k8s_gateway

A CoreDNS plugin that is very similar to k8s_external but supporting all types of Kubernetes external resources - Ingress, Service of type LoadBalancer and networking.x-k8s.io/Gateway (when it becomes available).

This plugin relies on it's own connection to the k8s API server and doesn't share any code with the existing kubernetes plugin. The assumption is that this plugin can now be deployed as a separate instance (alongside the internal kube-dns) and act as a single external DNS interface into your Kubernetes cluster(s).

Description

k8s_gateway resolves Kubernetes resources with their external IP addresses based on zones specified in the configuration. This plugin will resolve the following type of resources:

Kind	Matching Against	External IPs are from
Ingress	all FQDNs from spec.rules[*].host matching configured zones	.status.loadBalancer.ingress
Service[*]	name.namespace + any of the configured zones	.status.loadBalancer.ingress

[*]: Only resolves service of type LoadBalancer

Currently only supports A-type queries, all other queries result in NODATA responses.

This plugin is NOT supposed to be used for intra-cluster DNS resolution and does not contain the default upstream kubernetes plugin.

Install

The recommended installation method is using the helm chart provided in the repo:

helm repo add k8s_gateway https://ori-edge.github.io/k8s_gateway/
helm install exdns --set domain=foo k8s_gateway/k8s-gateway

Alternatively, for labbing and testing purposes k8s_gateway can be deployed with a single manifest:

kubectl apply -f https://github.com/ori-edge/k8s_gateway/blob/master/examples/install-clusterwide.yml

Configure

The only required configuration option is the zone that plugin should be authoritative for:

k8s_gateway ZONE 

Additional configuration options can be used to further customize the behaviour of a plugin:

{
k8s_gateway ZONE 
    resources [RESOURCES...]
    ttl TTL
    apex APEX
    secondary SECONDARY
}

• resources a subset of supported Kubernetes resources to watch. By default all supported resources are monitored.
• ttl can be used to override the default TTL value of 60 seconds.
• apex can be used to override the default apex record value of {ReleaseName}-k8s-gateway.{Namespace}
• secondary can be used to specify the optional apex record value of a peer nameserver running in the cluster (see Dual Nameserver Deployment section below).

Example:

k8s_gateway example.com {
    resources Ingress
    ttl 30
    apex exdns-1-k8s-gateway.kube-system
    secondary exdns-2-k8s-gateway.kube-system
}

Dual Nameserver Deployment

Most of the time, deploying a single k8s_gateway instance is enough to satisfy most popular DNS resolvers. However, some of the stricter resolvers expect a zone to be available on at least two servers (RFC1034, section 4.1). In order to satisfy this requirement, a pair of k8s_gateway instances need to be deployed, each with its own unique loadBalancer IP. This way the zone NS record will point to a pair of glue records, hard-coded to these IPs.

Another consideration is that in this case k8s_gateway instances need to know about their peers in order to provide consistent responses (at least the same set of nameservers). Configuration-wise this would require the following:

1. Two separate k8s_gateway deployments with two separate type: LoadBalancer services in front of them.
2. No apex override, which would default to releaseName.namespace
3. A peer nameserver's apex must be included in secondary configuration option
4. Glue records must match the releaseName.namespace.zone of each of the running plugin

For example, the above requirements could be satisfied with the following commands:

1. Install two instances of k8s_plugin gateway pointing at each other:

helm install -n kube-system exdns-1 --set domain=zone.example.com --set secondary=exdns-2.kube-system ./charts/k8s-gateway
helm install -n kube-system exdns-2 --set domain=zone.example.com --set secondary=exdns-1.kube-system ./charts/k8s-gateway

2. Obtain their external IPs

kubectl -n kube-system get svc -l app.kubernetes.io/name=k8s-gateway
NAME                  TYPE           CLUSTER-IP       EXTERNAL-IP   PORT(S)        AGE
exdns-1-k8s-gateway   LoadBalancer   10.103.229.129   198.51.100.1  53:32122/UDP   5m22s
exdns-2-k8s-gateway   LoadBalancer   10.107.87.145    203.0.113.11 53:30009/UDP   4m21s

3. Delegate the domain from the parent zone by creating a pair of NS records and a pair of glue records pointing to the above IPs:

zone.example.com (NS record) -> exdns-1-k8s-gateway.zone.example.com (A record) -> 198.51.100.1
zone.example.com (NS record) -> exdns-2-k8s-gateway.zone.example.com (A record) -> 203.0.113.11

Build

With compile-time configuration file

$ git clone https://github.com/coredns/coredns
$ cd coredns
$ vim plugin.cfg
# Replace lines with kubernetes and k8s_external with k8s_gateway:github.com/ori-edge/k8s_gateway
$ go generate
$ go build
$ ./coredns -plugins | grep k8s_gateway

With external golang source code

$ git clone https://github.com/ori-edge/k8s_gateway.git
$ cd k8s_gateway
$ go build cmd/coredns.go
$ ./coredns -plugins | grep k8s_external

For more details refer to this CoreDNS doc

Hack

This repository contains a Tiltfile that can be used for local development. To setup a local environment do:

make up

Some test resources can be added to the k8s cluster with:

kubectl apply -f ./test/test.yml

Test queries can be sent to the exposed CoreDNS service like this:

$ ip=$(kubectl get nodes -o jsonpath='{.items[0].status.addresses[0].address}')
$ dig @$ip -p 32553 myservicea.foo.org +short
172.18.0.2
$ dig @$ip -p 32553 test.default.foo.org +short
192.168.1.241

Also see

Blogpost
Helm repo guide