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Customizing DNS Service

This page explains how to configure your DNS Pod and customize the DNS resolution process. In Kubernetes version 1.11 and later, CoreDNS is at GA and is installed by default with kubeadm. See CoreDNS ConfigMap options and Using CoreDNS for Service Discovery.

Before you begin

  • You need to have a Kubernetes cluster, and the kubectl command-line tool must be configured to communicate with your cluster. If you do not already have a cluster, you can create one by using Minikube, or you can use one of these Kubernetes playgrounds:

To check the version, enter kubectl version.

  • Kubernetes version 1.6 or later. To work with CoreDNS, version 1.9 or later.
  • The appropriate add-on: kube-dns or CoreDNS. To install with kubeadm, see the kubeadm reference documentation.

Introduction

DNS is a built-in Kubernetes service launched automatically using the addon manager cluster add-on.

As of Kubernetes v1.12, CoreDNS is the recommended DNS Server, replacing kube-dns. However, kube-dns may still be installed by default with certain Kubernetes installer tools. Refer to the documentation provided by your installer to know which DNS server is installed by default.

The CoreDNS Deployment is exposed as a Kubernetes Service with a static IP. Both the CoreDNS and kube-dns Service are named kube-dns in the metadata.name field. This is done so that there is greater interoperability with workloads that relied on the legacy kube-dns Service name to resolve addresses internal to the cluster. It abstracts away the implementation detail of which DNS provider is running behind that common endpoint. The kubelet passes DNS to each container with the --cluster-dns=<dns-service-ip> flag.

DNS names also need domains. You configure the local domain in the kubelet with the flag --cluster-domain=<default-local-domain>.

The DNS server supports forward lookups (A records), port lookups (SRV records), reverse IP address lookups (PTR records), and more. For more information see DNS for Services and Pods.

If a Pod’s dnsPolicy is set to “default”, it inherits the name resolution configuration from the node that the Pod runs on. The Pod’s DNS resolution should behave the same as the node. But see Known issues.

If you don’t want this, or if you want a different DNS config for pods, you can use the kubelet’s --resolv-conf flag. Set this flag to “” to prevent Pods from inheriting DNS. Set it to a valid file path to specify a file other than /etc/resolv.conf for DNS inheritance.

CoreDNS

CoreDNS is a general-purpose authoritative DNS server that can serve as cluster DNS, complying with the dns specifications.

CoreDNS ConfigMap options

CoreDNS is a DNS server that is modular and pluggable, and each plugin adds new functionality to CoreDNS. This can be configured by maintaining a Corefile, which is the CoreDNS configuration file. A cluster administrator can modify the ConfigMap for the CoreDNS Corefile to change how service discovery works.

In Kubernetes, CoreDNS is installed with the following default Corefile configuration.

apiVersion: v1
kind: ConfigMap
metadata:
  name: coredns
  namespace: kube-system
data:
  Corefile: |
    .:53 {
        errors
        health
        kubernetes cluster.local in-addr.arpa ip6.arpa {
           pods insecure
           fallthrough in-addr.arpa ip6.arpa
        }
        prometheus :9153
        forward . /etc/resolv.conf
        cache 30
        loop
        reload
        loadbalance
    }

The Corefile configuration includes the following plugins of CoreDNS:

The pods insecure option is provided for backward compatibility with kube-dns. You can use the pods verified option, which returns an A record only if there exists a pod in same namespace with matching IP. The pods disabled option can be used if you don’t use pod records.

  • prometheus: Metrics of CoreDNS are available at http://localhost:9153/metrics in Prometheus format.
  • forward: Any queries that are not within the cluster domain of Kubernetes will be forwarded to predefined resolvers (/etc/resolv.conf).
  • cache: This enables a frontend cache.
  • loop: Detects simple forwarding loops and halts the CoreDNS process if a loop is found.
  • reload: Allows automatic reload of a changed Corefile. After you edit the ConfigMap configuration, allow two minutes for your changes to take effect.
  • loadbalance: This is a round-robin DNS loadbalancer that randomizes the order of A, AAAA, and MX records in the answer.

You can modify the default CoreDNS behavior by modifying the ConfigMap.

Configuration of Stub-domain and upstream nameserver using CoreDNS

CoreDNS has the ability to configure stubdomains and upstream nameservers using the forward plugin.

Example

If a cluster operator has a Consul domain server located at 10.150.0.1, and all Consul names have the suffix .consul.local. To configure it in CoreDNS, the cluster administrator creates the following stanza in the CoreDNS ConfigMap.

consul.local:53 {
        errors
        cache 30
        forward . 10.150.0.1
    }

To explicitly force all non-cluster DNS lookups to go through a specific nameserver at 172.16.0.1, point the forward to the nameserver instead of /etc/resolv.conf

forward .  172.16.0.1

The final ConfigMap along with the default Corefile configuration looks like:

apiVersion: v1
kind: ConfigMap
metadata:
  name: coredns
  namespace: kube-system
data:
  Corefile: |
    .:53 {
        errors
        health
        kubernetes cluster.local in-addr.arpa ip6.arpa {
           pods insecure
           fallthrough in-addr.arpa ip6.arpa
        }
        prometheus :9153
        forward . 172.16.0.1
        cache 30
        loop
        reload
        loadbalance
    }
    consul.local:53 {
        errors
        cache 30
        forward . 10.150.0.1
    }

In Kubernetes version 1.10 and later, kubeadm supports automatic translation of the CoreDNS ConfigMap from the kube-dns ConfigMap. Note: While kube-dns accepts an FQDN for stubdomain and nameserver (eg: ns.foo.com), CoreDNS does not support this feature. During translation, all FQDN nameservers will be omitted from the CoreDNS config.

Kube-dns

Kube-dns is now available as an optional DNS server since CoreDNS is now the default. The running DNS Pod holds 3 containers:

  • kubedns“: watches the Kubernetes master for changes in Services and Endpoints, and maintains in-memory lookup structures to serve DNS requests.
  • dnsmasq“: adds DNS caching to improve performance.
  • sidecar“: provides a single health check endpoint to perform healthchecks for dnsmasq and kubedns.

Configure stub-domain and upstream DNS servers

Cluster administrators can specify custom stub domains and upstream nameservers by providing a ConfigMap for kube-dns (kube-system:kube-dns).

For example, the following ConfigMap sets up a DNS configuration with a single stub domain and two upstream nameservers:

apiVersion: v1
kind: ConfigMap
metadata:
  name: kube-dns
  namespace: kube-system
data:
  stubDomains: |
    {"acme.local": ["1.2.3.4"]}
  upstreamNameservers: |
    ["8.8.8.8", "8.8.4.4"]

DNS requests with the “.acme.local” suffix are forwarded to a DNS listening at 1.2.3.4. Google Public DNS serves the upstream queries.

The table below describes how queries with certain domain names map to their destination DNS servers:

Domain nameServer answering the query
kubernetes.default.svc.cluster.localkube-dns
foo.acme.localcustom DNS (1.2.3.4)
widget.comupstream DNS (one of 8.8.8.8, 8.8.4.4)

See ConfigMap options for details about the configuration option format.

Effects on Pods

Custom upstream nameservers and stub domains do not affect Pods with a dnsPolicy set to “Default” or “None”.

If a Pod’s dnsPolicy is set to “ClusterFirst”, its name resolution is handled differently, depending on whether stub-domain and upstream DNS servers are configured.

Without custom configurations: Any query that does not match the configured cluster domain suffix, such as “www.kubernetes.io”, is forwarded to the upstream nameserver inherited from the node.

With custom configurations: If stub domains and upstream DNS servers are configured, DNS queries are routed according to the following flow:

  1. The query is first sent to the DNS caching layer in kube-dns.

  2. From the caching layer, the suffix of the request is examined and then forwarded to the appropriate DNS, based on the following cases:

    • Names with the cluster suffix, for example “.cluster.local”: The request is sent to kube-dns.

    • Names with the stub domain suffix, for example “.acme.local”: The request is sent to the configured custom DNS resolver, listening for example at 1.2.3.4.

    • Names without a matching suffix, for example “widget.com”: The request is forwarded to the upstream DNS, for example Google public DNS servers at 8.8.8.8 and 8.8.4.4.

DNS lookup flow

ConfigMap options

Options for the kube-dns kube-system:kube-dns ConfigMap:

FieldFormatDescription
stubDomains (optional)A JSON map using a DNS suffix key such as “acme.local”, and a value consisting of a JSON array of DNS IPs.The target nameserver can itself be a Kubernetes Service. For instance, you can run your own copy of dnsmasq to export custom DNS names into the ClusterDNS namespace.
upstreamNameservers (optional)A JSON array of DNS IPs.If specified, the values replace the nameservers taken by default from the node’s /etc/resolv.conf. Limits: a maximum of three upstream nameservers can be specified.

Examples

Example: Stub domain

In this example, the user has a Consul DNS service discovery system they want to integrate with kube-dns. The consul domain server is located at 10.150.0.1, and all consul names have the suffix .consul.local. To configure Kubernetes, the cluster administrator creates the following ConfigMap:

apiVersion: v1
kind: ConfigMap
metadata:
  name: kube-dns
  namespace: kube-system
data:
  stubDomains: |
    {"consul.local": ["10.150.0.1"]}

Note that the cluster administrator does not want to override the node’s upstream nameservers, so they did not specify the optional upstreamNameservers field.

Example: Upstream nameserver

In this example the cluster administrator wants to explicitly force all non-cluster DNS lookups to go through their own nameserver at 172.16.0.1. In this case, they create a ConfigMap with the upstreamNameservers field specifying the desired nameserver:

apiVersion: v1
kind: ConfigMap
metadata:
  name: kube-dns
  namespace: kube-system
data:
  upstreamNameservers: |
    ["172.16.0.1"]

CoreDNS configuration equivalent to kube-dns

CoreDNS supports the features of kube-dns and more. A ConfigMap created for kube-dns to support StubDomainsand upstreamNameservers translates to the forward plugin in CoreDNS. Similarly, the Federations plugin in kube-dns translates to the federation plugin in CoreDNS.

Example

This example ConfigMap for kubedns specifies federations, stubdomains and upstreamnameservers:

apiVersion: v1
data:
  federations: |
    {"foo" : "foo.feddomain.com"}
  stubDomains: |
    {"abc.com" : ["1.2.3.4"], "my.cluster.local" : ["2.3.4.5"]}
  upstreamNameservers: |
    ["8.8.8.8", "8.8.4.4"]
kind: ConfigMap

The equivalent configuration in CoreDNS creates a Corefile:

  • For federations:

    federation cluster.local {
           foo foo.feddomain.com
        }
  • For stubDomains:

    abc.com:53 {
        errors
        cache 30
        forward . 1.2.3.4
    }
    my.cluster.local:53 {
        errors
        cache 30
        forward . 2.3.4.5
    }

The complete Corefile with the default plugins:

.:53 {
        errors
        health
        kubernetes cluster.local in-addr.arpa ip6.arpa {
           pods insecure
           fallthrough in-addr.arpa ip6.arpa
        }
        federation cluster.local {
           foo foo.feddomain.com
        }
        prometheus :9153
        forward .  8.8.8.8 8.8.4.4
        cache 30
    }
    abc.com:53 {
        errors
        cache 30
        forward . 1.2.3.4
    }
    my.cluster.local:53 {
        errors
        cache 30
        forward . 2.3.4.5
    }

Migration to CoreDNS

To migrate from kube-dns to CoreDNS, a detailed blog is available to help users adapt CoreDNS in place of kube-dns. A cluster administrator can also migrate using the deploy script.

What’s next

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