Where we list some real zone files
Users have suggested that I include a real example of a working domain as well as the tutorial example.
I use this example with permission from David Bullock of LAND-5. These files were current 24th of September 1996, and were then edited to fit BIND 8 restrictions and use extensions by me. So, what you see here differs a bit from what you find if you query LAND-5's name servers now.
Here we find master zone sections for the two reverse zones needed: the 127.0.0 net, as well as LAND-5's 206.6.177
subnet, and a primary line for land-5's forward zone land-5.com
. Also note that instead of stuffing the files in a directory called pz
, as I do in this HOWTO, he puts them in a directory called zone
.
// Boot file for LAND-5 name server options { directory "/var/named"; }; controls { inet 127.0.0.1 allow { localhost; } keys { rndc_key; }; }; key "rndc_key" { algorithm hmac-md5; secret "c3Ryb25nIGVub3VnaCBmb3IgYSBtYW4gYnV0IG1hZGUgZm9yIGEgd29tYW4K"; }; zone "." { type hint; file "root.hints"; }; zone "0.0.127.in-addr.arpa" { type master; file "zone/127.0.0"; }; zone "land-5.com" { type master; file "zone/land-5.com"; }; zone "177.6.206.in-addr.arpa" { type master; file "zone/206.6.177"; };
If you put this in your named.conf file to play with PLEASE put ``notify no;
'' in the zone sections for the two land-5
zones so as to avoid accidents.
Keep in mind that this file is dynamic, and the one listed here is old. You're better off using a new one as explained earlier.
; <<>> DiG 8.1 <<>> @A.ROOT-SERVERS.NET. ; (1 server found) ;; res options: init recurs defnam dnsrch ;; got answer: ;; ->>HEADER<<- opcode: QUERY, status: NOERROR, id: 10 ;; flags: qr aa rd; QUERY: 1, ANSWER: 13, AUTHORITY: 0, ADDITIONAL: 13 ;; QUERY SECTION: ;; ., type = NS, class = IN ;; ANSWER SECTION: . 6D IN NS G.ROOT-SERVERS.NET. . 6D IN NS J.ROOT-SERVERS.NET. . 6D IN NS K.ROOT-SERVERS.NET. . 6D IN NS L.ROOT-SERVERS.NET. . 6D IN NS M.ROOT-SERVERS.NET. . 6D IN NS A.ROOT-SERVERS.NET. . 6D IN NS H.ROOT-SERVERS.NET. . 6D IN NS B.ROOT-SERVERS.NET. . 6D IN NS C.ROOT-SERVERS.NET. . 6D IN NS D.ROOT-SERVERS.NET. . 6D IN NS E.ROOT-SERVERS.NET. . 6D IN NS I.ROOT-SERVERS.NET. . 6D IN NS F.ROOT-SERVERS.NET. ;; ADDITIONAL SECTION: G.ROOT-SERVERS.NET. 5w6d16h IN A 192.112.36.4 J.ROOT-SERVERS.NET. 5w6d16h IN A 198.41.0.10 K.ROOT-SERVERS.NET. 5w6d16h IN A 193.0.14.129 L.ROOT-SERVERS.NET. 5w6d16h IN A 198.32.64.12 M.ROOT-SERVERS.NET. 5w6d16h IN A 202.12.27.33 A.ROOT-SERVERS.NET. 5w6d16h IN A 198.41.0.4 H.ROOT-SERVERS.NET. 5w6d16h IN A 128.63.2.53 B.ROOT-SERVERS.NET. 5w6d16h IN A 128.9.0.107 C.ROOT-SERVERS.NET. 5w6d16h IN A 192.33.4.12 D.ROOT-SERVERS.NET. 5w6d16h IN A 128.8.10.90 E.ROOT-SERVERS.NET. 5w6d16h IN A 192.203.230.10 I.ROOT-SERVERS.NET. 5w6d16h IN A 192.36.148.17 F.ROOT-SERVERS.NET. 5w6d16h IN A 192.5.5.241 ;; Total query time: 215 msec ;; FROM: roke.uio.no to SERVER: A.ROOT-SERVERS.NET. 198.41.0.4 ;; WHEN: Sun Feb 15 01:22:51 1998 ;; MSG SIZE sent: 17 rcvd: 436
Just the basics, the obligatory SOA record, and a record that maps 127.0.0.1 to localhost
. Both are required. No more should be in this file. It will probably never need to be updated, unless your nameserver or hostmaster address changes.
$TTL 3D @ IN SOA land-5.com. root.land-5.com. ( 199609203 ; Serial 28800 ; Refresh 7200 ; Retry 604800 ; Expire 86400) ; Minimum TTL NS land-5.com. 1 PTR localhost.
If you look at a random BIND installation you will probably find that the $TTL
line is missing as it is here. It was not used before, and only version 8.2 of BIND has started to warn about its absence. BIND 9 requires the $TTL
.
Here we see the mandatory SOA record, the needed NS records. We can see that he has a secondary name server at ns2.psi.net
. This is as it should be, always have a off site secondary server as backup. We can also see that he has a master host called land-5
which takes care of many of the different Internet services, and that he's done it with CNAMEs (a alternative is using A records).
As you see from the SOA record, the zone file originates at land-5.com
, the contact person is [email protected]
. hostmaster
is another oft used address for the contact person. The serial number is in the customary yyyymmdd format with todays serial number appended; this is probably the sixth version of zone file on the 20th of September 1996. Remember that the serial number must increase monotonically, here there is only one digit for todays serial#, so after 9 edits he has to wait until tomorrow before he can edit the file again. Consider using two digits.
$TTL 3D @ IN SOA land-5.com. root.land-5.com. ( 199609206 ; serial, todays date + todays serial # 8H ; refresh, seconds 2H ; retry, seconds 4W ; expire, seconds 1D ) ; minimum, seconds NS land-5.com. NS ns2.psi.net. MX 10 land-5.com. ; Primary Mail Exchanger TXT "LAND-5 Corporation" localhost A 127.0.0.1 router A 206.6.177.1 land-5.com. A 206.6.177.2 ns A 206.6.177.3 www A 207.159.141.192 ftp CNAME land-5.com. mail CNAME land-5.com. news CNAME land-5.com. funn A 206.6.177.2 ; ; Workstations ; ws-177200 A 206.6.177.200 MX 10 land-5.com. ; Primary Mail Host ws-177201 A 206.6.177.201 MX 10 land-5.com. ; Primary Mail Host ws-177202 A 206.6.177.202 MX 10 land-5.com. ; Primary Mail Host ws-177203 A 206.6.177.203 MX 10 land-5.com. ; Primary Mail Host ws-177204 A 206.6.177.204 MX 10 land-5.com. ; Primary Mail Host ws-177205 A 206.6.177.205 MX 10 land-5.com. ; Primary Mail Host ; {Many repetitive definitions deleted - SNIP} ws-177250 A 206.6.177.250 MX 10 land-5.com. ; Primary Mail Host ws-177251 A 206.6.177.251 MX 10 land-5.com. ; Primary Mail Host ws-177252 A 206.6.177.252 MX 10 land-5.com. ; Primary Mail Host ws-177253 A 206.6.177.253 MX 10 land-5.com. ; Primary Mail Host ws-177254 A 206.6.177.254 MX 10 land-5.com. ; Primary Mail Host
If you examine land-5s nameserver you will find that the host names are of the form ws_
number. As of late BIND 4 versions named started enforcing the restrictions on what characters may be used in host names. So that does not work with BIND 8 at all, and I substituted '-' (dash) for '_' (underline) for use in this HOWTO. But, as mentioned earlier, BIND 9 no longer enforces this restriction.
Another thing to note is that the workstations don't have individual names, but rather a prefix followed by the two last parts of the IP numbers. Using such a convention can simplify maintenance significantly, but can be a bit impersonal, and, in fact, be a source of irritation among your customers.
We also see that funn.land-5.com
is an alias for land-5.com
, but using an A record, not a CNAME record.
I'll comment on this file below
$TTL 3D @ IN SOA land-5.com. root.land-5.com. ( 199609206 ; Serial 28800 ; Refresh 7200 ; Retry 604800 ; Expire 86400) ; Minimum TTL NS land-5.com. NS ns2.psi.net. ; ; Servers ; 1 PTR router.land-5.com. 2 PTR land-5.com. 2 PTR funn.land-5.com. ; ; Workstations ; 200 PTR ws-177200.land-5.com. 201 PTR ws-177201.land-5.com. 202 PTR ws-177202.land-5.com. 203 PTR ws-177203.land-5.com. 204 PTR ws-177204.land-5.com. 205 PTR ws-177205.land-5.com. ; {Many repetitive definitions deleted - SNIP} 250 PTR ws-177250.land-5.com. 251 PTR ws-177251.land-5.com. 252 PTR ws-177252.land-5.com. 253 PTR ws-177253.land-5.com. 254 PTR ws-177254.land-5.com.
The reverse zone is the bit of the setup that seems to cause the most grief. It is used to find the host name if you have the IP number of a machine. Example: you are an FTP server and accept connections from FTP clients. As you are a Norwegian FTP server you want to accept more connections from clients in Norway and other Scandinavian countries and less from the rest of the world. When you get a connection from a client the C library is able to tell you the IP number of the connecting machine because the IP number of the client is contained in all the packets that are passed over the network. Now you can call a function called gethostbyaddr that looks up the name of a host given the IP number. Gethostbyaddr will ask a DNS server, which will then traverse the DNS looking for the machine. Supposing the client connection is from ws-177200.land-5.com. The IP number the C library provides to the FTP server is 206.6.177.200. To find out the name of that machine we need to find 200.177.6.206.in-addr.arpa
. The DNS server will first find the arpa.
servers, then find in-addr.arpa.
servers, following the reverse trail through 206, then 6 and at last finding the server for the 177.6.206.in-addr.arpa
zone at LAND-5. From which it will finally get the answer that for 200.177.6.206.in-addr.arpa
we have a ``PTR ws-177200.land-5.com
'' record, meaning that the name that goes with 206.6.177.200
is ws-177200.land-5.com
.
The FTP server prioritizes connections from the Scandinavian countries, i.e., *.no
, *.se
, *.dk
, the name ws-177200.land-5.com
clearly does not match any of those, and the server will put the connection in a connection class with less bandwidth and fewer clients allowed. If there was no reverse mapping of 206.2.177.200
through the in-addr.arpa
zone the server would have been unable to find the name at all and would have to settle to comparing 206.2.177.200
with *.no
, *.se
and *.dk
, none of which will match at all, it may even deny the connection for lack of classification.
Some people will tell you that reverse lookup mappings are only important for servers, or not important at all. Not so: Many ftp, news, IRC and even some http (WWW) servers will not accept connections from machines of which they are not able to find the name. So reverse mappings for machines are in fact mandatory.