When it comes to managing access control within AWS's Elastic Kubernetes Service (EKS), IAM Roles for Service Accounts (IRSA) plays a crucial role. In this post, we will not only understand what IRSA is and how it operates but also walk through practical examples to demonstrate its implementation. As a bonus we will also look at the example where we setup the IRSA cross AWS Accounts i.e to talk to AWS Services in Account B from the Pod Running in EKS Cluster in Account A.
The following are the prerequisites for this post to follow along -
IAM Roles for Service Accounts (IRSA) is an EKS feature that permits you to associate an AWS Identity and Access Management (IAM) role with a Kubernetes service account. The Kubernetes service account then equips the pods that utilize it with AWS permissions. As such, these pods can access AWS services securely.
Before IRSA, developers were compelled to directly store AWS credentials in the application or use environment variables linked to Kubernetes Secrets. Both these methods could potentially lead to security risks. IRSA, however, allows developers to adopt the security best practice of granting least privilege access.
Here is a brief workflow of how IRSA operates:
AssumeRoleWithWebIdentity
operation with this token.This entire process ensures that your application does not have to deal with AWS credentials directly, and no IAM roles are shared among applications.
Let's now look at an example where we set up an IRSA in an AWS EKS environment such that the pods can talk to AWS Services like S3 within the same AWS Account.
Step 0: Create EKS Cluster with OIDC Provider
Assuming you have followed our earlier blog on How to create an EKS Cluster using Terraform and have the EKS Cluster up and running.
Step 1: Retrieve OIDC Provider ID from your EKS Cluster
Firstly, retrieve the OIDC provider ID from your EKS cluster. This can be achieved using the AWS CLI command:
aws eks describe-cluster --name mgmt --region us-east-1 --query "cluster.identity.oidc.issuer" | awk -F'/' '{print $NF}' | tr -d '"'
This command will retrieve the OIDC issuer ID, which is required in the steps below to configure the IAM Role.
Step 2: Create an IAM Role and Trust Relationship
Create an IAM Role using the following AWS CLI command:
aws iam create-role --role-name <IAM_ROLE_NAME> --assume-role-policy-document file://trust.json
In the above command, trust.json
is the trust relationship policy document that contains the OIDC provider as a trusted entity. It may look like this:
{
"Version": "2012-10-17",
"Statement": [
{
"Effect": "Allow",
"Principal": {
"Federated": "arn:aws:iam::<AWS_ACCOUNT_ID>:oidc-provider/oidc.eks.<REGION>.amazonaws.com/id/<EKS_OIDC_ID>"
},
"Action": "sts:AssumeRoleWithWebIdentity",
"Condition": {
"StringEquals": {
"oidc.eks.<REGION>.amazonaws.com/id/<EKS_OIDC_ID>:sub": "system:serviceaccount:<NAMESPACE>:<SERVICE_ACCOUNT_NAME>"
}
}
}
]
}
Replace AWS_ACCOUNT_ID
with the AWS Account Number where your EKS Cluster is running.
Replace REGION
with AWS region where your EKS Cluster is running.
Replace EKS_OIDC_ID
with OIDC Issuer ID retrieved in Step 1 above.
Replace NAMESPACE
with namespace where your pod/service account is.
Replace SERVICE_ACCOUNT_NAME
with the name of the service account you want to use associate with a pod.
Attach AmazonS3FullAccess
permissions to the IAM Role -
aws iam attach-role-policy --role-name <IAM_ROLE_NAME> --policy-arn arn:aws:iam::aws:policy/AmazonS3FullAccess
Step 3: Associate the IAM Role with Kubernetes Service Account
You can create a new service account or modify an existing one using the kubectl
command, with the eks.amazonaws.com/role-arn
annotation pointing to the IAM role:
kubectl annotate serviceaccount -n <NAMESPACE> <SERVICE_ACCOUNT_NAME> eks.amazonaws.com/role-arn=arn:aws:iam::<AWS_ACCOUNT_ID>:role/<IAM_ROLE_NAME>
Make sure the ServiceAccount you create or annotate is the one you configured for in Step 2 above.
Step 4: Update Your Application to Use AWS SDK
Assuming you already have an application pod configured with AWS SDK. Now you just need to make sure that your Pod or Deployment is using the ServiceAccount configured earlier. We have shown an example of sample Deployment which you can observe must be deployed in the same NAMESPACE
as your ServiceAccount
which you configured with IRSA in the steps above.
apiVersion: apps/v1
kind: Deployment
metadata:
name: example-deployment
namespace: <NAMESPACE>
...
spec:
selector:
...
template:
metadata:
...
spec:
serviceAccountName: <SERVICE_ACCOUNT_NAME>
containers:
- name: example-container
image: example/image:latest
ports:
- containerPort: 8080
Assuming you have the EKS Cluster running and your AWS CLI is configured to talk to the AWS Account where your EKS Cluster is running. If not please follow the our earlier blog on How to create an EKS Cluster using Terraform and have the EKS Cluster up and running OR you can also directly use this README to deploy the EKS Cluster.
Retrieve Kubeconfig and configure your terminal to talk to AWS EKS Cluster as follows, this should update the current kubeconfig context to point to the cluster -
export EKS_CLUSTER_NAME=<your eks cluster name>
export EKS_AWS_REGION=<aws region where you created eks cluster>
aws eks update-kubeconfig --region ${EKS_AWS_REGION} --name ${EKS_CLUSTER_NAME}
# validate kubecontext as below, should point to your cluster
kubectl config current-context
Create a namespace irsa-test
and service account in that namespace named irsa-test
as follows -
# create namespace
kubectl create namespace irsa-test
# create serviceaccount
kubectl create serviceaccount --namespace irsa-test irsa-test
export EKS_CLUSTER_NAME=<your eks cluster name>
export EKS_AWS_REGION=<aws region where you created eks cluster>
export OIDC_ISSUER_ID=$(aws eks describe-cluster --name ${EKS_CLUSTER_NAME} --region ${EKS_AWS_REGION} --query "cluster.identity.oidc.issuer" | awk -F'/' '{print $NF}' | tr -d '"')
AmazonS3FullAccess
policy and configure TrustRelationship
for ServiceAccount name irsa-test
in namespace irsa-test
as follows -export AWS_ACCOUNT_ID="$(aws sts get-caller-identity --query Account --output text)"
export EKS_AWS_REGION="<replace with aws region where you created eks cluster>"
export EKS_OIDC_ID=$(echo $OIDC_ISSUER_ID)
export NAMESPACE="irsa-test"
export SERVICE_ACCOUNT_NAME="irsa-test"
cat > trust.json << EOF
{
"Version": "2012-10-17",
"Statement": [
{
"Effect": "Allow",
"Principal": {
"Federated": "arn:aws:iam::${AWS_ACCOUNT_ID}:oidc-provider/oidc.eks.${REGION}.amazonaws.com/id/${EKS_OIDC_ID}"
},
"Action": "sts:AssumeRoleWithWebIdentity",
"Condition": {
"StringEquals": {
"oidc.eks.${REGION}.amazonaws.com/id/${EKS_OIDC_ID}:sub": "system:serviceaccount:${NAMESPACE}:${SERVICE_ACCOUNT_NAME}"
}
}
}
]
}
EOF
# create IAM role and attach trust policy
aws iam create-role --role-name irsa-test --assume-role-policy-document file://trust.json
# remove trust.json file
rm trust.json
# attach AmazonS3FullAccess Permissions policy to the iam role
aws iam attach-role-policy --role-name irsa-test --policy-arn arn:aws:iam::aws:policy/AmazonS3FullAccess
irsa-test
in namespace irsa-test
with IAM Role as follows -export AWS_ACCOUNT_ID="$(aws sts get-caller-identity --query Account --output text)"
export NAMESPACE="irsa-test"
export SERVICE_ACCOUNT_NAME="irsa-test"
# annotate service account
kubectl annotate serviceaccount --namespace ${NAMESPACE} ${SERVICE_ACCOUNT_NAME} eks.amazonaws.com/role-arn=arn:aws:iam::${AWS_ACCOUNT_ID}:role/irsa-test
irsa-test
service account in irsa-test
namespace as follows -kubectl apply -f - <<EOF
apiVersion: apps/v1
kind: Deployment
metadata:
name: irsa-test
namespace: irsa-test
labels:
app: aws-cli
spec:
selector:
matchLabels:
app: aws-cli
template:
metadata:
labels:
app: aws-cli
spec:
serviceAccountName: irsa-test
containers:
- name: aws-cli
image: amazon/aws-cli
command: [ "/bin/sh", "-c", "--" ]
args: [ "while true; do sleep 39000; done;" ]
EOF
# check pod is running
kubectl get po -n irsa-test irsa-test
# check pod is deployed with irsa-test serviceaccount
kubectl get deploy -n irsa-test irsa-test -o jsonpath='{.spec.template.spec.serviceAccountName}'
# check service account is annotated with IAM Role
kubectl get sa -n irsa-test irsa-test -o jsonpath='{.metadata.annotations}'
# exec into the pod
export POD_NAME=$(kubectl get po -n irsa-test | grep irsa-test | awk -F ' ' '{print $1}')
kubectl exec -it -n irsa-test ${POD_NAME} -- bash
# run following commands inside the pod
export BUCKET_NAME="irsa-test-sample-$(date +%s)"
# create s3 bucket
aws s3api create-bucket --bucket ${BUCKET_NAME} --region us-west-2 --create-bucket-configuration LocationConstraint=us-west-2
# validate s3 bucket is created, there shouldn't be any error message on stdout
aws s3api head-bucket --bucket ${BUCKET_NAME} --region us-west-2
# delete s3 bucket, there shouldn't be any errors on stdout
aws s3 rm s3://${BUCKET_NAME} --region us-west-2 --recursive
aws s3api delete-bucket --bucket ${BUCKET_NAME} --region us-west-2
# validate s3 bucket is deleted, you should see 404 error message on stdout
aws s3api head-bucket --bucket ${BUCKET_NAME} --region us-west-2
Let's now look at an example where we set up an IRSA in an AWS EKS environment such that the pods can talk to AWS Services like S3 in different AWS Account than the one where EKS Cluster is running.
We already saw how to setup IRSA within the same AWS Account in the section above, this section will take it forward from there. Let's call the AWS Account we tested above as Account1 and the Account2 will be another AWS Account we now want to create resources in.
Step 0: AWS CLI is configured to talk to Account 2
Make sure your AWS CLI is now configured to talk to Account 2, this is needed to perform the steps below.
Step 1: Create IAM Role In Account 2 with AmazonS3FullAccess and permissions to be Assumed by IAM Role created in Account 1 earlier
Create IAM Role in AWS Account 2, make sure -
aws iam create-role --role-name <IAM_ROLE_NAME> --assume-role-policy-document file://trust.json
In the above command, trust.json
is the trust relationship policy document that allows IAM Role created in Account 1 in section above to assume IAM Role in Account1.
{
"Version": "2012-10-17",
"Statement": [
{
"Effect": "Allow",
"Principal": {
"AWS": "arn:aws:iam::<ACC1_NUMBER>:role/<ACC1_IAM_ROLE_NAME>"
},
"Action": "sts:AssumeRole"
}
]
}
Attach AmazonS3FullAccess
permissions to the Account2 IAM Role -
aws iam attach-role-policy --role-name <IAM_ROLE_NAME> --policy-arn arn:aws:iam::aws:policy/AmazonS3FullAccess
Step 2: Edit TrustRelationship in Account1 IAM Role to AssumeRole of Account2
Make sure your AWS CLI is now configured to talk to Account 1.
Add an inline policy with STS permissions in IAM Role created earlier in Account 1 for IRSA such that it can Assume IAM Role created above in Account 2, as follows -
{
"Effect": "Allow",
"Principal": {
"AWS": "arn:aws:iam::<ACC2_NUMBER>:role/<ACC2_IAM_ROLE_NAME>"
},
"Action": "sts:AssumeRole"
}
In summary, in Step1 you allowed Account2's IAM Role to be assumed by Account1's IRSA IAM Role and in Step2 you allowed Account1's IAM Role to have permissions to assume IAM Role in Account2. That's all you need. Now the pod running in your EKS Cluster should be able to assume IAM Role in Account2 and as per permissions it should be able to perform any s3 operations. Please see the running example below to validate the Cross Account IRSA setup.
Assuming you have the setup from the Running Example for IRSA within same account section earlier. If not, please read and follow the section earlier before proceeding with the examples below -
Make sure your AWS CLI is now configured to talk to the AWS Account2 where you want your pod running in AWS Account1 to create resources.
Create IAM Role with AmazonS3FullAccess
permissions in Account2
and TrustRelationship
to allow this IAM Role to be assumed by irsa-test
IAM Role created earlier as follows -
export AWS_ACCOUNT1_ID="AWS Account1 Number"
cat > trust.json << EOF
{
"Version": "2012-10-17",
"Statement": [
{
"Effect": "Allow",
"Principal": {
"AWS": "arn:aws:iam::${AWS_ACCOUNT1_ID}$:role/irsa-test"
},
"Action": "sts:AssumeRole"
}
]
}
EOF
# create IAM role and attach trust policy
aws iam create-role --role-name irsa-test --assume-role-policy-document file://trust.json
# remove trust.json file
rm trust.json
# attach AmazonS3FullAccess Permissions policy to the iam role
aws iam attach-role-policy --role-name irsa-test --policy-arn arn:aws:iam::aws:policy/AmazonS3FullAccess
Login to AWS Account1, go to IAM Role irsa-test
and create an inline
policy with permissions to allow Account1 to talk to Account2 as below -
{
"Effect": "Allow",
"Principal": {
"AWS": "arn:aws:iam::<ACC2_NUMBER>:role/irsa-test"
},
"Action": "sts:AssumeRole"
}
Replace ACC2_NUMBER
with AWS Account2's number.
Assuming your kubeconfig is still pointing to the EKS Cluster created earlier, also the irsa-test
pod is still running. Make sure to exit from the interactive terminal of irsa-test
pod, if it's still active from earlier session.
Exec into the irsa-test
pod and assume the IAM Role in Account2 and retrieve the credentials, configure AWS CLI to now talk to Account2. Create s3 bucket and validate that it gets created in Account2 as follows -
# exec into the irsa-test pod
export POD_NAME=$(kubectl get po -n irsa-test | grep irsa-test | awk -F ' ' '{print $1}')
kubectl exec -it -n irsa-test ${POD_NAME} -- bash
# Account2's number
export AWS_ACCOUNT2_NUMBER=<replace with Account2 number>
# retrieve Account2's credentials
aws sts assume-role --role-arn "arn:aws:iam::${AWS_ACCOUNT2_NUMBER}:role/irsa-test" --role-session-name "create-bucket-session"
# copy AccessKeyId, SecretAccessKey and SessionToken from the output and set following environment variables
ASSUME_ROLE_OUTPUT=$(aws sts assume-role --role-arn "arn:aws:iam::${AWS_ACCOUNT2_NUMBER}:role/irsa-test" --role-session-name "create-bucket-session")
export AWS_ACCESS_KEY_ID=$(echo $ASSUME_ROLE_OUTPUT | grep -o '"AccessKeyId": "[^"]*"' | cut -d'"' -f4)
export AWS_SECRET_ACCESS_KEY=$(echo $ASSUME_ROLE_OUTPUT | grep -o '"SecretAccessKey": "[^"]*"' | cut -d'"' -f4)
export AWS_SESSION_TOKEN=$(echo $ASSUME_ROLE_OUTPUT | grep -o '"SessionToken": "[^"]*"' | cut -d'"' -f4)
# set bucket name
BUCKET_NAME="cross-irsa-test-$(date +%s)"
# make sure you are logged into AWS Account2 now
aws sts get-caller-identity --query Account --output text
# create s3 bucket
aws s3api create-bucket --bucket ${BUCKET_NAME} --region us-west-2 --create-bucket-configuration LocationConstraint=us-west-2
# validate s3 bucket is created, there shouldn't be any error message on stdout
aws s3api head-bucket --bucket ${BUCKET_NAME} --region us-west-2
# delete s3 bucket, there shouldn't be any errors on stdout
aws s3 rm s3://${BUCKET_NAME} --region us-west-2 --recursive
aws s3api delete-bucket --bucket ${BUCKET_NAME} --region us-west-2
# validate s3 bucket is deleted, you should see 404 error message on stdout
aws s3api head-bucket --bucket ${BUCKET_NAME} --region us-west-2
This proves that now Pod running inside an EKS Cluster in Account1 can talk AWS Services in Account 2.
DO NOT FORGET TO DELETE THE INFRASTRUCTURE YOU ARE CREATING.
PLEASE FOLLOW THE CLEANUP STEPS TO CLEAN EKS CLUSTER IN THE BLOG LINKED ABOVE OR FOLLOW THIS README.
To clean the IAM Role created simply log into the AWS Console of Account1 and Account2 and delete the irsa-test
IAM Roles you created in sections earlier.
NOTE: if you don't cleanup the infrastructure you created and don't need anymore, you will have unexpected cloud costs in your AWS bill.
IAM Roles for Service Accounts (IRSA) is a significant advancement for AWS EKS, offering a more secure way to access AWS resources from your applications. By integrating this feature into your applications, you can maintain granular control over access to AWS services and better adhere to the security best practices of least privilege and role segregation.
Remember, each new AWS feature such as IRSA offers opportunities to enhance the security and capability of your applications, allowing you to deliver robust, scalable, and secure applications on the AWS platform.
Feel free to reach out with any concerns or questions you have. I will make every effort to address your inquiries and provide resolutions. Stay tuned for the upcoming blog in this series dedicated to Platformwale (Engineers who work on Infrastructure Platform teams).
Originally published at https://platformwale.blog on Aug 2, 2023.