RNDC(8) BIND 9 RNDC(8)

NAME

rndc - name server control utility

SYNOPSIS

rndc [-b source-address] [-c config-file] [-k key-file] [-s server]
[-p port] [-q] [-r] [-V] [-y server_key] [[-4] | [-6]] {command}

DESCRIPTION

rndc controls the operation of a name server. If rndc is invoked with
no command line options or arguments, it prints a short summary of
the supported commands and the available options and their arguments.

rndc communicates with the name server over a TCP connection, sending
commands authenticated with digital signatures. In the current
versions of rndc and named, the only supported authentication
algorithms are HMAC-MD5 (for compatibility), HMAC-SHA1, HMAC-SHA224,
HMAC-SHA256 (default), HMAC-SHA384, and HMAC-SHA512. They use a
shared secret on each end of the connection, which provides
TSIG-style authentication for the command request and the name
server's response. All commands sent over the channel must be signed
by a server_key known to the server.

rndc reads a configuration file to determine how to contact the name
server and decide what algorithm and key it should use.

OPTIONS

-4 This option indicates use of IPv4 only.

-6 This option indicates use of IPv6 only.

-b source-address
This option indicates source-address as the source address for
the connection to the server. Multiple instances are
permitted, to allow setting of both the IPv4 and IPv6 source
addresses.

-c config-file
This option indicates config-file as the configuration file
instead of the default, /etc/rndc.conf.

-k key-file
This option indicates key-file as the key file instead of the
default, /etc/rndc.key. The key in /etc/rndc.key is used to
authenticate commands sent to the server if the config-file
does not exist.

-s server
server is the name or address of the server which matches a
server statement in the configuration file for rndc. If no
server is supplied on the command line, the host named by the
default-server clause in the options statement of the rndc
configuration file is used.

-p port
This option instructs BIND 9 to send commands to TCP port port
instead of its default control channel port, 953.

-q This option sets quiet mode, where message text returned by
the server is not printed unless there is an error.

-r This option instructs rndc to print the result code returned
by named after executing the requested command (e.g.,
ISC_R_SUCCESS, ISC_R_FAILURE, etc.).

-V This option enables verbose logging.

-y server_key
This option indicates use of the key server_key from the
configuration file. For control message validation to succeed,
server_key must be known by named with the same algorithm and
secret string. If no server_key is specified, rndc first looks
for a key clause in the server statement of the server being
used, or if no server statement is present for that host, then
in the default-key clause of the options statement. Note that
the configuration file contains shared secrets which are used
to send authenticated control commands to name servers, and
should therefore not have general read or write access.

COMMANDS

A list of commands supported by rndc can be seen by running rndc
without arguments.

Currently supported commands are:

addzone zone [class [view]] configuration
This command adds a zone while the server is running. This
command requires the allow-new-zones option to be set to yes.
The configuration string specified on the command line is the
zone configuration text that would ordinarily be placed in
named.conf.

The configuration is saved in a file called viewname.nzf (or,
if named is compiled with liblmdb, an LMDB database file
called viewname.nzd). viewname is the name of the view, unless
the view name contains characters that are incompatible with
use as a file name, in which case a cryptographic hash of the
view name is used instead. When named is restarted, the file
is loaded into the view configuration so that zones that were
added can persist after a restart.

This sample addzone command adds the zone example.com to the
default view:

rndc addzone example.com '{ type primary; file
"example.com.db"; };'

(Note the brackets around and semi-colon after the zone
configuration text.)

See also rndc delzone and rndc modzone.

delzone [-clean] zone [class [view]]
This command deletes a zone while the server is running.

If the -clean argument is specified, the zone's master file
(and journal file, if any) are deleted along with the zone.
Without the -clean option, zone files must be deleted
manually. (If the zone is of type secondary or stub, the files
needing to be removed are reported in the output of the rndc
delzone command.)

If the zone was originally added via rndc addzone, then it is
removed permanently. However, if it was originally configured
in named.conf, then that original configuration remains in
place; when the server is restarted or reconfigured, the zone
is recreated. To remove it permanently, it must also be
removed from named.conf.

See also rndc addzone and rndc modzone.

dnssec (-status | -rollover -key id [-alg algorithm] [-when time] |
-checkds [-key id [-alg algorithm]] [-when time] published |
withdrawn)) zone [class [view]]
This command allows you to interact with the "dnssec-policy"
of a given zone.

rndc dnssec -status show the DNSSEC signing state for the
specified zone.

rndc dnssec -rollover allows you to schedule key rollover for
a specific key (overriding the original key lifetime).

rndc dnssec -checkds informs named that the DS for a specified
zone's key-signing key has been confirmed to be published in,
or withdrawn from, the parent zone. This is required in order
to complete a KSK rollover. The -key id and -alg algorithm
arguments can be used to specify a particular KSK, if
necessary; if there is only one key acting as a KSK for the
zone, these arguments can be omitted. The time of publication
or withdrawal for the DS is set to the current time by
default, but can be overridden to a specific time with the
argument -when time, where time is expressed in YYYYMMDDHHMMSS
notation.

dnstap (-reopen | -roll [number])
This command closes and re-opens DNSTAP output files.

rndc dnstap -reopen allows the output file to be renamed
externally, so that named can truncate and re-open it.

rndc dnstap -roll causes the output file to be rolled
automatically, similar to log files. The most recent output
file has ".0" appended to its name; the previous most recent
output file is moved to ".1", and so on. If number is
specified, then the number of backup log files is limited to
that number.

dumpdb [-all | -cache | -zones | -adb | -bad | -expired | -fail]
[view ...]
This command dumps the server's caches (default) and/or zones
to the dump file for the specified views. If no view is
specified, all views are dumped. (See the dump-file option in
the BIND 9 Administrator Reference Manual.)

flush This command flushes the server's cache.

flushname name [view]
This command flushes the given name from the view's DNS cache
and, if applicable, from the view's nameserver address
database, bad server cache, and SERVFAIL cache.

flushtree name [view]
This command flushes the given name, and all of its
subdomains, from the view's DNS cache, address database, bad
server cache, and SERVFAIL cache.

freeze [zone [class [view]]]
This command suspends updates to a dynamic zone. If no zone is
specified, then all zones are suspended. This allows manual
edits to be made to a zone normally updated by dynamic update,
and causes changes in the journal file to be synced into the
master file. All dynamic update attempts are refused while the
zone is frozen.

See also rndc thaw.

halt [-p]
This command stops the server immediately. Recent changes made
through dynamic update or IXFR are not saved to the master
files, but are rolled forward from the journal files when the
server is restarted. If -p is specified, named's process ID is
returned. This allows an external process to determine when
named has completed halting.

See also rndc stop.

loadkeys [zone [class [view]]]
This command fetches all DNSSEC keys for the given zone from
the key directory. If they are within their publication
period, they are merged into the zone's DNSKEY RRset. Unlike
rndc sign, however, the zone is not immediately re-signed by
the new keys, but is allowed to incrementally re-sign over
time.

This command requires that the zone be configured with a
dnssec-policy, or that the auto-dnssec zone option be set to
maintain, and also requires the zone to be configured to allow
dynamic DNS. (See "Dynamic Update Policies" in the
Administrator Reference Manual for more details.)

managed-keys (status | refresh | sync | destroy) [class [view]]
This command inspects and controls the "managed-keys" database
which handles RFC 5011 DNSSEC trust anchor maintenance. If a
view is specified, these commands are applied to that view;
otherwise, they are applied to all views.

+o When run with the status keyword, this prints the current
status of the managed-keys database.

+o When run with the refresh keyword, this forces an immediate
refresh query to be sent for all the managed keys, updating
the managed-keys database if any new keys are found, without
waiting the normal refresh interval.

+o When run with the sync keyword, this forces an immediate
dump of the managed-keys database to disk (in the file
managed-keys.bind or (viewname.mkeys). This synchronizes the
database with its journal file, so that the database's
current contents can be inspected visually.

+o When run with the destroy keyword, the managed-keys database
is shut down and deleted, and all key maintenance is
terminated. This command should be used only with extreme
caution.

Existing keys that are already trusted are not deleted from
memory; DNSSEC validation can continue after this command is
used. However, key maintenance operations cease until named
is restarted or reconfigured, and all existing key
maintenance states are deleted.

Running rndc reconfig or restarting named immediately after
this command causes key maintenance to be reinitialized from
scratch, just as if the server were being started for the
first time. This is primarily intended for testing, but it
may also be used, for example, to jumpstart the acquisition
of new keys in the event of a trust anchor rollover, or as a
brute-force repair for key maintenance problems.

modzone zone [class [view]] configuration
This command modifies the configuration of a zone while the
server is running. This command requires the allow-new-zones
option to be set to yes. As with addzone, the configuration
string specified on the command line is the zone configuration
text that would ordinarily be placed in named.conf.

If the zone was originally added via rndc addzone, the
configuration changes are recorded permanently and are still
in effect after the server is restarted or reconfigured.
However, if it was originally configured in named.conf, then
that original configuration remains in place; when the server
is restarted or reconfigured, the zone reverts to its original
configuration. To make the changes permanent, it must also be
modified in named.conf.

See also rndc addzone and rndc delzone.

notify zone [class [view]]
This command resends NOTIFY messages for the zone.

notrace
This command sets the server's debugging level to 0.

See also rndc trace.

nta [(-class class | -dump | -force | -remove | -lifetime duration)]
domain [view]
This command sets a DNSSEC negative trust anchor (NTA) for
domain, with a lifetime of duration. The default lifetime is
configured in named.conf via the nta-lifetime option, and
defaults to one hour. The lifetime cannot exceed one week.

A negative trust anchor selectively disables DNSSEC validation
for zones that are known to be failing because of
misconfiguration rather than an attack. When data to be
validated is at or below an active NTA (and above any other
configured trust anchors), named aborts the DNSSEC validation
process and treats the data as insecure rather than bogus.
This continues until the NTA's lifetime has elapsed.

NTAs persist across restarts of the named server. The NTAs for
a view are saved in a file called name.nta, where name is the
name of the view; if it contains characters that are
incompatible with use as a file name, a cryptographic hash is
generated from the name of the view.

An existing NTA can be removed by using the -remove option.

An NTA's lifetime can be specified with the -lifetime option.
TTL-style suffixes can be used to specify the lifetime in
seconds, minutes, or hours. If the specified NTA already
exists, its lifetime is updated to the new value. Setting
lifetime to zero is equivalent to -remove.

If -dump is used, any other arguments are ignored and a list
of existing NTAs is printed. Note that this may include NTAs
that are expired but have not yet been cleaned up.

Normally, named periodically tests to see whether data below
an NTA can now be validated (see the nta-recheck option in the
Administrator Reference Manual for details). If data can be
validated, then the NTA is regarded as no longer necessary and
is allowed to expire early. The -force parameter overrides
this behavior and forces an NTA to persist for its entire
lifetime, regardless of whether data could be validated if the
NTA were not present.

The view class can be specified with -class. The default is
class IN, which is the only class for which DNSSEC is
currently supported.

All of these options can be shortened, i.e., to -l, -r, -d,
-f, and -c.

Unrecognized options are treated as errors. To refer to a
domain or view name that begins with a hyphen, use a
double-hyphen (--) on the command line to indicate the end of
options.

querylog [(on | off)]
This command enables or disables query logging. For backward
compatibility, this command can also be used without an
argument to toggle query logging on and off.

Query logging can also be enabled by explicitly directing the
queries category to a channel in the logging section of
named.conf, or by specifying querylog yes; in the options
section of named.conf.

reconfig
This command reloads the configuration file and loads new
zones, but does not reload existing zone files even if they
have changed. This is faster than a full rndc reload when
there is a large number of zones, because it avoids the need
to examine the modification times of the zone files.

recursing
This command dumps the list of queries named is currently
recursing on, and the list of domains to which iterative
queries are currently being sent.

The first list includes all unique clients that are waiting
for recursion to complete, including the query that is
awaiting a response and the timestamp (seconds since the Unix
epoch) of when named started processing this client query.

The second list comprises of domains for which there are
active (or recently active) fetches in progress. It reports
the number of active fetches for each domain and the number of
queries that have been passed (allowed) or dropped (spilled)
as a result of the fetches-per-zone limit. (Note: these
counters are not cumulative over time; whenever the number of
active fetches for a domain drops to zero, the counter for
that domain is deleted, and the next time a fetch is sent to
that domain, it is recreated with the counters set to zero).

refresh zone [class [view]]
This command schedules zone maintenance for the given zone.

reload This command reloads the configuration file and zones.

zone [class [view]]

If a zone is specified, this command reloads only the given
zone. If no zone is specified, the reloading happens
asynchronously.

retransfer zone [class [view]]
This command retransfers the given secondary zone from the
primary server.

If the zone is configured to use inline-signing, the signed
version of the zone is discarded; after the retransfer of the
unsigned version is complete, the signed version is
regenerated with new signatures.

scan This command scans the list of available network interfaces
for changes, without performing a full rndc reconfig or
waiting for the interface-interval timer.

secroots [-] [view ...]
This command dumps the security roots (i.e., trust anchors
configured via trust-anchors, or the managed-keys or
trusted-keys statements [both deprecated], or
dnssec-validation auto) and negative trust anchors for the
specified views. If no view is specified, all views are
dumped. Security roots indicate whether they are configured as
trusted keys, managed keys, or initializing managed keys
(managed keys that have not yet been updated by a successful
key refresh query).

If the first argument is -, then the output is returned via
the rndc response channel and printed to the standard output.
Otherwise, it is written to the secroots dump file, which
defaults to named.secroots, but can be overridden via the
secroots-file option in named.conf.

See also rndc managed-keys.

serve-stale (on | off | reset | status) [class [view]]
This command enables, disables, resets, or reports the current
status of the serving of stale answers as configured in
named.conf.

If serving of stale answers is disabled by rndc-serve-stale
off, then it remains disabled even if named is reloaded or
reconfigured. rndc serve-stale reset restores the setting as
configured in named.conf.

rndc serve-stale status reports whether caching and serving of
stale answers is currently enabled or disabled. It also
reports the values of stale-answer-ttl and max-stale-ttl.

showzone zone [class [view]]
This command prints the configuration of a running zone.

See also rndc zonestatus.

sign zone [class [view]]
This command fetches all DNSSEC keys for the given zone from
the key directory (see the key-directory option in the BIND 9
Administrator Reference Manual). If they are within their
publication period, they are merged into the zone's DNSKEY
RRset. If the DNSKEY RRset is changed, then the zone is
automatically re-signed with the new key set.

This command requires that the zone be configured with a
dnssec-policy, or that the auto-dnssec zone option be set to
allow or maintain, and also requires the zone to be configured
to allow dynamic DNS. (See "Dynamic Update Policies" in the
BIND 9 Administrator Reference Manual for more details.)

See also rndc loadkeys.

signing [(-list | -clear keyid/algorithm | -clear all | -nsec3param
(parameters | none) | -serial value) zone [class [view]]
This command lists, edits, or removes the DNSSEC signing-state
records for the specified zone. The status of ongoing DNSSEC
operations, such as signing or generating NSEC3 chains, is
stored in the zone in the form of DNS resource records of type
sig-signing-type. rndc signing -list converts these records
into a human-readable form, indicating which keys are
currently signing or have finished signing the zone, and which
NSEC3 chains are being created or removed.

rndc signing -clear can remove a single key (specified in the
same format that rndc signing -list uses to display it), or
all keys. In either case, only completed keys are removed; any
record indicating that a key has not yet finished signing the
zone is retained.

rndc signing -nsec3param sets the NSEC3 parameters for a zone.
This is the only supported mechanism for using NSEC3 with
inline-signing zones. Parameters are specified in the same
format as an NSEC3PARAM resource record: hash algorithm,
flags, iterations, and salt, in that order.

Currently, the only defined value for hash algorithm is 1,
representing SHA-1. The flags may be set to 0 or 1, depending
on whether the opt-out bit in the NSEC3 chain should be set.
iterations defines the number of additional times to apply the
algorithm when generating an NSEC3 hash. The salt is a string
of data expressed in hexadecimal, a hyphen (-) if no salt is
to be used, or the keyword auto, which causes named to
generate a random 64-bit salt.

The only recommended configuration is rndc signing -nsec3param
1 0 0 - zone, i.e. no salt, no additional iterations, no
opt-out.

WARNING:
Do not use extra iterations, salt, or opt-out unless all
their implications are fully understood. A higher number of
iterations causes interoperability problems and opens
servers to CPU-exhausting DoS attacks.

rndc signing -nsec3param none removes an existing NSEC3 chain
and replaces it with NSEC.

rndc signing -serial value sets the serial number of the zone
to value. If the value would cause the serial number to go
backwards, it is rejected. The primary use of this parameter
is to set the serial number on inline signed zones.

stats This command writes server statistics to the statistics file.
(See the statistics-file option in the BIND 9 Administrator
Reference Manual.)

status This command displays the status of the server. Note that the
number of zones includes the internal bind/CH zone and the
default ./IN hint zone, if there is no explicit root zone
configured.

stop -p
This command stops the server, making sure any recent changes
made through dynamic update or IXFR are first saved to the
master files of the updated zones. If -p is specified, named's
process ID is returned. This allows an external process to
determine when named has completed stopping.

See also rndc halt.

sync -clean [zone [class [view]]]
This command syncs changes in the journal file for a dynamic
zone to the master file. If the "-clean" option is specified,
the journal file is also removed. If no zone is specified,
then all zones are synced.

tcp-timeouts [initial idle keepalive advertised]
When called without arguments, this command displays the
current values of the tcp-initial-timeout, tcp-idle-timeout,
tcp-keepalive-timeout, and tcp-advertised-timeout options.
When called with arguments, these values are updated. This
allows an administrator to make rapid adjustments when under a
denial-of-service (DoS) attack. See the descriptions of these
options in the BIND 9 Administrator Reference Manual for
details of their use.

thaw [zone [class [view]]]
This command enables updates to a frozen dynamic zone. If no
zone is specified, then all frozen zones are enabled. This
causes the server to reload the zone from disk, and re-enables
dynamic updates after the load has completed. After a zone is
thawed, dynamic updates are no longer refused. If the zone has
changed and the ixfr-from-differences option is in use, the
journal file is updated to reflect changes in the zone.
Otherwise, if the zone has changed, any existing journal file
is removed. If no zone is specified, the reloading happens
asynchronously.

See also rndc freeze.

trace [level]
If no level is specified, this command increments the server's
debugging level by one.

level If specified, this command sets the server's debugging
level to the provided value.

See also rndc notrace.

tsig-delete keyname [view]
This command deletes a given TKEY-negotiated key from the
server. This does not apply to statically configured TSIG
keys.

tsig-list
This command lists the names of all TSIG keys currently
configured for use by named in each view. The list includes
both statically configured keys and dynamic TKEY-negotiated
keys.

validation (on | off | status) [view ...]
This command enables, disables, or checks the current status
of DNSSEC validation. By default, validation is enabled.

The cache is flushed when validation is turned on or off to
avoid using data that might differ between states.

zonestatus zone [class [view]]
This command displays the current status of the given zone,
including the master file name and any include files from
which it was loaded, when it was most recently loaded, the
current serial number, the number of nodes, whether the zone
supports dynamic updates, whether the zone is DNSSEC signed,
whether it uses automatic DNSSEC key management or inline
signing, and the scheduled refresh or expiry times for the
zone.

See also rndc showzone.

rndc commands that specify zone names, such as reload retransfer, or
zonestatus, can be ambiguous when applied to zones of type redirect.
Redirect zones are always called ., and can be confused with zones of
type hint or with secondary copies of the root zone. To specify a
redirect zone, use the special zone name -redirect, without a
trailing period. (With a trailing period, this would specify a zone
called "-redirect".)

LIMITATIONS

There is currently no way to provide the shared secret for a
server_key without using the configuration file.

Several error messages could be clearer.

SEE ALSO

rndc.conf(5), rndc-confgen(8), named(8), named.conf(5), BIND 9
Administrator Reference Manual.

AUTHOR

Internet Systems Consortium

COPYRIGHT

2025, Internet Systems Consortium

9.18.34 2025-02-11 RNDC(8)