dnssec-cds — change DS records for a child zone based on CDS/CDNSKEY
dnssec-cds
[-a
...]
[alg
-c
]
[class
-D
]
{-d
}
{dsset-file
-f
}
[child-file
-i
[extension
]]
[-s
]
[start-time
-T
]
[ttl
-u
]
[-v
]
[level
-V
]
{domain}
The dnssec-cds command changes DS records at a delegation point based on CDS or CDNSKEY records published in the child zone. If both CDS and CDNSKEY records are present in the child zone, the CDS is preferred. This enables a child zone to inform its parent of upcoming changes to its key-signing keys; by polling periodically with dnssec-cds, the parent can keep the DS records up to date and enable automatic rolling of KSKs.
Two input files are required. The
-f
option specifies a file containing the child's CDS and/or CDNSKEY
records, plus RRSIG and DNSKEY records so that they can be
authenticated. The
child-file
-d
option specifies the location of a file containing the current DS
records. For example, this could be a path
dsset-
file generated by dnssec-signzone, or the output of
dnssec-dsfromkey, or the output of a previous
run of dnssec-cds.
The dnssec-cds command uses special DNSSEC validation logic specified by RFC 7344. It requires that the CDS and/or CDNSKEY records are validly signed by a key represented in the existing DS records. This will typicially be the pre-existing key-signing key (KSK).
For protection against replay attacks, the signatures on the
child records must not be older than they were on a previous run
of dnssec-cds. This time is obtained from the
modification time of the dsset-
file, or
from the -s
option.
To protect against breaking the delegation, dnssec-cds ensures that the DNSKEY RRset can be verified by every key algorithm in the new DS RRset, and that the same set of keys are covered by every DS digest type.
By default, replacement DS records are written to the standard
output; with the -i
option the input file is
overwritten in place. The replacement DS records will be the
same as the existing records when no change is required. The
output can be empty if the CDS / CDNSKEY records specify that
the child zone wants to go insecure.
Warning: Be careful not to delete the DS records when dnssec-cds fails!
Alternatively, dnssec-cds -u writes
an nsupdate script to the standard output.
You can use the -u
and -i
options together to maintain a dsset-
file
as well as emit an nsupdate script.
algorithm
Specify a digest algorithm to use when converting CDNSKEY records to DS records. This option can be repeated, so that multiple DS records are created for each CDNSKEY record. This option has no effect when using CDS records.
The algorithm
must be one of SHA-1,
SHA-256, SHA-384, or GOST. These values are case insensitive,
and hyphens may be omitted. If no algorithm is specified,
the default is SHA-256.
class
Specifies the DNS class of the zones.
Generate DS records from CDNSKEY records if both CDS and CDNSKEY records are present in the child zone. By default CDS records are preferred.
path
Location of the parent DS records.
The path
can be the name of a file
containing the DS records, or if it is a
directory, dnssec-cds looks for
a dsset-
file for
the domain
inside the directory.
To protect against replay attacks, child records are
rejected if they were signed earlier than the modification
time of the dsset-
file. This can be
adjusted with the -s
option.
child-file
File containing the child's CDS and/or CDNSKEY records, plus its DNSKEY records and the covering RRSIG records so that they can be authenticated.
The EXAMPLES below describe how to generate this file.
extension
]
Update the dsset-
file in place,
instead of writing DS records to the standard output.
There must be no space between the -i
and
the extension
. If you provide
no extension
then the
old dsset-
is discarded. If
an extension
is present, a
backup of the old dsset-
file is kept
with the extension
appended to
its filename.
To protect against replay attacks, the modification time
of the dsset-
file is set to match
the signature inception time of the child records,
provided that is later than the file's current
modification time.
start-time
Specify the date and time after which RRSIG records become
acceptable. This can be either an absolute or relative
time. An absolute start time is indicated by a number in
YYYYMMDDHHMMSS notation; 20170827133700 denotes 13:37:00
UTC on August 27th, 2017. A time relative to
the dsset-
file is indicated with -N,
which is N seconds before the file modification time. A
time relative to the current time is indicated with now+N.
If no start-time
is specified, the
modification time of the dsset-
file
is used.
ttl
Specifies a TTL to be used for new DS records. If not specified, the default is the TTL of the old DS records. If they had no explicit TTL then the new DS records also have no explicit TTL.
Write an nsupdate script to the standard output, instead of printing the new DS reords. The output will be empty if no change is needed.
Note: The TTL of new records needs to be specified, either
in the original dsset-
file, or with
the -T
option, or using
the nsupdate ttl
command.
Print version information.
level
Sets the debugging level. Level 1 is intended to be usefully verbose for general users; higher levels are intended for developers.
domain
The name of the delegation point / child zone apex.
The dnssec-cds command exits 0 on success, or non-zero if an error occurred.
In the success case, the DS records might or might not need to be changed.
Before running dnssec-signzone, you can ensure
that the delegations are up-to-date by running
dnssec-cds on every dsset-
file.
To fetch the child records required by dnssec-cds you can invoke dig as in the script below. It's okay if the dig fails since dnssec-cds performs all the necessary checking.
for f in dsset-* do d=${f#dsset-} dig +dnssec +noall +answer $d DNSKEY $d CDNSKEY $d CDS | dnssec-cds -i -f /dev/stdin -d $f $d done
When the parent zone is automatically signed by
named, you can use dnssec-cds
with nsupdate to maintain a delegation as follows.
The dsset-
file allows the script to avoid
having to fetch and validate the parent DS records, and it keeps the
replay attack protection time.
dig +dnssec +noall +answer $d DNSKEY $d CDNSKEY $d CDS | dnssec-cds -u -i -f /dev/stdin -d $f $d | nsupdate -l
BIND 9.12.4