When developing microservices-based applications to run on cloud native platforms, there are many ways to provision different resources and share their coordinates, credentials, and configuration, depending on the service provider and the platform.
To give developers a more seamless experience, OpenShift Container Platform includes a service catalog, an implementation of the Open Service Broker API (OSB API) for Kubernetes. This allows users to connect any of their applications deployed in OpenShift Container Platform to a wide variety of service brokers.
The service catalog allows cluster administrators to integrate multiple platforms using a single API specification. The OpenShift Container Platform web console displays the cluster service classes offered by service brokers in the service catalog, allowing users to discover and instantiate those services for use with their applications.
As a result, service users benefit from ease and consistency of use across different types of services from different providers, while service providers benefit from having one integration point that gives them access to multiple platforms.
The design of the service catalog follows this basic workflow:
New terms in the following are defined further in Concepts and Terminology.
|1||A cluster administrator registers one or more cluster service brokers with their OpenShift Container Platform cluster. This can be done automatically during installation for some default-provided service brokers or manually.|
|2||Each service broker specifies a set of cluster service classes and variations of those services (service plans) to OpenShift Container Platform that should be made available to users.|
|3||Using the OpenShift Container Platform web console or CLI, users discover the services that are available. For example, a cluster service class may be available that is a database-as-a-service called BestDataBase.|
|4||A user chooses a cluster service class and requests a new instance of
their own. For example, a service instance may be a BestDataBase instance named
|5||A user links, or binds, their service instance to a set of pods (their
application). For example, the
When a user makes a request to provision or deprovision a resource, the request
is made to the service catalog, which then sends a request to the appropriate
cluster service broker. With some services, some operations such as
update are expected to take some time to fulfill. If the
cluster service broker is unavailable, the service catalog will continue to
retry the operation.
This infrastructure allows a loose coupling between applications running in OpenShift Container Platform and the services they use. This allows the application that uses those services to focus on its own business logic while leaving the management of these services to the provider.
When a user is done with a service (or perhaps no longer wishes to be billed), the service instance can be deleted. In order to delete the service instance, the service bindings must be removed first. Deleting the service bindings is known as unbinding. Part of the deletion process includes deleting the secret that references the service binding being deleted.
Once all the service bindings are removed, the service instance may be deleted. Deleting the service instance is known as deprovisioning.
If a project or namespace containing service bindings and service instances is deleted, the service catalog must first request the cluster service broker to delete the associated instances and bindings. This is expected to delay the actual deletion of the project or namespace since the service catalog must communicate with cluster service brokers and wait for them to perform their deprovisioning work. In normal circumstances, this may take several minutes or longer depending on the service.
If you delete a service binding used by a deployment, you must also remove any references to the binding secret from the deployment. Otherwise, the next rollout will fail.
A cluster service broker is a server that conforms to the OSB API specification and manages a set of one or more services. The software could be hosted within| your own OpenShift Container Platform cluster or elsewhere.
Cluster administrators can create
ClusterServiceBroker API resources
representing cluster service brokers and register them with their OpenShift Container Platform
cluster. This allows cluster administrators to make new types of managed services
using that cluster service broker available within their cluster.
ClusterServiceBroker resource specifies connection details for a cluster
service broker and the set of services (and variations of those services) to
OpenShift Container Platform that should then be made available to users. Of special note is
authInfo section, which contains the data used to authenticate with the
cluster service broker.
apiVersion: servicecatalog.k8s.io/v1beta1 kind: ClusterServiceBroker metadata: name: BestCompanySaaS spec: url: http://bestdatabase.example.com authInfo: basic: secretRef: namespace: test-ns name: secret-name
Also synonymous with "service" in the context of the service catalog, a cluster
service class is a type of managed service offered by a particular cluster
service broker. Each time a new cluster service broker resource is added to the
cluster, the service catalog controller connects to the corresponding cluster
service broker to obtain a list of service offerings. A new
resource is automatically created for each.
OpenShift Container Platform also has a core concept called services, which are separate Kubernetes resources related to internal load balancing. These resources are not to be confused with how the term is used in the context of the service catalog and OSB API.
apiVersion: servicecatalog.k8s.io/v1beta1 kind: ClusterServiceClass metadata: name: smallDB brokerName: BestDataBase plans: [...]
A cluster service plan is represents tiers of a cluster service class. For example, a cluster service class may expose a set of plans that offer varying degrees of quality-of-service (QoS), each with a different cost associated with it.
A service instance is a provisioned instance of a cluster service class. When a user wants to use the capability provided by a service class, they can create a new service instance.
When a new
ServiceInstance resource is created, the service catalog controller
connects to the appropriate cluster service broker and instructs it to provision
the service instance.
apiVersion: servicecatalog.k8s.io/v1beta1 kind: ServiceInstance metadata: name: my_db namespace: test-ns spec: externalClusterServiceClassName: smallDB externalClusterServicePlanName: default
The term application refers to the OpenShift Container Platform deployment artifacts, for example pods running in a user’s project, that will use a service instance.
Credentials are information needed by an application to communicate with a service instance.
A service binding is a link between a service instance and an application. These are created by cluster users who wish for their applications to reference and use a service instance.
Upon creation, the service catalog controller creates a Kubernetes secret
containing connection details and credentials for the service instance. Such
secrets can be mounted into pods as usual. There is also integration with
PodPresets, which allow you to express how the secret should be consumed, and
in which pods.
apiVersion: servicecatalog.k8s.io/v1beta1 kind: ServiceBinding metadata: name: myBinding namespace: test-ns spec: instanceRef: name: my_db parameters: securityLevel: confidential secretName: mySecret
A parameter is a special field available to pass additional data to the cluster
service broker when using either service bindings or service instances. The only
formatting requirement is for the parameters to be valid YAML (or JSON). In the
above example, a security level parameter is passed to the cluster service broker
in the service binding request. For parameters that need more security, place
them in a secret and reference them using
apiVersion: servicecatalog.k8s.io/v1beta1 kind: ServiceBinding metadata: name: myBinding namespace: test-ns spec: instanceRef: name: my_db parametersFrom: - secretKeyRef: name: securityLevel key: myKey secretName: mySecret