Route53
This guide explains how to set up an Issuer, or ClusterIssuer, to use Amazon
Route53 to solve DNS01 ACME challenges. It's advised you read the DNS01
Challenge Provider page first for a more general understanding of
how cert-manager handles DNS01 challenges.
ℹ️ This guide assumes that your cluster is hosted on Amazon Web Services (AWS) and that you already have a hosted zone in Route53.
📖 Read Tutorial: Deploy cert-manager on Amazon Elastic Kubernetes (EKS) and use Let's Encrypt to sign a certificate for an HTTPS website, which contains end-to-end instructions for those who are new to cert-manager and AWS.
Set up an IAM Role
cert-manager needs to be able to add records to Route53 in order to solve the DNS01 challenge. To enable this, create a IAM policy with the following permissions:
{"Version": "2012-10-17","Statement": [{"Effect": "Allow","Action": "route53:GetChange","Resource": "arn:aws:route53:::change/*"},{"Effect": "Allow","Action": ["route53:ChangeResourceRecordSets","route53:ListResourceRecordSets"],"Resource": "arn:aws:route53:::hostedzone/*"},{"Effect": "Allow","Action": "route53:ListHostedZonesByName","Resource": "*"}]}
Note: The
route53:ListHostedZonesByNamestatement can be removed if you specify the (optional)hostedZoneID. You can further tighten the policy by limiting the hosted zone that cert-manager has access to (e.g.arn:aws:route53:::hostedzone/DIKER8JEXAMPLE).
Credentials
You have two options for the set up - either create a user or a role and attach that policy from above. Using a role is considered best practice because you do not have to store permanent credentials in a secret.
cert-manager supports two ways of specifying credentials:
- explicit by providing an
accessKeyIDor anaccessKeyIDSecretRef, and asecretAccessKeySecretRef - or implicit (using metadata service or environment variables or credentials file.
cert-manager also supports specifying a role to enable cross-account access
and/or limit the access of cert-manager. Integration with
kiam and
kube2iam should work out of the box.
Cross Account Access
Example: Account Y manages Route53 DNS Zones. Now you want cert-manager running in Account X (or many other accounts) to be able to manage records in Route53 zones hosted in Account Y.
First, create a role with the permissions policy above (let's call the role dns-manager)
in Account Y, and attach a trust relationship like the one below.
{"Version": "2012-10-17","Statement": [{"Effect": "Allow","Principal": {"AWS": "arn:aws:iam::XXXXXXXXXXX:role/cert-manager"},"Action": "sts:AssumeRole"}]}
Bear in mind, that you won't be able to define this policy until cert-manager role on account Y is created. If you are setting this up using a configuration language, you may want to define principal as:
"Principal": {"AWS": "XXXXXXXXXXX"}
And restrict it, in a future step, after all the roles are created.
This allows the role cert-manager in Account X to assume the dns-manager role in Account Y to manage the Route53 DNS zones in Account Y. For more information visit the official
documentation.
Second, create the cert-manager role in Account X; this will be used as a credentials source for the cert-manager pods running in Account X. Attach to the role the following permissions policy:
{"Version": "2012-10-17","Statement": [{"Effect": "Allow","Resource": "arn:aws:iam::YYYYYYYYYYYY:role/dns-manager","Action": "sts:AssumeRole"}]}
And the following trust relationship (Add AWS Services as needed):
{"Version": "2012-10-17","Statement": [{"Effect": "Allow","Principal": {"Service": "ec2.amazonaws.com"},"Action": "sts:AssumeRole"}]}
Creating an Issuer (or ClusterIssuer)
Here is an example configuration for a ClusterIssuer:
apiVersion: cert-manager.io/v1kind: ClusterIssuermetadata:name: letsencrypt-prodspec:acme:...solvers:# example: cross-account zone management for example.com# this solver uses ambient credentials (i.e. inferred from the environment or EC2 Metadata Service)# to assume a role in a different account- selector:dnsZones:- "example.com"dns01:route53:region: us-east-1hostedZoneID: DIKER8JEXAMPLE # optional, see policy aboverole: arn:aws:iam::YYYYYYYYYYYY:role/dns-manager# this solver handles example.org challenges# and uses explicit credentials- selector:dnsZones:- "example.org"dns01:route53:region: eu-central-1# The AWS access key ID can be specified using the literal accessKeyID parameter# or retrieved from a secret using the accessKeyIDSecretRef# If using accessKeyID, omit the accessKeyIDSecretRef parameter and vice-versaaccessKeyID: AKIAIOSFODNN7EXAMPLEaccessKeyIDSecretRef:name: prod-route53-credentials-secretkey: access-key-idsecretAccessKeySecretRef:name: prod-route53-credentials-secretkey: secret-access-key# you can also assume a role with these credentialsrole: arn:aws:iam::YYYYYYYYYYYY:role/dns-manager
Note that, as mentioned above, the pod is using arn:aws:iam::XXXXXXXXXXX:role/cert-manager as a credentials source in Account X, but the ClusterIssuer ultimately assumes the arn:aws:iam::YYYYYYYYYYYY:role/dns-manager role to actually make changes in Route53 zones located in Account Y.
EKS IAM Role for Service Accounts (IRSA)
While kiam / kube2iam work directly with cert-manager, some special attention is needed for using the IAM Roles for Service Accounts feature available on EKS.
This feature uses Kubernetes ServiceAccount tokens to authenticate with AWS using the API_AssumeRoleWithWebIdentity.
Note: For using IRSA with cert-manager you must first enable the feature for your cluster. You can do this by following the [official documentation(https://docs.aws.amazon.com/eks/latest/userguide/enable-iam-roles-for-service-accounts.html).
Because ServiceAccount tokens are used to authenticate there are two modes of operation, you can either use cert-manager's own ServiceAccount to authenticate or you can reference your own ServiceAccount within your Issuer/ClusterIssuer config. Each option is described below.
Using the cert-manager ServiceAccount
In this configuration an IAM role is mapped to the cert-manager ServiceAccount allowing it to authenticate with AWS. The IAM role you map to the ServiceAccount will need permissions on any and all Route53 zones cert-manager will be using.
IAM role trust policy
The cert-manager role needs the following trust relationship attached to the role in order to use the IRSA method. Replace the following:
<aws-account-id>with the AWS account ID of the EKS cluster.<aws-region>with the region where the EKS cluster is located.<eks-hash>with the hash in the EKS API URL; this will be a random 32 character hex string (example:45DABD88EEE3A227AF0FA468BE4EF0B5)<namespace>with the namespace where cert-manager is running.<service-account-name>with the name of theServiceAccountobject created by cert-manager.
{"Version": "2012-10-17","Statement": [{"Effect": "Allow","Action": "sts:AssumeRoleWithWebIdentity","Principal": {"Federated": "arn:aws:iam::<aws-account-id>:oidc-provider/oidc.eks.<aws-region>.amazonaws.com/id/<eks-hash>"},"Condition": {"StringEquals": {"oidc.eks.<aws-region>.amazonaws.com/id/<eks-hash>:sub": "system:serviceaccount:<namespace>:<service-account-name>"}}}]}
Note: If you're following the Cross Account example above, this trust policy is attached to the cert-manager role in Account X with ARN arn:aws:iam::XXXXXXXXXXX:role/cert-manager. The permissions policy is the same as above.
Service annotation
Annotate the ServiceAccount created by cert-manager:
apiVersion: v1kind: ServiceAccountmetadata:annotations:eks.amazonaws.com/role-arn: arn:aws:iam::XXXXXXXXXXX:role/cert-manager
You will also need to modify the cert-manager Deployment with the correct file system permissions, so the ServiceAccount token can be read.
spec:template:spec:securityContext:fsGroup: 1001
The cert-manager Helm chart provides a variable for injecting annotations into cert-manager's ServiceAccount and Deployment object like so:
serviceAccount:annotations:eks.amazonaws.com/role-arn: arn:aws:iam::XXXXXXXXXXX:role/cert-managersecurityContext:fsGroup: 1001
Note: If you're following the Cross Account example above, modify the ClusterIssuer in the same way as above with the role from Account Y.
Referencing your own ServiceAccount within Issuer/ClusterIssuer config
In this configuration you can reference your own ServiceAccounts within your Issuer/ClusterIssuer and cert-manager will issue itself temporary credentials using these ServiceAccounts. Because each issuer can reference a different ServiceAccount you can lock down permissions much more, with each ServiceAccount mapped to an IAM role that only has permission on the zones it needs for that particular issuer.
Creating a ServiceAccount
In order to reference a ServiceAccount it must first exist. Unlike normal IRSA the eks.amazonaws.com/role-arn annotation is not required, however you may wish to set it as a reference.
apiVersion: v1kind: ServiceAccountmetadata:name: <service-account-name>annotation:eks.amazonaws.com/role-arn: <iam-role-arn>
IAM role trust policy
For every ServiceAccount you want to use for AWS authentication you must first set up a trust policy. Replace the following:
<aws-account-id>with the AWS account ID of the EKS cluster.<aws-region>with the region where the EKS cluster is located.<eks-hash>with the hash in the EKS API URL; this will be a random 32 character hex string (example:45DABD88EEE3A227AF0FA468BE4EF0B5)<namespace>with the namespace of theServiceAccountobject.<service-account-name>with the name of theServiceAccountobject.
{"Version": "2012-10-17","Statement": [{"Effect": "Allow","Action": "sts:AssumeRoleWithWebIdentity","Principal": {"Federated": "arn:aws:iam::<aws-account-id>:oidc-provider/oidc.eks.<aws-region>.amazonaws.com/id/<eks-hash>"},"Condition": {"StringEquals": {"oidc.eks.<aws-region>.amazonaws.com/id/<eks-hash>:sub": "system:serviceaccount:<namespace>:<service-account-name>"}}}]}
Note: If you're following the Cross Account example above, this trust policy is attached to the cert-manager role in Account X with ARN arn:aws:iam::XXXXXXXXXXX:role/cert-manager. The permissions policy is the same as above.
RBAC
In order to allow cert-manager to issue a token using your ServiceAccount you must deploy some RBAC to the cluster. Replace the following:
<service-account-name>name of theServiceAccountobject.<service-account-namespace>namespace of theServiceAccountobject.<cert-manager-service-account-name>name of cert-managersServiceAccountobject, as created during cert-manager installation.<cert-manager-namespace>namespace that cert-manager is deployed into.
apiVersion: rbac.authorization.k8s.io/v1kind: Rolemetadata:name: <service-account-name>-tokenrequestnamespace: <service-account-namespace>rules:- apiGroups: ['']resources: ['serviceaccounts/token']resourceNames: ['<service-account-name>']verbs: ['create']---apiVersion: rbac.authorization.k8s.io/v1kind: RoleBindingmetadata:name: cert-manager-<service-account-name>-tokenrequestnamespace: <service-account-namespace>subjects:- kind: ServiceAccountname: <cert-manager-service-account-name>namespace: <cert-manager-namespace>roleRef:apiGroup: rbac.authorization.k8s.iokind: Rolename: <service-account-name>-tokenrequest
Issuer/ClusterIssuer config
Once you have completed the above you should have:
- An IAM role with permissions required to on the Route53 zone.
- A Kubernetes
ServiceAccount. - A trust policy to allow the Kubernetes
ServiceAccountaccess to your IAM role. - RBAC to allow cert-manager to issue a token using the Kubernetes
ServiceAccount.
You should be ready at this point to configure an Issuer to use the new ServiceAccount. You can see example config for this below:
apiVersion: cert-manager.io/v1kind: Issuermetadata:name: examplespec:acme:...solvers:- selector:dnsZones:- "example.com"dns01:route53:region: us-east-1role: <iam-role-arn> # This must be set so cert-manager what role to attempt to authenticate withauth:kubernetes:serviceAccountRef:name: <service-account-name> # The name of the service account created
