280 lines
9 KiB
Groff
280 lines
9 KiB
Groff
.\" generated with Ronn/v0.7.3
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.\" http://github.com/rtomayko/ronn/tree/0.7.3
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.
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.TH "COREDNS\-ETCD" "7" "October 2018" "CoreDNS" "CoreDNS plugins"
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.
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.SH "NAME"
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\fIetcd\fR \- enables reading zone data from an etcd version 3 instance\.
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.
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.SH "DESCRIPTION"
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The data in etcd instance has to be encoded as a message \fIhttps://github\.com/skynetservices/skydns/blob/2fcff74cdc9f9a7dd64189a447ef27ac354b725f/msg/service\.go#L26\fR like SkyDNS \fIhttps://github\.com/skynetservices/skydns\fR\. It should also work just like SkyDNS\.
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.
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.P
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The etcd plugin makes extensive use of the proxy plugin to forward and query other servers in the network\.
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.
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.SH "SYNTAX"
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.
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.nf
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etcd [ZONES\.\.\.]
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.
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.fi
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.
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.IP "\(bu" 4
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\fBZONES\fR zones etcd should be authoritative for\.
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.
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.IP "" 0
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.
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.P
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The path will default to \fB/skydns\fR the local etcd3 proxy (http://localhost:2379)\. If no zones are specified the block\'s zone will be used as the zone\.
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.
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.P
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If you want to \fBround robin\fR A and AAAA responses look at the \fBloadbalance\fR plugin\.
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.
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.IP "" 4
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.
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.nf
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etcd [ZONES\.\.\.] {
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stubzones
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fallthrough [ZONES\.\.\.]
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path PATH
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endpoint ENDPOINT\.\.\.
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upstream [ADDRESS\.\.\.]
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tls CERT KEY CACERT
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}
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.
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.fi
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.
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.IP "" 0
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.
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.IP "\(bu" 4
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\fBstubzones\fR enables the stub zones feature\. The stubzone is \fIonly\fR done in the etcd tree located under the \fIfirst\fR zone specified\.
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.
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.IP "\(bu" 4
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\fBfallthrough\fR If zone matches but no record can be generated, pass request to the next plugin\. If \fB[ZONES\.\.\.]\fR is omitted, then fallthrough happens for all zones for which the plugin is authoritative\. If specific zones are listed (for example \fBin\-addr\.arpa\fR and \fBip6\.arpa\fR), then only queries for those zones will be subject to fallthrough\.
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.
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.IP "\(bu" 4
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\fBPATH\fR the path inside etcd\. Defaults to "/skydns"\.
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.
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.IP "\(bu" 4
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\fBENDPOINT\fR the etcd endpoints\. Defaults to "http://localhost:2379"\.
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.
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.IP "\(bu" 4
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\fBupstream\fR 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 plugin\. If no \fBADDRESS\fR is given, CoreDNS will resolve CNAMEs against itself\. \fBADDRESS\fR can be an IP address, and IP:port or a string pointing to a file that is structured as /etc/resolv\.conf\.
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.
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.IP "\(bu" 4
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\fBtls\fR followed by:
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.
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.IP "\(bu" 4
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no arguments, if the server certificate is signed by a system\-installed CA and no client cert is needed
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.
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.IP "\(bu" 4
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a single argument that is the CA PEM file, if the server cert is not signed by a system CA and no client cert is needed
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.
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.IP "\(bu" 4
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two arguments \- path to cert PEM file, the path to private key PEM file \- if the server certificate is signed by a system\-installed CA and a client certificate is needed
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.
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.IP "\(bu" 4
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three arguments \- path to cert PEM file, path to client private key PEM file, path to CA PEM file \- if the server certificate is not signed by a system\-installed CA and client certificate is needed\.
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.
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.IP "" 0
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.
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.IP "" 0
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.
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.SH "SPECIAL BEHAVIOUR"
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CoreDNS etcd plugin leverages directory structure to look for related entries\. For example an entry \fB/skydns/test/skydns/mx\fR would have entries like \fB/skydns/test/skydns/mx/a\fR, \fB/skydns/test/skydns/mx/b\fR and so on\. Similarly a directory \fB/skydns/test/skydns/mx1\fR will have all \fBmx1\fR entries\.
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.
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.P
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With etcd3, support for hierarchial keys are dropped \fIhttps://coreos\.com/etcd/docs/latest/learning/api\.html\fR\. This means there are no directories but only flat keys with prefixes in etcd3\. To accommodate lookups, etcdv3 plugin now does a lookup on prefix \fB/skydns/test/skydns/mx/\fR to search for entries like \fB/skydns/test/skydns/mx/a\fR etc, and if there is nothing found on \fB/skydns/test/skydns/mx/\fR, it looks for \fB/skydns/test/skydns/mx\fR to find entries like \fB/skydns/test/skydns/mx1\fR\.
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.
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.P
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This causes two lookups from CoreDNS to etcdv3 in certain cases\.
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.
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.SH "MIGRATION TO <code>ETCDV3</code> API"
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With CoreDNS release \fB1\.2\.0\fR, you\'ll need to migrate existing CoreDNS related data (if any) on your etcd server to etcdv3 API\. This is because with \fBetcdv3\fR support, CoreDNS can\'t see the data stored to an etcd server using \fBetcdv2\fR API\.
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.
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.P
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Refer this blog by CoreOS team \fIhttps://coreos\.com/blog/migrating\-applications\-etcd\-v3\.html\fR to migrate to etcdv3 API\.
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.
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.SH "EXAMPLES"
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This is the default SkyDNS setup, with everything specified in full:
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.
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.IP "" 4
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.
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.nf
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\&\. {
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etcd skydns\.local {
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stubzones
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path /skydns
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endpoint http://localhost:2379
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upstream 8\.8\.8\.8:53 8\.8\.4\.4:53
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}
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prometheus
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cache 160 skydns\.local
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loadbalance
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proxy \. 8\.8\.8\.8:53 8\.8\.4\.4:53
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}
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.
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.fi
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.IP "" 0
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.
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.P
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Or a setup where we use \fB/etc/resolv\.conf\fR as the basis for the proxy and the upstream when resolving external pointing CNAMEs\.
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.
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.IP "" 4
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.
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.nf
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\&\. {
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etcd skydns\.local {
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path /skydns
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upstream /etc/resolv\.conf
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}
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cache 160 skydns\.local
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proxy \. /etc/resolv\.conf
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}
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.
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.fi
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.
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.IP "" 0
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.
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.P
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Multiple endpoints are supported as well\.
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.
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.IP "" 4
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.
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.nf
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etcd skydns\.local {
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endpoint http://localhost:2379 http://localhost:4001
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\.\.\.
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.
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.fi
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.IP "" 0
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.
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.P
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Before getting started with these examples, please setup \fBetcdctl\fR (with \fBetcdv3\fR API) as explained here \fIhttps://coreos\.com/etcd/docs/latest/dev\-guide/interacting_v3\.html\fR\. This will help you to put sample keys in your etcd server\.
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.
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.P
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If you prefer, you can use \fBcurl\fR to populate the \fBetcd\fR server, but with \fBcurl\fR the endpoint URL depends on the version of \fBetcd\fR\. For instance, \fBetcd v3\.2\fR or before uses only [CLIENT\-URL]/v3alpha/\fIwhile \fBetcd v3\.5\fR or later uses [CLIENT\-URL]/v3/\fR \. Also, Key and Value must be base64 encoded in the JSON payload\. With, \fBetcdctl\fR these details are automatically taken care off\. You can check this document \fIhttps://github\.com/coreos/etcd/blob/master/Documentation/dev\-guide/api_grpc_gateway\.md#notes\fR for details\.
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.
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.SS "REVERSE ZONES"
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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 \fB0\.0\.10\.in\-addr\.arpa\fR to the list of zones\. Showing a snippet of a Corefile:
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.IP "" 4
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.nf
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etcd skydns\.local 10\.0\.0\.0/24 {
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stubzones
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\.\.\.
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.
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.fi
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.IP "" 0
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.
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.P
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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\.
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.IP "" 4
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.nf
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% etcdctl put /skydns/arpa/in\-addr/10/0/0/127 \'{"host":"reverse\.skydns\.local\."}\'
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.
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.fi
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.IP "" 0
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.P
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Querying with dig:
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.IP "" 4
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.nf
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% dig @localhost \-x 10\.0\.0\.127 +short
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reverse\.skydns\.local\.
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.fi
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.IP "" 0
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.
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.SS "ZONE NAME AS A RECORD"
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The zone name itself can be used A record\. This behavior can be achieved by writing special entries to the ETCD path of your zone\. If your zone is named \fBskydns\.local\fR for example, you can create an \fBA\fR record for this zone as follows:
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.
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.IP "" 4
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.nf
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% etcdctl put /skydns/local/skydns/ \'{"host":"1\.1\.1\.1","ttl":60}\'
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.
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.fi
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.IP "" 0
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.P
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If you query the zone name itself, you will receive the created \fBA\fR record:
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.IP "" 4
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.nf
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% dig +short skydns\.local @localhost
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1\.1\.1\.1
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.
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.fi
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.IP "" 0
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.P
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If you would like to use DNS RR for the zone name, you can set the following: ~~~ % etcdctl put /skydns/local/skydns/x1 \'{"host":"1\.1\.1\.1","ttl":"60"}\' % etcdctl put /skydns/local/skydns/x2 \'{"host":"1\.1\.1\.2","ttl":"60"}\' ~~~
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.
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.P
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If you query the zone name now, you will get the following response:
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.IP "" 4
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.nf
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% dig +short skydns\.local @localhost
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1\.1\.1\.1
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1\.1\.1\.2
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.fi
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.IP "" 0
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.
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.SS "ZONE NAME AS AAAA RECORD"
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If you would like to use \fBAAAA\fR records for the zone name too, you can set the following: ~~~ % etcdctl put /skydns/local/skydns/x3 \'{"host":"2003::8:1","ttl":"60"}\' % etcdctl put /skydns/local/skydns/x4 \'{"host":"2003::8:2","ttl":"60"}\' ~~~
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.P
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If you query the zone name for \fBAAAA\fR now, you will get the following response: ~~~ sh % dig +short skydns\.local AAAA @localhost 2003::8:1 2003::8:2 ~~~
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.SS "SRV RECORD"
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If you would like to use \fBSRV\fR records, you can set the following: ~~~ % etcdctl put /skydns/local/skydns/x5 \'{"host":"skydns\-local\.server","ttl":60,"priority":10,"port":8080}\' ~~~ Please notice that the key \fBhost\fR is the \fBtarget\fR in \fBSRV\fR, so it should be a domain name\.
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.P
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If you query the zone name for \fBSRV\fR now, you will get the following response:
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.IP "" 4
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.nf
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% dig +short skydns\.local SRV @localhost
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10 100 8080 skydns\-local\.server\.
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.fi
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.IP "" 0
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.SS "TXT RECORD"
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If you would like to use \fBTXT\fR records, you can set the following: ~~~ % etcdctl put /skydns/local/skydns/x6 \'{"ttl":60,"text":"this is a random text message\."}\' ~~~
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.P
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If you query the zone name for \fBTXT\fR now, you will get the following response: ~~~ sh % dig +short skydns\.local TXT @localhost "this is a random text message\." ~~~
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