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Setting up ExternalDNS for Services on AWS

This tutorial describes how to setup ExternalDNS for usage within a Kubernetes cluster on AWS. Make sure to use >=0.11.0 version of ExternalDNS for this tutorial

IAM Policy

The following IAM Policy document allows ExternalDNS to update Route53 Resource Record Sets and Hosted Zones. You'll want to create this Policy in IAM first. In our example, we'll call the policy AllowExternalDNSUpdates (but you can call it whatever you prefer).

If you prefer, you may fine-tune the policy to permit updates only to explicit Hosted Zone IDs.

{
  "Version": "2012-10-17",
  "Statement": [
    {
      "Effect": "Allow",
      "Action": [
        "route53:ChangeResourceRecordSets"
      ],
      "Resource": [
        "arn:aws:route53:::hostedzone/*"
      ]
    },
    {
      "Effect": "Allow",
      "Action": [
        "route53:ListHostedZones",
        "route53:ListResourceRecordSets",
        "route53:ListTagsForResource"
      ],
      "Resource": [
        "*"
      ]
    }
  ]
}

If you are using the AWS CLI, you can run the following to install the above policy (saved as policy.json). This can be use in subsequent steps to allow ExternalDNS to access Route53 zones.

aws iam create-policy --policy-name "AllowExternalDNSUpdates" --policy-document file://policy.json

# example: arn:aws:iam::XXXXXXXXXXXX:policy/AllowExternalDNSUpdates
export POLICY_ARN=$(aws iam list-policies \
 --query 'Policies[?PolicyName==`AllowExternalDNSUpdates`].Arn' --output text)

Provisioning a Kubernetes cluster

You can use eksctl to easily provision an Amazon Elastic Kubernetes Service (EKS) cluster that is suitable for this tutorial. See Getting started with Amazon EKS – eksctl.

export EKS_CLUSTER_NAME="my-externaldns-cluster"
export EKS_CLUSTER_REGION="us-east-2"
export KUBECONFIG="$HOME/.kube/${EKS_CLUSTER_NAME}-${EKS_CLUSTER_REGION}.yaml"

eksctl create cluster --name $EKS_CLUSTER_NAME --region $EKS_CLUSTER_REGION

Feel free to use other provisioning tools or an existing cluster. If Terraform is used, vpc and eks modules are recommended for standing up an EKS cluster. Amazon has a workshop called Amazon EKS Terraform Workshop that may be useful for this process.

Permissions to modify DNS zone

You will need to use the above policy (represented by the POLICY_ARN environment variable) to allow ExternalDNS to update records in Route53 DNS zones. Here are three common ways this can be accomplished:

For this tutorial, ExternalDNS will use the environment variable EXTERNALDNS_NS to represent the namespace, defaulted to default. Feel free to change this to something else, such externaldns or kube-addons. Make sure to edit the subjects[0].namespace for the ClusterRoleBinding resource when deploying ExternalDNS with RBAC enabled. See Manifest (for clusters with RBAC enabled) for more information.

Additionally, throughout this tutorial, the example domain of example.com is used. Change this to appropriate domain under your control. See Set up a hosted zone section.

Node IAM Role

In this method, you can attach a policy to the Node IAM Role. This will allow nodes in the Kubernetes cluster to access Route53 zones, which allows ExternalDNS to update DNS records. Given that this allows all containers to access Route53, not just ExternalDNS, running on the node with these privileges, this method is not recommended, and is only suitable for limited limited test environments.

If you are using eksctl to provision a new cluster, you add the policy at creation time with:

eksctl create cluster --external-dns-access \
  --name $EKS_CLUSTER_NAME --region $EKS_CLUSTER_REGION \

⚠️ WARNING: This will assign allow read-write access to all nodes in the cluster, not just ExternalDNS. For this reason, this method is only suitable for limited test environments.

If you already provisioned a cluster or use other provisioning tools like Terraform, you can use AWS CLI to attach the policy to the Node IAM Role.

Get the Node IAM role name

The role name of the role associated with the node(s) where ExternalDNS will run is needed. An easy way to get the role name is to use the AWS web console (https://console.aws.amazon.com/eks/), and find any instance in the target node group and copy the role name associated with that instance.

Get role name with a single managed nodegroup

From the command line, if you have a single managed node group, the default with eksctl create cluster, you can find the role name with the following:

# get managed node group name (assuming there's only one node group)
GROUP_NAME=$(aws eks list-nodegroups --cluster-name $EKS_CLUSTER_NAME \
  --query nodegroups --out text)
# fetch role arn given node group name
ROLE_ARN=$(aws eks describe-nodegroup --cluster-name $EKS_CLUSTER_NAME \
  --nodegroup-name $GROUP_NAME --query nodegroup.nodeRole --out text)
# extract just the name part of role arn
ROLE_NAME=${NODE_ROLE_ARN##*/}
Get role name with other configurations

If you have multiple node groups or any unmanaged node groups, the process gets more complex. The first step is to get the instance host name of the desired node to where ExternalDNS will be deployed or is already deployed:

# node instance name of one of the external dns pods currently running
INSTANCE_NAME=$(kubectl get pods --all-namespaces \
  --selector app.kubernetes.io/instance=external-dns \
  --output jsonpath='{.items[0].spec.nodeName}')

# instance name of one of the nodes (change if node group is different)
INSTANCE_NAME=$(kubectl get nodes --output name | cut -d'/' -f2 | tail -1)

With the instance host name, you can then get the instance id:

get_instance_id() {
  INSTANCE_NAME=$1 # example: ip-192-168-74-34.us-east-2.compute.internal

  # get list of nodes
  # ip-192-168-74-34.us-east-2.compute.internal	aws:///us-east-2a/i-xxxxxxxxxxxxxxxxx
  # ip-192-168-86-105.us-east-2.compute.internal	aws:///us-east-2a/i-xxxxxxxxxxxxxxxxx
  NODES=$(kubectl get nodes \
   --output jsonpath='{range .items[*]}{.metadata.name}{"\t"}{.spec.providerID}{"\n"}{end}')

  # print instance id from matching node
  grep $INSTANCE_NAME <<< "$NODES" | cut -d'/' -f5
}

INSTANCE_ID=$(get_instance_id $INSTANCE_NAME)

With the instance id, you can get the associated role name:

findRoleName() {
  INSTANCE_ID=$1

  # get all of the roles
  ROLES=($(aws iam list-roles --query Roles[*].RoleName --out text))
  for ROLE in ${ROLES[*]}; do
    # get instance profile arn
    PROFILE_ARN=$(aws iam list-instance-profiles-for-role \
      --role-name $ROLE --query InstanceProfiles[0].Arn --output text)
    # if there is an instance profile
    if [[ "$PROFILE_ARN" != "None" ]]; then
      # get all the instances with this associated instance profile
      INSTANCES=$(aws ec2 describe-instances \
        --filters Name=iam-instance-profile.arn,Values=$PROFILE_ARN \
        --query Reservations[*].Instances[0].InstanceId --out text)
      # find instances that match the instant profile
      for INSTANCE in ${INSTANCES[*]}; do
        # set role name value if there is a match
        if [[ "$INSTANCE_ID" == "$INSTANCE" ]]; then ROLE_NAME=$ROLE; fi
      done
    fi
  done

  echo $ROLE_NAME
}

NODE_ROLE_NAME=$(findRoleName $INSTANCE_ID)

Using the role name, you can associate the policy that was created earlier:

# attach policy arn created earlier to node IAM role
aws iam attach-role-policy --role-name $NODE_ROLE_NAME --policy-arn $POLICY_ARN

⚠️ WARNING: This will assign allow read-write access to all pods running on the same node pool, not just the ExternalDNS pod(s).

Deploy ExternalDNS with attached policy to Node IAM Role

If ExternalDNS is not yet deployed, follow the steps under Deploy ExternalDNS using either RBAC or non-RBAC.

NOTE: Before deleting the cluster during, be sure to run aws iam detach-role-policy. Otherwise, there can be errors as the provisioning system, such as eksctl or terraform, will not be able to delete the roles with the attached policy.

Static credentials

In this method, the policy is attached to an IAM user, and the credentials secrets for the IAM user are then made available using a Kubernetes secret.

This method is not the preferred method as the secrets in the credential file could be copied and used by an unauthorized threat actor. However, if the Kubernetes cluster is not hosted on AWS, it may be the only method available. Given this situation, it is important to limit the associated privileges to just minimal required privileges, i.e. read-write access to Route53, and not used a credentials file that has extra privileges beyond what is required.

Create IAM user and attach the policy

# create IAM user
aws iam create-user --user-name "externaldns"

# attach policy arn created earlier to IAM user
aws iam attach-user-policy --user-name "externaldns" --policy-arn $POLICY_ARN

Create the static credentials

SECRET_ACCESS_KEY=$(aws iam create-access-key --user-name "externaldns")
cat <<-EOF > /local/path/to/credentials

[default]
aws_access_key_id = $(echo $SECRET_ACCESS_KEY | jq -r '.AccessKey.AccessKeyId')
aws_secret_access_key = $(echo $SECRET_ACCESS_KEY | jq -r '.AccessKey.SecretAccessKey')
EOF

Create Kubernetes secret from credentials

kubectl create secret generic external-dns \
  --namespace ${EXTERNALDNS_NS:-"default"} --from-file /local/path/to/credentials

Deploy ExternalDNS using static credentials

Follow the steps under Deploy ExternalDNS using either RBAC or non-RBAC. Make sure to uncomment the section that mounts volumes, so that the credentials can be mounted.

IAM Roles for Service Accounts

IRSA (IAM roles for Service Accounts) allows cluster operators to map AWS IAM Roles to Kubernetes Service Accounts. This essentially allows only ExternalDNS pods to access Route53 without exposing any static credentials.

This is the preferred method as it implements PoLP (Principal of Least Privilege).

IMPORTANT: This method requires using KSA (Kuberntes service account) and RBAC.

This method requires deploying with RBAC. See Manifest (for clusters with RBAC enabled) when ready to deploy ExternalDNS.

NOTE: Similar methods to IRSA on AWS are kiam, which is in maintenence mode, and has instructions for creating an IAM role, and also kube2iam. IRSA is the officially supported method for EKS clusters, and so for non-EKS clusters on AWS, these other tools could be an option.

Verify OIDC is supported

aws eks describe-cluster --name $EKS_CLUSTER_NAME \
  --query "cluster.identity.oidc.issuer" --output text

Associate OIDC to cluster

Configure the cluster with an OIDC provider and add support for IRSA (IAM roles for Service Accounts).

If you used eksctl to provision the EKS cluster, you can update it with the following command:

eksctl utils associate-iam-oidc-provider \
  --cluster $EKS_CLUSTER_NAME --approve

If the cluster was provisioned with Terraform, you can use the iam_openid_connect_provider resource (ref) to associate to the OIDC provider.

Create an IAM role bound to a service account

For the next steps in this process, we will need to associate the external-dns service account and a role used to grant access to Route53. This requires the following steps:

  1. Create a role with a trust relationship to the cluster's OIDC provider
  2. Attach the AllowExternalDNSUpdates policy to the role
  3. Create the external-dns service account
  4. Add annotation to the service account with the role arn
Use eksctl with eksctl created EKS cluster

If eksctl was used to provision the EKS cluster, you can perform all of these steps with the following command:

eksctl create iamserviceaccount \
  --cluster $EKS_CLUSTER_NAME \
  --name "external-dns" \
  --namespace ${EXTERNALDNS_NS:-"default"} \
  --attach-policy-arn $POLICY_ARN \
  --approve
Use aws cli with any EKS cluster

Otherwise, we can do the following steps using aws commands (also see Creating an IAM role and policy for your service account):

ACCOUNT_ID=$(aws sts get-caller-identity \
  --query "Account" --output text)
OIDC_PROVIDER=$(aws eks describe-cluster --name $EKS_CLUSTER_NAME \
  --query "cluster.identity.oidc.issuer" --output text | sed -e 's|^https://||')

cat <<-EOF > trust.json
{
    "Version": "2012-10-17",
    "Statement": [
        {
            "Effect": "Allow",
            "Principal": {
                "Federated": "arn:aws:iam::$ACCOUNT_ID:oidc-provider/$OIDC_PROVIDER"
            },
            "Action": "sts:AssumeRoleWithWebIdentity",
            "Condition": {
                "StringEquals": {
                    "$OIDC_PROVIDER:sub": "system:serviceaccount:${EXTERNALDNS_NS:-"default"}:external-dns",
                    "$OIDC_PROVIDER:aud": "sts.amazonaws.com"
                }
            }
        }
    ]
}
EOF

IRSA_ROLE="external-dns-irsa-role"
aws iam create-role --role-name $IRSA_ROLE --assume-role-policy-document file://trust.json
aws iam attach-role-policy --role-name $IRSA_ROLE --policy-arn $POLICY_ARN

ROLE_ARN=$(aws iam get-role --role-name $IRSA_ROLE --query Role.Arn --output text)

# Create service account (skip is already created)
kubectl create serviceaccount "external-dns" --namespace ${EXTERNALDNS_NS:-"default"}

# Add annotation referencing IRSA role
kubectl patch serviceaccount "external-dns" --namespace ${EXTERNALDNS_NS:-"default"} --patch \
 "{\"metadata\": { \"annotations\": { \"eks.amazonaws.com/role-arn\": \"$ROLE_ARN\" }}}"

If any part of this step is misconfigured, such as the role with incorrect namespace configured in the trust relationship, annotation pointing the the wrong role, etc., you will see errors like WebIdentityErr: failed to retrieve credentials. Check the configuration and make corrections.

When the service account annotations are updated, then the current running pods will have to be terminated, so that new pod(s) with proper configuration (environment variables) will be created automatically.

When annotation is added to service account, the ExternalDNS pod(s) scheduled will have AWS_ROLE_ARN, AWS_STS_REGIONAL_ENDPOINTS, and AWS_WEB_IDENTITY_TOKEN_FILE environment variables injected automatically.

Deploy ExternalDNS using IRSA

Follow the steps under Manifest (for clusters with RBAC enabled). Make sure to comment out the service account section if this has been created already.

If you deployed ExternalDNS before adding the service account annotation and the corresponding role, you will likely see error with failed to list hosted zones: AccessDenied: User. You can delete the current running ExternalDNS pod(s) after updating the annotation, so that new pods scheduled will have appropriate configuration to access Route53.

Set up a hosted zone

If you prefer to try-out ExternalDNS in one of the existing hosted-zones you can skip this step

Create a DNS zone which will contain the managed DNS records. This tutorial will use the fictional domain of example.com.

aws route53 create-hosted-zone --name "example.com." \
  --caller-reference "external-dns-test-$(date +%s)"

Make a note of the nameservers that were assigned to your new zone.

ZONE_ID=$(aws route53 list-hosted-zones-by-name --output json \
  --dns-name "example.com." --query HostedZones[0].Id --out text)

aws route53 list-resource-record-sets --output text \
 --hosted-zone-id $ZONE_ID --query \
 "ResourceRecordSets[?Type == 'NS'].ResourceRecords[*].Value | []" | tr '\t' '\n'

This should yield something similar this:

ns-695.awsdns-22.net.
ns-1313.awsdns-36.org.
ns-350.awsdns-43.com.
ns-1805.awsdns-33.co.uk.

If using your own domain that was registered with a third-party domain registrar, you should point your domain's name servers to the values in the from the list above. Please consult your registrar's documentation on how to do that.

Deploy ExternalDNS

Connect your kubectl client to the cluster you want to test ExternalDNS with. Then apply one of the following manifests file to deploy ExternalDNS. You can check if your cluster has RBAC by kubectl api-versions | grep rbac.authorization.k8s.io.

For clusters with RBAC enabled, be sure to choose the correct namespace. For this tutorial, the enviornment variable EXTERNALDNS_NS will refer to the namespace. You can set this to a value of your choice:

export EXTERNALDNS_NS="default" # externaldns, kube-addons, etc

# create namespace if it does not yet exist
kubectl get namespaces | grep -q $EXTERNALDNS_NS || \
  kubectl create namespace $EXTERNALDNS_NS

Manifest (for clusters without RBAC enabled)

Save the following below as externaldns-no-rbac.yaml.

apiVersion: apps/v1
kind: Deployment
metadata:
  name: external-dns
  labels:
    app.kubernetes.io/name: external-dns
spec:
  strategy:
    type: Recreate
  selector:
    matchLabels:
      app.kubernetes.io/name: external-dns
  template:
    metadata:
      labels:
        app.kubernetes.io/name: external-dns
    spec:
      containers:
        - name: external-dns
          image: registry.k8s.io/external-dns/external-dns:v0.13.5
          args:
            - --source=service
            - --source=ingress
            - --domain-filter=example.com # will make ExternalDNS see only the hosted zones matching provided domain, omit to process all available hosted zones
            - --provider=aws
            - --policy=upsert-only # would prevent ExternalDNS from deleting any records, omit to enable full synchronization
            - --aws-zone-type=public # only look at public hosted zones (valid values are public, private or no value for both)
            - --registry=txt
            - --txt-owner-id=my-hostedzone-identifier
          env:
            - name: AWS_DEFAULT_REGION
              value: us-east-1 # change to region where EKS is installed
      # # Uncomment below if using static credentials
      #       - name: AWS_SHARED_CREDENTIALS_FILE
      #        value: /.aws/credentials
      #     volumeMounts:
      #       - name: aws-credentials
      #         mountPath: /.aws
      #         readOnly: true
      # volumes:
      #   - name: aws-credentials
      #     secret:
      #       secretName: external-dns

When ready you can deploy:

kubectl create --filename externaldns-no-rbac.yaml \
  --namespace ${EXTERNALDNS_NS:-"default"}

Manifest (for clusters with RBAC enabled)

Save the following below as externaldns-with-rbac.yaml.

# comment out sa if it was previously created
apiVersion: v1
kind: ServiceAccount
metadata:
  name: external-dns
  labels:
    app.kubernetes.io/name: external-dns
---
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRole
metadata:
  name: external-dns
  labels:
    app.kubernetes.io/name: external-dns
rules:
  - apiGroups: [""]
    resources: ["services","endpoints","pods","nodes"]
    verbs: ["get","watch","list"]
  - apiGroups: ["extensions","networking.k8s.io"]
    resources: ["ingresses"]
    verbs: ["get","watch","list"]
---
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRoleBinding
metadata:
  name: external-dns-viewer
  labels:
    app.kubernetes.io/name: external-dns
roleRef:
  apiGroup: rbac.authorization.k8s.io
  kind: ClusterRole
  name: external-dns
subjects:
  - kind: ServiceAccount
    name: external-dns
    namespace: default # change to desired namespace: externaldns, kube-addons
---
apiVersion: apps/v1
kind: Deployment
metadata:
  name: external-dns
  labels:
    app.kubernetes.io/name: external-dns
spec:
  strategy:
    type: Recreate
  selector:
    matchLabels:
      app.kubernetes.io/name: external-dns
  template:
    metadata:
      labels:
        app.kubernetes.io/name: external-dns
    spec:
      serviceAccountName: external-dns
      containers:
        - name: external-dns
          image: registry.k8s.io/external-dns/external-dns:v0.13.5
          args:
            - --source=service
            - --source=ingress
            - --domain-filter=example.com # will make ExternalDNS see only the hosted zones matching provided domain, omit to process all available hosted zones
            - --provider=aws
            - --policy=upsert-only # would prevent ExternalDNS from deleting any records, omit to enable full synchronization
            - --aws-zone-type=public # only look at public hosted zones (valid values are public, private or no value for both)
            - --registry=txt
            - --txt-owner-id=external-dns
          env:
            - name: AWS_DEFAULT_REGION
              value: us-east-1 # change to region where EKS is installed
     # # Uncommend below if using static credentials
     #        - name: AWS_SHARED_CREDENTIALS_FILE
     #          value: /.aws/credentials
     #      volumeMounts:
     #        - name: aws-credentials
     #          mountPath: /.aws
     #          readOnly: true
     #  volumes:
     #    - name: aws-credentials
     #      secret:
     #        secretName: external-dns

When ready deploy:

kubectl create --filename externaldns-with-rbac.yaml \
  --namespace ${EXTERNALDNS_NS:-"default"}

Arguments

This list is not the full list, but a few arguments that where chosen.

aws-zone-type

aws-zone-type allows filtering for private and public zones

Annotations

Annotations which are specific to AWS.

alias

external-dns.alpha.kubernetes.io/alias if set to true on an ingress, it will create an ALIAS record when the target is an ALIAS as well. To make the target an alias, the ingress needs to be configured correctly as described in the docs. In particular, the argument --publish-service=default/nginx-ingress-controller has to be set on the nginx-ingress-controller container. If one uses the nginx-ingress Helm chart, this flag can be set with the controller.publishService.enabled configuration option.

target-hosted-zone

external-dns.alpha.kubernetes.io/aws-target-hosted-zone can optionally be set to the ID of a Route53 hosted zone. This will force external-dns to use the specified hosted zone when creating an ALIAS target.

Verify ExternalDNS works (Service example)

Create the following sample application to test that ExternalDNS works.

For services ExternalDNS will look for the annotation external-dns.alpha.kubernetes.io/hostname on the service and use the corresponding value.

If you want to give multiple names to service, you can set it to external-dns.alpha.kubernetes.io/hostname with a comma , separator.

For this verification phase, you can use default or another namespace for the nginx demo, for example:

NGINXDEMO_NS="nginx"
kubectl get namespaces | grep -q $NGINXDEMO_NS || kubectl create namespace $NGINXDEMO_NS

Save the following manifest below as nginx.yaml:

apiVersion: v1
kind: Service
metadata:
  name: nginx
  annotations:
    external-dns.alpha.kubernetes.io/hostname: nginx.example.com
spec:
  type: LoadBalancer
  ports:
  - port: 80
    name: http
    targetPort: 80
  selector:
    app: nginx
---
apiVersion: apps/v1
kind: Deployment
metadata:
  name: nginx
spec:
  selector:
    matchLabels:
      app: nginx
  template:
    metadata:
      labels:
        app: nginx
    spec:
      containers:
      - image: nginx
        name: nginx
        ports:
        - containerPort: 80
          name: http

Deploy the nginx deployment and service with:

kubectl create --filename nginx.yaml --namespace ${NGINXDEMO_NS:-"default"}

Verify that the load balancer was allocated with:

kubectl get service nginx --namespace ${NGINXDEMO_NS:-"default"}

This should show something like:

NAME    TYPE           CLUSTER-IP     EXTERNAL-IP                                                                   PORT(S)        AGE
nginx   LoadBalancer   10.100.47.41   ae11c2360188411e7951602725593fd1-1224345803.eu-central-1.elb.amazonaws.com.   80:32749/TCP   12m

After roughly two minutes check that a corresponding DNS record for your service that was created.

aws route53 list-resource-record-sets --output json --hosted-zone-id $ZONE_ID \
  --query "ResourceRecordSets[?Name == 'nginx.example.com.']|[?Type == 'A']"

This should show something like:

[
    {
        "Name": "nginx.example.com.",
        "Type": "A",
        "AliasTarget": {
            "HostedZoneId": "ZEWFWZ4R16P7IB",
            "DNSName": "ae11c2360188411e7951602725593fd1-1224345803.eu-central-1.elb.amazonaws.com.",
            "EvaluateTargetHealth": true
        }
    }
]

You can also fetch the corresponding text records:

aws route53 list-resource-record-sets --output json --hosted-zone-id $ZONE_ID \
  --query "ResourceRecordSets[?Name == 'nginx.example.com.']|[?Type == 'TXT']"

This will show something like:

[
    {
        "Name": "nginx.example.com.",
        "Type": "TXT",
        "TTL": 300,
        "ResourceRecords": [
            {
                "Value": "\"heritage=external-dns,external-dns/owner=external-dns,external-dns/resource=service/default/nginx\""
            }
        ]
    }
]

Note created TXT record alongside ALIAS record. TXT record signifies that the corresponding ALIAS record is managed by ExternalDNS. This makes ExternalDNS safe for running in environments where there are other records managed via other means.

For more information about ALIAS record, see Choosing between alias and non-alias records.

Let's check that we can resolve this DNS name. We'll ask the nameservers assigned to your zone first.

dig +short @ns-5514.awsdns-53.org. nginx.example.com.

This should return 1+ IP addresses that correspond to the ELB FQDN, i.e. ae11c2360188411e7951602725593fd1-1224345803.eu-central-1.elb.amazonaws.com..

Next try the public nameservers configured by DNS client on your system:

dig +short nginx.example.com.

If you hooked up your DNS zone with its parent zone correctly you can use curl to access your site.

curl nginx.example.com.

This should show something like:

<!DOCTYPE html>
<html>
<head>
<title>Welcome to nginx!</title>
...
</head>
<body>
<h1>Welcome to nginx!</h1>
...
</body>
</html>

Verify ExternalDNS works (Ingress example)

With the previous deployment and service objects deployed, we can add an ingress object and configure a FQDN value for the host key. The ingress controller will match incoming HTTP traffic, and route it to the appropriate backend service based on the host key.

For ingress objects ExternalDNS will create a DNS record based on the host specified for the ingress object.

For this tutorial, we have two endpoints, the service with LoadBalancer type and an ingress. For practical purposes, if an ingress is used, the service type can be changed to ClusterIP as two endpoints are unecessary in this scenario.

IMPORTANT: This requires that an ingress controller has been installed in your Kubernetes cluster. EKS does not come with an ingress controller by default. A popular ingress controller is ingress-nginx, which can be installed by a helm chart or by manifests.

Create an ingress resource manifest file named ingress.yaml with the contents below:

---
apiVersion: networking.k8s.io/v1
kind: Ingress
metadata:
  name: nginx
spec:
  ingressClassName: nginx
  rules:
    - host: server.example.com
      http:
        paths:
          - backend:
              service:
                name: nginx
                port:
                  number: 80
            path: /
            pathType: Prefix

When ready, you can deploy this with:

kubectl create --filename ingress.yaml --namespace ${NGINXDEMO_NS:-"default"}

Watch the status of the ingress until the ADDRESS field is populated.

kubectl get ingress --watch --namespace ${NGINXDEMO_NS:-"default"}

You should see something like this:

NAME    CLASS    HOSTS                ADDRESS   PORTS   AGE
nginx   <none>   server.example.com             80      47s
nginx   <none>   server.example.com   ae11c2360188411e7951602725593fd1-1224345803.eu-central-1.elb.amazonaws.com.   80      54s

For the ingress test, run through similar checks, but using domain name used for the ingress:

# check records on route53
aws route53 list-resource-record-sets --output json --hosted-zone-id $ZONE_ID \
  --query "ResourceRecordSets[?Name == 'server.example.com.']"

# query using a route53 name server
dig +short @ns-5514.awsdns-53.org. server.example.com.
# query using the default name server
dig +short server.example.com.

# connect to the nginx web server through the ingress
curl server.example.com.

More service annotation options

Custom TTL

The default DNS record TTL (Time-To-Live) is 300 seconds. You can customize this value by setting the annotation external-dns.alpha.kubernetes.io/ttl. e.g., modify the service manifest YAML file above:

apiVersion: v1
kind: Service
metadata:
  name: nginx
  annotations:
    external-dns.alpha.kubernetes.io/hostname: nginx.example.com
    external-dns.alpha.kubernetes.io/ttl: "60"
spec:
    ...

This will set the DNS record's TTL to 60 seconds.

Routing policies

Route53 offers different routing policies. The routing policy for a record can be controlled with the following annotations:

  • external-dns.alpha.kubernetes.io/set-identifier: this needs to be set to use any of the following routing policies

For any given DNS name, only one of the following routing policies can be used:

  • Weighted records: external-dns.alpha.kubernetes.io/aws-weight
  • Latency-based routing: external-dns.alpha.kubernetes.io/aws-region
  • Failover:external-dns.alpha.kubernetes.io/aws-failover
  • Geolocation-based routing:
    • external-dns.alpha.kubernetes.io/aws-geolocation-continent-code
    • external-dns.alpha.kubernetes.io/aws-geolocation-country-code
    • external-dns.alpha.kubernetes.io/aws-geolocation-subdivision-code
  • Multi-value answer:external-dns.alpha.kubernetes.io/aws-multi-value-answer

Associating DNS records with healthchecks

You can configure Route53 to associate DNS records with healthchecks for automated DNS failover using external-dns.alpha.kubernetes.io/aws-health-check-id: <health-check-id> annotation.

Note: ExternalDNS does not support creating healthchecks, and assumes that <health-check-id> already exists.

Canonical Hosted Zones

When creating ALIAS type records in Route53 it is required that external-dns be aware of the canonical hosted zone in which the specified hostname is created. External-dns is able to automatically identify the canonical hosted zone for many hostnames based upon known hostname suffixes which are defined in aws.go. If a hostname does not have a known suffix then the suffix can be added into aws.go or the target-hosted-zone annotation can be used to manually define the ID of the canonical hosted zone.

Govcloud caveats

Due to the special nature with how Route53 runs in Govcloud, there are a few tweaks in the deployment settings.

  • An Environment variable with name of AWS_REGION set to either us-gov-west-1 or us-gov-east-1 is required. Otherwise it tries to lookup a region that does not exist in Govcloud and it errors out.
env:
- name: AWS_REGION
  value: us-gov-west-1
  • Route53 in Govcloud does not allow aliases. Therefore, container args must be set so that it uses CNAMES and a txt-prefix must be set to something. Otherwise, it will try to create a TXT record with the same value than the CNAME itself, which is not allowed.
args:
- --aws-prefer-cname
- --txt-prefix={{ YOUR_PREFIX }}
  • The first two changes are needed if you use Route53 in Govcloud, which only supports private zones. There are also no cross account IAM whatsoever between Govcloud and commercial AWS accounts. If services and ingresses need to make Route 53 entries to an public zone in a commercial account, you will have set env variables of AWS_ACCESS_KEY_ID and AWS_SECRET_ACCESS_KEY with a key and secret to the commercial account that has the sufficient rights.
env:
- name: AWS_ACCESS_KEY_ID
  value: XXXXXXXXX
- name: AWS_SECRET_ACCESS_KEY
  valueFrom:
    secretKeyRef:
      name: {{ YOUR_SECRET_NAME }}
      key: {{ YOUR_SECRET_KEY }}

Clean up

Make sure to delete all Service objects before terminating the cluster so all load balancers get cleaned up correctly.

kubectl delete service nginx

IMPORTANT If you attached a policy to the Node IAM Role, then you will want to detach this before deleting the EKS cluster. Otherwise, the role resource will be locked, and the cluster cannot be deleted, especially if it was provisioned by automation like terraform or eksctl.

aws iam detach-role-policy --role-name $NODE_ROLE_NAME --policy-arn $POLICY_ARN

If the cluster was provisioned using eksctl, you can delete the cluster with:

eksctl delete cluster --name $EKS_CLUSTER_NAME --region $EKS_CLUSTER_REGION

Give ExternalDNS some time to clean up the DNS records for you. Then delete the hosted zone if you created one for the testing purpose.

aws route53 delete-hosted-zone --id $NODE_ID # e.g /hostedzone/ZEWFWZ4R16P7IB

If IAM user credentials were used, you can remove the user with:

aws iam detach-user-policy --user-name "externaldns" --policy-arn $POLICY_ARN
aws iam delete-user --user-name "externaldns"

If IRSA was used, you can remove the IRSA role with:

aws iam detach-role-policy --role-name $IRSA_ROLE --policy-arn $POLICY_ARN
aws iam delete-role --role-name $IRSA_ROLE

Delete any unneeded policies:

aws iam delete-policy --policy-arn $POLICY_ARN

Throttling

Route53 has a 5 API requests per second per account hard quota. Running several fast polling ExternalDNS instances in a given account can easily hit that limit. Some ways to reduce the request rate include:

  • Reduce the polling loop's synchronization interval at the possible cost of slower change propagation (but see --events below to reduce the impact).
    • --interval=5m (default 1m)
  • Trigger the polling loop on changes to K8s objects, rather than only at interval, to have responsive updates with long poll intervals
    • --events
  • Limit the sources watched when the --events flag is specified to specific types, namespaces, labels, or annotations
    • --source=ingress --source=service - specify multiple times for multiple sources
    • --namespace=my-app
    • --label-filter=app in (my-app)
    • --ingress-class=nginx-external
  • Limit services watched by type (not applicable to ingress or other types)
    • --service-type-filter=LoadBalancer default all
  • Limit the hosted zones considered
    • --zone-id-filter=ABCDEF12345678 - specify multiple times if needed
    • --domain-filter=example.com by domain suffix - specify multiple times if needed
    • --regex-domain-filter=example* by domain suffix but as a regex - overrides domain-filter
    • --exclude-domains=ignore.this.example.com to exclude a domain or subdomain
    • --regex-domain-exclusion=ignore* subtracts it's matches from regex-domain-filter's matches
    • --aws-zone-type=public only sync zones of this type [public|private]
    • --aws-zone-tags=owner=k8s only sync zones with this tag
  • If the list of zones managed by ExternalDNS doesn't change frequently, cache it by setting a TTL.
    • --aws-zones-cache-duration=3h (default 0 - disabled)
  • Increase the number of changes applied to Route53 in each batch
    • --aws-batch-change-size=4000 (default 1000)
  • Increase the interval between changes
    • --aws-batch-change-interval=10s (default 1s)
  • Introducing some jitter to the pod initialization, so that when multiple instances of ExternalDNS are updated at the same time they do not make their requests on the same second.

A simple way to implement randomised startup is with an init container:

...
    spec:
      initContainers:
      - name: init-jitter
        image: registry.k8s.io/external-dns/external-dns:v0.13.5
        command:
        - /bin/sh
        - -c
        - 'FOR=$((RANDOM % 10))s;echo "Sleeping for $FOR";sleep $FOR'
      containers:
...

EKS

An effective starting point for EKS with an ingress controller might look like:

--interval=5m
--events
--source=ingress
--domain-filter=example.com
--aws-zones-cache-duration=1h