
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and returns a \fIhostent\fP structure,
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while the routine \fIgethostbyaddr\fP(3N)
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maps Internet host addresses into a \fIhostent\fP structure.
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.PP
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The official name of the host and its public aliases are
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returned by these routines,
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along with the address type (family) and a null terminated list of
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variable length address. This list of addresses is
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required because it is possible
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for a host to have many addresses, all having the same name.
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The \fIh_addr\fP definition is provided for backward compatibility,
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and is defined to be the first address in the list of addresses
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in the \fIhostent\fP structure.
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.PP
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The database for these calls is provided either by the
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file \fI/etc/hosts\fP (\fIhosts\fP\|(5)),
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or by use of a nameserver, \fInamed\fP\|(8).
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Because of the differences in these databases and their access protocols,
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the information returned may differ.
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When using the host table version of \fIgethostbyname\fP,
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only one address will be returned, but all listed aliases will be included.
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The nameserver version may return alternate addresses,
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but will not provide any aliases other than one given as argument.
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.PP
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Unlike Internet names, NS names are always mapped into host
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addresses by the use of a standard NS \fIClearinghouse service\fP,
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a distributed name and authentication server. The algorithms
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for mapping NS names to addresses via a Clearinghouse are
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rather complicated, and the routines are not part of the
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standard libraries. The user-contributed Courier (Xerox
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remote procedure call protocol) compiler contains routines
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to accomplish this mapping; see the documentation and
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examples provided therein for more information. It is
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expected that almost all software that has to communicate
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using NS will need to use the facilities of
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the Courier compiler.
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.PP
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An NS host address is represented by the following:
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.DS
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union ns_host {
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u_char c_host[6];
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u_short s_host[3];
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};
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union ns_net {
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u_char c_net[4];
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u_short s_net[2];
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};
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struct ns_addr {
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union ns_net x_net;
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union ns_host x_host;
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u_short x_port;
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};
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.DE
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The following code fragment inserts a known NS address into
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a \fIns_addr\fP:
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.DS
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#include <sys/types.h>
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#include <sys/socket.h>
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#include <netns/ns.h>
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...
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u_long netnum;
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struct sockaddr_ns dst;
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...
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bzero((char *)&dst, sizeof(dst));
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/*
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* There is no convenient way to assign a long
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* integer to a ``union ns_net'' at present; in
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* the future, something will hopefully be provided,
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* but this is the portable way to go for now.
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* The network number below is the one for the NS net
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* that the desired host (gyre) is on.
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*/
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netnum = htonl(2266);
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dst.sns_addr.x_net = *(union ns_net *) &netnum;
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dst.sns_family = AF_NS;
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/*
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* host 2.7.1.0.2a.18 == "gyre:Computer Science:UofMaryland"
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*/
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dst.sns_addr.x_host.c_host[0] = 0x02;
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dst.sns_addr.x_host.c_host[1] = 0x07;
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dst.sns_addr.x_host.c_host[2] = 0x01;
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dst.sns_addr.x_host.c_host[3] = 0x00;
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dst.sns_addr.x_host.c_host[4] = 0x2a;
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dst.sns_addr.x_host.c_host[5] = 0x18;
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dst.sns_addr.x_port = htons(75);
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.DE
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.NH 2
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Network names
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.PP
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As for host names, routines for mapping network names to numbers,
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and back, are provided. These routines return a \fInetent\fP
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structure:
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.DS
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.DT
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/*
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* Assumption here is that a network number
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* fits in 32 bits -- probably a poor one.
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*/
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struct netent {
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char *n_name; /* official name of net */
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char **n_aliases; /* alias list */
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int n_addrtype; /* net address type */
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int n_net; /* network number, host byte order */
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};
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.DE
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The routines \fIgetnetbyname\fP(3N), \fIgetnetbynumber\fP(3N),
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and \fIgetnetent\fP(3N) are the network counterparts to the
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host routines described above. The routines extract their
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information from \fI/etc/networks\fP.
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.PP
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NS network numbers are determined either by asking your local
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Xerox Network Administrator (and hardcoding the information
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into your code), or by querying the Clearinghouse for addresses.
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The internetwork router is the only process
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that needs to manipulate network numbers on a regular basis; if
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a process wishes to communicate with a machine, it should ask the
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Clearinghouse for that machine's address (which will include
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the net number).
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.NH 2
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Protocol names
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.PP
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For protocols, which are defined in \fI/etc/protocols\fP,
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the \fIprotoent\fP structure defines the
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protocol-name mapping
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used with the routines \fIgetprotobyname\fP(3N),
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\fIgetprotobynumber\fP(3N),
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and \fIgetprotoent\fP(3N):
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.DS
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.DT
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struct protoent {
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char *p_name; /* official protocol name */
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char **p_aliases; /* alias list */
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int p_proto; /* protocol number */
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};
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.DE
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.PP
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In the NS domain, protocols are indicated by the "client type"
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field of a IDP header. No protocol database exists; see section
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5 for more information.
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.NH 2
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Service names
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.PP
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Information regarding services is a bit more complicated. A service
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is expected to reside at a specific \*(lqport\*(rq and employ
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a particular communication protocol. This view is consistent with
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the Internet domain, but inconsistent with other network architectures.
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Further, a service may reside on multiple ports.
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If this occurs, the higher level library routines
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will have to be bypassed or extended.
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Services available are contained in the file \fI/etc/services\fP.
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A service mapping is described by the \fIservent\fP structure,
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.DS
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.DT
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struct servent {
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char *s_name; /* official service name */
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char **s_aliases; /* alias list */
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int s_port; /* port number, network byte order */
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char *s_proto; /* protocol to use */
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};
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.DE
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The routine \fIgetservbyname\fP(3N) maps service
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names to a servent structure by specifying a service name and,
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optionally, a qualifying protocol. Thus the call
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.DS
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sp = getservbyname("telnet", (char *) 0);
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.DE
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returns the service specification for a telnet server using
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any protocol, while the call
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.DS
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sp = getservbyname("telnet", "tcp");
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.DE
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returns only that telnet server which uses the TCP protocol.
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The routines \fIgetservbyport\fP(3N) and \fIgetservent\fP(3N) are
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also provided. The \fIgetservbyport\fP routine has an interface similar
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to that provided by \fIgetservbyname\fP; an optional protocol name may
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be specified to qualify lookups.
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.PP
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In the NS domain, services are handled by a central dispatcher
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provided as part of the Courier remote procedure call facilities.
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Again, the reader is referred to the Courier compiler documentation
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and to the Xerox standard*
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.FS
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* \fICourier: The Remote Procedure Call Protocol\fP, XSIS 038112.
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.FE
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for further details.
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.NH 2
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Miscellaneous
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.PP
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With the support routines described above, an Internet application program
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should rarely have to deal directly
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with addresses. This allows
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services to be developed as much as possible in a network independent
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fashion. It is clear, however, that purging all network dependencies
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is very difficult. So long as the user is required to supply network
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addresses when naming services and sockets there will always some
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network dependency in a program. For example, the normal
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code included in client programs, such as the remote login program,
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is of the form shown in Figure 1.
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(This example will be considered in more detail in section 4.)
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.PP
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If we wanted to make the remote login program independent of the
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Internet protocols and addressing scheme we would be forced to add
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a layer of routines which masked the network dependent aspects from
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the mainstream login code. For the current facilities available in
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the system this does not appear to be worthwhile.
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.PP
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Aside from the address-related data base routines, there are several
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other routines available in the run-time library which are of interest
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to users. These are intended mostly to simplify manipulation of
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names and addresses. Table 1 summarizes the routines
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for manipulating variable length byte strings and handling byte
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swapping of network addresses and values.
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.KF
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.DS B
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.TS
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box;
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l | l
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l | l.
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Call Synopsis
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_
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bcmp(s1, s2, n) compare byte-strings; 0 if same, not 0 otherwise
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bcopy(s1, s2, n) copy n bytes from s1 to s2
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bzero(base, n) zero-fill n bytes starting at base
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htonl(val) convert 32-bit quantity from host to network byte order
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htons(val) convert 16-bit quantity from host to network byte order
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ntohl(val) convert 32-bit quantity from network to host byte order
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ntohs(val) convert 16-bit quantity from network to host byte order
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.TE
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.DE
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.ce
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Table 1. C run-time routines.
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.KE
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.PP
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The byte swapping routines are provided because the operating
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system expects addresses to be supplied in network order (aka ``big-endian'' order). On
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``little-endian'' architectures, such as Intel x86 and VAX,
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host byte ordering is different than
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network byte ordering. Consequently,
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programs are sometimes required to byte swap quantities. The
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library routines which return network addresses provide them
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in network order so that they may simply be copied into the structures
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provided to the system. This implies users should encounter the
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byte swapping problem only when \fIinterpreting\fP network addresses.
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For example, if an Internet port is to be printed out the following
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code would be required:
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.DS
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printf("port number %d\en", ntohs(sp->s_port));
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.DE
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On machines where unneeded these routines are defined as null
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macros.
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.DS
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.if t .ta .5i 1.0i 1.5i 2.0i
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.if n .ta .7i 1.4i 2.1i 2.8i
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#include <sys/types.h>
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#include <sys/socket.h>
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#include <netinet/in.h>
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#include <stdio.h>
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#include <netdb.h>
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...
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main(argc, argv)
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int argc;
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char *argv[];
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{
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struct sockaddr_in server;
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struct servent *sp;
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struct hostent *hp;
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int s;
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...
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sp = getservbyname("login", "tcp");
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if (sp == NULL) {
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fprintf(stderr, "rlogin: tcp/login: unknown service\en");
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exit(1);
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}
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hp = gethostbyname(argv[1]);
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if (hp == NULL) {
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fprintf(stderr, "rlogin: %s: unknown host\en", argv[1]);
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exit(2);
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}
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bzero((char *)&server, sizeof (server));
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bcopy(hp->h_addr, (char *)&server.sin_addr, hp->h_length);
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server.sin_family = hp->h_addrtype;
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server.sin_port = sp->s_port;
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s = socket(AF_INET, SOCK_STREAM, 0);
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if (s < 0) {
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perror("rlogin: socket");
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exit(3);
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}
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...
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/* Connect does the bind() for us */
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if (connect(s, (char *)&server, sizeof (server)) < 0) {
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perror("rlogin: connect");
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exit(5);
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}
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...
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}
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.DE
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.ce
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Figure 1. Remote login client code.
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