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User guide: HTTP "Basic" Authentication (RFC 7235)

Turn Authorino API key Secrets settings into HTTP basic auth.

Authorino capabilities featured in this guide:

HTTP "Basic" Authentication (RFC 7235) is not recommended if you can afford other more secure methods such as OpenID Connect. To support legacy nonetheless it is sometimes necessary to implement it.

In Authorino, HTTP "Basic" Authentication can be modeled leveraging the API key authentication feature (stored as Kubernetes Secrets with an api_key entry and labeled to match selectors specified in spec.identity.apiKey.selector of the AuthConfig).

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.

kind create cluster --name authorino-tutorial


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 AuthConfig custom resource, create a Kuadrant AuthPolicy one. The schema of the AuthConfig's spec matches the one of the AuthPolicy's, except spec.host, which is not available in the Kuadrant AuthPolicy. Host names in a Kuadrant AuthPolicy are inferred automatically from the Kubernetes network object referred in spec.targetRef and route selectors declared in the policy.

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:

kubectl port-forward deployment/envoy 8000:8000 2>&1 >/dev/null &

❺ Create an AuthConfig

Create an Authorino AuthConfig custom resource declaring the auth rules to be enforced.

The config uses API Key secrets to store base64-encoded username:password HTTP "Basic" authentication credentials. The config also specifies an Access Control List (ACL) by which only user john is authorized to consume the /bye endpoint of the API.

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:
    "http-basic-auth":
      apiKey:
        selector:
          matchLabels:
            group: users
      credentials:
        authorizationHeader:
          prefix: Basic
  authorization:
    "acl":
      when:
      - predicate: request.path == '/bye'
      patternMatching:
        patterns:
        - selector: context.request.http.headers.authorization.@extract:{"pos":1}|@base64:decode|@extract:{"sep":":"}
          operator: eq
          value: john
EOF

Check out the docs about using Common Expression Language (CEL) for reading from the Authorization JSON. Check out as well the common feature Conditions about skipping parts of an AuthConfig in the auth pipeline based on context.

❻ Create user credentials

To create credentials for HTTP "Basic" Authentication, store each username:password, base64-encoded, in the api_key value of the Kubernetes Secret resources. E.g.:

printf "john:ndyBzreUzF4zqDQsqSPMHkRhriEOtcRx" | base64
# am9objpuZHlCenJlVXpGNHpxRFFzcVNQTUhrUmhyaUVPdGNSeA==

Create credentials for user John:

kubectl apply -f -<<EOF
apiVersion: v1
kind: Secret
metadata:
  name: basic-auth-1
  labels:
    authorino.kuadrant.io/managed-by: authorino
    group: users
stringData:
  api_key: am9objpuZHlCenJlVXpGNHpxRFFzcVNQTUhrUmhyaUVPdGNSeA== # john:ndyBzreUzF4zqDQsqSPMHkRhriEOtcRx
type: Opaque
EOF

Create credentials for user Jane:

kubectl apply -f -<<EOF
apiVersion: v1
kind: Secret
metadata:
  name: basic-auth-2
  labels:
    authorino.kuadrant.io/managed-by: authorino
    group: users
stringData:
  api_key: amFuZTpkTnNScnNhcHkwbk5Dd210NTM3ZkhGcHl4MGNCc0xFcA== # jane:dNsRrsapy0nNCwmt537fHFpyx0cBsLEp
type: Opaque
EOF

❼ Consume the API

As John (authorized in the ACL):

curl -u john:ndyBzreUzF4zqDQsqSPMHkRhriEOtcRx http://talker-api.127.0.0.1.nip.io:8000/hello
# HTTP/1.1 200 OK
curl -u john:ndyBzreUzF4zqDQsqSPMHkRhriEOtcRx http://talker-api.127.0.0.1.nip.io:8000/bye
# HTTP/1.1 200 OK

As Jane (NOT authorized in the ACL):

curl -u jane:dNsRrsapy0nNCwmt537fHFpyx0cBsLEp http://talker-api.127.0.0.1.nip.io:8000/hello
# HTTP/1.1 200 OK
curl -u jane:dNsRrsapy0nNCwmt537fHFpyx0cBsLEp http://talker-api.127.0.0.1.nip.io:8000/bye -i
# HTTP/1.1 403 Forbidden

With an invalid user/password:

curl -u unknown:invalid http://talker-api.127.0.0.1.nip.io:8000/hello -i
# HTTP/1.1 401 Unauthorized
# www-authenticate: Basic realm="http-basic-auth"

❽ Revoke access to the API

kubectl delete secret/basic-auth-1

Cleanup

If you have started a Kubernetes cluster locally with Kind to try this user guide, delete it by running:

kind delete cluster --name authorino-tutorial

Otherwise, delete the resources created in each step:

kubectl delete secret/basic-auth-1
kubectl delete secret/basic-auth-2
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

  1. In contrast to a dedicated sidecar of the protected service and other architectures. Check out Architecture > Topologies for all options. 

  2. namespaced reconciliation mode. See Cluster-wide vs. Namespaced instances

  3. For other variants and deployment options, check out Getting Started, as well as the Authorino CRD specification. 

  4. 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