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Binding workloads using <strong>service</strong> Binding Operator - Connecting applications to <strong>service</strong>s | Building applications | OKD 4.15
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Application developers must bind a workload to one or more backing services by using a binding secret. This secret is generated for the purpose of storing information to be consumed by the workload.

As an example, consider that the service you want to connect to is already exposing the binding data. In this case, you would also need a workload to be used along with the serviceBinding custom resource (CR). By using this serviceBinding CR, the workload sends a binding request with the details of the services to bind with.

Example of serviceBinding CR
apiVersion: binding.operators.coreos.com/v1alpha1
kind: serviceBinding
metadata:
    name: spring-petclinic-pgcluster
    namespace: my-petclinic
spec:
    services: (1)
    - group: postgres-operator.crunchydata.com
      version: v1beta1
      kind: PostgresCluster
      name: hippo
    application: (2)
      name: spring-petclinic
      group: apps
      version: v1
      resource: deployments
1 Specifies a list of service resources.
2 The sample application that points to a Deployment or any other similar resource with an embedded PodSpec.

As shown in the previous example, you can also directly use a ConfigMap or a Secret itself as a service resource to be used as a source of binding data.

Naming strategies

Naming strategies are available only for the binding.operators.coreos.com API group.

Naming strategies use Go templates to help you define custom binding names through the service binding request. Naming strategies apply for all attributes including the mappings in the serviceBinding custom resource (CR).

A backing service projects the binding names as files or environment variables into the workload. If a workload expects the projected binding names in a particular format, but the binding names to be projected from the backing service are not available in that format, then you can change the binding names using naming strategies.

Predefined post-processing functions

While using naming strategies, depending on the expectations or requirements of your workload, you can use the following predefined post-processing functions in any combination to convert the character strings:

  • upper: Converts the character strings into capital or uppercase letters.

  • lower: Converts the character strings into lowercase letters.

  • title: Converts the character strings where the first letter of each word is capitalized except for certain minor words.

Predefined naming strategies

Binding names declared through annotations are processed for their name change before their projection into the workload according to the following predefined naming strategies:

  • none: When applied, there are no changes in the binding names.

    Example

    After the template compilation, the binding names take the {{ .name }} form.

    host: hippo-pgbouncer
    port: 5432
  • upper: Applied when no namingStrategy is defined. When applied, converts all the character strings of the binding name key into capital or uppercase letters.

    Example

    After the template compilation, the binding names take the {{ .service.kind | upper}}_{{ .name | upper }} form.

    DATABASE_HOST: hippo-pgbouncer
    DATABASE_PORT: 5432

    If your workload requires a different format, you can define a custom naming strategy and change the binding name using a prefix and a separator, for example, PORT_DATABASE.

  • When the binding names are projected as files, by default the predefined none naming strategy is applied, and the binding names do not change.

  • When the binding names are projected as environment variables and no namingStrategy is defined, by default the predefined uppercase naming strategy is applied.

  • You can override the predefined naming strategies by defining custom naming strategies using different combinations of custom binding names and predefined post-processing functions.

Advanced binding options

You can define the serviceBinding custom resource (CR) to use the following advanced binding options:

  • Changing binding names: This option is available only for the binding.operators.coreos.com API group.

  • Composing custom binding data: This option is available only for the binding.operators.coreos.com API group.

  • Binding workloads using label selectors: This option is available for both the binding.operators.coreos.com and servicebinding.io API groups.

Changing the binding names before projecting them into the workload

You can specify the rules to change the binding names in the .spec.namingStrategy attribute of the serviceBinding CR. For example, consider a Spring PetClinic sample application that connects to the PostgreSQL database. In this case, the PostgreSQL database service exposes the host and port fields of the database to use for binding. The Spring PetClinic sample application can access this exposed binding data through the binding names.

Example: Spring PetClinic sample application in the serviceBinding CR
# ...
    application:
      name: spring-petclinic
      group: apps
      version: v1
      resource: deployments
# ...
Example: PostgreSQL database service in the serviceBinding CR
# ...
    services:
    - group: postgres-operator.crunchydata.com
      version: v1beta1
      kind: PostgresCluster
      name: hippo
# ...

If namingStrategy is not defined and the binding names are projected as environment variables, then the host: hippo-pgbouncer value in the backing service and the projected environment variable would appear as shown in the following example:

Example
DATABASE_HOST: hippo-pgbouncer

where:

DATABASE

Specifies the kind backend service.

HOST

Specifies the binding name.

After applying the POSTGRESQL_{{ .service.kind | upper }}_{{ .name | upper }}_ENV naming strategy, the list of custom binding names prepared by the service binding request appears as shown in the following example:

Example
POSTGRESQL_DATABASE_HOST_ENV: hippo-pgbouncer
POSTGRESQL_DATABASE_PORT_ENV: 5432

The following items describe the expressions defined in the POSTGRESQL_{{ .service.kind | upper }}_{{ .name | upper }}_ENV naming strategy:

  • .name: Refers to the binding name exposed by the backing service. In the previous example, the binding names are HOST and PORT.

  • .service.kind: Refers to the kind of service resource whose binding names are changed with the naming strategy.

  • upper: String function used to post-process the character string while compiling the Go template string.

  • POSTGRESQL: Prefix of the custom binding name.

  • ENV: Suffix of the custom binding name.

Similar to the previous example, you can define the string templates in namingStrategy to define how each key of the binding names should be prepared by the service binding request.

Composing custom binding data

As an application developer, you can compose custom binding data under the following circumstances:

  • The backing service does not expose binding data.

  • The values exposed are not available in the required format as expected by the workload.

For example, consider a case where the backing service CR exposes the host, port, and database user as binding data, but the workload requires that the binding data be consumed as a connection string. You can compose custom binding data using attributes in the Kubernetes resource representing the backing service.

Example
apiVersion: binding.operators.coreos.com/v1alpha1
kind: serviceBinding
metadata:
    name: spring-petclinic-pgcluster
    namespace: my-petclinic
spec:
    services:
    - group: postgres-operator.crunchydata.com
      version: v1beta1
      kind: PostgresCluster
      name: hippo (1)
      id: postgresDB (2)
    - group: ""
      version: v1
      kind: Secret
      name: hippo-pguser-hippo
      id: postgresSecret
    application:
      name: spring-petclinic
      group: apps
      version: v1
      resource: deployments
    mappings:
      ## From the database service
      - name: JDBC_URL
        value: 'jdbc:postgresql://{{ .postgresDB.metadata.annotations.proxy }}:{{ .postgresDB.spec.port }}/{{ .postgresDB.metadata.name }}'
      ## From both the services!
      - name: CREDENTIALS
        value: '{{ .postgresDB.metadata.name }}{{ translationservice.postgresSecret.data.password }}'
      ## Generate JSON
      - name: DB_JSON (3)
        value: {{ json .postgresDB.status }} (4)
1 Name of the backing service resource.
2 Optional identifier.
3 The JSON name that the service Binding Operator generates. The service Binding Operator projects this JSON name as the name of a file or environment variable.
4 The JSON value that the service Binding Operator generates. The service Binding Operator projects this JSON value as a file or environment variable. The JSON value contains the attributes from your specified field of the backing service custom resource.

Binding workloads using a label selector

You can use a label selector to specify the workload to bind. If you declare a service binding using the label selectors to pick up workloads, the service Binding Operator periodically attempts to find and bind new workloads that match the given label selector.

For example, as a cluster administrator, you can bind a service to every Deployment in a namespace with the environment: production label by setting an appropriate labelSelector field in the serviceBinding CR. This enables the service Binding Operator to bind each of these workloads with one serviceBinding CR.

Example serviceBinding CR in the binding.operators.coreos.com/v1alpha1 API
apiVersion: binding.operators.coreos.com/v1alpha1
kind: serviceBinding
metadata:
  name: multi-application-binding
  namespace: service-binding-demo
spec:
  application:
    labelSelector: (1)
      matchLabels:
        environment: production
    group: apps
    version: v1
    resource: deployments
  services:
    group: ""
    version: v1
    kind: Secret
    name: super-secret-data
1 Specifies the workload that is being bound.
Example serviceBinding CR in the servicebinding.io API
apiVersion: servicebindings.io/v1beta1
kind: serviceBinding
metadata:
  name: multi-application-binding
  namespace: service-binding-demo
spec:
  workload:
    selector: (1)
      matchLabels:
        environment: production
    apiVersion: app/v1
    kind: Deployment
  service:
    apiVersion: v1
    kind: Secret
    name: super-secret-data
1 Specifies the workload that is being bound.

If you define the following pairs of fields, service Binding Operator refuses the binding operation and generates an error:

  • The name and labelSelector fields in the binding.operators.coreos.com/v1alpha1 API.

  • The name and selector fields in the servicebinding.io API (Spec API).

Understanding the rebinding behavior

Consider a case where, after a successful binding, you use the name field to identify a workload. If you delete and recreate that workload, the serviceBinding reconciler does not rebind the workload, and the Operator cannot project the binding data to the workload. However, if you use the labelSelector field to identify a workload, the serviceBinding reconciler rebinds the workload, and the Operator projects the binding data.

Binding secondary workloads that are not compliant with PodSpec

A typical scenario in service binding involves configuring the backing service, the workload (Deployment), and service Binding Operator. Consider a scenario that involves a secondary workload (which can also be an application Operator) that is not compliant with PodSpec and is between the primary workload (Deployment) and service Binding Operator.

For such secondary workload resources, the location of the container path is arbitrary. For service binding, if the secondary workload in a CR is not compliant with the PodSpec, you must specify the location of the container path. Doing so projects the binding data into the container path specified in the secondary workload of the serviceBinding custom resource (CR), for example, when you do not want the binding data inside a pod.

In service Binding Operator, you can configure the path of where containers or secrets reside within a workload and bind these paths at a custom location.

Configuring the custom location of the container path

This custom location is available for the binding.operators.coreos.com API group when service Binding Operator projects the binding data as environment variables.

Consider a secondary workload CR, which is not compliant with the PodSpec and has containers located at the spec.containers path:

Example: Secondary workload CR
apiVersion: "operator.sbo.com/v1"
kind: SecondaryWorkload
metadata:
    name: secondary-workload
spec:
    containers:
    - name: hello-world
      image: quay.io/baijum/secondary-workload:latest
      ports:
      - containerPort: 8080
Procedure
  • Configure the spec.containers path by specifying a value in the serviceBinding CR and bind this path to a spec.application.bindingPath.containersPath custom location:

    Example: serviceBinding CR with the spec.containers path in a custom location
    apiVersion: binding.operators.coreos.com/v1alpha1
    kind: serviceBinding
    metadata:
        name: spring-petclinic-pgcluster
    spec:
        services:
        - group: postgres-operator.crunchydata.com
          version: v1beta1
          kind: PostgresCluster
          name: hippo
          id: postgresDB
        - group: ""
          version: v1
          kind: Secret
          name: hippo-pguser-hippo
          id: postgresSecret
        application: (1)
          name: spring-petclinic
          group: apps
          version: v1
          resource: deployments
        application: (2)
          name: secondary-workload
          group: operator.sbo.com
          version: v1
          resource: secondaryworkloads
          bindingPath:
            containersPath: spec.containers (3)
    1 The sample application that points to a Deployment or any other similar resource with an embedded PodSpec.
    2 The secondary workload, which is not compliant with the PodSpec.
    3 The custom location of the container path.

After you specify the location of the container path, service Binding Operator generates the binding data, which becomes available in the container path specified in the secondary workload of the serviceBinding CR.

The following example shows the spec.containers path with the envFrom and secretRef fields:

Example: Secondary workload CR with the envFrom and secretRef fields
apiVersion: "operator.sbo.com/v1"
kind: SecondaryWorkload
metadata:
    name: secondary-workload
spec:
    containers:
    - env: (1)
      - name: serviceBindingOperatorChangeTriggerEnvVar
        value: "31793"
      envFrom:
      - secretRef:
          name: secret-resource-name (2)
      image: quay.io/baijum/secondary-workload:latest
      name: hello-world
      ports:
      - containerPort: 8080
      resources: {}
1 Unique array of containers with values generated by the service Binding Operator. These values are based on the backing service CR.
2 Name of the Secret resource generated by the service Binding Operator.

Configuring the custom location of the secret path

This custom location is available for the binding.operators.coreos.com API group when service Binding Operator projects the binding data as environment variables.

Consider a secondary workload CR, which is not compliant with the PodSpec, with only the secret at the spec.secret path:

Example: Secondary workload CR
apiVersion: "operator.sbo.com/v1"
kind: SecondaryWorkload
metadata:
    name: secondary-workload
spec:
    secret: ""
Procedure
  • Configure the spec.secret path by specifying a value in the serviceBinding CR and bind this path at a spec.application.bindingPath.secretPath custom location:

    Example: serviceBinding CR with the spec.secret path in a custom location
    apiVersion: binding.operators.coreos.com/v1alpha1
    kind: serviceBinding
    metadata:
        name: spring-petclinic-pgcluster
    spec:
    ...
        application: (1)
          name: secondary-workload
          group: operator.sbo.com
          version: v1
          resource: secondaryworkloads
          bindingPath:
            secretPath: spec.secret (2)
    ...
    1 The secondary workload, which is not compliant with the PodSpec.
    2 The custom location of the secret path that contains the name of the Secret resource.

After you specify the location of the secret path, service Binding Operator generates the binding data, which becomes available in the secret path specified in the secondary workload of the serviceBinding CR.

The following example shows the spec.secret path with the binding-request value:

Example: Secondary workload CR with the binding-request value
...
apiVersion: "operator.sbo.com/v1"
kind: SecondaryWorkload
metadata:
    name: secondary-workload
spec:
    secret: binding-request-72ddc0c540ab3a290e138726940591debf14c581 (1)
...
1 The unique name of the Secret resource that service Binding Operator generates.

Workload resource mapping

  • Workload resource mapping is available for the secondary workloads of the serviceBinding custom resource (CR) for both the API groups: binding.operators.coreos.com and servicebinding.io.

  • You must define ClusterWorkloadResourceMapping resources only under the servicebinding.io API group. However, the ClusterWorkloadResourceMapping resources interact with serviceBinding resources under both the binding.operators.coreos.com and servicebinding.io API groups.

If you cannot configure custom path locations by using the configuration method for container path, you can define exactly where binding data needs to be projected. Specify where to project the binding data for a given workload kind by defining the ClusterWorkloadResourceMapping resources in the servicebinding.io API group.

The following example shows how to define a mapping for the CronJob.batch/v1 resources.

Example: Mapping for CronJob.batch/v1 resources
apiVersion: servicebinding.io/v1beta1
kind: ClusterWorkloadResourceMapping
metadata:
 name: cronjobs.batch (1)
spec:
  versions:
  - version: "v1" (2)
    annotations: .spec.jobTemplate.spec.template.metadata.annotations (3)
    containers:
    - path: .spec.jobTemplate.spec.template.spec.containers[*] (4)
    - path: .spec.jobTemplate.spec.template.spec.initContainers[*]
      name: .name (5)
      env: .env (6)
      volumeMounts: .volumeMounts (7)
    volumes: .spec.jobTemplate.spec.template.spec.volumes (8)
1 Name of the ClusterWorkloadResourceMapping resource, which must be qualified as the plural.group of the mapped workload resource.
2 Version of the resource that is being mapped. Any version that is not specified can be matched with the "*" wildcard.
3 Optional: Identifier of the .annotations field in a pod, specified with a fixed JSONPath. The default value is .spec.template.spec.annotations.
4 Identifier of the .containers and .initContainers fields in a pod, specified with a JSONPath. If no entries under the containers field are defined, the service Binding Operator defaults to two paths: .spec.template.spec.containers[*] and .spec.template.spec.initContainers[\*], with all other fields set as their default. However, if you specify an entry, then you must define the .path field.
5 Optional: Identifier of the .name field in a container, specified with a fixed JSONPath. The default value is .name.
6 Optional: Identifier of the .env field in a container, specified with a fixed JSONPath. The default value is .env.
7 Optional: Identifier of the .volumeMounts field in a container, specified with a fixed JSONPath. The default value is .volumeMounts.
8 Optional: Identifier of the .volumes field in a pod, specified with a fixed JSONPath. The default value is .spec.template.spec.volumes.
  • In this context, a fixed JSONPath is a subset of the JSONPath grammar that accepts only the following operations:

    • Field lookup: .spec.template

    • Array indexing: .spec['template']

    All other operations are not accepted.

  • Most of these fields are optional. When they are not specified, the service Binding Operator assumes defaults compatible with PodSpec resources.

  • The service Binding Operator requires that each of these fields is structurally equivalent to the corresponding field in a pod deployment. For example, the contents of the .env field in a workload resource must be able to accept the same structure of data that the .env field in a Pod resource would. Otherwise, projecting binding data into such a workload might result in unexpected behavior from the service Binding Operator.

Behavior specific to the binding.operators.coreos.com API group

You can expect the following behaviors when ClusterWorkloadResourceMapping resources interact with serviceBinding resources under the binding.operators.coreos.com API group:

  • If a serviceBinding resource with the bindAsFiles: false flag value is created together with one of these mappings, then environment variables are projected into the .envFrom field underneath each path field specified in the corresponding ClusterWorkloadResourceMapping resource.

  • As a cluster administrator, you can specify both a ClusterWorkloadResourceMapping resource and the .spec.application.bindingPath.containersPath field in a serviceBinding.bindings.coreos.com resource for binding purposes.

    The service Binding Operator attempts to project binding data into the locations specified in both a ClusterWorkloadResourceMapping resource and the .spec.application.bindingPath.containersPath field. This behavior is equivalent to adding a container entry to the corresponding ClusterWorkloadResourceMapping resource with the path: $containersPath attribute, with all other values taking their default value.

Unbinding workloads from a backing service

You can unbind a workload from a backing service by using the oc tool.

  • To unbind a workload from a backing service, delete the serviceBinding custom resource (CR) linked to it:

    $ oc delete serviceBinding <.metadata.name>
    Example
    $ oc delete serviceBinding spring-petclinic-pgcluster

    where:

    spring-petclinic-pgcluster

    Specifies the name of the serviceBinding CR.