// $FreeBSD$
//
// Refer to the named.conf(5) and named(8) man pages, and the documentation
// in /usr/share/doc/bind9 for more details.
//
// If you are going to set up an authoritative server, make sure you
// understand the hairy details of how DNS works.  Even with
// simple mistakes, you can break connectivity for affected parties,
// or cause huge amounts of useless Internet traffic.

options {
	// Relative to the chroot directory, if any
	directory	"/etc/namedb";
	pid-file	"/var/run/named/pid";
	dump-file	"/var/dump/named_dump.db";
	statistics-file	"/var/stats/named.stats";

// If named is being used only as a local resolver, this is a safe default.
// For named to be accessible to the network, comment this option, specify
// the proper IP address, or delete this option.
	listen-on	{ 127.0.0.1; };

// If you have IPv6 enabled on this system, uncomment this option for
// use as a local resolver.  To give access to the network, specify
// an IPv6 address, or the keyword "any".
//	listen-on-v6	{ ::1; };

// These zones are already covered by the empty zones listed below.
// If you remove the related empty zones below, comment these lines out.
	disable-empty-zone "255.255.255.255.IN-ADDR.ARPA";
	disable-empty-zone "0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.IP6.ARPA";
	disable-empty-zone "1.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.IP6.ARPA";

// In addition to the "forwarders" clause, you can force your name
// server to never initiate queries of its own, but always ask its
// forwarders only, by enabling the following line:
//
//	forward only;

// If you've got a DNS server around at your upstream provider, enter
// its IP address here, and enable the line below.  This will make you
// benefit from its cache, thus reduce overall DNS traffic in the Internet.
/*
	forwarders {
		127.0.0.1;
	};
*/
	/*
	 * If there is a firewall between you and nameservers you want
	 * to talk to, you might need to uncomment the query-source
	 * directive below.  Previous versions of BIND always asked
	 * questions using port 53, but BIND versions 8 and later
	 * use a pseudo-random unprivileged UDP port by default.
	 */
	// query-source address * port 53;
};

// If you enable a local name server, don't forget to enter 127.0.0.1
// first in your /etc/resolv.conf so this server will be queried.
// Also, make sure to enable it in /etc/rc.conf.

// The traditional root hints mechanism. Use this, OR the slave zones below.
zone "." { type hint; file "named.root"; };

/*	Slaving the following zones from the root name servers has some
	significant advantages:
	1. Faster local resolution for your users
	2. No spurious traffic will be sent from your network to the roots
	3. Greater resilience to any potential root server failure/DDoS

	To use this mechanism, uncomment the entries below, and comment
	the hint zone above.
*/
/*
zone "." {
	type slave;
	file "slave/root.slave";
	masters {
		192.33.4.12;	// C.ROOT-SERVERS.NET.
		192.112.36.4;	// G.ROOT-SERVERS.NET.
		193.0.14.129;	// K.ROOT-SERVERS.NET.
	};
	notify no;
};
zone "arpa" {
	type slave;
	file "slave/arpa.slave";
	masters {
		192.33.4.12;	// C.ROOT-SERVERS.NET.
		192.112.36.4;	// G.ROOT-SERVERS.NET.
		193.0.14.129;	// K.ROOT-SERVERS.NET.
	};
	notify no;
};
zone "in-addr.arpa" {
	type slave;
	file "slave/in-addr.arpa.slave";
	masters {
		192.33.4.12;	// C.ROOT-SERVERS.NET.
		192.112.36.4;	// G.ROOT-SERVERS.NET.
		193.0.14.129;	// K.ROOT-SERVERS.NET.
	};
	notify no;
};
*/

/*	Serving the following zones locally will prevent any queries
	for these zones leaving your network and going to the root
	name servers.  This has two significant advantages:
	1. Faster local resolution for your users
	2. No spurious traffic will be sent from your network to the roots
*/
// RFC 1912
zone "localhost"	{ type master; file "master/localhost-forward.db"; };
zone "127.in-addr.arpa" { type master; file "master/localhost-reverse.db"; };
zone "255.in-addr.arpa"	{ type master; file "master/empty.db"; };

// RFC 1912-style zone for IPv6 localhost address
zone "0.ip6.arpa"	{ type master; file "master/localhost-reverse.db"; };

// "This" Network (RFCs 1912 and 3330)
zone "0.in-addr.arpa"		{ type master; file "master/empty.db"; };

// IANA Reserved - Unlikely to ever be assigned
zone "1.in-addr.arpa"		{ type master; file "master/empty.db"; };
zone "2.in-addr.arpa"		{ type master; file "master/empty.db"; };
zone "223.in-addr.arpa"		{ type master; file "master/empty.db"; };

// Public Data Networks (RFC 3330)
zone "14.in-addr.arpa"		{ type master; file "master/empty.db"; };

// Private Use Networks (RFC 1918)
zone "10.in-addr.arpa"		{ type master; file "master/empty.db"; };
zone "16.172.in-addr.arpa"	{ type master; file "master/empty.db"; };
zone "17.172.in-addr.arpa"	{ type master; file "master/empty.db"; };
zone "18.172.in-addr.arpa"	{ type master; file "master/empty.db"; };
zone "19.172.in-addr.arpa"	{ type master; file "master/empty.db"; };
zone "20.172.in-addr.arpa"	{ type master; file "master/empty.db"; };
zone "21.172.in-addr.arpa"	{ type master; file "master/empty.db"; };
zone "22.172.in-addr.arpa"	{ type master; file "master/empty.db"; };
zone "23.172.in-addr.arpa"	{ type master; file "master/empty.db"; };
zone "24.172.in-addr.arpa"	{ type master; file "master/empty.db"; };
zone "25.172.in-addr.arpa"	{ type master; file "master/empty.db"; };
zone "26.172.in-addr.arpa"	{ type master; file "master/empty.db"; };
zone "27.172.in-addr.arpa"	{ type master; file "master/empty.db"; };
zone "28.172.in-addr.arpa"	{ type master; file "master/empty.db"; };
zone "29.172.in-addr.arpa"	{ type master; file "master/empty.db"; };
zone "30.172.in-addr.arpa"	{ type master; file "master/empty.db"; };
zone "31.172.in-addr.arpa"	{ type master; file "master/empty.db"; };
zone "168.192.in-addr.arpa"	{ type master; file "master/empty.db"; };

// Link-local/APIPA (RFCs 3330 and 3927)
zone "254.169.in-addr.arpa"	{ type master; file "master/empty.db"; };

// TEST-NET for Documentation (RFC 3330)
zone "2.0.192.in-addr.arpa"	{ type master; file "master/empty.db"; };

// Router Benchmark Testing (RFC 2544)
zone "18.192.in-addr.arpa"	{ type master; file "master/empty.db"; };
zone "19.192.in-addr.arpa"	{ type master; file "master/empty.db"; };

// IANA Reserved - Old Class E Space
zone "240.in-addr.arpa"		{ type master; file "master/empty.db"; };
zone "241.in-addr.arpa"		{ type master; file "master/empty.db"; };
zone "242.in-addr.arpa"		{ type master; file "master/empty.db"; };
zone "243.in-addr.arpa"		{ type master; file "master/empty.db"; };
zone "244.in-addr.arpa"		{ type master; file "master/empty.db"; };
zone "245.in-addr.arpa"		{ type master; file "master/empty.db"; };
zone "246.in-addr.arpa"		{ type master; file "master/empty.db"; };
zone "247.in-addr.arpa"		{ type master; file "master/empty.db"; };
zone "248.in-addr.arpa"		{ type master; file "master/empty.db"; };
zone "249.in-addr.arpa"		{ type master; file "master/empty.db"; };
zone "250.in-addr.arpa"		{ type master; file "master/empty.db"; };
zone "251.in-addr.arpa"		{ type master; file "master/empty.db"; };
zone "252.in-addr.arpa"		{ type master; file "master/empty.db"; };
zone "253.in-addr.arpa"		{ type master; file "master/empty.db"; };
zone "254.in-addr.arpa"		{ type master; file "master/empty.db"; };

// IPv6 Unassigned Addresses (RFC 4291)
zone "1.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "3.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "4.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "5.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "6.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "7.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "8.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "9.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "a.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "b.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "c.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "d.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "e.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "0.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "1.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "2.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "3.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "4.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "5.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "6.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "7.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "8.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "9.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "a.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "b.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "0.e.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "1.e.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "2.e.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "3.e.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "4.e.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "5.e.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "6.e.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "7.e.f.ip6.arpa"		{ type master; file "master/empty.db"; };

// IPv6 ULA (RFC 4193)
zone "c.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "d.f.ip6.arpa"		{ type master; file "master/empty.db"; };

// IPv6 Link Local (RFC 4291)
zone "8.e.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "9.e.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "a.e.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "b.e.f.ip6.arpa"		{ type master; file "master/empty.db"; };

// IPv6 Deprecated Site-Local Addresses (RFC 3879)
zone "c.e.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "d.e.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "e.e.f.ip6.arpa"		{ type master; file "master/empty.db"; };
zone "f.e.f.ip6.arpa"		{ type master; file "master/empty.db"; };

// IP6.INT is Deprecated (RFC 4159)
zone "ip6.int"			{ type master; file "master/empty.db"; };

// NB: Do not use the IP addresses below, they are faked, and only
// serve demonstration/documentation purposes!
//
// Example slave zone config entries.  It can be convenient to become
// a slave at least for the zone your own domain is in.  Ask
// your network administrator for the IP address of the responsible
// master name server.
//
// Do not forget to include the reverse lookup zone!
// This is named after the first bytes of the IP address, in reverse
// order, with ".IN-ADDR.ARPA" appended, or ".IP6.ARPA" for IPv6.
//
// Before starting to set up a master zone, make sure you fully
// understand how DNS and BIND work.  There are sometimes
// non-obvious pitfalls.  Setting up a slave zone is usually simpler.
//
// NB: Don't blindly enable the examples below. :-)  Use actual names
// and addresses instead.

/* An example dynamic zone
key "exampleorgkey" {
	algorithm hmac-md5;
	secret "sf87HJqjkqh8ac87a02lla==";
};
zone "example.org" {
	type master;
	allow-update {
		key "exampleorgkey";
	};
	file "dynamic/example.org";
};
*/

/* Example of a slave reverse zone
zone "1.168.192.in-addr.arpa" {
	type slave;
	file "slave/1.168.192.in-addr.arpa";
	masters {
		192.168.1.1;
	};
};
*/