687 lines
24 KiB
Groff
687 lines
24 KiB
Groff
.\" dhcpd.conf.5
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.\"
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.\" Copyright (c) 1995, 1996 The Internet Software Consortium.
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.\" 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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.\"
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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. Neither the name of The Internet Software Consortium nor the names
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.\" of its contributors may be used to endorse or promote products derived
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.\" from this software without specific prior written permission.
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.\"
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.\" THIS SOFTWARE IS PROVIDED BY THE INTERNET SOFTWARE CONSORTIUM AND
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.\" CONTRIBUTORS ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES,
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.\" INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
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.\" MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
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.\" DISCLAIMED. IN NO EVENT SHALL THE INTERNET SOFTWARE CONSORTIUM OR
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.\" CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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.\" SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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.\" LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
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.\" USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
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.\" ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
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.\" OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
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.\" 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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.\" This software has been written for the Internet Software Consortium
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.\" by Ted Lemon <mellon@fugue.com> in cooperation with Vixie
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.\" Enterprises. To learn more about the Internet Software Consortium,
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.\" see ``http://www.isc.org/isc''. To learn more about Vixie
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.\" Enterprises, see ``http://www.vix.com''.
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.TH dhcpd.conf 5
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.SH NAME
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dhcpd.conf - dhcpd configuration file
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.SH DESCRIPTION
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The dhcpd.conf file contains configuration information for
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.IR dhcpd,
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the Internet Software Consortium DHCP Server.
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.PP
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The dhcpd.conf file is a free-form ASCII text file. It is parsed by
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the recursive-descent parser built into dhcpd. The file may contain
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extra tabs and newlines for formatting purposes. Keywords in the file
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are case-insensitive. Comments may be placed anywhere within the
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file (except within quotes). Comments begin with the # character and
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end at the end of the line.
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.PP
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The file essentially consists of a list of statements. Statements
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fall into two broad categories - parameters and declarations.
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.PP
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Parameter statements either say how to do something (e.g., how long a
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lease to offer), whether to do something (e.g., should dhcpd provide
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addresses to unknown clients), or what parameters to provide to the
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client (e.g., use gateway 220.177.244.7).
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.PP
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Declarations are used to describe the topology of the
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network, to describe clients on the network, to provide addresses that
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can be assigned to clients, or to apply a group of parameters to a
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group of declarations. In any group of parameters and declarations,
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all parameters must be specified before any declarations which depend
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on those parameters may be specified.
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.PP
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Declarations about network topology include the
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\fIshared-network\fR and the \fIsubnet\fR
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declarations. If clients on a subnet are to be assigned addresses
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dynamically, a \fIrange\fR declaration must appear within the
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\fIsubnet\fR declaration. For clients with statically assigned
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addresses, or for installations where only known clients will be
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served, each such client must have a \fIhost\fR declaration. If
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parameters are to be applied to a group of declarations which are not
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related strictly on a per-subnet basis, the \fIgroup\fR declaration
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can be used.
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.PP
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For every subnet which will be served, and for every subnet
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to which the dhcp server is connected, there must be one \fIsubnet\fR
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declaration, which tells dhcpd how to recognize that an address is on
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that subnet. A \fIsubnet\fR declaration is required for each subnet
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even if no addresses will be dynamically allocated on that subnet.
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.PP
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Some installations have physical networks on which more than one IP
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subnet operates. For example, if there is a site-wide requirement
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that 8-bit subnet masks be used, but a department with a single
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physical ethernet network expands to the point where it has more than
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254 nodes, it may be necessary to run two 8-bit subnets on the same
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ethernet until such time as a new physical network can be added. In
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this case, the \fIsubnet\fR declarations for these two networks may be
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enclosed in a \fIshared-network\fR declaration.
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.PP
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Some sites may have departments which have clients on more than one
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subnet, but it may be desirable to offer those clients a uniform set
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of parameters which are different than what would be offered to
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clients from other departments on the same subnet. For clients which
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will be declared explicitly with \fIhost\fR declarations, these
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declarations can be enclosed in a \fIgroup\fR declaration along with
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the parameters which are common to that department. For clients
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whose addresses will be dynamically assigned, there is currently no
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way to group parameter assignments other than by network topology.
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.PP
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When a client is to be booted, its boot parameters are determined by
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first consulting that client's \fIhost\fR declaration (if any), then
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consulting the \fIgroup\fR declaration (if any) which enclosed that
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\fIhost\fR declaration, then consulting the \fIsubnet\fR declaration
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for the subnet on which the client is booting, then consulting the
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\fIshared-network\fR declaration (if any) containing that subnet, and
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finally consulting the top-level parameters which may be specified
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outside of any declaration.
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.PP
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When dhcpd tries to find a \fIhost\fR declaration for a client, it
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first looks for a \fIhost\fR declaration which has a
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\fIfixed-address\fR parameter which matches the subnet or shared
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network on which the client is booting. If it doesn't find any such
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entry, it then tries to find an entry which has no \fIfixed-address\fR
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parameter. If no such entry is found, then dhcpd acts as if there is
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no entry in the dhcpd.conf file for that client, even if there is an
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entry for that client on a different subnet or shared network.
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.SH EXAMPLES
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.PP
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A typical dhcpd.conf file will look something like this:
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.nf
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.I global parameters...
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shared-network ISC-BIGGIE {
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\fIshared-network-specific parameters...\fR
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subnet 204.254.239.0 netmask 255.255.255.224 {
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\fIsubnet-specific parameters...\fR
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range 204.254.239.10 204.254.239.30;
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}
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subnet 204.254.239.32 netmask 255.255.255.224 {
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\fIsubnet-specific parameters...\fR
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range 204.254.239.42 204.254.239.62;
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}
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}
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subnet 204.254.239.64 netmask 255.255.255.224 {
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\fIsubnet-specific parameters...\fR
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range 204.254.239.74 204.254.239.94;
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}
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group {
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\fIgroup-specific parameters...\fR
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host zappo.test.isc.org {
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\fIhost-specific parameters...\fR
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}
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host beppo.test.isc.org {
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\fIhost-specific parameters...\fR
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}
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host harpo.test.isc.org {
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\fIhost-specific parameters...\fR
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}
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}
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.ce 1
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Figure 1
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.fi
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.PP
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Notice that at the beginning of the file, there's a place
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for global parameters. These might be things like the organization's
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domain name, the addresses of the name servers (if they are common to
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the entire organization), and so on. So, for example:
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.nf
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option domain-name "isc.org";
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option domain-name-servers ns1.isc.org, ns2.isc.org;
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.ce 1
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Figure 2
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.fi
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.PP
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As you can see in Figure 2, it's legal to specify host addresses in
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parameters as domain names rather than as numeric IP addresses. If a
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given hostname resolves to more than one IP address (for example, if
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that host has two ethernet interfaces), both addresses are supplied to
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the client.
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.PP
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In Figure 1, you can see that both the shared-network statement and
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the subnet statements can have parameters. Let us say that the
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shared network \fIISC-BIGGIE\fR supports an entire department -
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perhaps the accounting department. If accounting has its own domain,
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then a shared-network-specific parameter might be:
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.nf
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option domain-name "accounting.isc.org";
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.fi
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.PP
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All subnet declarations appearing in the shared-network declaration
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would then have the domain-name option set to "accounting.isc.org"
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instead of just "isc.org".
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.PP
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The most obvious reason for having subnet-specific parameters as
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shown in Figure 1 is that each subnet, of necessity, has its own
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router. So for the first subnet, for example, there should be
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something like:
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.nf
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option routers 204.254.239.1;
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.fi
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.PP
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Note that the address here is specified numerically. This is not
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required - if you have a different domain name for each interface on
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your router, it's perfectly legitimate to use the domain name for that
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interface instead of the numeric address. However, in many cases
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there may be only one domain name for all of a router's IP addresses, and
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it would not be appropriate to use that name here.
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.PP
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In Figure 1 there is also a \fIgroup\fR statement, which provides
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common parameters for a set of three hosts - zappo, beppo and harpo.
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As you can see, these hosts are all in the test.isc.org domain, so it
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might make sense for a group-specific parameter to override the domain
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name supplied to these hosts:
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.nf
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option domain-name "test.isc.org";
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.fi
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.PP
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Also, given the domain they're in, these are probably test machines.
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If we wanted to test the DHCP leasing mechanism, we might set the
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lease timeout somewhat shorter than the default:
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.nf
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max-lease-time 120;
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default-lease-time 120;
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.fi
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.PP
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You may have noticed that while some parameters start with the
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\fIoption\fR keyword, some do not. Parameters starting with the
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\fIoption\fR keyword correspond to actual DHCP options, while
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parameters that do not start with the option keyword either control
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the behaviour of the DHCP server (e.g., how long a lease dhcpd will
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give out), or specify client parameters that are not optional in the
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DHCP protocol (for example, server-name and filename).
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.PP
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In Figure 1, each host had \fIhost-specific parameters\fR. These
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could include such things as the \fIhostname\fR option, the name of a
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file to upload (the \fIfilename parameter) and the address of the
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server from which to upload the file (the \fInext-server\fR
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parameter). In general, any parameter can appear anywhere that
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parameters are allowed, and will be applied according to the scope in
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which the parameter appears.
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.PP
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Imagine that you have a site with a lot of NCD X-Terminals. These
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terminals come in a variety of models, and you want to specify the
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boot files for each models. One way to do this would be to have host
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declarations for each server and group them by model:
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.nf
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group {
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filename "Xncd19r";
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next-server ncd-booter;
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host ncd1 { hardware ethernet 0:c0:c3:49:2b:57; }
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host ncd4 { hardware ethernet 0:c0:c3:80:fc:32; }
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host ncd8 { hardware ethernet 0:c0:c3:22:46:81; }
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}
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group {
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filename "Xncd19c";
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next-server ncd-booter;
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host ncd2 { hardware ethernet 0:c0:c3:88:2d:81; }
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host ncd3 { hardware ethernet 0:c0:c3:00:14:11; }
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}
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group {
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filename "XncdHMX";
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next-server ncd-booter;
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host ncd1 { hardware ethernet 0:c0:c3:11:90:23; }
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host ncd4 { hardware ethernet 0:c0:c3:91:a7:8; }
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host ncd8 { hardware ethernet 0:c0:c3:cc:a:8f; }
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}
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.fi
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.SH REFERENCE: DECLARATIONS
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.PP
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.B The
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.I shared-network
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.B statement
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.PP
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.nf
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\fBshared-network\fR \fIname\fR \fB{\fR
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[ \fIparameters\fR ]
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[ \fIdeclarations\fR ]
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\fB}\fR
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.fi
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.PP
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The \fIshared-network\fR statement is used to inform the DHCP server
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that some IP subnets actually share the same physical network. Any
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subnets in a shared network should be declared within a
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\fIshared-network\fR statement. Parameters specified in the
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\fIshared-network\fR statement will be used when booting clients on
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those subnets unless parameters provided at the subnet or host level
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override them. If any subnet in a shared network has addresses
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available for dynamic allocation, those addresses are collected into a
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common pool for that shared network and assigned to clients as needed.
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There is no way to distinguish on which subnet of a shared network a
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client should boot.
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.PP
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.I Name
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should be the name of the shared network. This name is used when
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printing debugging messages, so it should be descriptive for the
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shared network. The name may have the syntax of a valid domain name
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(although it will never be used as such), or it may be any arbitrary
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name, enclosed in quotes.
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.PP
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.B The
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.I subnet
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.B statement
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.PP
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.nf
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\fBsubnet\fR \fIsubnet-number\fR \fBnetmask\fR \fInetmask\fR \fB{\fR
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[ \fIparameters\fR ]
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[ \fIdeclarations\fR ]
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\fB}\fR
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.fi
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.PP
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The \fIsubnet\fR statement is used to provide dhcpd with enough
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information to tell whether or not an IP address is on that subnet.
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It may also be used to provide subnet-specific parameters and to
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specify what addresses may be dynamically allocated to clients booting
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on that subnet. Such addresses are specified using the \fIrange\fR
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declaration.
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.PP
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The
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.I subnet-number
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should be an IP address or domain name which resolves to the subnet
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number of the subnet being described. The
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.I netmask
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should be an IP address or domain name which resolves to the subnet mask
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of the subnet being described. The subnet number, together with the
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netmask, are sufficient to determine whether any given IP address is
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on the specified subnet.
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.PP
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Although a netmask must be given with every subnet declaration, it is
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recommended that if there is any variance in subnet masks at a site, a
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subnet-mask option statement be used in each subnet declaration to set
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the desired subnet mask, since any subnet-mask option statement will
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override the subnet mask declared in the subnet statement.
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.PP
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.B The
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.I range
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.B statement
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.PP
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.nf
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\fBrange\fR [ \fBdynamic-bootp\fR ] \fIlow-address\fR [ \fIhigh-address\fR]\fB;\fR
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.fi
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.PP
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For any subnet on which addresses will be assigned dynamically, there
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must be at least one \fIrange\fR statement. The range statement
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gives the lowest and highest IP addresses in a range. All IP
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addresses in the range should be in the subnet in which the
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\fIrange\fR statement is declared. The \fIdynamic-bootp\fR flag may
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be specified if addresses in the specified range may be dynamically
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assigned to BOOTP clients as well as DHCP clients. When specifying a
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single address, \fIhigh-address\fR can be omitted.
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.PP
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.B The
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.I host
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.B statement
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.PP
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.nf
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\fBhost\fR \fIhostname\fR {
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[ \fIparameters\fR ]
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[ \fIdeclarations\fR ]
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\fB}\fR
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.fi
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.PP
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There must be at least one
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.B host
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statement for every BOOTP client that is to be served.
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.B host
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statements may also be specified for DHCP clients, although this is
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not required unless booting is only enabled for known hosts.
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.PP
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If it is desirable to be able to boot a DHCP or BOOTP
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client on more than one subnet with fixed addresses, more than one
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address may be specified in the
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.I fixed-address
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parameter, or more than one
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.B host
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statement may be specified.
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.PP
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If client-specific boot parameters must change based on the network
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to which the client is attached, then multiple
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.B host
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statements should
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be used.
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.PP
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If a client is to be booted using a fixed address if it's
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possible, but should be allocated a dynamic address otherwise, then a
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.B host
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statement must be specified without a
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.B fixed-address
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clause.
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.I hostname
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should be a name identifying the host. If a \fIhostname\fR option is
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not specified for the host, \fIhostname\fR is used.
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.PP
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\fIHost\fR declarations are matched to actual DHCP or BOOTP clients
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by matching the \fRdhcp-client-identifier\fR option specified in the
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\fIhost\fR declaration to the one supplied by the client, or, if the
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\fIhost\fR declaration or the client does not provide a
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\fRdhcp-client-identifier\fR option, by matching the \fIhardware\fR
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parameter in the \fIhost\fR declaration to the network hardware
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address supplied by the client. BOOTP clients do not normally
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provide a \fIdhcp-client-identifier\fR, so the hardware address must
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be used for all clients that may boot using the BOOTP protocol.
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.PP
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.B The
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.I group
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.B statement
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.PP
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.nf
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\fBgroup\fR {
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[ \fIparameters\fR ]
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[ \fIdeclarations\fR ]
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\fB}\fR
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.fi
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.PP
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The group statement is used simply to apply one or more parameters to
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a group of declarations. It can be used to group hosts, shared
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networks, subnets, or even other groups.
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.SH REFERENCE: ALLOW and DENY
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.PP
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The
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.I allow
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and
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.I deny
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statements can be used to control the behaviour of dhcpd to various
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sorts of requests.
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.PP
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.PP
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.B The
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.I unknown-clients
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.B keyword
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.PP
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\fBallow unknown-clients;\fR
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\fBdeny unknown-clients;\fR
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.PP
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The \fBunknown-clients\fR flag is used to tell dhcpd whether
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or not to dynamically assign addresses to unknown clients. Dynamic
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address assignment to unknown clients is \fBallow\fRed by default.
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.PP
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.B The
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.I bootp
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.B keyword
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.PP
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\fBallow bootp;\fR
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\fBdeny bootp;\fR
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.PP
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The \fBbootp\fR flag is used to tell dhcpd whether
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or not to respond to bootp queries. Bootp queries are \fBallow\fRed
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by default.
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.PP
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.B The
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.I booting
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.B keyword
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.PP
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\fBallow booting;\fR
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\fBdeny booting;\fR
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.PP
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The \fBbooting\fR flag is used to tell dhcpd whether or not to respond
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to queries from a particular client. This keyword only has meaning
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when it appears in a host declaration. By default, booting is
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\fBallow\fRed, but if it is disabled for a particular client, then
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that client will not be able to get and address from the DHCP server.
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.SH REFERENCE: PARAMETERS
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.PP
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.B The
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.I default-lease-time
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.B statement
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.PP
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\fBdefault-lease-time\fR \fItime\fR\fB;\fR
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.PP
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.I Time
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should be the length in seconds that will be assigned to a lease if
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the client requesting the lease does not ask for a specific expiration
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time.
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.PP
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.B The
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.I max-lease-time
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.B statement
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.PP
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\fBmax-lease-time\fR \fItime\fR\fB;\fR
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.PP
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.I Time
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should be the maximum length in seconds that will be assigned to a
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lease if the client requesting the lease asks for a specific
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expiration time.
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.PP
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.B The
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.I hardware
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.B statement
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.PP
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\fBhardware\fR \fIhardware-type\fR \fIhardware-address\fR\fB;\fR
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.PP
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In order for a BOOTP client to be recognized, its network hardware
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address must be declared using a \fIhardware\fR clause in the
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.I host
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statement.
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.I hardware-type
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must be the name of a physical hardware interface type. Currently,
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only the
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.B ethernet
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type is recognized, although support for
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.B token-ring
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and
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.B fddi
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hardware types would also be desirable.
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The
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.I hardware-address
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should be a set of hexadecimal octets (numbers from 0 through ff)
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seperated by colons. The \fIhardwarefR statement may also be used
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for DHCP clients.
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.PP
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.B The
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.I filename
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.B statement
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.PP
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\fBfilename\fR \fB"\fR\fIfilename\fR\fB";\fR
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.PP
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The \fIfilename\fR statement can be used to specify the name of the
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initial boot file which is to be loaded by a client. The
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.I filename
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should be a filename recognizable to whatever file transfer protocol
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the client can be expected to use to load the file.
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.PP
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.B The
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.I server-name
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.B statement
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.PP
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\fBserver-name\fR \fB"\fR\fIname\fR\fB";\fR
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.PP
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The \fIserver-name\fR statement can be used to inform the client of
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the name of the server from which it is booting. \fIName\fR should
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be the name that will be provided to the client.
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.PP
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.B The
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.I next-server
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.B statement
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.PP
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\fBnext-server\fR \fIserver-name\fR\fB;\fR
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.PP
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The \fInext-server\fR statement is used to specify the host address of
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the server from which the initial boot file (specified in the
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\fIfilename\fR statement) is to be loaded. \fIServer-name\fR should
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be a numeric IP address or a domain name. If no \fInext-server\fR
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parameter applies to a given client, the DHCP server's IP address is
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used.
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.PP
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.B The
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.I fixed-address
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.B statement
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.PP
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\fBfixed-address\fR \fIaddress\fR [\fB,\fR \fIaddress\fR ... ]\fB;\fR
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.PP
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The \fIfixed-address\fR statement is used to assign one or more fixed
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IP addresses to a client. It should only appear in a \fIhost\fR
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declaration. If more than one address is supplied, then when the
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client boots, it will be assigned the address which corresponds to the
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network on which it is booting. If none of the addresses in the
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\fIfixed-address\fR statement are on the network on which the client
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is booting, that client will not match the \fIhost\fR declaration
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containing that \fIfixed-address\fR statement. Each \fIaddress\fR
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should be either an IP address or a domain name which resolves to one
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or more IP addresses.
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.PP
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.B The
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.I dynamic-bootp-lease-cutoff
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.B statement
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.PP
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\fBdynamic-bootp-lease-cutoff\fR \fIdate\fR\fB;\fR
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.PP
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The \fIdynamic-bootp-lease-cutoff\fR statement sets the ending time
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for all leases assigned dynamically to BOOTP clients. Because BOOTP
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clients do not have any way of renewing leases, and don't know that
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their leases could expire, by default dhcpd assignes infinite leases
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to all BOOTP clients. However, it may make sense in some situations
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to set a cutoff date for all BOOTP leases - for example, the end of a
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school term, or the time at night when a facility is closed and all
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machines are required to be powered off.
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.PP
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.I Date
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should be the date on which all assigned BOOTP leases will end. The
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date is specified in the form:
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.PP
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.ce 1
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W YYYY/MM/DD HH:MM:SS
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.PP
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W is the day of the week expressed as a number
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from zero (Sunday) to six (Saturday). YYYY is the year, including the
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century. MM is the month expressed as a number from 1 to 12. DD is
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the day of the month, counting from 1. HH is the hour, from zero to
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23. MM is the minute and SS is the second. The time is always in
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Greenwich Mean Time (GMT), not local time.
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.PP
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.B The
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.I dynamic-bootp-lease-length
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.B statement
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.PP
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\fBdynamic-bootp-lease-length\fR \fIlength\fR\fB;\fR
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.PP
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The \fIdynamic-bootp-lease-length\fR statement is used to set the
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length of leases dynamically assigned to BOOTP clients. At some
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sites, it may be possible to assume that a lease is no longer in
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use if its holder has not used BOOTP or DHCP to get its address within
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a certain time period. The period is specified in \fIlength\fR as a
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number of seconds. If a client reboots using BOOTP during the
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timeout period, the lease duration is reset to \fIlength\fR, so a
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BOOTP client that boots frequently enough will never lose its lease.
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Needless to say, this parameter should be adjusted with extreme
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caution.
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.PP
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.B The
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.I get-lease-hostnames
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.B statement
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.PP
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\fBget-lease-hostnames\fR \fIflag\fR\fB;\fR
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.PP
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The \fIget-lease-hostnames\fR statement is used to tell dhcpd whether
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or not to look up the domain name corresponding to the IP address of
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each address in the lease pool and use that address for the DHCP
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\fIhostname\fR option. If \fIflag\fR is true, then this lookup is
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done for all addresses in the current scope. By default, or if
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\fIflag\fR is false, no lookups are done.
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.PP
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.B The
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.I use-host-decl-names
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.B statement
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.PP
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\fBuse-host-decl-names\fR \fIflag\fR\fB;\fR
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.PP
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If the \fIuse-host-decl-names\fR parameter is true in a given scope,
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then for every host declaration within that scope, the name provided
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for the host declaration will be supplied to the client as its
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hostname. So, for example,
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.PP
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.nf
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group {
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use-host-decl-names on;
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host joe {
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hardware ethernet 08:00:2b:4c:29:32;
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fixed-address joe.fugue.com;
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}
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}
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is equivalent to
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host joe {
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hardware ethernet 08:00:2b:4c:29:32;
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fixed-address joe.fugue.com;
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option host-name "joe";
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}
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.fi
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.PP
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An \fIoption host-name\fR statement within a host declaration will
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override the use of the name in the host declaration.
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.PP
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.B The
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.I server-identifier
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.B statement
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.PP
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\fBserver-identifier \fIhostname\fR\fB;\fR
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.PP
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The server-identifier statement is now obsolete and is ignored by
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the DHCP server.
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.SH REFERENCE: OPTION STATEMENTS
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.PP
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DHCP option statements are documented in the
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.B dhcp-options(5)
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manual page.
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.SH SEE ALSO
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dhcpd.conf(5), dhcpd.leases(5), RFC2132, RFC2131.
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.SH AUTHOR
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.B dhcpd(8)
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was written by Ted Lemon <mellon@vix.com>
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under a contract with Vixie Labs. Funding
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for this project was provided by the Internet Software Corporation.
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Information about the Internet Software Consortium can be found at
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.B http://www.isc.org/isc.
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