Zones that are under dynamic control via nsupdate or a DHCP server should not be edited by hand. Manual edits could conflict with dynamic updates and cause data to be lost.
The resource records that are dynamically added or removed with nsupdate have to be in the same zone. Requests are sent to the zone's master server. This is identified by the MNAME field of the zone's SOA record.
The -d option makes nsupdate operate in debug mode. This provides tracing information about the update requests that are made and the replies received from the name server.
Transaction signatures can be used to authenticate the Dynamic DNS updates. These use the TSIG resource record type described in RFC2845. The signatures rely on a shared secret that should only be known to nsupdate and the name server. Currently, the only supported encryption algorithm for TSIG is HMAC-MD5, which is defined in RFC 2104. Once other algorithms are defined for TSIG, applications will need to ensure they select the appropriate algorithm as well as the key when authenticating each other. For instance suitable key and server statements would be added to /etc/named.conf so that the name server can associate the appropriate secret key and algorithm with the IP address of the client application that will be using TSIG authentication. nsupdate does not read /etc/named.conf .
nsupdate uses the -y or -k option to provide the shared secret needed to generate a TSIG record for authenticating Dynamic DNS update requests. These options are mutually exclusive. With the -k option, nsupdate reads the shared secret from the file keyfile , whose name is of the form K{name}.+157.+{random}.private . For historical reasons, the file K{name}.+157.+{random}.key must also be present. When the -y option is used, a signature is generated from keyname:secret. keyname is the name of the key, and secret is the base64 encoded shared secret. Use of the -y option is discouraged because the shared secret is supplied as a command line argument in clear text. This may be visible in the output from ps(1) or in a history file maintained by the user's shell.
By default nsupdate uses UDP to send update requests to the name server. The -v option makes nsupdate use a TCP connection. This may be preferable when a batch of update requests is made.
Every update request consists of zero or more prerequisites and zero or more updates. This allows a suitably authenticated update request to proceed if some specified resource records are present or missing from the zone. A blank input line causes the accumulated commands to be sent as one Dynamic DNS update request to the name server.
The command formats and their meaning are as follows:
Sends all dynamic update requests to the name server servername. When no server statement is provided, nsupdate will send updates to the master server of the correct zone. The MNAME field of that zone's SOA record will identify the master server for that zone port is the port number on servername where the dynamic update requests get sent. If no port number is specified, the default DNS port number of 53 is used.
Sends all dynamic update requests using the local address. When no local statement is provided, nsupdate will send updates using an address and port choosen by the system. port can additionally be used to make requests come from a specific port. If no port number is specified, the system will assign one.
Specifies that all updates are to be made to the zone zonename. If no zone statement is provided, nsupdate will attempt determine the correct zone to update based on the rest of the input.
Requires that no resource record of any type exists with name domain-name.
Requires that domain-name exists (has as at least one resource record, of any type).
Requires that no resource record exists of the specified type, class, and domain-name. If class is omitted, IN (internet) is assumed.
This requires that a resource record of the specified type, class and domain-name must exist. If class is omitted, IN (internet) is assumed.
The data from each set of prerequisites of this form sharing a common type, class, and domain-name are combined to form a set of RRs. This set of RRs must exactly match the set of RRs existing in the zone at the given type, class, and domain-name. The data are written in the standard text representation of the resource record's RDATA.
Deletes any resource records named domain-name. If type and data is provided, only matching resource records will be removed. The internet class is assumed if class is not supplied.
Adds a new resource record with the specified ttl, class and data .
# nsupdate > update delete oldhost.example.com A > update add newhost.example.com 86400 A 172.16.1.1 >
Any A records for oldhost.example.com are deleted. and an A record for newhost.example.com it IP address 172.16.1.1 is added. The newly-added record has a 1 day TTL (86400 seconds)
# nsupdate > prereq nxdomain nickname.example.com > update add nickname.example.com CNAME somehost.example.com >
The prerequisite condition gets the name server to check that there are no resource records of any type for nickname.example.com . If there are, the update request fails. If this name does not exist, a CNAME for it is added. This ensures that when the CNAME is added, it cannot conflict with the long-standing rule in RFC1034 that a name must not exist as any other record type if it exists as a CNAME. (The rule has been updated for DNSSEC in RFC2535 to allow CNAMEs to have SIG, KEY and NXT records.)