The reporting-operator is responsible for collecting data from Prometheus, storing the metrics in Presto, running report queries against Presto, and exposing their results via an HTTP API. Configuring the Operator is primarily done through your MeteringConfig file.

Prometheus connection

When you install metering on OpenShift Container Platform, Prometheus is available at https://prometheus-k8s.openshift-monitoring.svc:9091/.

To secure the connection to Prometheus, the default metering installation uses the OpenShift Container Platform certificate authority. If your Prometheus instance uses a different CA, the CA can be injected through a ConfigMap. See the following example.

            useServiceAccountCA: false
              enabled: true
              create: true
              name: reporting-operator-certificate-authority-config
              filename: "internal-ca.crt"
              value: |
                -----BEGIN CERTIFICATE-----
                -----END CERTIFICATE-----

Alternatively, to use the system certificate authorities for publicly valid certificates, set both useServiceAccountCA and configMap.enabled to false.

The reporting-operator can also be configured to use a specified bearer token to auth with Prometheus. See the following example.

              useServiceAccountToken: false
                enabled: true
                create: true
                value: "abc-123"

Exposing the reporting API

On OpenShift Container Platform the default metering installation automatically exposes a Route, making the reporting API available. This provides the following features:

  • Automatic DNS

  • Automatic TLS based on the cluster CA

Also, the default installation makes it possible to use the OpenShift service for serving certificates to protect the reporting API with TLS. The OpenShift OAuth proxy is deployed as a side-car container for reporting-operator, which protects the reporting API with authentication.

Using OpenShift Authentication

By default, the reporting API is secured with TLS and authentication. This is done by configuring the reporting-operator to deploy a pod containing both the reporting-operator’s container, and a sidecar container running OpenShift auth-proxy.

In order to access the reporting API, the metering operator exposes a route. Once that route has been installed, you can run the following command to get the route’s hostname.

METERING_ROUTE_HOSTNAME=$(oc -n openshift-metering get routes metering -o json | jq -r '.status.ingress[].host')

Next, set up authentication using either a service account token or basic authentication with a username/password.

Authenticate using a service account token

With this method, you use the token in the reporting Operator’s service account, and pass that bearer token to the Authorization header in the following command:

TOKEN=$(oc -n openshift-metering serviceaccounts get-token reporting-operator)
curl -H "Authorization: Bearer $TOKEN" -k "https://$METERING_ROUTE_HOSTNAME/api/v1/reports/get?name=[Report Name]&namespace=openshift-metering&format=[Format]"

Be sure to replace the name=[Report Name] and format=[Format] parameters in the URL above. The format parameter can be json, csv, or tabular.

Authenticate using a username and password

We are able to do basic authentication using a username and password combination, which is specified in the contents of a htpasswd file. By default, we create a secret containing an empty htpasswd data. You can, however, configure the reporting-operator.spec.authProxy.htpasswd.data and reporting-operator.spec.authProxy.htpasswd.createSecret keys to use this method.

Once you have specified the above in your MeteringConfig, you can run the following command:

curl -u testuser:password123 -k "https://$METERING_ROUTE_HOSTNAME/api/v1/reports/get?name=[Report Name]&namespace=openshift-metering&format=[Format]"

Be sure to replace testuser:password123 with a valid username and password combination.

Manually Configuring Authentication

In order to manually configure, or disable OAuth in the reporting-operator, you must set spec.tls.enabled: false in your MeteringConfig.

This also disables all TLS/authentication between the reporting-operator, presto, and hive. You would need to manually configure these resources yourself.

Authentication can be enabled by configuring the following options. Enabling authentication configures the reporting-operator pod to run the OpenShift auth-proxy as a sidecar container in the pod. This adjusts the ports so that the reporting-operator API isn’t exposed directly, but instead is proxied to via the auth-proxy sidecar container.

  • reporting-operator.spec.authProxy.enabled

  • reporting-operator.spec.authProxy.cookie.createSecret

  • reporting-operator.spec.authProxy.cookie.seed

You need to set reporting-operator.spec.authProxy.enabled and reporting-operator.spec.authProxy.cookie.createSecret to true and reporting-operator.spec.authProxy.cookie.seed to a 32-character random string.

You can generate a 32-character random string using the following command.

$ openssl rand -base64 32 | head -c32; echo.

Token authentication

When the following options are set to true, authentication using a bearer token is enabled for the reporting REST API. Bearer tokens can come from serviceAccounts or users.

  • reporting-operator.spec.authProxy.subjectAccessReview.enabled

  • reporting-operator.spec.authProxy.delegateURLs.enabled

When authentication is enabled, the Bearer token used to query the reporting API of the user or serviceAccount must be granted access using one of the following roles:

  • report-exporter

  • reporting-admin

  • reporting-viewer

  • metering-admin

  • metering-viewer

The metering-operator is capable of creating RoleBindings for you, granting these permissions by specifying a list of subjects in the spec.permissions section. For an example, see the following advanced-auth.yaml example configuration.

apiVersion: metering.openshift.io/v1
kind: MeteringConfig
  name: "operator-metering"
    # anyone in the "metering-admins" group can create, update, delete, etc any
    # metering.openshift.io resources in the namespace.
    # This also grants permissions to get query report results from the reporting REST API.
    - kind: Group
      name: metering-admins
    # Same as above except read only access and for the metering-viewers group.
    - kind: Group
      name: metering-viewers
    # the default serviceaccount in the namespace "my-custom-ns" can:
    # create, update, delete, etc reports.
    # This also gives permissions query the results from the reporting REST API.
    - kind: ServiceAccount
      name: default
      namespace: my-custom-ns
    # anyone in the group reporting-readers can get, list, watch reports, and
    # query report results from the reporting REST API.
    - kind: Group
      name: reporting-readers
    # anyone in the group cluster-admins can query report results
    # from the reporting REST API. So can the user bob-from-accounting.
    - kind: Group
      name: cluster-admins
    - kind: User
      name: bob-from-accounting

        # htpasswd.data can contain htpasswd file contents for allowing auth
        # using a static list of usernames and their password hashes.
        # username is 'testuser' password is 'password123'
        # generated htpasswdData using: `htpasswd -nb -s testuser password123`
        # htpasswd:
        #   data: |
        #     testuser:{SHA}y/2sYAj5yrQIN4TL0YdPdmGNKpc=
        # change REPLACEME to the output of your htpasswd command
          data: |

Alternatively, you can use any role which has rules granting get permissions to reports/export. This means get access to the export sub-resource of the Report resources in the namespace of the reporting-operator. For example: admin and cluster-admin.

By default, the reporting-operator and metering-operator serviceAccounts both have these permissions, and their tokens can be used for authentication.

Basic authentication (username/password)

For basic authentication you can supply a username and password in reporting-operator.spec.authProxy.htpasswd.data. The username and password must be the same format as those found in an htpasswd file. When set, you can use HTTP basic authentication to provide your username and password that has a corresponding entry in the htpasswdData contents.