named.conf(4)

Matches all hosts.

Matches no hosts.

Matches the IPv4 addresses of all network interfaces on the system.

Matches any host on an IPv4 network for which the system has an interface.

A domain name uniquely identifying the key. Also known as the key name. It can be used in a server statement to sign requests with this key or in address match lists to verify that incoming requests have been signed with a key matching this name, algorithm, and secret.

A string that specifies a security/authentication algorithm. hmac-md5 is the only algorithm which is currently supported with TSIG authentication.

A base-64-encoded secret string to be used by the algorithm.

Defines the logging options for categories where no specific configuration has been defined.

The catch-all. All unclassified categories belong to this category.

Processing of client requests

Configuration file parsing and processing.

Messages relating to the databases used internally by the name server to store zone and cache data.

Logs queries that have have been forced to NXDOMAIN as the result of a delegation-only zone or a delegation-only in a hint or stub zone declaration.

Dispatching of incoming packets to the server modules where they are to be processed.

DNSSEC and TSIG protocol processing.

Lame servers are misconfigurations in remote servers, discovered by BIND 9 when trying to query those servers during resolution.

Network operations.

The NOTIFY protocol.

Enable query logging.

DNS resolution, such as recursive lookups performed on behalf of clients by a caching name server.

Approval and denial of requests.

Messages that named was unable to determine the class of or for which there was no matching view. A one-line summary is also logged to the client category. This category is best sent to a file or stderr; by default, it is sent to the null channel.

Dynamic updates

Approval and denial of update requests.

Zone transfers the server is receiving.

Zone transfers the server is sending.

The name of the masters statement.

The acl_name of an acl statement that specifies a list of masters.

The working directory of the server. Any nonabsolute path names in the configuration file will be taken as relative to this directory. The default location for most server output files (for example, named.run) is this directory. If a directory is not specified, the working directory defaults to the directory from which the server was started (.). The directory specified should be an absolute path.

Disable the specified DNSSEC algorithms at and below the specified name. Multiple disable-algorithms statements are allowed. Only the most specific is applied.

When set, dnssec-lookaside provides the validator with an alternate method to validate DNSKEY records at the top of a zone. When a DNSKEY is at or below a domain specified by the deepest dnssec-lookaside, and the normal DNSSEC validation has left the key untrusted, the trust-anchor will be appended to the key name and a DLV record will be looked up to see if it can validate the key. If the DLV record validates a DNSKEY (similar to the way a DS record does it), the DNSKEY RRset is deemed to be trusted.

Specify hierarchies which must be or may not be secure (signed and validated). If yes, named will only accept answers if they are secure. If no, normal DNSSEC validation applies and insecure answers are accepted. The specified domain must be under a trusted key, or dnssec-lookaside must be active.

The path name of the file to which the server dumps the database with rndc dumpdb. The default is named_dump.db.

The directory where the public and private key files should be found, if it is not the working directory. The specified directory must be an absolute path.

The path name of the file to which the server writes the memory usage statistics. The default is named.memstats.

The path name of the file in which the server writes its process ID. The default path name is /var/run/named.pid. The pid-file is used by programs that need to send signals to the running name server.

Specifying pid-file none ; disables the use of a PID file; no file is written and any existing file is removed. Note that none is a keyword, not a file name, and therefore is not enclosed in quotation marks.

The UDP/TCP port number the server uses for receiving and sending DNS protocol traffic. The default is 53. This option is mainly intended for server testing; a server using a port other than 53 will not be able to communicate with the global DNS.

If specified, the listed type (A or AAAA) will be emitted before other glue in the additional section of a query response. The default is not to prefer any type (NONE). ("Glue" is a record that is created as part of a delegation.)

The source of entropy (random data) to be used by the server. Entropy is primarily needed for DNSSEC operations, This option specifies the device (or file) from which to read entropy. If this is a file, operations requiring entropy will fail when the file has been exhausted. The default value is /dev/random (or the equivalent) when present, and none otherwise. The random-device option takes effect during the initial configuration load at server startup time and is ignored on subsequent reloads.

Turn on enforcement of delegation-only in top level domains (TLD) and root zones, with an optional exclude list.

Note: Some TLDs are not delegation-only (for example, DE, LV, US and MUSEUM).

The path name of the file in which the server appends statistics using rndc stats. The default is named.stats in the server's current directory. The file format is described in The Statistics File section.

The Diffie-Hellman key used by the server to generate shared keys with clients using the Diffie-Hellman mode of TKEY. The server must be able to load the public and private keys from files in the working directory. In most cases, the key_name should be the server's host name. The key_tag is an integer that is part of the key.

The domain appended to the names of all shared keys generated with TKEY. When a client requests a TKEY exchange, it can specify a preferred name for the key. If the name is present, the name of the shared key will be client_specified_part+tkey_domain. Otherwise, the name of the shared key will be random_hex_digits+tkey-domain. In most cases, the domain name should be the server's domain name.

These options control the behavior of an authoritative server when answering queries which have additional data, or when following CNAME and DNAME chains.

When both of these options are set to yes (the default) and a query is being answered from authoritative data (a zone configured into the server), the additional data section of the reply will be filled in using data from other authoritative zones and from the cache. In some situations this is undesirable, such as when there is concern over the correctness of the cache, or in servers where slave zones may be added and modified by untrusted third parties. Also, avoiding the search for this additional data will speed up server operations at the possible expense of additional queries to resolve what would otherwise be provided in the additional section.

For example, if a query asks for an MX record for host foo.example.com, and the record found is MX 10 mail.example.net, normally the address records (A, A6, and AAAA) for mail.example.net will be provided as well, if known. Set these options to no to disable this behavior.

These options are intended for use in authoritative-only servers, or in authoritative-only views. Attempts to set them to no without also specifying recursion no will cause the server to ignore the options and log a warning message.

Specifying additional-from-cache no actually disables the use of the cache not only for additional data lookups but also when looking up the answer. This is usually the desired behavior in an authoritative-only server where the correctness of the cached data is an issue.

When a name server is nonrecursively queried for a name that is not below the apex of any served zone, it normally answers with an "upwards referral" to the root servers or the servers of some other known parent of the query name. Since the data in an upwards referral comes from the cache, the server will not be able to provide upwards referrals when additional-from-cache no has been specified. Instead, it will respond to such queries with REFUSED. This should not cause any problems since upwards referrals are not required for the resolution process.

If yes, then the AA bit is always set on NXDOMAIN responses, even if the server is not actually authoritative. The default is no. If you are using an old version of BIND, you might need to set this option to yes.

Restrict the character set and syntax of certain domain names in master files and/or DNS responses received from the network. The default varies according to usage area. For master zones, the default is fail. For slave zones, the default is warn. For answers received from the network (response), the default is ignore.

The rules for legal host names and mail domains are derived from RFC 952 and RFC 821 as modified by RFC 1123.

check-names applies to the owner names of A, AAAA, and MX records. It also applies to the domain names in the rrdata of NS, SOA, and MX, records. It also applies to the rrdata of PTR records where the owner name indicated that it is a reverse lookup of a host name (the owner name ends in IN-ADDR.ARPA, IP6.ARPA, IP6.INT).

If yes, then the server treats all zones as if they are doing zone transfers across a dial-on-demand dialup link, which can be brought up by traffic originating from this server. This has different effects according to zone type and concentrates the zone maintenance so that it all happens in a short interval, once every heartbeat-interval and hopefully during the one call. It also suppresses some of the normal zone maintenance traffic. The default is no.

The dialup option may also be specified in view and zone statements, in which case, it overrides the global dialup option.

If the zone is a master zone, then the server will send out a NOTIFY request to all the slaves. This will trigger the zone serial number check in the slave (provided it supports NOTIFY), allowing the slave to verify the zone while the connection is active.

If the zone is a slave or stub zone, then the server will suppress the regular "zone up to date" (refresh) queries and only perform them when the heartbeat-interval expires in addition to sending NOTIFY requests.

Finer control can be achieved by using notify, which only sends NOTIFY messages; notify-passive, which sends NOTIFY messages and suppresses the normal refresh queries; refresh, which suppresses normal refresh processing and sends refresh queries when the heartbeat-interval expires; and passive, which just disables normal refresh processing.

Enable DNSSEC support in named. Unless set to yes, named behaves as if it does not support DNSSEC. The default is no.

If yes, flush any pending zone writes when the name server exits due to receiving a SIGTERM. The default is no, do not flush on SIGTERM.

If yes, then an IPv4-mapped IPv6 address will match any address match list entries that match the corresponding IPv4 address.

If yes, the server will only add records to the authority when generating responses and additional data sections when they are required (for example, delegations, negative responses). This may improve the performance of the server. The default is no.

If yes (the default), DNS NOTIFY messages are sent when a zone for which the server is authoritative, changes. The messages are sent to the servers listed in the zone's NS records (except the master server identified in the SOA MNAME field), and to any servers listed in the also-notify option. If explicit is specified, NOTIFY messages are sent only to servers explicitly listed using also-notify. If no, no NOTIFY messages are sent.

The notify option may also be specified in the zone statement, in which case it overrides the notify specified in the options statement. It needs to be turned off only when the slaves crash.

Determines whether the local server, acting as master, will respond with an incremental zone transfer when the given remote server, a slave, requests it. If yes, an incremental transfer will be provided whenever possible. If no, all transfers to the remote server will be nonincremental. If not set in a server statement, the value of the provide-ixfr option in the view or global options statement is used as a default.

If yes, start query logging when named starts. If no, do not start query logging when named starts. If querylog is not specified, query logging is determined from the presence of the logging category queries.

If yes and a DNS query requests recursion, then the server will attempt to answer the query. If no and the server does not know the answer, it will return a referral response. The default is yes.

Note that setting recursion to no does not prevent clients from getting data from the server's cache; it only prevents new data from being cached as an effect of client queries. Caching may still occur as an effect of the server's internal operation, such as NOTIFY address lookups.

Determines whether the local server, acting as a slave, will request incremental zone transfers from the given remote server, a master. If not set in a server statement, the value of the request-ixfr option in the view or global options statement is used as a default.

If yes, the server will, by default, collect statistical data on all zones in the server. These statistics may be accessed using the rndc stats command, which will dump them to the file listed in the statistics-file option.

Specifies which hosts are allowed to notify slaves of a zone change in addition to the zone masters. allow-notify may also be specified in the zone statement, in which case it overrides the options allow-notify statement. It is only meaningful for a slave zone. If not specified, the default is to process notify messages only from a zone's master.

Specifies which hosts are allowed to ask ordinary questions. allow-query may also be specified in the zone statement, in which case it overrides the options allow-query statement. If not specified, the default is to allow queries from all hosts.

Specifies which hosts are allowed to make recursive queries through this server. If not specified, the default is to allow recursive queries from all hosts. Note that disallowing recursive queries for a host does not prevent the host from retrieving data that is already in the server's cache.

Specifies which hosts are allowed to submit Dynamic DNS updates to slave zones to be forwarded to the master. The default is {none;}, which means that no update forwarding will be performed. To enable update forwarding, specify allow-update-forwarding {any;};. Specifying values other than {none;} or {any;} is usually counterproductive, since the responsibility for update access control should rest with the master server, not the slaves.

Note that enabling the update forwarding feature on a slave server may expose master servers relying on insecure IP-address-based access control to attacks.

Specifies the hosts that are allowed to receive zone transfers from the server. allow-transfer may also be specified in the zone statement, in which case it overrides the options allow-transfer statement. If not specified, the default is to allow transfers from all hosts.

Specifies a list of addresses that the server will not accept queries from or use to resolve a query. Queries from these addresses will not be responded to. The default is none.

Specify a list of IPv4 and IPv6 UDP ports that will not be used as system assigned source ports for UDP sockets. These lists prevent named from choosing as its random source port a port that is blocked by your firewall. If a query went out with such a source port, the answer would not get by the firewall and the name server would have to query again.

The host name the server should report via a query of the name hostname.bind with type TXT, class CHAOS. This defaults to the host name of the machine hosting the name server as found by gethostname() (see gethostname(2)). The primary purpose of such queries is to identify which of a group of anycast servers is actually answering your queries. Specifying hostname none; disables processing of the queries.

The ID the server should report via a query of the name ID.SERVER with type TXT, class CHAOS. The primary purpose of such queries is to identify which of a group of anycast servers is actually answering your queries. Specifying server-id none; disables processing of the queries. Specifying server-id hostname; causes named to use the host name as found by gethostname(). The default server-id is none.

The version the server should report via a query of the name version.bind with type TXT and class CHAOS. The default is the real version number of this server. Specifying version none disables processing of the queries.

Specifies host names or addresses of machines with access to both IPv4 and IPv6 transports. If a host name is used, the server must be able to resolve the name using only the transport it has. If the machine is dual-stacked then the dual-stack-servers have no effect unless access to a transport has been disabled on the command line (for example, with named -4).

This option is useful only if the forwarders list is not empty. The default value first, causes the server to query the forwarders first, and if that is unable to answer the question, the server will then look for the answer itself. If only is specified, the server will only query the forwarders.

Specifies the IP addresses to be used for forwarding. The default is the empty list (no forwarding).

Forwarding can also be configured on a per-domain basis, allowing for the global forwarding options to be overridden in a variety of ways. You can set a particular domain to use different forwarders, or have a different forward only or forward first behavior, or not forward at all; see The Zone Statement section.

The server listens on all interfaces allowed by the address match list. If a port is not specified, port 53 is used.

Multiple listen-on statements are allowed. For example,

will enable the name server on port 53 for the IP address 5.6.7.8, and on port 1234 of an address on the machine in net 1.2 that is not 1.2.3.4. If no listen-on is specified, the server will listen on port 53 on all interfaces.

Specifies the ports on which the server will listen for incoming queries sent using IPv6.

The server does not bind a separate socket to each IPv6 interface address as it does for IPv4. Instead, it always listens on the IPv6 wildcard address. Therefore, the only values allowed for the address_match_list argument of the listen-on-v6 statement are: {any;} and {none;}.

Multiple listen-on-v6 options can be used to listen on multiple ports:

To make the server not to listen on any IPv6 address, use

If no listen-on-v6 statement is specified, the server will not listen on any IPv6 address.

This option was introduced for the smooth transition from AAAA to A6 and from "nibble labels" to binary labels. However, since both A6 and binary labels were then deprecated, this option was also deprecated. It is now ignored with some warning messages.

The maximum size of a core dump. The default is default.

The maximum amount of data memory the server may use. The default is default. This is a hard limit on server memory usage. If the server attempts to allocate memory in excess of this limit, the allocation will fail, which may in turn leave the server unable to perform DNS service. Therefore, this option is rarely useful as a way of limiting the amount of memory used by the server, but it can be used to raise an operating system data size limit that is too small by default. If you wish to limit the amount of memory used by the server, use the max-cache-size and recursive-clients options instead; see the Server Resource Limit Options section.

The maximum number of files the server may have open concurrently. The default is unlimited.

The maximum amount of stack memory the server may use. The default is default.

The server will remove expired resource records from the cache every cleaning-interval minutes. The default is 60 minutes. The maximum value is 28 days (40320 minutes). If set to 0, no periodic cleaning will occur.

The server will perform zone maintenance tasks for all zones marked as dialup whenever this interval expires. The default is 60 minutes. The maximum value is 28 days (40320 minutes). Reasonable values are up to 1 day (1440 minutes). If set to 0, no zone maintenance for these zones will occur.

The server will scan the network interface list every interface-interval minutes. The default is 60 minutes. The maximum value is 28 days (40320 minutes). If set to 0, interface scanning will only occur when the configuration file is loaded. After the scan, listeners will be started on any new interfaces (provided they are allowed by the listen-on configuration). Listeners on interfaces that have gone away will be cleaned up.

Specifies the address and port used for such queries.

Specifies the address and port used for queries sent over IPv6.

The maximum amount of memory to use for the server's cache, in bytes. When the amount of data in the cache reaches this limit, the server will cause records to expire prematurely so that the limit is not exceeded. In a server with multiple views, the limit applies separately to the cache of each view. The default is unlimited, meaning that records are purged from the cache only when their TTLs expire.

Sets a maximum size for each journal file. When the journal file approaches the specified size, some of the oldest transactions in the journal will be automatically removed. The default is unlimited.

The maximum number of simultaneous recursive lookups the server will perform on behalf of clients. The default is 1000. Because each recursing client uses a fair bit of memory, on the order of 20 kilobytes, the value of the recursive-clients option may have to be decreased on hosts with limited memory.

The maximum number of simultaneous client TCP connections that the server will accept. The default is 100.

The listen queue depth. The default and minimum is 3. If the kernel supports the accept filter "dataready", this also controls how many TCP connections that will be queued in kernel space waiting for some data before being passed to accept. Values less than 3 are silently raised.

Sets the advertised Extended DNS (EDNS) UDP buffer size in bytes. Valid values are 512 to 4096 (values outside this range will be silently adjusted). The default value is 4096. The usual reason for setting edns-udp-size to a nondefault value is to get UDP answers to pass through broken firewalls that block fragmented packets and/or block UDP packets that are greater than 512 bytes.

Sets the number of seconds to cache a lame server indication. 0 disables caching. (This is not recommended.) The default is 600 (10 minutes). The maximum value is 1800 (30 minutes). (See the lame-servers keyword in The Category Phrase section.)

Sets the maximum time in seconds for which the server will cache ordinary (positive) answers. The default is one week (7 days).

To reduce network traffic and increase performance, the server stores negative answers. max-ncache-ttl is used to set a maximum retention time for these answers in the server in seconds. The default is 10800 seconds (3 hours). The maximum is 7 days and will be truncated to 7 days if set to a greater value.

These options control the server's behavior on refreshing a zone (querying for SOA changes) or retrying failed transfers. Usually the SOA values for the zone are used, but these values are set by the master, giving slave server administrators little control over their contents.

These options allow the administrator to set a minimum and maximum refresh and retry time either per-zone, per-view, or per-server. These options are valid for master, slave and stub zones, and clamp the SOA refresh and retry times to the specified values.

Specifies the number of days into the future when DNSSEC signatures that were automatically generated as a result of dynamic updates will expire. The default is 30 days. The maximum is 10 years (3660 days). The signature inception time is unconditionally set to one hour before the current time to allow for a limited amount of clock skew.

Defines a global list of IP addresses of name servers that are also sent NOTIFY messages whenever a fresh copy of the zone is loaded, in addition to the servers listed in the zone's NS records. This helps to ensure that copies of the zones will quickly converge on stealth servers. If an also-notify list is given in a zone statement, it will override the options also-notify statement. When a zone notify statement is set to no, the IP addresses in the global also-notify list will not be sent NOTIFY messages for that zone. The default is the empty list (no global notification list).

An alternate transfer source if the one listed in transfer-source fails and use-alt-transfer-source is set.

An alternate transfer source if the one listed in transfer-source-v6 fails and use-alt-transfer-source is set.

Inbound zone transfers making no progress in this many minutes will be terminated. The default is 60 minutes (1 hour). The maximum value is 28 days (40320 minutes).

Outbound zone transfers making no progress in this many minutes will be terminated. The default is 60 minutes (1 hour). The maximum value is 28 days (40320 minutes).

Inbound zone transfers running longer than this many minutes will be terminated. The default is 120 minutes (2 hours). The maximum value is 28 days (40320 minutes).

Outbound zone transfers running longer than this many minutes will be terminated. The default is 120 minutes (2 hours). The maximum value is 28 days (40320 minutes).

Determines which local source address, and optionally UDP port, will be used to send NOTIFY messages. This address must appear in the slave server's masters zone clause or in an allow-notify clause. This statement sets the notify-source for all zones, but can be overridden on a per-zone or per-view basis by including a notify-source statement within the zone or view statement in the configuration file.

The same as notify-source, but applies to NOTIFY messages sent to IPv6 addresses.

Slave servers will periodically query master servers to find out if zone serial numbers have changed. Each such query uses a minute amount of the slave server's network bandwidth. To limit the amount of bandwidth used, BIND 9.3 limits the rate at which queries are sent. The value of the serial-query-rate option, an integer, is the maximum number of queries sent per second. The default is 20.

Zone transfers can be sent using two different formats, one-answer and many-answers. The transfer-format option is used on the master server to determine which format it sends. one-answer uses one DNS message per resource record transferred. many-answers packs as many resource records as possible into a message. many-answers is more efficient, but is only supported by relatively new slave servers, such as BIND 9.3, BIND 8.x, and patched versions of BIND 4.9.x. The default is many-answers. transfer-format may be overridden on a per-server basis by using the server statement.

Determines which local address will be bound to IPv4 TCP connections used to fetch zones transferred inbound by the server. It also determines the source IPv4 address, and optionally the UDP port, used for the refresh queries and forwarded dynamic updates. If not set, it defaults to a system-controlled value which will usually be the address of the interface "closest to" the remote end. This address must appear in the remote end's allow-transfer option for the zone being transferred, if one is specified. This statement sets the transfer-source for all zones, but can be overridden on a per-view or per-zone basis by including a transfer-source statement within the view or zone block in the configuration file.

The same as transfer-source, except that zone transfers are performed using IPv6.

The maximum number of concurrently running inbound zone transfers. The default value is 10. The maximum value is 28 days (40320 minutes). Increasing transfers-in may speed up the convergence of slave zones, but it may also increase the load on the local system.

The maximum number of concurrently running outbound zone transfers. Zone transfer requests in excess of the limit will be refused. The default value is 10.

The maximum number of concurrently running inbound zone transfers from a given remote name server. The default value is 2. Increasing transfers-per-ns may speed up the convergence of slave zones, but it also may increase the load on the remote name server. transfers-per-ns may be overridden on a per-server basis by using the transfers phrase of the server statement.

Use the alternate transfer sources or not. If views are specified, this defaults to no; otherwise, it defaults to yes (for BIND 8 compatibility).

If you discover that a remote server is giving out bad data, marking it as bogus yes will prevent further queries to it. The default value is bogus no.

(Extended DNS) Determines whether the local server will attempt to use EDNS when communicating with the remote server. The default is yes.

Identifies a key_id defined by a key statement, to be used for transaction security when talking to the remote server. The key statement must come before the server statement that references it. When a request is sent to the remote server, a request signature will be generated using the key specified here, and appended to the message. A request originating from the remote server is not required to be signed by this key. Although the grammar of the keys clause allows for multiple keys, only a single key per server is currently supported.

Determines whether the local server, acting as master, will respond with an incremental zone transfer when the given remote server, a slave, requests it. If set to yes, incremental transfer will be provided whenever possible. If set to no, all transfers to the remote server will be nonincremental. If not set, the value of the provide-ixfr option in the view or global options statement is used as a default.

Determines whether the local server, acting as a slave, will request incremental zone transfers from the given remote server, a master. If not set, the value of the request-ixfr option in the view or global options statement is used as a default.

IXFR requests to servers that do not support IXFR will automatically fall back to AXFR. Therefore, there is no need to manually list which servers support IXFR and which ones do not; the global default of yes should always work. The purpose of the provide-ixfr and request-ixfr clauses is to make it possible to disable the use of IXFR even when both master and slave claim to support it; for example, if one of the servers is defective and crashes or corrupts data when IXFR is used.

The server supports two zone transfer methods. one-answer uses one DNS message per resource record transferred. many-answers packs as many resource records as possible into a message. many-answers is more efficient, but is only known to be understood by BIND 9, BIND 8.x, and patched versions of BIND 4.9.5. You can specify which method to use for a server with the transfer-format option. If transfer-format is not specified, the transfer-format specified by the options statement is used.

Specify the IPv4 and IPv6 source address to be used for zone transfer with the remote server, respectively. For an IPv4 remote server, only transfer-source can be specified. Similarly, for an IPv6 remote server, only transfer-source-v6 can be specified.

Limits the number of concurrent inbound zone transfers from the specified server. If no transfers clause is specified, the limit is set according to the transfers-per-ns option.

A name for the view.

Views are class-specific. If no class is given, class IN is assumed. Note that all non-IN views must contain a hint zone, since only the IN class has compiled-in default hints.

A client matches a view if its source IP address matches the address_match_list of the view statement's match-clients clause and its destination IP address matches the address_match_list of the view statement's match-destinations clause.

If not specified, match-clients and match-destinations each default to matching all addresses.

Means that only recursive requests from matching clients match that view.

Many of the options given in the options statement can also be used within a view statement, and then apply only when resolving queries with that view. When no view-specific value is given, the value in the options statement is used as a default. Also, zone options can have default values specified in the view statement; these view-specific defaults take precedence over those in the options statement. See The options Statement section.

Zones defined within a view statement will only be accessible to clients that match the view. By defining a zone of the same name in multiple views, different zone data can be given to different clients; for example, internal and external clients in a split DNS setup. See The zone Statement section.

A name for the zone.

The class of the zone; one of the following:

The type of the zone.

The server has a master copy of the data for the zone and will be able to provide authoritative answers for it.

A slave zone is a replica of a master zone.

The masters list specifies one or more IP addresses of master servers that the slave contacts to update its copy of the zone.

By default, transfers are made from port 53 on the servers; this can be changed for all servers by specifying a port number before the list of IP addresses, or on a per-server basis after the IP address. Authentication to the master can also be done with per-server TSIG keys.

If a file is specified, then the replica will be written to this file whenever the zone is changed, and reloaded from this file on a server restart. Use of a file is recommended, since it often speeds server start-up and eliminates a needless waste of bandwidth. If the database files are very large, it is recommended to place them in different directories.

A stub zone is similar to a slave zone, except that it replicates only the NS records of a master zone instead of the entire zone.

Stub zones are not a standard part of the DNS; they are a feature specific to the BIND implementation. Stub zones can be used to eliminate the need for glue NS records in a parent zone at the expense of maintaining a stub zone entry and a set of name server addresses in named.conf.

This usage is not recommended for new configurations, and BIND 9.3 supports it only in a limited way. In BIND 4/8, zone transfers of a parent zone included the NS records from stub children of that zone. This meant that, in some cases, users could get away with configuring child stubs only in the master server for the parent zone. BIND 9 never mixes together zone data from different zones in this way. Therefore, if a BIND 9 master serving a parent zone has child stub zones configured, all the slave servers for the parent zone also need to have the same child stub zones configured.

Stub zones can also be used to force the resolution of a given domain to use a particular set of authoritative servers. For example, the caching name servers on a private network using RFC 2157 addressing may be configured with stub zones for 10.in-addr.arpa to use a set of internal name servers as the authoritative servers for that domain.

A forward zone can be used to configure forwarding on a per-domain basis. A zone statement of type forward can contain a forward and/or forwarders statement, which will apply to queries within the domain given by the zone name. If no forwarders statement is present or an empty list of forwarders is given, then no forwarding will be done for the domain, canceling the effects of any forwarders in the options statement. Thus, if you want to use this type of zone to change the behavior of the global forward option (that is, forward first, then forward only, or vice versa, but want to use the same servers as set globally), you need to respecify the global forwarders.

The initial set of root name servers is specified using a hint zone. When the server starts up, it uses the root hints to find a root name server and get the most recent list of root name servers. If no hint zone is specified for class IN, the server uses a compiled-in default set of root servers hints. Classes other than IN have no built-in defaults hints.

This is used to enforce the delegation-only status of infrastructure zones (for example, COM, NET, ORG). Any answer that is received without a explicit or implicit delegation in the authority section will be treated as NXDOMAIN. This does not apply to the zone apex. This should not be applied to leaf zones. delegation-only has no effect on answers received from forwarders.

See the description in The options Statement section.

See the description in The options Statement section.

See the description in The options Statement section.

Specifies which hosts are allowed to submit Dynamic DNS updates for master zones. The default is to deny updates from all hosts. Please note that this option is not applicable for slave zones. See the Dynamic Update Policies section for more details.

Specifies which hosts are allowed to submit Dynamic DNS updates to slave zones to be forwarded to the master. The default is {none;}, which means that no update forwarding will be performed. To enable update forwarding, specify allow-update-forwarding {any;};. Specifying values other than {none;} or {any;} is usually counterproductive, since the responsibility for update access control should rest with the master server, not the slaves. Note that enabling the update forwarding feature on a slave server may expose master servers that rely on insecure IP-address-based access control to attacks.

Only meaningful if notify is active for this zone. The set of machines that will receive a DNS NOTIFY message for this zone is made up of all the listed name servers (other than the primary master) for the zone plus any IP addresses specified with also-notify. A port may be specified with each also-notify address to send the notify messages to a port other than the default of 53. also-notify is not meaningful for stub zones. The default is the empty list.

See the description in The options Statement section.

See the description in The options Statement section.

Restrict the character set and syntax of certain domain names in master files and/or DNS responses received from the network. The default varies according to zone type. For master zones, the default is fail. For slave zones, the default is warn.

Specify the type of database to be used for storing the zone data. The string following the database keyword is interpreted as a list of whitespace-delimited words. The first word identifies the database type, and any subsequent words are passed as arguments to the database to be interpreted in a way specific to the database type. The default is rbt, BIND 9's native in-memory red-black-tree database. This database does not take arguments. Other values are possible if additional database drivers have been linked into the server.

The flag only applies to hint and stub zones. If set to yes, then the zone is also treated as if it is also a delegation-only type zone.

See the description in The options Statement section.

A zone file designates a domain name with all of its associated subdomains, IP addresses, and mail server. A zone file contains resource records (A, CNAME, NS, SOA, and so on).

Only meaningful if the zone has a forwarders list. The only value causes the lookup to fail after trying the forwarders and getting no answer, while first allows a normal lookup to be tried.

Used to override the list of global forwarders. If it is not specified in a zone of type forward, no forwarding is done for the zone; the global options are not used.

If yes and the server loads a new version of a master zone from its zone file or receives a new version of a slave file by a nonincremental zone transfer, it will compare the new version to the previous one and calculate a set of differences. The differences are then logged in the zone's journal file such that the changes can be transmitted to downstream slaves as an incremental zone transfer.

By allowing incremental zone transfers to be used for nondynamic zones, this option saves bandwidth at the expense of increased CPU and memory consumption at the master. In particular, if the new version of a zone is completely different from the previous one, the set of differences will be of a size comparable to the combined size of the old and new zone version, and the server will need to temporarily allocate memory to hold this complete difference set.

See the description in The options Statement section.

See the type slave and type stub descriptions at the beginning of this section, and the description in The masters Statement section.

See the description in The options Statement section.

See the description in The options Statement section.

See the description in The options Statement section.

See the description in The options Statement section.

See the description in The options Statement section.

See the description in The options Statement section.

See the description in The options Statement section.

See the description in The options Statement section.

This should be set when you have multiple masters for a zone and the addresses refer to different machines. If yes, named will not log when the serial number on the master is less than what named currently has. The default is no.

See the description in The options Statement section.

See the description in The options Statement section.

See the description in The options Statement section.

See the description in The options Statement section.

See the description in The options Statement section.

See the description in The options Statement section.

Specifies a "Simple Secure Update" policy. See the Dynamic Update Policies section for more details.

See the description in The options Statement section.

If yes, the server will keep statistical information for this zone, which can be dumped to the statistics-file defined in the server options.

Exact-match semantics. This rule matches when the name being updated is identical to the contents of the name field.

This rule matches when the name being updated is a subdomain of, or identical to, the contents of the name field.

The name field is subject to DNS wildcard expansion, and this rule matches when the name being updated is a valid expansion of the wildcard.

This rule matches when the name being updated matches the contents of the identity field. The name field is ignored, but should be the same as the identity field. The self nametype is most useful when allowing the use of one key per name to update, where the key has the same name as the name to be updated. The identity would be specified as * in this case.

A domain name that serves as the suffix for subsequent relative domain names.

The name of the file to be included.

The origin for the data in the included file. The default is the current origin of the including (parent) file.

The default TTL value for subsequent RRs. See the Time to Live (TTL) and Time Specification sections for more detail.