# etcd `etcd` enabled reading zone data from an etcd instance. The data in etcd has to be encoded as a [message](https://github.com/skynetservices/skydns/blob/2fcff74cdc9f9a7dd64189a447ef27ac354b725f/msg/service.go#L26) like [SkyDNS](https//github.com/skynetservices/skydns). It should also work just like SkyDNS. The etcd middleware makes extensive use of the proxy middleware to forward and query other servers in the network. ## Syntax ~~~ etcd [zones...] ~~~ * `zones` zones etcd should be authoritative for. The path will default to `/skydns` the local etcd proxy (http://localhost:2379). If no zones are specified the block's zone will be used as the zone. If you want to `round robin` A and AAAA responses look at the `loadbalance` middleware. ~~~ etcd [zones...] { stubzones path /skydns endpoint endpoint... upstream address... tls cert key cacert debug } ~~~ * `stubzones` enable the stub zones feature. The stubzone is *only* done in the etcd tree located under the *first* zone specified. * `path` the path inside etcd, defaults to "/skydns". * `endpoint` the etcd endpoints, default to "http://localhost:2397". * `upstream` upstream resolvers to be used resolve external names found in etcd, think CNAMEs pointing to external names. If you want CoreDNS to act as a proxy for clients you'll need to add the proxy middleware. * `tls` followed the cert, key and the CA's cert filenames. * `debug` allow debug queries. Prefix the name with `o-o.debug.` to retrieve extra information in the additional section of the reply in the form of text records: skydns.test.skydns.dom.a. 300 CH TXT "127.0.0.1:0(10,0,,false)[0,]" This shows the complete key as the owername, the rdata of the TXT record has: `host:port(priority,weight,txt content,mail)[targetstrip,group]`. Any errors seen doing parsing will show up like this: . 0 CH TXT "/skydns/local/skydns/r/a: invalid character '.' after object key:value pair" which shows `a.r.skydns.local.` has a json encoding problem. ## Examples This is the default SkyDNS setup, with everying specified in full: ~~~ .:53 { etcd skydns.local { stubzones path /skydns endpoint http://localhost:2379 upstream 8.8.8.8:53 8.8.4.4:53 } prometheus cache 160 skydns.local loadbalance proxy . 8.8.8.8:53 8.8.4.4:53 } ~~~ ### Reverse zones Reverse zones are supported. You need to make CoreDNS aware of the fact that you are also authoritative for the reverse. For instance if you want to add the reverse for 10.0.0.0/24, you'll need to add the zone `10.in-addr.arpa` to the list of zones (the fun starts with reverse IPv6 zones in the ip6.arpa domain). Showing a snippet of a Corefile: ~~~ etcd skydns.local 10.in-addr.arpa { stubzones ... ~~~ Next you'll need to populate the zone with reverse records, here we add a reverse for 10.0.0.127 pointing to reverse.skydns.local. ~~~ % curl -XPUT http://127.0.0.1:4001/v2/keys/skydns/arpa/in-addr/10/0/0/127 \ -d value='{"host":"reverse.skydns.local."}' ~~~ Querying with dig: ~~~ % dig @localhost -x 10.0.0.127 +short reverse.atoom.net. ~~~ Or with *debug* queries enabled: ~~~ % dig @localhost -p 1053 o-o.debug.127.0.0.10.in-addr.arpa. PTR ;; OPT PSEUDOSECTION: ; EDNS: version: 0, flags:; udp: 4096 ;; QUESTION SECTION: ;o-o.debug.127.0.0.10.in-addr.arpa. IN PTR ;; ANSWER SECTION: 127.0.0.10.in-addr.arpa. 300 IN PTR reverse.atoom.net. ;; ADDITIONAL SECTION: 127.0.0.10.in-addr.arpa. 300 CH TXT "reverse.atoom.net.:0(10,0,,false)[0,]" ~~~