NAME
dhcpd
—
Dynamic Host Configuration Protocol
(DHCP) daemon
SYNOPSIS
dhcpd |
[-dfnv ]
[-A abandoned_ip_table]
[-C changed_ip_table]
[-c config-file]
[-L leased_ip_table]
[-l lease-file]
[-u [bind_address]]
[-Y synctarget]
[-y synclisten]
[if0 [... ifN]] |
DESCRIPTION
dhcpd
implements the Dynamic Host
Configuration Protocol (DHCP) and the Internet Bootstrap Protocol (BOOTP).
DHCP allows hosts on a TCP/IP network to request and be assigned IP
addresses, and also to discover information about the network to which they
are attached. BOOTP provides similar functionality, with certain
restrictions.
The DHCP protocol allows a host which is unknown to the network administrator to be automatically assigned a new IP address out of a pool of IP addresses for its network. In order for this to work, the network administrator allocates address pools in each subnet and enters them into the dhcpd.conf(5) file.
On startup, dhcpd
reads the
dhcpd.conf file and stores a list of available
addresses on each subnet in memory. When a client requests an address using
the DHCP protocol, dhcpd
allocates an address for
it. Each client is assigned a lease, which expires after an amount of time
chosen by the administrator (by default, one day). When a leased IP address
is assigned to a new hardware address, dhcpd
may
delete the leased address from certain
pf(4)
tables. Before leases expire, the clients to which leases are assigned are
expected to renew them in order to continue to use the addresses. Once a
lease has expired, the client to which that lease was assigned is no longer
permitted to use the leased IP address.
Whenever changes are made to the
dhcpd.conf file, dhcpd
must
be restarted.
In order to keep track of leases across system reboots and server
restarts, dhcpd
keeps a list of leases it has
assigned in the
dhcpd.leases(5) file. Before dhcpd
grants a lease to a host, it records the lease in this file and makes sure
that the contents of the file are flushed to disk. This ensures that even in
the event of a system crash, dhcpd
will not forget
about a lease that it has assigned. On startup, after reading the
dhcpd.conf file, dhcpd
reads
the dhcpd.leases file to refresh its memory about
what leases have been assigned.
When dhcpd
starts up, it identifies all
network interfaces in all routing domains, eliminating non-broadcast
interfaces if possible, and listens for DHCP broadcasts on each interface.
The names of the network interfaces on which dhcpd
should listen for broadcasts may also be specified on the command line on
systems where dhcpd
is unable to identify
non-broadcast interfaces.
dhcpd
normally runs in routing domain 0.
In order to run in another
rdomain(4), dhcpd
needs to be started with a
list of interfaces which share the same routing domain, which allows
dhcpd
to set its own routing domain accordingly.
DHCP traffic always bypasses IPsec. Otherwise there could be situations when a server has an IPsec SA for the client and sends replies over that, which a newly booted client would not be able to grasp.
The options are as follows:
-A
abandoned_ip_table- When an address is abandoned for some reason, add it to the
pf(4) table named abandoned_ip_table. This
can be used to defend against machines "camping" on an address
without obtaining a lease. When an address is properly leased,
dhcpd
will remove the address from this table. -C
changed_ip_table- When an address is leased to a different hardware address, delete it from
the pf(4) table named changed_ip_table. This
feature complements the overload table in a stateful
pf(4) rule. If a host appears to be misbehaving, it can be
quarantined by using the overload feature. When the address is leased to a
different machine,
dhcpd
can remove the address from the overload table, thus allowing a well-behaved machine to reuse the address. -c
config-file- Use an alternate configuration file, config-file.
Because of the importance of using the same lease database at all times
when running
dhcpd
in production, this option should be used only for testing database files in a non-production environment. -d
- Do not daemonize. If this option is specified,
dhcpd
will run in the foreground and log to stderr. -f
- An alias for
-d
. -L
leased_ip_table- When an address is leased,
dhcpd
will insert it into the pf(4) table named leased_ip_table. Addresses are removed from the table when the lease expires. Combined with the table of abandoned addresses, this can help enforce a requirement to use DHCP on a network, or can place DHCP users in a different class of service. Users are cautioned against placing much trust in Ethernet or IP addresses; ifconfig(8) can be used to trivially change the interface's address, and on a busy DHCP network, IP addresses will likely be quickly recycled. -l
lease-file- Use an alternate lease file, lease-file. Because of
the importance of using the same lease database at all times when running
dhcpd
in production, this option should be used only for testing lease files in a non-production environment. -n
- Only test configuration, do not run
dhcpd
. -u
[bind_address]- Use a UDP socket instead of BPF for receiving and sending packets. Only
DHCPINFORM
messages can be handled on this socket; other messages are discarded. With this option,dhcpd
can answerDHCPINFORM
from clients on non Ethernet interfaces such as tun(4) or pppx(4). If bind_address is specified,dhcpd
will bind to that address; otherwise the limited broadcast address (255.255.255.255) is used as the default. -v
- Produce more verbose output.
-Y
synctarget- Add target synctarget to receive synchronisation messages. synctarget can be either an IPv4 address for unicast messages or a network interface name followed optionally by a colon and a numeric TTL value for multicast messages to the group 224.0.1.240. If the multicast TTL is not specified, a default value of 1 is used. This option can be specified multiple times. See also SYNCHRONISATION below.
-y
synclisten- Listen on synclisten for incoming synchronisation messages. The format for synclisten is the same as for synctarget, above. This option can be specified only once. See also SYNCHRONISATION below.
BOOTP
dhcpd
also provides BOOTP support. Unlike
DHCP, the BOOTP protocol does not provide a protocol for recovering
dynamically-assigned addresses once they are no longer needed. It is still
possible to dynamically assign addresses to BOOTP clients, but some
administrative process for reclaiming addresses is required. By default,
leases are granted to BOOTP clients in perpetuity, although the network
administrator may set an earlier cutoff date or a shorter lease length for
BOOTP leases if that makes sense.
BOOTP clients may also be served in the old standard way, which is simply to provide a declaration in the dhcpd.conf file for each BOOTP client, permanently assigning an address to each client.
CONFIGURATION
The syntax of the dhcpd.conf(5) file is discussed separately. This section should be used as an overview of the configuration process, and the dhcpd.conf(5) documentation should be consulted for detailed reference information.
- Subnets
dhcpd
needs to know the subnet numbers and netmasks of all subnets for which it will be providing service. In addition, in order to dynamically allocate addresses, it must be assigned one or more ranges of addresses on each subnet which it can in turn assign to client hosts as they boot. Thus, a very simple configuration providing DHCP support might look like this:subnet 239.252.197.0 netmask 255.255.255.0 { range 239.252.197.10 239.252.197.250; }
Multiple address ranges may be specified like this:
subnet 239.252.197.0 netmask 255.255.255.0 { range 239.252.197.10 239.252.197.107; range 239.252.197.113 239.252.197.250; }
If a subnet will only be provided with BOOTP service and no dynamic address assignment, the range clause can be left out entirely, but the subnet statement must appear.
- Lease Lengths
- DHCP leases can be assigned almost any length from zero seconds to
infinity. What lease length makes sense for any given subnet, or for any
given installation, will vary depending on the kinds of hosts being
served.
For example, in an office environment where systems are added from time to time and removed from time to time, but move relatively infrequently, it might make sense to allow lease times of a month or more. In a final test environment on a manufacturing floor, it may make more sense to assign a maximum lease length of 30 minutes - enough time to go through a simple test procedure on a network appliance before packaging it up for delivery.
It is possible to specify two lease lengths: the default length that will be assigned if a client doesn't ask for any particular lease length, and a maximum lease length. These are specified as clauses to the subnet command:
subnet 239.252.197.0 netmask 255.255.255.0 { range 239.252.197.10 239.252.197.107; default-lease-time 600; max-lease-time 7200; }
This particular subnet declaration specifies a default lease time of 600 seconds (ten minutes), and a maximum lease time of 7200 seconds (two hours). Other common values would be 86400 (one day), 604800 (one week) and 2592000 (30 days).
Each subnet need not have the same lease - in the case of an office environment and a manufacturing environment served by the same DHCP server, it might make sense to have widely disparate values for default and maximum lease times on each subnet.
- BOOTP Support
- Each BOOTP client must be explicitly declared in the
dhcpd.conf(5) file. A very basic client declaration will
specify the client network interface's hardware address and the IP address
to assign to that client. If the client needs to be able to load a boot
file from the server, that file's name must be specified. A simple BOOTP
client declaration might look like this:
host haagen { hardware ethernet 08:00:2b:4c:59:23; fixed-address 239.252.197.9; filename "haagen.boot"; }
- Options
- DHCP (and also BOOTP with Vendor Extensions) provides a mechanism whereby
the server can provide the client with information about how to configure
its network interface (e.g., subnet mask), and also how the client can
access various network services (e.g., DNS, IP routers, and so on).
These options can be specified on a per-subnet basis and, for BOOTP clients, also on a per-client basis. In the event that a BOOTP client declaration specifies options that are also specified in its subnet declaration, the options specified in the client declaration take precedence. A reasonably complete DHCP configuration might look something like this:
subnet 239.252.197.0 netmask 255.255.255.0 { range 239.252.197.10 239.252.197.250; default-lease-time 600; max-lease-time 7200; option subnet-mask 255.255.255.0; option broadcast-address 239.252.197.255; option routers 239.252.197.1; option domain-name-servers 239.252.197.2, 239.252.197.3; option domain-name "isc.org"; }
A BOOTP host on that subnet that needs to be in a different domain and use a different name server might be declared as follows:
host haagen { hardware ethernet 08:00:2b:4c:59:23; fixed-address 239.252.197.9; filename "haagen.boot"; option domain-name-servers 192.5.5.1; option domain-name "vix.com"; }
A more complete description of the dhcpd.conf file syntax is provided in dhcpd.conf(5).
SYNCHRONISATION
dhcpd
supports realtime synchronisation of
the lease allocations to a number of dhcpd
daemons
running on multiple machines, using the -Y
and
-y
options.
The following example will accept incoming multicast and unicast synchronisation messages, and send outgoing multicast messages through the network interface em0:
# /usr/sbin/dhcpd -y em0 -Y em0
The second example will increase the multicast TTL to a value of 2, add the unicast targets foo.somewhere.org and bar.somewhere.org, and accept incoming unicast messages sent to example.somewhere.org only.
# /usr/sbin/dhcpd -y example.somewhere.org -Y em0:2 \ -Y foo.somewhere.org -Y bar.somewhere.org
If the file /var/db/dhcpd.key exists,
dhcpd
will calculate the message-digest fingerprint
(checksum) for the file and use it as a shared key to authenticate the
synchronisation messages. The file itself can contain any data. For example,
to create a secure random key:
# dd if=/dev/random of=/var/db/dhcpd.key bs=2048 count=1
The file needs to be copied to all hosts sending or receiving synchronisation messages.
All hosts using synchronisation must use the same configuration in the /etc/dhcpd.conf file.
FILES
- /etc/dhcpd.conf
- DHCPD configuration file.
- /var/db/dhcpd.leases
- DHCPD lease file.
SEE ALSO
pf(4), rdomain(4), dhcpd.conf(5), dhcpd.leases(5), dhcpleased(8), dhcrelay(8), pxeboot(8)
STANDARDS
R. Droms, Interoperation Between DHCP and BOOTP, RFC 1534, October 1993.
R. Droms, Dynamic Host Configuration Protocol, RFC 2131, March 1997.
S. Alexander and R. Droms, DHCP Options and BOOTP Vendor Extensions, RFC 2132, March 1997.
T. Lemon and S. Cheshire, Encoding Long Options in the Dynamic Host Configuration Protocol (DHCPv4), RFC 3396, November 2002.
T. Lemon, S. Cheshire, and B. Volz, The Classless Static Route Option for Dynamic Host Configuration Protocol (DHCP) version 4, RFC 3442, December 2002.
AUTHORS
dhcpd
is based on software from the
Internet Software Consortium, written by Ted Lemon
<mellon@vix.com> under
a contract with Vixie Labs. The current implementation was reworked for
OpenBSD by Henning Brauer
<henning@openbsd.org>.
BUGS
We realize that it would be nice if one could send a
SIGHUP
to the server and have it reload the
database. This is not technically impossible, but it would require a great
deal of work, our resources are extremely limited, and they can be better
spent elsewhere. So please don't complain about this on the mailing list
unless you're prepared to fund a project to implement this feature, or
prepared to do it yourself.