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.TH "DNSSEC-KEYGEN" "8" "@RELEASE_DATE@" "@BIND9_VERSION@" "BIND 9"
.SH NAME
dnssec-keygen \- DNSSEC key generation tool
.SH SYNOPSIS
.sp
\fBdnssec\-keygen\fP [\fB\-3\fP] [\fB\-A\fP date/offset] [\fB\-a\fP algorithm] [\fB\-b\fP keysize] [\fB\-C\fP] [\fB\-c\fP class] [\fB\-D\fP date/offset] [\fB\-d\fP bits] [\fB\-D\fP sync date/offset] [\fB\-E\fP engine] [\fB\-f\fP flag] [\fB\-G\fP] [\fB\-g\fP generator] [\fB\-h\fP] [\fB\-I\fP date/offset] [\fB\-i\fP interval] [\fB\-K\fP directory] [\fB\-k\fP policy] [\fB\-L\fP ttl] [\fB\-l\fP file] [\fB\-n\fP nametype] [\fB\-P\fP date/offset] [\fB\-P\fP sync date/offset] [\fB\-p\fP protocol] [\fB\-q\fP] [\fB\-R\fP date/offset] [\fB\-S\fP key] [\fB\-s\fP strength] [\fB\-T\fP rrtype] [\fB\-t\fP type] [\fB\-V\fP] [\fB\-v\fP level] {name}
.SH DESCRIPTION
.sp
\fBdnssec\-keygen\fP generates keys for DNSSEC (Secure DNS), as defined in
\fI\%RFC 2535\fP and \fI\%RFC 4034\fP\&. It can also generate keys for use with TSIG
(Transaction Signatures) as defined in \fI\%RFC 2845\fP, or TKEY (Transaction
Key) as defined in \fI\%RFC 2930\fP\&.
.sp
The \fBname\fP of the key is specified on the command line. For DNSSEC
keys, this must match the name of the zone for which the key is being
generated.
.sp
The \fBdnssec\-keymgr\fP command acts as a wrapper
around \fBdnssec\-keygen\fP, generating and updating keys
as needed to enforce defined security policies such as key rollover
scheduling. Using \fBdnssec\-keymgr\fP may be preferable
to direct use of \fBdnssec\-keygen\fP\&.
.SH OPTIONS
.INDENT 0.0
.TP
.B \fB\-3\fP
This option uses an NSEC3\-capable algorithm to generate a DNSSEC key. If this
option is used with an algorithm that has both NSEC and NSEC3
versions, then the NSEC3 version is selected; for example,
\fBdnssec\-keygen \-3 \-a RSASHA1\fP specifies the NSEC3RSASHA1 algorithm.
.TP
.B \fB\-a algorithm\fP
This option selects the cryptographic algorithm. For DNSSEC keys, the value of
\fBalgorithm\fP must be one of RSASHA1, NSEC3RSASHA1, RSASHA256,
RSASHA512, ECDSAP256SHA256, ECDSAP384SHA384, ED25519, or ED448. For
TKEY, the value must be DH (Diffie\-Hellman); specifying this value
automatically sets the \fB\-T KEY\fP option as well.
.sp
These values are case\-insensitive. In some cases, abbreviations are
supported, such as ECDSA256 for ECDSAP256SHA256 and ECDSA384 for
ECDSAP384SHA384. If RSASHA1 is specified along with the \fB\-3\fP
option, NSEC3RSASHA1 is used instead.
.sp
This parameter \fImust\fP be specified except when using the \fB\-S\fP
option, which copies the algorithm from the predecessor key.
.sp
In prior releases, HMAC algorithms could be generated for use as TSIG
keys, but that feature was removed in BIND 9.13.0. Use
\fBtsig\-keygen\fP to generate TSIG keys.
.TP
.B \fB\-b keysize\fP
This option specifies the number of bits in the key. The choice of key size
depends on the algorithm used: RSA keys must be between 1024 and 4096
bits; Diffie\-Hellman keys must be between 128 and 4096 bits. Elliptic
curve algorithms do not need this parameter.
.sp
If the key size is not specified, some algorithms have pre\-defined
defaults. For example, RSA keys for use as DNSSEC zone\-signing keys
have a default size of 1024 bits; RSA keys for use as key\-signing
keys (KSKs, generated with \fB\-f KSK\fP) default to 2048 bits.
.TP
.B \fB\-C\fP
This option enables compatibility mode, which generates an old\-style key, without any timing
metadata. By default, \fBdnssec\-keygen\fP includes the key\(aqs
creation date in the metadata stored with the private key; other
dates may be set there as well, including publication date, activation date,
etc. Keys that include this data may be incompatible with older
versions of BIND; the \fB\-C\fP option suppresses them.
.TP
.B \fB\-c class\fP
This option indicates that the DNS record containing the key should have the
specified class. If not specified, class IN is used.
.TP
.B \fB\-d bits\fP
This option specifies the key size in bits. For the algorithms RSASHA1, NSEC3RSASA1, RSASHA256, and
RSASHA512 the key size must be between 1024 and 4096 bits; DH size is between 128
and 4096 bits. This option is ignored for algorithms ECDSAP256SHA256,
ECDSAP384SHA384, ED25519, and ED448.
.TP
.B \fB\-E engine\fP
This option specifies the cryptographic hardware to use, when applicable.
.sp
When BIND 9 is built with OpenSSL, this needs to be set to the OpenSSL
engine identifier that drives the cryptographic accelerator or
hardware service module (usually \fBpkcs11\fP). When BIND is
built with native PKCS#11 cryptography (\fB\-\-enable\-native\-pkcs11\fP), it
defaults to the path of the PKCS#11 provider library specified via
\fB\-\-with\-pkcs11\fP\&.
.TP
.B \fB\-f flag\fP
This option sets the specified flag in the flag field of the KEY/DNSKEY record.
The only recognized flags are KSK (Key\-Signing Key) and REVOKE.
.TP
.B \fB\-G\fP
This option generates a key, but does not publish it or sign with it. This option is
incompatible with \fB\-P\fP and \fB\-A\fP\&.
.TP
.B \fB\-g generator\fP
This option indicates the generator to use if generating a Diffie\-Hellman key. Allowed
values are 2 and 5. If no generator is specified, a known prime from
\fI\%RFC 2539\fP is used if possible; otherwise the default is 2.
.TP
.B \fB\-h\fP
This option prints a short summary of the options and arguments to
\fBdnssec\-keygen\fP\&.
.TP
.B \fB\-K directory\fP
This option sets the directory in which the key files are to be written.
.TP
.B \fB\-k policy\fP
This option creates keys for a specific \fBdnssec\-policy\fP\&. If a policy uses multiple keys,
\fBdnssec\-keygen\fP generates multiple keys. This also
creates a \(dq.state\(dq file to keep track of the key state.
.sp
This option creates keys according to the \fBdnssec\-policy\fP configuration, hence
it cannot be used at the same time as many of the other options that
\fBdnssec\-keygen\fP provides.
.TP
.B \fB\-L ttl\fP
This option sets the default TTL to use for this key when it is converted into a
DNSKEY RR. This is the TTL used when the key is imported into a zone,
unless there was already a DNSKEY RRset in
place, in which case the existing TTL takes precedence. If this
value is not set and there is no existing DNSKEY RRset, the TTL
defaults to the SOA TTL. Setting the default TTL to \fB0\fP or \fBnone\fP
is the same as leaving it unset.
.TP
.B \fB\-l file\fP
This option provides a configuration file that contains a \fBdnssec\-policy\fP statement
(matching the policy set with \fB\-k\fP).
.TP
.B \fB\-n nametype\fP
This option specifies the owner type of the key. The value of \fBnametype\fP must
either be ZONE (for a DNSSEC zone key (KEY/DNSKEY)), HOST or ENTITY
(for a key associated with a host (KEY)), USER (for a key associated
with a user (KEY)), or OTHER (DNSKEY). These values are
case\-insensitive. The default is ZONE for DNSKEY generation.
.TP
.B \fB\-p protocol\fP
This option sets the protocol value for the generated key, for use with
\fB\-T KEY\fP\&. The protocol is a number between 0 and 255. The default
is 3 (DNSSEC). Other possible values for this argument are listed in
\fI\%RFC 2535\fP and its successors.
.TP
.B \fB\-q\fP
This option sets quiet mode, which suppresses unnecessary output, including progress
indication. Without this option, when \fBdnssec\-keygen\fP is run
interactively to generate an RSA or DSA key pair, it prints a
string of symbols to \fBstderr\fP indicating the progress of the key
generation. A \fB\&.\fP indicates that a random number has been found which
passed an initial sieve test; \fB+\fP means a number has passed a single
round of the Miller\-Rabin primality test; and a space ( ) means that the
number has passed all the tests and is a satisfactory key.
.TP
.B \fB\-S key\fP
This option creates a new key which is an explicit successor to an existing key.
The name, algorithm, size, and type of the key are set to match
the existing key. The activation date of the new key is set to
the inactivation date of the existing one. The publication date is
set to the activation date minus the prepublication interval,
which defaults to 30 days.
.TP
.B \fB\-s strength\fP
This option specifies the strength value of the key. The strength is a number
between 0 and 15, and currently has no defined purpose in DNSSEC.
.TP
.B \fB\-T rrtype\fP
This option specifies the resource record type to use for the key. \fBrrtype\fP
must be either DNSKEY or KEY. The default is DNSKEY when using a
DNSSEC algorithm, but it can be overridden to KEY for use with
SIG(0).
.TP
.B \fB\-t type\fP
This option indicates the type of the key for use with \fB\-T KEY\fP\&. \fBtype\fP
must be one of AUTHCONF, NOAUTHCONF, NOAUTH, or NOCONF. The default
is AUTHCONF. AUTH refers to the ability to authenticate data, and
CONF to the ability to encrypt data.
.TP
.B \fB\-V\fP
This option prints version information.
.TP
.B \fB\-v level\fP
This option sets the debugging level.
.UNINDENT
.SH TIMING OPTIONS
.sp
Dates can be expressed in the format YYYYMMDD or YYYYMMDDHHMMSS. If the
argument begins with a \fB+\fP or \fB\-\fP, it is interpreted as an offset from
the present time. For convenience, if such an offset is followed by one
of the suffixes \fBy\fP, \fBmo\fP, \fBw\fP, \fBd\fP, \fBh\fP, or \fBmi\fP, then the offset is
computed in years (defined as 365 24\-hour days, ignoring leap years),
months (defined as 30 24\-hour days), weeks, days, hours, or minutes,
respectively. Without a suffix, the offset is computed in seconds. To
explicitly prevent a date from being set, use \fBnone\fP or \fBnever\fP\&.
.INDENT 0.0
.TP
.B \fB\-P date/offset\fP
This option sets the date on which a key is to be published to the zone. After
that date, the key is included in the zone but is not used
to sign it. If not set, and if the \fB\-G\fP option has not been used, the
default is the current date.
.TP
.B \fB\-P sync date/offset\fP
This option sets the date on which CDS and CDNSKEY records that match this key
are to be published to the zone.
.TP
.B \fB\-A date/offset\fP
This option sets the date on which the key is to be activated. After that date,
the key is included in the zone and used to sign it. If not set,
and if the \fB\-G\fP option has not been used, the default is the current date. If set,
and \fB\-P\fP is not set, the publication date is set to the
activation date minus the prepublication interval.
.TP
.B \fB\-R date/offset\fP
This option sets the date on which the key is to be revoked. After that date, the
key is flagged as revoked. It is included in the zone and
is used to sign it.
.TP
.B \fB\-I date/offset\fP
This option sets the date on which the key is to be retired. After that date, the
key is still included in the zone, but it is not used to
sign it.
.TP
.B \fB\-D date/offset\fP
This option sets the date on which the key is to be deleted. After that date, the
key is no longer included in the zone. (However, it may remain in the key
repository.)
.TP
.B \fB\-D sync date/offset\fP
This option sets the date on which the CDS and CDNSKEY records that match this
key are to be deleted.
.TP
.B \fB\-i interval\fP
This option sets the prepublication interval for a key. If set, then the
publication and activation dates must be separated by at least this
much time. If the activation date is specified but the publication
date is not, the publication date defaults to this much time
before the activation date; conversely, if the publication date is
specified but not the activation date, activation is set to
this much time after publication.
.sp
If the key is being created as an explicit successor to another key,
then the default prepublication interval is 30 days; otherwise it is
zero.
.sp
As with date offsets, if the argument is followed by one of the
suffixes \fBy\fP, \fBmo\fP, \fBw\fP, \fBd\fP, \fBh\fP, or \fBmi\fP, the interval is
measured in years, months, weeks, days, hours, or minutes,
respectively. Without a suffix, the interval is measured in seconds.
.UNINDENT
.SH GENERATED KEYS
.sp
When \fBdnssec\-keygen\fP completes successfully, it prints a string of the
form \fBKnnnn.+aaa+iiiii\fP to the standard output. This is an
identification string for the key it has generated.
.INDENT 0.0
.IP \(bu 2
\fBnnnn\fP is the key name.
.IP \(bu 2
\fBaaa\fP is the numeric representation of the algorithm.
.IP \(bu 2
\fBiiiii\fP is the key identifier (or footprint).
.UNINDENT
.sp
\fBdnssec\-keygen\fP creates two files, with names based on the printed
string. \fBKnnnn.+aaa+iiiii.key\fP contains the public key, and
\fBKnnnn.+aaa+iiiii.private\fP contains the private key.
.sp
The \fB\&.key\fP file contains a DNSKEY or KEY record. When a zone is being
signed by \fBnamed\fP or \fBdnssec\-signzone \-S\fP, DNSKEY records are
included automatically. In other cases, the \fB\&.key\fP file can be
inserted into a zone file manually or with an \fB$INCLUDE\fP statement.
.sp
The \fB\&.private\fP file contains algorithm\-specific fields. For obvious
security reasons, this file does not have general read permission.
.SH EXAMPLE
.sp
To generate an ECDSAP256SHA256 zone\-signing key for the zone
\fBexample.com\fP, issue the command:
.sp
\fBdnssec\-keygen \-a ECDSAP256SHA256 example.com\fP
.sp
The command prints a string of the form:
.sp
\fBKexample.com.+013+26160\fP
.sp
In this example, \fBdnssec\-keygen\fP creates the files
\fBKexample.com.+013+26160.key\fP and \fBKexample.com.+013+26160.private\fP\&.
.sp
To generate a matching key\-signing key, issue the command:
.sp
\fBdnssec\-keygen \-a ECDSAP256SHA256 \-f KSK example.com\fP
.SH SEE ALSO
.sp
\fBdnssec\-signzone(8)\fP, BIND 9 Administrator Reference Manual, \fI\%RFC 2539\fP,
\fI\%RFC 2845\fP, \fI\%RFC 4034\fP\&.
.SH AUTHOR
Internet Systems Consortium
.SH COPYRIGHT
2023, Internet Systems Consortium
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