Table of Contents
Access Control Lists (ACLs) are address match lists that you can set up and nickname for future use in allow-notify, allow-query, allow-query-on, allow-recursion, allow-recursion-on, blackhole, allow-transfer, etc.
Using ACLs allows you to have finer control over who can access your name server, without cluttering up your config files with huge lists of IP addresses.
It is a good idea to use ACLs, and to control access to your server. Limiting access to your server by outside parties can help prevent spoofing and denial of service (DoS) attacks against your server.
Here is an example of how to properly apply ACLs:
// Set up an ACL named "bogusnets" that will block // RFC1918 space and some reserved space, which is // commonly used in spoofing attacks. acl bogusnets { 0.0.0.0/8; 192.0.2.0/24; 224.0.0.0/3; 10.0.0.0/8; 172.16.0.0/12; 192.168.0.0/16; }; // Set up an ACL called our-nets. Replace this with the // real IP numbers. acl our-nets { x.x.x.x/24; x.x.x.x/21; }; options { ... ... allow-query { our-nets; }; allow-recursion { our-nets; }; ... blackhole { bogusnets; }; ... }; zone "example.com" { type master; file "m/example.com"; allow-query { any; }; };
This allows recursive queries of the server from the outside unless recursion has been previously disabled.
On UNIX servers, it is possible to run BIND
in a chrooted environment (using
the chroot() function) by specifying
the "-t
" option for named.
This can help improve system security by placing
BIND in a "sandbox", which will limit
the damage done if a server is compromised.
Another useful feature in the UNIX version of BIND is the
ability to run the daemon as an unprivileged user ( -u
user
).
We suggest running as an unprivileged user when using the chroot feature.
Here is an example command line to load BIND in a chroot sandbox, /var/named, and to run named setuid to user 202:
/usr/local/sbin/named -u 202 -t /var/named
In order for a chroot environment
to
work properly in a particular directory
(for example, /var/named
),
you will need to set up an environment that includes everything
BIND needs to run.
From BIND's point of view, /var/named
is
the root of the filesystem. You will need to adjust the values of
options like
like directory and pid-file to account
for this.
Unlike with earlier versions of BIND, you typically will
not need to compile named
statically nor install shared libraries under the new root.
However, depending on your operating system, you may need
to set up things like
/dev/zero
,
/dev/random
,
/dev/log
, and
/etc/localtime
.
Prior to running the named daemon, use the touch utility (to change file access and modification times) or the chown utility (to set the user id and/or group id) on files to which you want BIND to write.
Access to the dynamic update facility should be strictly limited. In earlier versions of BIND, the only way to do this was based on the IP address of the host requesting the update, by listing an IP address or network prefix in the allow-update zone option. This method is insecure since the source address of the update UDP packet is easily forged. Also note that if the IP addresses allowed by the allow-update option include the address of a slave server which performs forwarding of dynamic updates, the master can be trivially attacked by sending the update to the slave, which will forward it to the master with its own source IP address causing the master to approve it without question.
For these reasons, we strongly recommend that updates be cryptographically authenticated by means of transaction signatures (TSIG). That is, the allow-update option should list only TSIG key names, not IP addresses or network prefixes. Alternatively, the new update-policy option can be used.
Some sites choose to keep all dynamically-updated DNS data in a subdomain and delegate that subdomain to a separate zone. This way, the top-level zone containing critical data such as the IP addresses of public web and mail servers need not allow dynamic update at all.
BIND 9.10.3-P2