Istio with Pomerium
Istio provides application-aware networking via a service mesh and control plane. When configured with the Pomerium Ingress Controller for kubernetes, this enables authorization (authZ) and authentication (authN) of east-west traffic in your internal network bringing you closer to complete zero trust.
In this guide, we'll demonstrate how to configure Pomerium and Istio in a Kubernetes environment to provide mutual authentication at both the transport and application layer. We'll demonstrate first with a simple test service (Nginx), and then use Grafana to illustrate how the final service can use the same authentication data for user association.
Before You Begin
- You will need a Kubernetes environment with Istio installed. Refer to their Getting Started guide for more information.
- This configuration uses the Pomerium Ingress Controller for north-south traffic. This guide uses our Helm chart as detailed in Install Pomerium using Helm. We'll cover the values needed to configure the controller with an Istio service mesh, but you can refer to the documentation for a complete overview of the controller spec.
How it Works
In our Mutual Authentication section on Sidecars, we detail how a single service can offload authN and authz to a sidecar service. In a service mesh, each service in an internal network is deployed with a sidecar, and the controller configures them to provide mutual authentication with each other:
tip
This is a simplified model that doesn't describe the additional traffic for authorization and authentication.
See the Legend on our Mutual Authentication page for details on our graphing style.
Configure Pomerium for Istio
Follow Install Pomerium using Helm to set up the Pomerium Ingress Controller and Services, with the following adjustments.
Apply the appropriate label for Istio injection into your Pomerium namespace:
kubectl label namespace pomerium istio-injection=enabled
Update your
pomerium-values.yaml
file, making note of the changes for integration with Istio:pomerium-values.yamlauthenticate:
idp:
provider: "google"
clientID: YOUR_CLIENT_ID
clientSecret: YOUR_SECRET
serviceAccount: YOUR_SERVICE_ACCOUNT
proxy:
deployment:
podAnnotations:
traffic.sidecar.istio.io/excludeInboundPorts: "80,443" # allow external connections to terminate directly on the Pomerium proxy rather than the sidecar
config:
rootDomain: localhost.pomerium.io
generateTLS: false # disable certificate generation since we offload TLS to the mesh
insecure: true # disable TLS on internal Pomerium services
ingress:
enabled: false # disable the default ingress resource since we are using our ingress controller
ingressController:
enabled: true # enable the Pomerium Ingress Controller
service:
authorize:
headless: false # send traffic to the Pomerium Authorize through the Istio service rather than to individual pods
databroker:
headless: false # send traffic to the Pomerium Databroker through the Istio service rather than to individual podsWhen defining a test service, you should now see two containers for the service pod:
kubectl get pods
NAME READY STATUS RESTARTS AGE
...
nginx-6955473668-cxprp 2/2 Running 0 19sThis indicates that Istio has configured a sidecar container to handle traffic to and from the service.
Istio CRDs
Now that Pomerium is installed in the cluster, we can define authentication and authorization rules for Istio, which will validate traffic to our example service as coming from the Pomerium Proxy service, through an authorized route, and with an authenticated user token.
Adjust the following example
nginx-istio-policy.yaml
file to match your Kubernetes environment and domain names:nginx-istio-policy.yamlapiVersion: security.istio.io/v1beta1
kind: RequestAuthentication
metadata:
name: nginx-require-pomerium-jwt
spec:
selector:
matchLabels:
app.kubernetes.io/name: nginx # This matches the label applied to our test service
jwtRules:
- issuer: "authenticate.localhost.pomerium.io" # Adjust to match your Authenticate service URL
audiences:
- hello.localhost.pomerium.io # This should match the value of spec.host in the services Ingress
fromHeaders:
- name: "X-Pomerium-Jwt-Assertion"
jwksUri: https://authenticate.localhost.pomerium.io/.well-known/pomerium/jwks.json # Adjust to match your Authenticate service URL.
# The jwksUri key above is the preferred method of retrieving the signing key, and should be used in production. See
# See https://istio.io/latest/docs/reference/config/security/jwt/#JWTRule
#
#If the Authenticate service is using a localhost or other domain that's not a FQDN. You can instead provide the content from that path using the jwks key:
#jwks: |
# {"keys":[{"use":"sig","kty":"EC","kid":"e1c5d20b9cf771de0bd6038ee5b5fe831f771d3715b72c2db921611ffca7242f","crv":"P-256","alg":"ES256","x":"j8I1I7eb0Imr2pvxRk13cK9ZjAA3VPrdUIHkAslX2e0","y":"jfWNKJkq3b5hrTz2JsrXCcvgJCPP7QSFgX1ZT9wapIQ"}]}
---
apiVersion: security.istio.io/v1beta1
kind: AuthorizationPolicy
metadata:
name: nginx-require-pomerium-jwt
spec:
selector:
matchLabels:
app.kubernetes.io/name: nginx # This matches the label applied to our test service
action: ALLOW
rules:
- when:
- key: request.auth.claims[aud]
values: ["hello.localhost.pomerium.io"] # This should match the value of spec.host in the service's IngressThis file defines two Custom Resources. The first is a
RequestAuthentication
, and it specifies:- For objects with the
app.kubernetes.io/name
label matchingnginx
, Istio will check that:- the request includes the header
X-Pomerium-Jwt-Assertion
, which provides a JWT, - and that JWT is issued by the Pomerium Authenticate service,
- and the JWT is signed by the signing key provided by the Authenticate service.
- the request includes the header
If the JWT is found and validated, then the content within can be checked against the
AuthorizationPolicy
below. If the JWT is provided but not validated, it will not passRequestAuthentication
. If the JWT is not provided, the request will automatically fail anyAuthorizationPolicy
.The second resource is an
AuthorizationPolicy
, and it species:- For objects with the
app.kubernetes.io/name
label matchingnginx
, only allow requests:- if the request includes a JWT (already validated by
RequestAuthentication
) with the audience keyaud
, - and the value of the
aud
key matches our known route,hello.localhost.pomerium.io
.
- if the request includes a JWT (already validated by
In other words,
RequestAuthentication
confirms that the incoming traffic to the sidecar has a signed and valid JWT, which confirms that the user has been authenticated and is authorized to access this service. TheAuthorizationPolicy
confirms that the traffic originated from a valid Pomerium route. The latter is especially important in Pomerium Enterprise, where a manager of a separate Namespace could create a second route to a service normally routed and managed in your namespace.- For objects with the
Apply the new resources with
kubectl
:kubectl apply -f authorization-policy.yaml
Now when you go to
hello.localhost.pomerium.io
in the browser, you should seeRBAC: access denied
. This confirms that the policy is in place and denying our request. To allow the traffic, add thepass_identity_headers
annotation toexample-ingress.yaml
:apiVersion: networking.k8s.io/v1
kind: Ingress
metadata:
name: hello
annotations:
kubernetes.io/ingress.class: pomerium
cert-manager.io/issuer: pomerium-issuer
ingress.pomerium.io/pass_identity_headers: "true"
ingress.pomerium.io/policy: '[{"allow":{"and":[{"domain":{"is":"example.com"}}]}}]'
...After applying the update with
kubectl apply -f example-ingress.yaml
, you should now be able to access the test service in the browser.
Grafana
To demonstrate complete authorization validation through to the upstream service we'll use Grafana, as it's easy to configure to accept user authN from JWTs.
Add the Grafana repository to Helm:
helm repo add grafana https://grafana.github.io/helm-charts
Create a
grafana-values.yaml
file and add the annotations for the Pomerium Ingress Controller:grafana-values.yamlingress:
enabled: true
annotations:
# Specify the certificate issuer for your namespace or cluster. For example:
# cert-manager.io/issuer: pomerium-issuer
kubernetes.io/ingress.class: pomerium
ingress.pomerium.io/pass_identity_headers: "true"
ingress.pomerium.io/policy: |
- allow:
or:
- domain:
is: example.com
hosts:
- "grafana.localhost.pomerium.io"
tls:
- hosts:
- grafana.localhost.pomerium.io
secretName: grafana.localhost.pomerium.io-tls
persistence:
type: pvc
enabled: false
# storageClassName: default
accessModes:
- ReadWriteOnce
size: 10Gi
# annotations: {}
finalizers:
- kubernetes.io/pvc-protectiontip
Persistence is required to retain user data. Review the Grafana Helm chart configuration options to set the values for your environment.
Install Grafana to the cluster:
helm upgrade --install grafana grafana/grafana --values grafana-values.yaml
Follow the instructions in the terminal output to log in as the admin user. Follow the Add Users to Grafana section of our Grafana guide to add a user that can be identified by the Pomerium JWT.
To the same file, add the following values to the
grafana.ini
section.grafana.ini.yamlgrafana.ini:
auth:
disable_login_form: true
auth.jwt:
enabled: true
header_name: X-Pomerium-Jwt-Assertion
email_claim: email
jwk_set_url: https://authenticate.localhost.pomerium.io/.well-known/pomerium/jwks.jsonThis tells Grafana to use the email address provided in the
X-Pomerium-Jwt-Assertion
JWT and associate it with the matching Grafana user. It also disabled Grafana's login form. See Grafana's JWT authentication documentation for more configuration options.Upgrade Grafana with the new configuration options:
helm upgrade --install grafana grafana/grafana --values grafana-values.yaml
Now when you visit the Grafana route, you should be signed in as the user matching your Pomerium claim. To finalize the installation, create a new
grafana-istio-policy.yaml
file. Adjust the matchers and host values for Grafana, and enableforwardOriginalToken
:apiVersion: security.istio.io/v1beta1
kind: RequestAuthentication
metadata:
name: grafana-require-pomerium-jwt
spec:
selector:
matchLabels:
app.kubernetes.io/name: grafana # This matches the label applied to our test service
jwtRules:
- issuer: "authenticate.localhost.pomerium.io" # Adjust to match your Authenticate service URL
audiences:
- grafana.localhost.pomerium.io # This should match the value of spec.host in the services Ingress
fromHeaders:
- name: "X-Pomerium-Jwt-Assertion"
forwardOriginalToken: true
jwksUri: https://authenticate.localhost.pomerium.io/.well-known/pomerium/jwks.json # Adjust to match your Authenticate service URL.
# The jwksUri key above is the preferred method of retrieving the signing key, and should be used in production.
# See https://istio.io/latest/docs/reference/config/security/jwt/#JWTRule
#
#If the Authenticate service is using a localhost or other domain that's not a FQDN. You can instead provide the content from that path using the jwks key:
#jwks: |
# {"keys":[{"use":"sig","kty":"EC","kid":"e1c5d20b9cf771de0bd6038ee5b5fe831f771d3715b72c2db921611ffca7242f","crv":"P-256","alg":"ES256","x":"j8I1I7eb0Imr2pvxRk13cK9ZjAA3VPrdUIHkAslX2e0","y":"jfWNKJkq3b5hrTz2JsrXCcvgJCPP7QSFgX1ZT9wapIQ"}]}
---
apiVersion: security.istio.io/v1beta1
kind: AuthorizationPolicy
metadata:
name: grafana-require-pomerium-jwt
spec:
selector:
matchLabels:
app.kubernetes.io/name: grafana # This matches the label applied to our test service
action: ALLOW
rules:
- when:
- key: request.auth.claims[aud]
values: ["grafana.localhost.pomerium.io"] # This should match the value of spec.host in the service's IngressApply the policies with
kubectl apply -f
to complete the configuration.