Deploying a Pod as an AWS Nitro Enclave
The previous sections were all about setting up an AWS EKS cluster with the Anjuna Nitro Kubernetes tools
installed in the cluster. You are now able to start a container in an AWS Nitro
Enclave without changing the container, and verify that it is in fact running in an enclave. In
this section you will load a simple nginx
container in an enclave.
First,
download the license from the Anjuna Resource Center.
This license file will be mounted to your nginx
Pod as a
Kubernetes secret.
Run the following command to create a Kubernetes secret:
$ kubectl create secret generic anjuna-license --from-file=license.yaml=license.yaml
The Anjuna Nitro Webhook will automatically mount the license secret to the new Pod’s filesystem.
Run the following command to install the Helm chart:
$ helm install nitro-nginx helm-charts/nitro-nginx
Wait for the Pod to start by running the command until the Pod is running:
$ kubectl get pods
When the Pod is running, run the following command to see what the Pod did:
$ kubectl logs nitro-nginx-pod
Inspecting the logs, you will see that the Pod nitro-nginx-pod
is:
-
downloading the
nginx
container, -
converting it into an EIF (enclave image file) using the Anjuna Nitro Runtime,
-
configuring the networking settings using the Anjuna Nitro Runtime,
-
starting the enclave in debug mode,
-
showing the AWS Nitro console output, which indicates that
nginx
should have started.
To confirm that nginx
is in fact running, you can connect to the Pod, and issue a curl
command to verify
that nginx
is responding to requests.
$ kubectl exec -it nitro-nginx-pod -- curl http://localhost:80
This command should display a welcome page from nginx
.
How this works
To understand how the Anjuna Nitro Kubernetes tools are told to create an enclave, you have to inspect the Pod
specification used for nginx
. Open the file helm-charts/nitro-nginx/templates/nitro-nginx.yaml
.
1 ---
2 apiVersion: v1
3 kind: Service
4 metadata:
5 name: nitro-nginx
6 spec:
7 selector:
8 name: nitro-nginx-pod
9 ports:
10 - protocol: TCP
11 port: 80
12 targetPort: 80
13 ---
14 apiVersion: v1
15 kind: Pod
16 metadata:
17 name: nitro-nginx-pod
18 labels:
19 name: nitro-nginx-pod
20 nitro.k8s.anjuna.io/managed: "yes"
21 spec:
22 containers:
23 - name: nitro-nginx-pod
24 image: nginx:latest
25 imagePullPolicy: Always
26 resources:
27 limits:
28 memory: "2048Mi"
29 cpu: "2"
30 ports:
31 - containerPort: 80
-
Lines 14-19: Declare that a Pod
nitro-nginx-pod
will be created. -
Line 20: Declares that this Pod should be running in an AWS Nitro Enclave by using the
nitro.k8s.anjuna.io/managed
label. -
Line 24: The Pod should launch the container
nginx:latest
in the AWS Nitro Enclave. -
Lines 26-29: Declare the resources that should be allocated to the enclave (number of vCPUs (must be even due to hyperthreading), RAM). If these resource limits are not defined, the webhook will default to using the total memory and CPU cores that were reserved for AWS Nitro.
All Pod configured volumes are automatically mounted into the enclave using a bind mount. |
K8s Probes with the Anjuna Nitro Runtime
The Anjuna Nitro Runtime supports liveness, readiness, and startup probes for network-based applications that export the appropriate ports.
Command-based liveness, readiness, and startup probes might not work since the cluster executes the commands on the launcher Pod, and not inside the AWS Nitro Enclave.
AWS Nitro Enclave Pods first build the EIF (when not using a pre-built EIF) and then run the AWS Nitro Enclave (no matter the EIF build strategy), and therefore require a significantly longer startup period before the application starts running.
Anjuna suggests setting your probes’ initialDelaySeconds
to 180 to allow the AWS Nitro
Enclave to start before probing the application.
The larger the enclave, the longer the initialDelaySeconds value should be. Large enclaves
may require more than 180 seconds to start.
|
Example of a Pod spec file with a Liveness Probe:
1 apiVersion: v1
2 kind: Pod
3 metadata:
4 name: nitro-nginx-pod
5 labels:
6 name: nitro-nginx-pod
7 nitro.k8s.anjuna.io/managed: "yes"
8 spec:
9 containers:
10 - name: nitro-nginx-pod
11 image: nginx:latest
12 imagePullPolicy: Always
13 resources:
14 limits:
15 memory: "2048Mi"
16 cpu: "2"
17 ports:
18 - containerPort: 80
19 livenessProbe:
20 httpGet:
21 path: /index.html
22 port: 80
23 initialDelaySeconds: 180
24 periodSeconds: 3