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Issue Let’s Encrypt certificate using AWS Route53
This tutorial shows how to issue free SSL certificate from Let’s Encrypt via DNS challenge for domains using Route53 DNS service.
This article has been tested with a kops managed Kubernetes cluster on AWS.
$ kops version
Version 1.7.1 (git-c69b811)
$ kubectl version --short
Client Version: v1.8.3
Server Version: v1.7.10
Deploy Voyager operator
Deploy Voyager operator following instructions here.
# install without RBAC
curl -fsSL https://raw.githubusercontent.com/appscode/voyager/6.0.0/hack/deploy/voyager.sh \
| bash -s -- --provider=aws --run-on-master
If you are trying this on a RBAC enabled cluster, pass the flag --rbac
to installer script.
# install without RBAC
curl -fsSL https://raw.githubusercontent.com/appscode/voyager/6.0.0/hack/deploy/voyager.sh \
| bash -s -- --provider=aws --run-on-master --rbac
Setup Route53 Hosted Zone
In this tutorial, I am going to use kiteci.pro
domain that was purchased on namecheap.com . Now, go to your AWS Route53 console and create a hosted zone for this domain.
Once the hosted zone is created, you can see the list of name servers in AWS console.
Now, go to the website of your domain registrar and update the list of name servers.
Give time to propagate the updated DNS records. You can use the following command to confirm that the name server records has been updated.
$ dig -t ns kiteci.pro
; <<>> DiG 9.10.3-P4-Ubuntu <<>> -t ns kiteci.pro
;; global options: +cmd
;; Got answer:
;; ->>HEADER<<- opcode: QUERY, status: NOERROR, id: 57300
;; flags: qr rd ra; QUERY: 1, ANSWER: 4, AUTHORITY: 0, ADDITIONAL: 1
;; OPT PSEUDOSECTION:
; EDNS: version: 0, flags:; udp: 512
;; QUESTION SECTION:
;kiteci.pro. IN NS
;; ANSWER SECTION:
kiteci.pro. 21599 IN NS ns-109.awsdns-13.com.
kiteci.pro. 21599 IN NS ns-1404.awsdns-47.org.
kiteci.pro. 21599 IN NS ns-1623.awsdns-10.co.uk.
kiteci.pro. 21599 IN NS ns-697.awsdns-23.net.
;; Query time: 58 msec
;; SERVER: 127.0.1.1#53(127.0.1.1)
;; WHEN: Mon Nov 27 13:40:03 PST 2017
;; MSG SIZE rcvd: 179
Configure IAM Permissions
To issue SSL certificate using Let’s Encrypt, we have to prove that we own the kiteci.pro
domain. The following AWS IAM policy document describes the permissions required for voyager operator to complete the DNS challenge. Replace <INSERT_YOUR_HOSTED_ZONE_ID_HERE> with the Route 53 zone ID of the domain you are authorizing.
{
"Version": "2012-10-17",
"Statement": [
{
"Effect": "Allow",
"Action": [
"route53:GetChange",
"route53:ListHostedZonesByName"
],
"Resource": [
"*"
]
},
{
"Effect": "Allow",
"Action": [
"route53:ChangeResourceRecordSets"
],
"Resource": [
"arn:aws:route53:::hostedzone/<INSERT_YOUR_HOSTED_ZONE_ID_HERE>"
]
}
]
}
There are few different ways to grant these permissions to voyager operator pods.
option 1: Using Instance IAM Role
When kops creates a cluster, it creates 2 IAM roles: one for the master and one for the nodes. You can grant these additional IAM permissions to the appropriate instance IAM role.
Here, we are running voyager operator pod on master node. So, we will grant these permissions to the role assigned to the master instance. To do this, take the following steps:
- Go to your EC2 dashboard and identify the IAM role for your master instance.
- Go the IAM roles console and select the master IAM role for your cluster.
- Now add the custom inline policy show above.
NB: If you decide to run voyager operator on regular nodes, then you can grant these additional IAM permissions to the node IAM role for your cluster. Please note that this will allow any pods running on the nodes to perform these api calls.
option 2: Create IAM User
If you are running cluster on cloud providers other than AWS but want to use Route53 as your DNS provider, this is your only option. You can also use this method for clusters running on AWS.
Here we will create a new IAM role called voyager
and grant it the necessary permissions. Then we wil issue an access key pair for this IAM role and pass this to voyager using a Kubernetes secret.
aws iam create-user --user-name voyager
aws iam put-user-policy --user-name voyager --policy-name voyager --policy-document file://$PWD/voyager-policy.json
aws iam create-access-key --user-name voyager
kubectl create secret generic voyager-route53 --namespace default \
--from-literal=AWS_ACCESS_KEY_ID=INSERT_YOUR_ACCESS_KEY_ID_HERE \
--from-literal=AWS_SECRET_ACCESS_KEY=INSERT_YOUR_SECRET_ACCESS_KEY_HERE \
--from-literal=AWS_HOSTED_ZONE_ID=INSERT_YOUR_HOSTED_ZONE_ID_HERE
kubectl get secret voyager-route53 -o yaml
apiVersion: v1
data:
AWS_ACCESS_KEY_ID: SU5TRVJUX1lPVVJfQUNDRVNTX0tFWV9JRF9IRVJF
AWS_HOSTED_ZONE_ID: SU5TRVJUX1lPVVJfSE9TVEVEX1pPTkVfSURfSEVSRQ==
AWS_SECRET_ACCESS_KEY: SU5TRVJUX1lPVVJfU0VDUkVUX0FDQ0VTU19LRVlfSEVSRQ==
kind: Secret
metadata:
creationTimestamp: 2017-11-27T23:17:31Z
name: voyager-route53
namespace: default
resourceVersion: "16160"
selfLink: /api/v1/namespaces/default/secrets/voyager-route53
uid: 24949869-d3c9-11e7-98b3-08002787a1b5
type: Opaque
NB:
- Please make sure that you have updated the voyager-policy.json file to use the hosted zone id for your domain.
- The
file://
prefix is required, otherwise you will get an error likeAn error occurred (MalformedPolicyDocument) when calling the PutUserPolicy operation: Syntax errors in policy.
- The Kubernetes secret must be created in the same namespace where the
Certificate
object exists. AWS_HOSTED_ZONE_ID
key is optional and will be automatically detected from DNS records, if not found in secret. If you are trying to issue a SANS certificate with multiple top level domains, do not setAWS_HOSTED_ZONE_ID
in the secret.
Create Certificate
Create a secret to provide ACME user email. Change the email to a valid email address and run the following command:
kubectl create secret generic acme-account [email protected]
Create the Certificate CRD to issue TLS certificate from Let’s Encrypt using DNS challenge.
kubectl apply -f crt.yaml
apiVersion: voyager.appscode.com/v1beta1
kind: Certificate
metadata:
name: kitecipro
namespace: default
spec:
domains:
- kiteci.pro
- www.kiteci.pro
acmeUserSecretName: acme-account
challengeProvider:
dns:
provider: route53
Now, voyager will perform domain validation by setting a TXT record for each domain by prepending the label _acme-challenge
to the domain name being validated in this certificate using IAM role assigned to master instance. This TXT record will be removed after validation is complete. Once you successfully complete the challenges for a domain, the resulting authorization is cached for your account to use again later. Cached authorizations last for 30 days from the time of validation. If the certificate you requested has all of the necessary authorizations cached then validation will not happen again until the relevant cached authorizations expire.
After several minutes, you should see a new secret named tls-kitecipro
. This contains the tls.crt
and tls.key
.
$ kubectl get secrets
NAME TYPE DATA AGE
acme-account Opaque 3 2m
default-token-q3r9h kubernetes.io/service-account-token 3 7h
tls-kitecipro kubernetes.io/tls 2 20s
$ kubectl describe secrets tls-kitecipro
Name: tls-kitecipro
Namespace: default
Labels: <none>
Annotations: <none>
Type: kubernetes.io/tls
Data
====
tls.crt: 3452 bytes
tls.key: 1675 bytes
$ kubectl describe cert kitecipro
Name: kitecipro
Namespace: default
Labels: <none>
Annotations: kubectl.kubernetes.io/last-applied-configuration={"apiVersion":"voyager.appscode.com/v1beta1","kind":"Certificate","metadata":{"annotations":{},"name":"kitecipro","namespace":"default"},"spec":{"acmeU...
API Version: voyager.appscode.com/v1beta1
Kind: Certificate
Metadata:
Cluster Name:
Creation Timestamp: 2017-11-27T23:44:42Z
Deletion Grace Period Seconds: <nil>
Deletion Timestamp: <nil>
Generation: 0
Resource Version: 33312
Self Link: /apis/voyager.appscode.com/v1beta1/namespaces/default/certificates/kitecipro
UID: f105dd07-d3cc-11e7-8b04-02cf95c35e16
Spec:
Acme User Secret Name: acme-account
Challenge Provider:
Dns:
Provider: route53
Domains:
kiteci.pro
Status:
Conditions:
Last Update Time: 2017-11-27T23:46:19Z
Type: Issued
Last Issued Certificate:
Account Ref: https://acme-v01.api.letsencrypt.org/acme/reg/24975560
Cert Stable URL:
Cert URL: https://acme-v01.api.letsencrypt.org/acme/cert/04e8ad4af6110eab90e8abaef338c5ce9049
Not After: 2018-02-25T22:46:19Z
Not Before: 2017-11-27T22:46:19Z
Serial Number: 427624998516761213595074237026103943139401
Events:
Type Reason Age From Message
---- ------ ---- ---- -------
Normal IssueSuccessful 1m voyager-operator Successfully issued certificate
Normal IssueSuccessful 1m voyager operator Successfully issued certificate
NB
- By default, voyager will store the issued SSL certificates in a secret named as
tls-<certificate-name>
. If you want to store the issued certificates in a different secret, you can provide that in that in thespec.storage.secret.name
field in theCertificate
object.
$ cat crt-secret-store.yaml
apiVersion: voyager.appscode.com/v1beta1
kind: Certificate
metadata:
name: kitecipro
namespace: default
spec:
domains:
- kiteci.pro
- www.kiteci.pro
acmeUserSecretName: acme-account
challengeProvider:
dns:
provider: route53
storage:
secret:
name: cert-kitecipro
- If you created an IAM user for voyager, you can pass it by setting
spec.challengeProvider.dns.credentialSecretName
field.
$ cat crt-dns-credential.yaml
apiVersion: voyager.appscode.com/v1beta1
kind: Certificate
metadata:
name: kitecipro-iam
namespace: default
spec:
domains:
- kiteci.pro
- www.kiteci.pro
acmeUserSecretName: acme-account
challengeProvider:
dns:
provider: route53
credentialSecretName: voyager-route53
storage:
secret:
name: cert-kitecipro
Configure Ingress
We are going to use two separate services as backend. Run the following commands to deploy backends:
kubectl run nginx --image=nginx
kubectl expose deployment nginx --name=web --port=80 --target-port=80
kubectl run echoserver --image=gcr.io/google_containers/echoserver:1.4
kubectl expose deployment echoserver --name=echo --port=80 --target-port=8080
Now create Ingress ing-tls.yaml
kubectl apply -f ing-tls.yaml
apiVersion: voyager.appscode.com/v1beta1
kind: Ingress
metadata:
name: test-ingress
namespace: default
annotations:
ingress.appscode.com/rewrite-target: /
spec:
tls:
- hosts:
- www.kiteci.pro
ref:
kind: Certificate
name: kitecipro
rules:
- host: www.kiteci.pro
http:
paths:
- path: /web
backend:
serviceName: web
servicePort: 80
- path: /
backend:
serviceName: echo
servicePort: 80
Wait for the LoadBlanacer CNAME to be assigned. Once the CNAME is assigned, set the LoadBlancer hostname as the CNAME record for test domain www.kiteci.pro
$ kubectl get svc voyager-test-ingress -o wide
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE SELECTOR
voyager-test-ingress LoadBalancer 100.67.213.242 a65b35533d3d211e78b0402cf95c35e1-1933171379.us-east-1.elb.amazonaws.com 443:31708/TCP,80:31905/TCP 36s origin-api-group=voyager.appscode.com,origin-name=test-ingress,origin=voyager
Now wait a bit for DNs to propagate. Run the following command to confirm DNS propagation.
$ dig -t cname +short www.kiteci.pro
a65b35533d3d211e78b0402cf95c35e1-1933171379.us-east-1.elb.amazonaws.com.
Now open URL https://www.kiteci.pro/web . This should show you the familiar nginx welcome page. If you visit https://www.kiteci.pro , it will echo your connection info.