User guide: Injecting data in the request¶
Inject HTTP headers with serialized JSON content.
Authorino capabilities featured in this guide:
- Dynamic response → JSON injection
- Identity verification & authentication → API key
Inject serialized custom JSON objects as HTTP request headers. Values can be static or fetched from the Authorization JSON.
Check out as well the user guide about Authentication with API keys.
For further details about Authorino features in general, check the docs.
Requirements¶
- Kubernetes server with permissions to install cluster-scoped resources (operator, CRDs and RBAC)
If you do not own a Kubernetes server already and just want to try out the steps in this guide, you can create a local containerized cluster by executing the command below. In this case, the main requirement is having Kind installed, with either Docker or Podman.
The next steps walk you through installing Authorino, deploying and configuring a sample service called Talker API to be protected by the authorization service.
Using Kuadrant |
---|
If you are a user of Kuadrant and already have your workload cluster configured and sample service application deployed, as well as your Gateway API network resources applied to route traffic to your service, skip straight to step ❺. At step ❺, instead of creating an For more about using Kuadrant to enforce authorization, check out Kuadrant auth. |
❶ Install the Authorino Operator (cluster admin required)¶
The following command will install the Authorino Operator in the Kubernetes cluster. The operator manages instances of the Authorino authorization service.
curl -sL https://raw.githubusercontent.com/Kuadrant/authorino-operator/main/utils/install.sh | bash -s
❷ Deploy Authorino¶
The following command will request an instance of Authorino as a separate service1 that watches for AuthConfig
resources in the default
namespace2, with TLS disabled3.
kubectl apply -f -<<EOF
apiVersion: operator.authorino.kuadrant.io/v1beta1
kind: Authorino
metadata:
name: authorino
spec:
listener:
tls:
enabled: false
oidcServer:
tls:
enabled: false
EOF
❸ Deploy the Talker API¶
The Talker API is a simple HTTP service that echoes back in the response whatever it gets in the request. We will use it in this guide as the sample service to be protected by Authorino.
kubectl apply -f https://raw.githubusercontent.com/kuadrant/authorino-examples/main/talker-api/talker-api-deploy.yaml
❹ Setup Envoy¶
The following bundle from the Authorino examples deploys the Envoy proxy and configuration to wire up the Talker API behind the reverse-proxy, with external authorization enabled with the Authorino instance.4
kubectl apply -f https://raw.githubusercontent.com/kuadrant/authorino-examples/main/envoy/envoy-notls-deploy.yaml
The command above creates an Ingress
with host name talker-api.127.0.0.1.nip.io
. If you are using a local Kubernetes cluster created with Kind, forward requests from your local port 8000 to the Envoy service running inside the cluster:
❺ Create an AuthConfig
¶
Create an Authorino AuthConfig
custom resource declaring the auth rules to be enforced.
The following defines a JSON object to be injected as an added HTTP header into the request, named after the response config x-ext-auth-data
. The object includes 3 properties:
- a static value
authorized: true
; - a dynamic value
request-time
, from Envoy-supplied contextual data present in the Authorization JSON; and - a greeting message
geeting-message
that interpolates a dynamic value read from an annotation of the KubernetesSecret
resource that represents the API key used to authenticate into a static string.
Kuadrant users –
Remember to create an AuthPolicy instead of an AuthConfig.
For more, see Kuadrant auth.
|
kubectl apply -f -<<EOF
apiVersion: authorino.kuadrant.io/v1beta3
kind: AuthConfig
metadata:
name: talker-api-protection
spec:
hosts:
- talker-api.127.0.0.1.nip.io
authentication:
"friends":
apiKey:
selector:
matchLabels:
group: friends
credentials:
authorizationHeader:
prefix: APIKEY
response:
success:
headers:
"x-ext-auth-data":
json:
properties:
"authorized":
value: true
"request-time":
selector: context.request.time.seconds
"greeting-message":
selector: Hello, {auth.identity.metadata.annotations.auth-data\/name}!
EOF
Check out the docs for information about the common feature JSON paths for reading from the Authorization JSON.
❻ Create an API key¶
kubectl apply -f -<<EOF
apiVersion: v1
kind: Secret
metadata:
name: api-key-1
labels:
authorino.kuadrant.io/managed-by: authorino
group: friends
annotations:
auth-data/name: Rita
stringData:
api_key: ndyBzreUzF4zqDQsqSPMHkRhriEOtcRx
type: Opaque
EOF
❼ Consume the API¶
curl -H 'Authorization: APIKEY ndyBzreUzF4zqDQsqSPMHkRhriEOtcRx' http://talker-api.127.0.0.1.nip.io:8000/hello
# {
# "method": "GET",
# "path": "/hello",
# "query_string": null,
# "body": "",
# "headers": {
# …
# "X-Ext-Auth-Data": "{\"authorized\":true,\"greeting-message\":\"Hello, Rita!\",\"request-time\":1637954644}",
# },
# …
# }
Cleanup¶
If you have started a Kubernetes cluster locally with Kind to try this user guide, delete it by running:
Otherwise, delete the resources created in each step:
kubectl delete secret/api-key-1
kubectl delete authconfig/talker-api-protection
kubectl delete -f https://raw.githubusercontent.com/kuadrant/authorino-examples/main/envoy/envoy-notls-deploy.yaml
kubectl delete -f https://raw.githubusercontent.com/kuadrant/authorino-examples/main/talker-api/talker-api-deploy.yaml
kubectl delete authorino/authorino
To uninstall the Authorino Operator and manifests (CRDs, RBAC, etc), run:
kubectl delete -f https://raw.githubusercontent.com/Kuadrant/authorino-operator/main/config/deploy/manifests.yaml
-
In contrast to a dedicated sidecar of the protected service and other architectures. Check out Architecture > Topologies for all options. ↩
-
namespaced
reconciliation mode. See Cluster-wide vs. Namespaced instances. ↩ -
For other variants and deployment options, check out Getting Started, as well as the
Authorino
CRD specification. ↩ -
For details and instructions to setup Envoy manually, see Protect a service > Setup Envoy in the Getting Started page. If you are running your ingress gateway in Kubernetes and wants to avoid setting up and configuring your proxy manually, check out Kuadrant. ↩