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17.2.2. Editing Zone Files
named
working directory located in /var/named/
by default, and each zone file is named according to the file
option in the zone
statement, usually in a way that relates to the domain in question and identifies the file as containing zone data, such as example.com.zone
.
Path | Description |
---|---|
/var/named/ | The working directory for the named service. The nameserver is not allowed to write to this directory. |
/var/named/slaves/ | The directory for secondary zones. This directory is writable by the named service. |
/var/named/dynamic/ | The directory for other files, such as dynamic DNS (DDNS) zones or managed DNSSEC keys. This directory is writable by the named service. |
/var/named/data/ | The directory for various statistics and debugging files. This directory is writable by the named service. |
17.2.2.1. Common Directives
-
$INCLUDE
- The
$INCLUDE
directive allows you to include another file at the place where it appears, so that other zone settings can be stored in a separate zone file.Example 17.7. Using the $INCLUDE directive
$INCLUDE /var/named/penguin.example.com
-
$ORIGIN
- The
$ORIGIN
directive allows you to append the domain name to unqualified records, such as those with the host name only. Note that the use of this directive is not necessary if the zone is specified in/etc/named.conf
, since the zone name is used by default.In Example 17.8, “Using the $ORIGIN directive”, any names used in resource records that do not end in a trailing period are appended withexample.com
.Example 17.8. Using the $ORIGIN directive
$ORIGIN example.com.
-
$TTL
- The
$TTL
directive allows you to set the default Time to Live (TTL) value for the zone, that is, how long is a zone record valid. Each resource record can contain its own TTL value, which overrides this directive.Increasing this value allows remote nameservers to cache the zone information for a longer period of time, reducing the number of queries for the zone and lengthening the amount of time required to propagate resource record changes.Example 17.9. Using the $TTL directive
$TTL 1D
17.2.2.2. Common Resource Records
-
A
- The Address record specifies an IP address to be assigned to a name. It takes the following form:
hostname IN A IP-address
If the hostname value is omitted, the record will point to the last specified hostname.In Example 17.10, “Using the A resource record”, the requests forserver1.example.com
are pointed to10.0.1.3
or10.0.1.5
.Example 17.10. Using the A resource record
server1 IN A 10.0.1.3 IN A 10.0.1.5
-
CNAME
- The Canonical Name record maps one name to another. Because of this, this type of record is sometimes referred to as an alias record. It takes the following form:
alias-name IN CNAME real-name
CNAME
records are most commonly used to point to services that use a common naming scheme, such aswww
for Web servers. However, there are multiple restrictions for their usage:- CNAME records should not point to other CNAME records. This is mainly to avoid possible infinite loops.
- CNAME records should not contain other resource record types (such as A, NS, MX, etc.). The only exception are DNSSEC related records (that is, RRSIG, NSEC, etc.) when the zone is signed.
- Other resource record that point to the fully qualified domain name (FQDN) of a host (that is, NS, MX, PTR) should not point to a CNAME record.
In Example 17.11, “Using the CNAME resource record”, theA
record binds a host name to an IP address, while theCNAME
record points the commonly usedwww
host name to it.Example 17.11. Using the CNAME resource record
server1 IN A 10.0.1.5 www IN CNAME server1
-
MX
- The Mail Exchange record specifies where the mail sent to a particular namespace controlled by this zone should go. It takes the following form:
IN MX preference-value email-server-name
The email-server-name is a fully qualified domain name (FQDN). The preference-value allows numerical ranking of the email servers for a namespace, giving preference to some email systems over others. TheMX
resource record with the lowest preference-value is preferred over the others. However, multiple email servers can possess the same value to distribute email traffic evenly among them.In Example 17.12, “Using the MX resource record”, the firstmail.example.com
email server is preferred to themail2.example.com
email server when receiving email destined for theexample.com
domain.Example 17.12. Using the MX resource record
example.com. IN MX 10 mail.example.com. IN MX 20 mail2.example.com.
-
NS
- The Nameserver record announces authoritative nameservers for a particular zone. It takes the following form:
IN NS nameserver-name
The nameserver-name should be a fully qualified domain name (FQDN). Note that when two nameservers are listed as authoritative for the domain, it is not important whether these nameservers are secondary nameservers, or if one of them is a primary server. They are both still considered authoritative.Example 17.13. Using the NS resource record
IN NS dns1.example.com. IN NS dns2.example.com.
-
PTR
- The Pointer record points to another part of the namespace. It takes the following form:
last-IP-digit IN PTR FQDN-of-system
The last-IP-digit directive is the last number in an IP address, and the FQDN-of-system is a fully qualified domain name (FQDN).PTR
records are primarily used for reverse name resolution, as they point IP addresses back to a particular name. See Section 17.2.2.4.2, “A Reverse Name Resolution Zone File” for more examples ofPTR
records in use. -
SOA
- The Start of Authority record announces important authoritative information about a namespace to the nameserver. Located after the directives, it is the first resource record in a zone file. It takes the following form:
@ IN SOA primary-name-server hostmaster-email ( serial-number time-to-refresh time-to-retry time-to-expire minimum-TTL )
The directives are as follows:- The
@
symbol places the$ORIGIN
directive (or the zone's name if the$ORIGIN
directive is not set) as the namespace being defined by thisSOA
resource record. - The primary-name-server directive is the host name of the primary nameserver that is authoritative for this domain.
- The hostmaster-email directive is the email of the person to contact about the namespace.
- The serial-number directive is a numerical value incremented every time the zone file is altered to indicate it is time for the
named
service to reload the zone. - The time-to-refresh directive is the numerical value secondary nameservers use to determine how long to wait before asking the primary nameserver if any changes have been made to the zone.
- The time-to-retry directive is a numerical value used by secondary nameservers to determine the length of time to wait before issuing a refresh request in the event that the primary nameserver is not answering. If the primary server has not replied to a refresh request before the amount of time specified in the time-to-expire directive elapses, the secondary servers stop responding as an authority for requests concerning that namespace.
- In BIND 4 and 8, the minimum-TTL directive is the amount of time other nameservers cache the zone's information. In BIND 9, it defines how long negative answers are cached for. Caching of negative answers can be set to a maximum of 3 hours (that is,
3H
).
When configuring BIND, all times are specified in seconds. However, it is possible to use abbreviations when specifying units of time other than seconds, such as minutes (M
), hours (H
), days (D
), and weeks (W
). Table 17.6, “Seconds compared to other time units” shows an amount of time in seconds and the equivalent time in another format.Table 17.6. Seconds compared to other time units Seconds Other Time Units 60 1M
1800 30M
3600 1H
10800 3H
21600 6H
43200 12H
86400 1D
259200 3D
604800 1W
31536000 365D
Example 17.14. Using the SOA resource record
@ IN SOA dns1.example.com. hostmaster.example.com. ( 2001062501 ; serial 21600 ; refresh after 6 hours 3600 ; retry after 1 hour 604800 ; expire after 1 week 86400 ) ; minimum TTL of 1 day
17.2.2.3. Comment Tags
named
service, but can prove useful when providing additional information to the user. Any text after the semicolon character to the end of the line is considered a comment. For example:
604800 ; expire after 1 week
17.2.2.4. Example Usage
17.2.2.4.1. A Simple Zone File
SOA
values.
Example 17.15. A simple zone file
$ORIGIN example.com. $TTL 86400 @ IN SOA dns1.example.com. hostmaster.example.com. ( 2001062501 ; serial 21600 ; refresh after 6 hours 3600 ; retry after 1 hour 604800 ; expire after 1 week 86400 ) ; minimum TTL of 1 day ; ; IN NS dns1.example.com. IN NS dns2.example.com. dns1 IN A 10.0.1.1 IN AAAA aaaa:bbbb::1 dns2 IN A 10.0.1.2 IN AAAA aaaa:bbbb::2 ; ; @ IN MX 10 mail.example.com. IN MX 20 mail2.example.com. mail IN A 10.0.1.5 IN AAAA aaaa:bbbb::5 mail2 IN A 10.0.1.6 IN AAAA aaaa:bbbb::6 ; ; ; This sample zone file illustrates sharing the same IP addresses ; for multiple services: ; services IN A 10.0.1.10 IN AAAA aaaa:bbbb::10 IN A 10.0.1.11 IN AAAA aaaa:bbbb::11 ftp IN CNAME services.example.com. www IN CNAME services.example.com. ; ;
dns1.example.com
and dns2.example.com
, and are tied to the 10.0.1.1
and 10.0.1.2
IP addresses respectively using the A
record.
MX
records point to mail
and mail2
via A
records. Since these names do not end in a trailing period, the $ORIGIN
domain is placed after them, expanding them to mail.example.com
and mail2.example.com
.
www.example.com
(WWW), are pointed at the appropriate servers using the CNAME
record.
zone
statement in the /etc/named.conf
similar to the following:
zone "example.com" IN { type master; file "example.com.zone"; allow-update { none; }; };
17.2.2.4.2. A Reverse Name Resolution Zone File
PTR
resource records are used to link the IP addresses to a fully qualified domain name as shown in Example 17.16, “A reverse name resolution zone file”.
Example 17.16. A reverse name resolution zone file
$ORIGIN 1.0.10.in-addr.arpa. $TTL 86400 @ IN SOA dns1.example.com. hostmaster.example.com. ( 2001062501 ; serial 21600 ; refresh after 6 hours 3600 ; retry after 1 hour 604800 ; expire after 1 week 86400 ) ; minimum TTL of 1 day ; @ IN NS dns1.example.com. ; 1 IN PTR dns1.example.com. 2 IN PTR dns2.example.com. ; 5 IN PTR server1.example.com. 6 IN PTR server2.example.com. ; 3 IN PTR ftp.example.com. 4 IN PTR ftp.example.com.
10.0.1.1
through 10.0.1.6
are pointed to the corresponding fully qualified domain name.
zone
statement in the /etc/named.conf
file similar to the following:
zone "1.0.10.in-addr.arpa" IN { type master; file "example.com.rr.zone"; allow-update { none; }; };
zone
statement, except for the zone name. Note that a reverse name resolution zone requires the first three blocks of the IP address reversed followed by .in-addr.arpa
. This allows the single block of IP numbers used in the reverse name resolution zone file to be associated with the zone.