BIND
BIND (or named) is the most widely used Domain Name System (DNS) server.
Installation
Start/enable the named.service
systemd unit.
To use the DNS server locally, use the 127.0.0.1
nameserver (meaning clients like Firefox resolve via 127.0.0.1), see Domain name resolution.
This will however require you to #Allow recursion while a firewall might block outside queries to your local named.
Configuration
BIND is configured in /etc/named.conf
. The available options are documented in named.conf(5).
Reload the named.service
unit to apply configuration changes.
Restrict access to localhost
BIND by default listens on port 53 of all interfaces and IP addresses. To only allow connections from localhost add the following line to the options
section in /etc/named.conf
:
listen-on { 127.0.0.1; }; listen-on-v6 { ::1; };
Set up DNS forwarding
To make BIND forward DNS queries to another DNS server add the forwarders
clause to the options
section.
Example to make BIND forward to the Google Public DNS servers:
forwarders { 8.8.8.8; 2001:4860:4860::8888; 8.8.4.4; 2001:4860:4860::8844; };
(As of 9.18, only plaintext DNS servers are supported as forwarders.)
Serve DNS over TLS or HTTPS
To enable serving DNS over TLS or HTTPS in BIND 9.18, define a tls block specifying your certificate, then add listen-on clauses enabling DNS over TLS and HTTPS listeners (as well as a standard DNS listener).
/etc/named.conf
tls mycert { cert-file "<path>.crt"; key-file "<path>.key"; }; options { // Standard port 53 listeners need to be re-added explicitly listen-on { any; }; listen-on-v6 { any; }; // Add a DNS over TLS listener on standard port 853 listen-on tls mycert { any; }; listen-on-v6 tls mycert { any; }; // Add a DNS over HTTPS listener on custom port listen-on port 9443 tls mycert http default { any; }; listen-on-v6 port 9443 tls mycert http default { any; }; // If needed, add a cleartext HTTP listener for a reverse proxy //listen-on port 8443 tls none http default { 127.0.0.1; }; //listen-on-v6 port 8443 tls none http default { ::1; }; }; ...
Note that tls{}
is defined at the top level, not inside the options{}
block.
A configuration template for running a domain
Following is a simple home nameserver being set up, using domain.tld as the domain being served world-wide like this wiki's archlinux.org domain is.
A more elaborate example is DNS server with BIND9, while this shows how to set up internal network name resolution.
Creating a zonefile
Create /var/named/domain.tld.zone
.
$ORIGIN domain.tld. $TTL 2h @ SOA ns1 hostmaster ( 2018111111 ; Serial 8h ; Refresh 30m ; Retry 1w ; Expire 1h ) ; Negative Cache TTL NS ns1 NS ns2 @ A 203.0.113.1 AAAA 2001:db8:113::1 MX 10 mail TXT "v=spf1 mx" www A 203.0.113.1 AAAA 2001:db8:113::1 ns1 A 203.0.113.4 AAAA 2001:db8:113::4 ns2 A 198.51.100.5 AAAA 2001:db8:5100::5 mail A 198.51.100.6 AAAA 2001:db8:5100::6 imap CNAME mail smtp CNAME mail
$ORIGIN
defines the default suffix for all names which do not already end with a .
(dot), e.g. mail
will be expanded to mail.$ORIGIN
⇒ mail.domain.tld.
everywhere.
$TTL
defines the default time-to-live (i.e. cache expiry time) for all records which do not have their own TTL specified. Here it is 2 hours.
Serial must be incremented manually before reloading named every time you change a resource record for the zone. Otherwise secondary servers (replicas or slaves) will not re-transfer the zone: they only do it if the serial is greater than that of the last time they transferred the zone. This example uses the somewhat common YYYYMMDDXX
format, but this is not required; the serial number can also just start at 1.
Configuring master server
Add your zone to /etc/named.conf
:
zone "domain.tld" IN { type master; file "domain.tld.zone"; allow-update { none; }; };
Reload the named.service
unit to apply the configuration change.
Allow recursion
If you are running your own DNS server, you might as well use it for all DNS lookups, or even locally serve the root-zone yourself following RFC:7706. The former will require the ability to do recursive lookups. In order to prevent DNS Amplification Attacks, recursion is turned off by default for most resolvers. The default Arch /etc/named.conf
file allows for recursion only on the loopback interface:
allow-recursion { 127.0.0.1; ::1; };
If you want to provide name service for your local network; e.g. 192.168.0.0/24, you must add the appropriate range of IP addresses to /etc/named.conf
:
allow-recursion { 192.168.0.0/24; fd01:2345:6789::/64; 127.0.0.1; ::1; };
Configuring BIND to serve DNSSEC signed zones
DNSSEC validation is enabled by default. Do not forget to check that "edns" is not disabled.
On master DNS server:
- generate KSK and ZSK keys:
$ dnssec-keygen -a NSEC3RSASHA1 -b 2048 -n ZONE example.com $ dnssec-keygen -f KSK -a NSEC3RSASHA1 -b 4096 -n ZONE example.com
- change zone configuration:
zone "example.com" { type master; allow-transfer { ... }; auto-dnssec maintain; inline-signing yes; key-directory "master/"; file "master/example.com.zone"; };
Now bind will sign zone automatically. (This example assumes that all required files are in /var/named/master/)
Then you should pass DS records (from dsset-example.com. file) to parent zone owner probably using your registrar website. It glues parent zone with your KSK.
KSK (and corresponding DS records) should be changed rarely because it needs manual intervention, ZSK can be changed more often because this key is usually shorter to be faster in signature checking.
You can schedule old ZSK key expiration and generate new one using:
$ dnssec-settime -I +172800 -D +345600 Kexample.com.+000+111111.key $ dnssec-keygen -S Kexample.com.+000+111111.key -i 152800
Bind should automatically use new ZSK key at appropriate time.
There are external mechanisms such as OpenDNSSEC with fully-automatic key rollover available.
Automatically listen on new interfaces
By default bind scan for new interfaces and stop listening on interfaces which no longer exist every hour. You can tune this value by adding :
interface-interval <rescan-timeout-in-minutes>;
parameter into named.conf
options section. Max value is 28 days. (40320 min)
You can disable this feature by setting its value to 0.
Then restart the service.
Running BIND in a chrooted environment
Running in a chroot environment is not required but improves security.
Creating the jail house
In order to do this, we first need to create a place to keep the jail, we shall use /srv/named
, and then put the required files into the jail.
# mkdir -p /srv/named/{dev,etc,usr/lib/engines,var/{run,log,named}}
Copy over required system files:
# cp -av /etc/{localtime,named.conf} /srv/named/etc/ # cp -av /usr/lib/engines-1.1/* /srv/named/usr/lib/engines/ # cp -av /var/named/* /srv/named/var/named/.
Set up required nodes in /dev/
:
# mknod /srv/named/dev/null c 1 3 # mknod /srv/named/dev/random c 1 8
Set ownership of the files:
# chown -R named:named /srv/named
This should create the required file system for the jail.
Service unit
Next we need a replacement unit file so that the service calls bind which will allow force bind into the chroot:
/etc/systemd/system/named-chroot.service
ExecStart=/usr/bin/named -4 -f -u named -t "/srv/named"
Now, reload systemd with daemon-reload, and start the named-chroot.service
.
See also
- BIND 9 Administrator Reference Manual (ARM)
- BIND ARM on readthedocs
- BIND knowledgebase
- Internet Systems Consortium, Inc. (ISC)
- Pro DNS and BIND with abbreviated version online
- DNS Glossary[dead link 2020-03-28 ⓘ]
- Archived mailing list discussion on BIND's future
- root zone transfer made simple - serve root@home copy the /etc/named.conf , restart BIND & enjoy!
- DNSSEC[dead link 2022-05-19 ⓘ]
- a BIND configuration template