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DHCPCD(8) NetBSD System Manager's Manual DHCPCD(8)
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dhcpcd -- a DHCP client
dhcpcd [-146ABbDdEGgHJKLMNPpqTV] [-C, --nohook hook]
[-c, --script script] [-e, --env value] [-F, --fqdn FQDN]
[-f, --config file] [-h, --hostname hostname]
[-I, --clientid clientid] [-i, --vendorclassid vendorclassid]
[-j, --logfile logfile] [-l, --leasetime seconds]
[-m, --metric metric] [-O, --nooption option]
[-o, --option option] [-Q, --require option]
[-r, --request address] [-S, --static value]
[-s, --inform address[/cidr[/broadcast_address]]] [--inform6]
[-t, --timeout seconds] [-u, --userclass class]
[-v, --vendor code, value] [-W, --whitelist address[/cidr]] [-w]
[--waitip=[4 | 6]] [-y, --reboot seconds]
[-X, --blacklist address[/cidr]] [-Z, --denyinterfaces pattern]
[-z, --allowinterfaces pattern] [--inactive] [interface] [...]
dhcpcd -n, --rebind [interface]
dhcpcd -k, --release [interface]
dhcpcd -U, --dumplease interface
dhcpcd -x, --exit [interface]
dhcpcd is an implementation of the DHCP client specified in RFC 2131.
dhcpcd gets the host information (IP address, routes, etc) from a DHCP
server and configures the network interface of the machine on which it is
running. dhcpcd then runs the configuration script which writes DNS
information to resolvconf(8), if available, otherwise directly to
/etc/resolv.conf. If the hostname is currently blank, (null) or local-
host, or force_hostname is YES or TRUE or 1 then dhcpcd sets the hostname
to the one supplied by the DHCP server. dhcpcd then daemonises and waits
for the lease renewal time to lapse. It will then attempt to renew its
lease and reconfigure if the new lease changes when the lease begins to
expire or the DHCP server sends a message to renew early.
If any interface reports a working carrier then dhcpcd will try and
obtain a lease before forking to the background, otherwise it will fork
right away. This behaviour can be modified with the -b, --background and
-w, --waitip options.
dhcpcd is also an implementation of the BOOTP client specified in RFC
dhcpcd is also an implementation of the IPv6 Router Solicitor as speci-
fied in RFC 4861 and RFC 6106.
dhcpcd is also an implementation of the IPv6 Privacy Extensions to Auto-
Conf as specified in RFC 4941. This feature needs to be enabled in the
kernel and dhcpcd will start using it.
dhcpcd is also an implementation of the DHCPv6 client as specified in RFC
3315. By default, dhcpcd only starts DHCPv6 when instructed to do so by
an IPV6 Router Advertisement. If no Identity Association is configured,
then a Non-temporary Address is requested.
Local Link configuration
If dhcpcd failed to obtain a lease, it probes for a valid IPv4LL address
(aka ZeroConf, aka APIPA). Once obtained it restarts the process of
looking for a DHCP server to get a proper address.
When using IPv4LL, dhcpcd nearly always succeeds and returns an exit code
of 0. In the rare case it fails, it normally means that there is a
reverse ARP proxy installed which always defeats IPv4LL probing. To dis-
able this behaviour, you can use the -L, --noipv4ll option.
If a list of interfaces are given on the command line, then dhcpcd only
works with those interfaces, otherwise dhcpcd discovers available Ether-
net interfaces that can be configured. When dhcpcd not limited to one
interface on the command line, it is running in Master mode. The
dhcpcd-ui project expects dhcpcd to be running this way.
If a single interface is given then dhcpcd only works for that interface
and runs as a separate instance to other dhcpcd processes. -w, --waitip
option is enabled in this instance to maintain compatibility with older
versions. Using a single interface also affects the -k, -N, -n and -x
options, where the same interface will need to be specified, as a lack of
an interface will imply Master mode which this is not. To force starting
in Master mode with only one interface, the -M, --master option can be
Interfaces are preferred by carrier, DHCP lease/IPv4LL and then lowest
metric. For systems that support route metrics, each route will be
tagged with the metric, otherwise dhcpcd changes the routes to use the
interface with the same route and the lowest metric. See options below
for controlling which interfaces we allow and deny through the use of
Hooking into events
dhcpcd runs /libexec/dhcpcd-run-hooks, or the script specified by the -c,
--script option. This script runs each script found in
/libexec/dhcpcd-hooks in a lexical order. The default installation sup-
plies the scripts 01-test, 02-dump, 20-resolv.conf and 30-hostname. You
can disable each script by using the -C, --nohook option. See
dhcpcd-run-hooks(8) for details on how these scripts work. dhcpcd cur-
rently ignores the exit code of the script.
More scripts are supplied in /usr/share/examples/dhcpcd/hooks and need to
be copied to /libexec/dhcpcd-hooks if you intend to use them. For exam-
ple, you could install 10-wpa_supplicant so that dhcpcd can ensure that
wpa_supplicant(8) is always running on a hot-plugged wireless interface.
You can fine-tune the behaviour of dhcpcd with the following options:
Background immediately. This is useful for startup scripts which
don't disable link messages for carrier status.
-c, --script script
Use this script instead of the default /libexec/dhcpcd-run-hooks.
Use a DHCP Unique Identifier. If a system UUID is available,
that will be used to create a DUID-UUID, otheriwse if persistent
storage is available then a DUID-LLT (link local address + time)
is generated, otherwise DUID-LL is generated (link local
address). This, plus the IAID will be used as the -I,
--clientid. The DUID generated will be held in
/var/db/dhcpcd/duid and should not be copied to other hosts.
This file also takes precedence over the above rules.
Echo debug messages to the stderr and syslog.
If dhcpcd cannot obtain a lease, then try to use the last lease
acquired for the interface.
Same as the above, but the lease will be retained even if it
expires. dhcpcd will give it up if any other host tries to claim
it for their own via ARP. This violates RFC 2131, section 3.7,
which states the lease should be dropped once it has expired.
-e, --env value
Push value to the environment for use in dhcpcd-run-hooks(8).
For example, you can force the hostname hook to always set the
hostname with -e force_hostname=YES.
dhcpcd will re-apply IP address, routing and run
dhcpcd-run-hooks(8) for each interface. This is useful so that a
3rd party such as PPP or VPN can change the routing table and /
or DNS, etc and then instruct dhcpcd to put things back after-
wards. dhcpcd does not read a new configuration when this hap-
pens - you should rebind if you need that functionality.
-F, --fqdn fqdn
Requests that the DHCP server updates DNS using FQDN instead of
just a hostname. Valid values for fqdn are disable, none, ptr
and both. dhcpcd itself never does any DNS updates. dhcpcd
encodes the FQDN hostname as specified in RFC 1035.
-f, --config file
Specify a config to load instead of /etc/dhcpcd.conf. dhcpcd
always processes the config file before any command line options.
-h, --hostname hostname
Sends hostname to the DHCP server so it can be registered in DNS.
If hostname is an empty string then the current system hostname
is sent. If hostname is a FQDN (i.e., contains a .) then it will
be encoded as such.
-I, --clientid clientid
Send the clientid. If the string is of the format 01:02:03 then
it is encoded as hex. For interfaces whose hardware address is
longer than 8 bytes, or if the clientid is an empty string then
dhcpcd sends a default clientid of the hardware family and the
-i, --vendorclassid vendorclassid
Override the DHCPv4 vendorclassid field sent. The default is
dhcpcd-<version>:<os>:<machine>:<platform>. For example
If not set then none is sent. Some badly configured DHCP servers
reject unknown vendorclassids. To work around it, try and imper-
sonate Windows by using the MSFT vendorclassid.
-j, --logfile logfile
Writes to the specified logfile rather than syslog(3). The
logfile is s reopened when dhcpcd receives the SIGUSR2 signal.
-k, --release [interface]
This causes an existing dhcpcd process running on the interface
to release its lease and de-configure the interface regardless of
the -p, --persistent option. If no interface is specified then
this applies to all interfaces in Master mode. If no interfaces
are left running, dhcpcd will exit.
-l, --leasetime seconds
Request a specific lease time in seconds. By default dhcpcd does
not request any lease time and leaves it in the hands of the DHCP
Start dhcpcd in Master mode even if only one interface specified
on the command line. See the Multiple Interfaces section above.
-m, --metric metric
Metrics are used to prefer an interface over another one, lowest
wins. dhcpcd will supply a default metic of 200 +
if_nametoindex(3). An extra 100 will be added for wireless
-n, --rebind [interface]
Notifies dhcpcd to reload its configuration and rebind the speci-
fied interface. If no interface is specified then this applies
to all interfaces in Master mode. If dhcpcd is not running, then
it starts up as normal. This may also cause wpa_supplicant(8) to
reload its configuration for each interface as well if the rele-
vant hook script has been installed.
-N, --renew [interface]
Notifies dhcpcd to renew existing addresses on the specified
interface. If no interface is specified then this applies to all
interfaces in Master mode. If dhcpcd is not running, then it
starts up as normal. Unlike the -n, --rebind option above, the
configuration for dhcpcd is not reloaded.
-o, --option option
Request the DHCP option variable for use in
dhcpcd normally de-configures the interface and configuration
when it exits. Sometimes, this isn't desirable if, for example,
you have root mounted over NFS or SSH clients connect to this
host and they need to be notified of the host shutting down. You
can use this option to stop this from happening.
-r, --request address
Request the address in the DHCP DISCOVER message. There is no
guarantee this is the address the DHCP server will actually give.
If no address is given then the first address currently assigned
to the interface is used.
-s, --inform address[/cidr[/broadcast_address]]
Behaves like -r, --request as above, but sends a DHCP INFORM
instead of DISCOVER/REQUEST. This does not get a lease as such,
just notifies the DHCP server of the address in use. You should
also include the optional cidr network number in case the address
is not already configured on the interface. dhcpcd remains run-
ning and pretends it has an infinite lease. dhcpcd will not de-
configure the interface when it exits. If dhcpcd fails to con-
tact a DHCP server then it returns a failure instead of falling
back on IPv4LL.
Performs a DHCPv6 Information Request. No address is requested
or specified, but all other DHCPv6 options are allowed. This is
normally performed automatically when the IPv6 Router Advertises
that the client should perform this operation. This option is
only needed when dhcpcd is not processing IPv6RA messages and the
need for DHCPv6 Information Request exists.
-S, --static value
Configures a static DHCP value. If you set ip_address then
dhcpcd will not attempt to obtain a lease and just use the value
for the address with an infinite lease time.
Here is an example which configures a static address, routes and
dhcpcd -S ip_address=192.168.0.10/24 \
-S routers=192.168.0.1 \
-S domain_name_servers=192.168.0.1 \
You cannot presently set static DHCPv6 values. Use the -e, --env
-t, --timeout seconds
Timeout after seconds, instead of the default 30. A setting of 0
seconds causes dhcpcd to wait forever to get a lease. If dhcpcd
is working on a single interface then dhcpcd will exit when a
timeout occurs, otherwise dhcpcd will fork into the background.
-u, --userclass class
Tags the DHCPv4 message with the userclass class. DHCP servers
use this to give members of the class DHCP options other than the
default, without having to know things like hardware address or
-v, --vendor code,value
Add an encapsulated vendor option. code should be between 1 and
254 inclusive. To add a raw vendor string, omit code but keep
the comma. Examples.
Set the vendor option 01 with an IP address.
dhcpcd -v 01,192.168.0.2 eth0
Set the vendor option 02 with a hex code.
dhcpcd -v 02,01:02:03:04:05 eth0
Set the vendor option 03 with an IP address as a string.
dhcpcd -v 03,\"192.168.0.2\" eth0
Set un-encapsulated vendor option to hello world.
dhcpcd -v ,"hello world" eth0
Display both program version and copyright information. dhcpcd
then exits before doing any configuration.
-w Wait for an address to be assigned before forking to the back-
ground. Does not take an argument, unlike the below option.
--waitip=[4 | 6]
Wait for an address to be assigned before forking to the back-
ground. 4 means wait for an IPv4 address to be assigned. 6
means wait for an IPv6 address to be assigned. If no argument is
given, dhcpcd will wait for any address protocol to be assigned.
It is possible to wait for more than one address protocol and
dhcpcd will only fork to the background when all waiting condi-
tions are satisfied.
-x, --exit [interface]
This will signal an existing dhcpcd process running on the
interface to exit. If no interface is specified, then the above
is applied to all interfaces in Master mode. See the -p,
--persistent option to control configuration persistence on exit,
which is enabled by default in dhcpcd.conf(5). dhcpcd then waits
until this process has exited.
-y, --reboot seconds
Allow reboot seconds before moving to the discover phase if we
have an old lease to use. Allow reboot seconds before starting
fallback states from the discover phase. IPv4LL is started when
the first reboot timeout is reached. The default is 5 seconds.
A setting of 0 seconds causes dhcpcd to skip the reboot phase and
go straight into discover. This has no effect on DHCPv6 other
than skipping the reboot phase.
dhcpcd will try to do as much as it can by default. However, there are
sometimes situations where you don't want the things to be configured
exactly how the DHCP server wants. Here are some options that deal with
turning these bits off.
Note that when dhcpcd is restricted to a single interface then the inter-
face also needs to be specified when asking dhcpcd to exit using the com-
mandline. If the protocol is restricted as well then the protocol needs
to be included with the exit instruction.
Exit after configuring an interface. Use the -w, --waitip option
to specify which protocol(s) to configure before exiting.
Configure IPv4 only.
Configure IPv6 only.
Don't request or claim the address by ARP. This also disables
Don't run in the background when we acquire a lease. This is
mainly useful for running under the control of another process,
such as a debugger or a network manager.
-C, --nohook script
Don't run this hook script. Matches full name, or prefixed with
2 numbers optionally ending with .sh.
So to stop dhcpcd from touching your DNS settings you would do:-
dhcpcd -C resolv.conf eth0
Don't set any default routes.
Use the last four bytes of the hardware address as the DHCP xid
instead of a randomly generated number.
Instructs the DHCP server to broadcast replies back to the
client. Normally this is only set for non-Ethernet interfaces,
such as FireWire and InfiniBand. In most instances, dhcpcd will
set this automatically.
Don't receive link messages for carrier status. You should only
have to use this with buggy device drivers or running dhcpcd
through a network manager.
Don't use IPv4LL (aka APIPA, aka Bonjour, aka ZeroConf).
-O, --nooption option
Removes the option from the DHCP message before processing.
Print the pidfile dhcpcd will use based on commmand-line argu-
ments to stdout.
-Q, --require option
Requires the option to be present in all DHCP messages, otherwise
the message is ignored. To enforce that dhcpcd only responds to
DHCP servers and not BOOTP servers, you can -Q dhcp_message_type.
Quiet dhcpcd on the command line, only warnings and errors will
be displayed. The messages are still logged though.
On receipt of DHCP messages just call /libexec/dhcpcd-run-hooks
with the reason of TEST which echos the DHCP variables found in
the message to the console. The interface configuration isn't
touched and neither are any configuration files. The
rapid_commit option is not sent in TEST mode so that the server
does not lease an address. To test INFORM the interface needs to
be configured with the desired address before starting dhcpcd.
-U, --dumplease interface
Dumps the last lease for the interface to stdout. If omitted,
standard input is used to read a DHCP wire formatted message.
Use the -4 or -6 flags to specify an address family.
Display a list of option codes, the associated variable and
encoding for use in dhcpcd-run-hooks(8). Variables are prefixed
with new_ and old_ unless the option number is -. Variables
without an option are part of the DHCP message and cannot be
-W, --whitelist address[/cidr]
Only accept packets from address[/cidr]. -X, --blacklist is
ignored if -W, --whitelist is set.
-X, --blacklist address[/cidr]
Ignore all packets from address[/cidr].
-Z, --denyinterfaces pattern
When discovering interfaces, the interface name must not match
pattern which is a space or comma separated list of patterns
passed to fnmatch(3).
-z, --allowinterfaces pattern
When discovering interfaces, the interface name must match
pattern which is a space or comma separated list of patterns
passed to fnmatch(3). If the same interface is matched in -Z,
--denyinterfaces then it is still denied.
Don't start any interfaces other than those specified on the com-
mand line. This allows dhcpcd to be started in Master mode and
then wait for subsequent dhcpcd commands to start each interface
Don't load any /dev management modules.
3RDPARTY LINK MANAGEMENT
Some interfaces require configuration by 3rd parties, such as PPP or VPN.
When an interface configuration in dhcpcd is marked as STATIC or INFORM
without an address then dhcpcd will monitor the interface until an
address is added or removed from it and act accordingly. For point to
point interfaces (like PPP), a default route to its destination is auto-
matically added to the configuration. If the point to point interface is
configured for INFORM, then dhcpcd unicasts INFORM to the destination,
otherwise it defaults to STATIC.
dhcpcd requires a Berkley Packet Filter, or BPF device on BSD based sys-
tems and a Linux Socket Filter, or LPF device on Linux based systems for
all IPv4 configuration.
If restricting dhcpcd to a single interface and optionally address family
via the command-line then all further calls to dhcpcd to rebind, recon-
figure or exit need to include the same restrictive flags so that dhcpcd
knows which process to signal.
Some DHCP servers implement ClientID filtering. If dhcpcd is replacing
an in-use DHCP client then you might need to adjust the clientid option
dhcpcd sends to match. If using a DUID in place of the ClientID, edit
Configuration file for dhcpcd. If you always use the same options, put
Bourne shell script that is run to configure or de-configure an inter-
/dev management modules.
A directory containing bourne shell scripts that are run by the above
script. Each script can be disabled by using the -C, --nohook option
Text file that holds the DUID used to identify the host.
Text file that holds a secret key known only to the host.
The actual DHCP message sent by the server. We use this when reading the
last lease and use the file's mtime as when it was issued.
The actual DHCPv6 message sent by the server. We use this when reading
the last lease and use the file's mtime as when it was issued.
Stores the monotonic counter used in the replay field in Authentication
Stores the PID of dhcpcd running on all interfaces.
Stores the PID of dhcpcd running on the interface.
Control socket to the master daemon.
Unprivileged socket to the master daemon, only allows state retrieval.
Control socket to per interface daemon.
fnmatch(3), if_nametoindex(3), dhcpcd.conf(5), resolv.conf(5),
RFC 951, RFC 1534, RFC 2104, RFC 2131, RFC 2132, RFC 2563, RFC 2855,
RFC 3004, RFC 3118, RFC 3203, RFC 3315, RFC 3361, RFC 3633, RFC 3396,
RFC 3397, RFC 3442, RFC 3495, RFC 3925, RFC 3927, RFC 4039, RFC 4075,
RFC 4242, RFC 4361, RFC 4390, RFC 4702, RFC 4074, RFC 4861, RFC 4833,
RFC 4941, RFC 5227, RFC 5942, RFC 5969, RFC 6106, RFC 6334, RFC 6355,
RFC 6603, RFC 6704, RFC 7217, RFC 7550.
Roy Marples <email@example.com>
Please report them to
NetBSD 8.1 January 2, 2019 NetBSD 8.1