spec.md

Open Service Broker API (master - might contain changes that are not yet released)

Table of Contents

• API Overview
• Notations and Terminology
• Changes
  • Change Policy
  • Changes Since v2.16
• Headers
  • API Version Header
  • Originating Identity
  • Request Identity
• Platform to Service Broker Authentication
• URL Properties
• Service Broker Errors
• Content Type
• Catalog Management
• Synchronous and Asynchronous Operations
  • Synchronous Operations
  • Asynchronous Operations
• Blocking Operations
• Polling Last Operation for Service Instances
• Polling Last Operation for Service Bindings
• Polling Interval and Duration
• Provisioning
• Fetching a Service Instance
• Updating a Service Instance
• Binding
  • Binding Rotation
  • Types of Binding
• Fetching a Service Binding
• Unbinding
• Deprovisioning
• Orphan Mitigation

API Overview

The Open Service Broker API defines an HTTP(S) interface between Platforms and Service Brokers.

The Service Broker is the component of the service that implements the Service Broker API, for which a Platform is a client. Service Brokers are responsible for advertising a catalog of Service Offerings and Service Plans to the Platform, and acting on requests from the Platform for provisioning, binding, unbinding, and deprovisioning.

In general, provisioning reserves a resource on a service; we call this reserved resource a Service Instance. What a Service Instance represents can vary by service. Examples include a single database on a multi-tenant server, a dedicated cluster, or an account on a web application.

What a Service Binding represents MAY also vary by service. In general, creation of a Service Binding either generates credentials necessary for accessing the resource or provides the Service Instance with information for a configuration change.

A Platform MAY expose services from one or many Service Brokers, and an individual Service Broker MAY support one or many Platforms using different URL prefixes and credentials.

Notations and Terminology

Notational Conventions

The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in RFC 2119.

Terminology

This specification defines the following terms:

• Application: Often the entity using a Service Instance will be a piece of software, however, this does not need to be the case. For the purposes of this specification, the term "Application" will be used to represent all entities that might make use of, and be bound to, a Service Instance.

• Platform: The software that will manage the cloud environment into which Applications are provisioned and Service Brokers are registered. Users will not directly provision Services from Service Brokers, rather they will ask the Platform to manage Services and interact with the Service Brokers for them.

• Service: A managed software offering that can be used by an Application. Typically, Services will expose some API that can be invoked to perform some action. However, there can also be non-interactive Services that can perform the desired actions without direct prompting from the Application.

• Service Broker: Service Brokers manage the lifecycle of Services. Platforms interact with Service Brokers to provision, and manage, Service Instances and Service Bindings.

• Service Offering: The advertisement of a Service that a Service Broker supports.

• Service Plan: The representation of the costs and benefits for a given variant of the Service Offering, potentially as a tier.

• Service Instance: An instantiation of a Service Offering and Service Plan.

• Service Binding: Represents the request to use a Service Instance. As part of this request there might be a reference to the entity, also known as the Application, that will use the Service Instance. Service Bindings will often contain the credentials that can then be used to communicate with the Service Instance.

Changes

Change Policy for Minor Versions

• Existing endpoints and fields MUST NOT be removed or renamed.
• New OPTIONAL endpoints, or new HTTP methods for existing endpoints, MAY be added to enable support for new features.
• New fields MAY be added to existing request/response messages. These fields MUST be OPTIONAL and SHOULD be ignored by clients and servers that do not understand them.

Changes Since v2.16

• Add binding rotation fields to the spec and guidance on how to use the expiration fields for Service Binding
• Remove ambiguity on provisioning status code and clarify 200 status with consistent language for depraction
• Add context object to the response of fetching a Service Instance and turn into a non-requirement for Service Instances
• Rename context to attributes and update openapi files and the spec with an example
• Moved attributes to metadata and returns the metadata on fetch operations
• Add guidance for orphan mitigation
• Reconcile openapi and swagger files to match and generate identical clients and servers

For changes in older versions, see the release notes.

Headers

The following HTTP Headers are defined for the operations detailed in this spec:

Header	Type	Description
X-Broker-API-Version*	string	See API Version Header.
X-Broker-API-Originating-Identity	string	See Originating Identity.
X-Broker-API-Request-Identity	string	See Request Identity.

* Headers with an asterisk are REQUIRED.

API Version Header

Requests from the Platform to the Service Broker MUST contain a header that declares the version number of the Open Service Broker API that the Platform is using:

X-Broker-API-Version: 2.17

The version numbers are in the format MAJOR.MINOR using semantic versioning.

This header allows Service Brokers to reject requests from Platforms for versions they do not support. While minor API revisions will always be additive, it is possible that Service Brokers depend on a feature from a newer version of the API that is supported by the Platform. In this scenario the Service Broker MAY reject the request with 412 Precondition Failed and provide a message that informs the operator of the API version that is to be used instead.

If the request from the Platform to the Service Broker doesn't contain this header, then the Service Broker MAY reject the request with 400 Bad Request and provide a message that the header is required.

Originating Identity

Often a Service Broker will need to know the identity of the user that initiated the request from the Platform. For example, this might be needed for auditing or authorization purposes. In order to facilitate this, the Platform will need to provide this identification information to the Service Broker on each request. Platforms MAY support this feature, and if they do, they MUST adhere to the following:

• For any OSBAPI request that is the result of an action taken by a Platform's user, there MUST be an associated X-Broker-API-Originating-Identity header on that HTTP request.
• Any OSBAPI request that is not associated with an action from a Platform's user, such as the Platform refetching the catalog, MAY exclude the header from that HTTP request.
• If present on a request, the X-Broker-API-Originating-Identity header MUST contain the identify information for the Platform's user that took the action to cause the request to be sent.

If the Platform chooses to group multiple end-user operations into one request to the Broker, then the identity information associated with that one request MUST accurately reflect the desired identity associated for each individual change.

The format of the header MUST be:

X-Broker-API-Originating-Identity: Platform value

Platform MUST be a non-empty string indicating the Platform from which the request is being sent. The specific value SHOULD match the values defined in the profile document for the context.platform property. When context is sent as part of a message, this value MUST be the same as the context.platform value.

value MUST be a Base64 encoded string. The string MUST be a serialized JSON object. The specific properties will be Platform specific - see the profile document for more information.

For example:

X-Broker-API-Originating-Identity: cloudfoundry eyANCiAgInVzZXJfaWQiOiAiNjgzZWE3NDgtMzA5Mi00ZmY0LWI2NTYtMzljYWNjNGQ1MzYwIg0KfQ==

Where the value, when decoded, is:

{
  "user_id": "683ea748-3092-4ff4-b656-39cacc4d5360"
}

Note that not all messages sent to a Service Broker are initiated by an end-user of the Platform. For example, during Orphan Mitigation or during the querying of the Service Broker's catalog, the Platform might not have an end-user with which to associate the request, therefore in those cases the originating identity header would not be included in those messages.

Request Identity

A Platform might wish to uniquely identify a specific request as it flows throughout the system. For example, this might be used for logging for request tracing purposes. In order to facilitate this, Platforms will need to provide identification information to the Service Broker for each request. Platforms MAY support this feature, and if they do, they MUST adhere to the following:

• For any OSBAPI request, there MUST be an associated X-Broker-API-Request-Identity header on the HTTP request.
• The Service Broker MAY include this value in log messages generated as a result of the request.
• The Service Broker SHOULD include this header in the response to the request. The format of the header MUST be:

X-Broker-API-Request-Identity: value

value MUST be a non-empty string indicating the identity of the request being sent. The specific value MAY be unique for each request sent to the broker. Using a GUID is RECOMMENDED.

Vendor Extension Fields

Senders of messages defined by this specification MAY include additional fields within the JSON objects. When adding new fields, unique prefixes SHOULD be used for the field names to reduce the chances of conflicts with future specification defined fields or other extensions.

Receivers of messages defined by this specification that contain unknown extension fields MUST ignore those fields and MUST NOT halt processing of those messages due to the presence of those fields. Receivers are under no obligation to understand or process unknown extension fields.

Platform to Service Broker Authentication

While the communication between a Platform and Service Broker MAY be unsecure, it is RECOMMENDED that all communications between a Platform and a Service Broker are secured via TLS and authenticated. If communications are secured via TLS, the Platform and Service Broker SHOULD agree whether the Service Broker will use a root-signed certificate or a self-signed certificate.

Unless there is some out of band communication and agreement between a Platform and a Service Broker, the Platform MUST authenticate with the Service Broker using HTTP basic authentication (the Authorization: header) on every request. This specification does not specify how Platform and Service Brokers agree on other methods of authentication.

Platforms and Service Brokers MAY agree on an authentication mechanism other than basic authentication, but the specific agreements are not covered by this specification. Please see the Platform Features authentication mechanisms wiki document for details on these mechanisms.

If authentication is used, the Service Broker MUST authenticate the request using the predetermined authentication mechanism, and MUST return a 401 Unauthorized response if the authentication fails.

Note: Using an authentication mechanism that is agreed to via out of band communications could lead to interoperability issues with other Platforms.

URL Properties

This specification defines the following properties that might appear within URLs:

• service_id
• plan_id
• instance_id
• binding_id
• operation

While this specification places no restriction on the set of characters used within these strings, it is RECOMMENDED that these properties only contain characters from the "Unreserved Characters" as defined by RFC3986. In other words: uppercase and lowercase letters, decimal digits, hyphen, period, underscore and tilde.

If a character outside of the "Unreserved Characters" set is used, then it SHOULD be percent-encoded prior to being used as part of the HTTP request, per RFC3986.

Service Broker Errors

When a request to a Service Broker fails, the Service Broker MUST return an appropriate HTTP response code. Where the specification defines the expected response code, that response code MUST be used.

For error responses, the following fields are defined:

Response Field	Type	Description
error	string	A single word in camel case that uniquely identifies the error condition. If present, MUST be a non-empty string.
description	string	A user-facing error message explaining why the request failed. If present, MUST be a non-empty string.
instance_usable	boolean	If an update or deprovisioning operation failed, this flag indicates whether or not the Service Instance is still usable. If true, the Service Instance can still be used, false otherwise. This field MUST NOT be present for errors of other operations. Defaults to true.
update_repeatable	boolean	If an update operation failed, this flag indicates whether this update can be repeated or not. If true, the same update operation MAY be repeated and MAY succeed; if false, repeating the same update operation will fail again. This field MUST NOT be present for errors of other operations. Defaults to true.

Error Codes

There are failure scenarios described throughout this specification for which the error field MUST contain a specific string. Service Broker authors MUST use these error codes for the specified failure scenarios.

Error	Reason	Expected Action
AsyncRequired	This request requires client support for asynchronous service operations.	The query parameter accepts_incomplete=true MUST be included the request.
ConcurrencyError	The Service Broker does not support concurrent requests that mutate the same resource.	Clients MUST wait until pending requests have completed for the specified resources.
RequiresApp	The request body is missing the app_guid field.	The app_guid MUST be included in the request body.
MaintenanceInfoConflict	The maintenance_info.version field provided in the request does not match the maintenance_info.version field provided in the Service Broker's Catalog.	The Platform SHOULD fetch the latest version of the Service Broker's Catalog.

Unless otherwise specified, an HTTP status code in the 4xx range MUST result in the Service Broker's resources being semantically unchanged as a result of the incoming request message. Additionally, an HTTP status code in the 5xx range SHOULD result in the Service Broker's resources being semantically unchanged as a result of the incoming request message. Note, the 5xx error case is a "SHOULD" instead of a "MUST" because it might not be possible for a Service Broker to guarantee that it can revert all possible effects of a failed attempt at the requested operation.

Content Type

All requests and responses defined in this specification with accompanying bodies SHOULD contain a Content-Type header set to application/json. If the Content-Type is not set, Service Brokers and Platforms MAY still attempt to process the body. If a Service Broker rejects a request due to a mismatched Content-Type or the body is unprocessable it SHOULD respond with 400 Bad Request.

Catalog Management

The first endpoint that a Platform will interact with on the Service Broker is the service catalog (/v2/catalog). This endpoint returns a list of all services available on the Service Broker. Platforms query this endpoint from all Service Brokers in order to present an aggregated user-facing catalog.

Periodically, a Platform MAY re-query the service catalog endpoint for a Service Broker to see if there are any changes to the list of services. Service Brokers MAY add, remove or modify (metadata, Service Plans, etc.) the list of services from previous queries.

When determining what, if anything, has changed on a Service Broker, the Platform MUST use the id of the resources (Service Offerings or Service Plans) as the only immutable property and MUST use that to locate the same resource as was returned from a previous query. Likewise, a Service Broker MUST NOT change the id of a resource across queries, otherwise a Platform will treat it as a different resource.

When a Platform receives different id values for the same type of resource, even if all of the other metadata in those resources are the exact same, it MUST treat them as separate instances of that resource.

Service Broker authors are expected to be cautious when removing Service Offerings and Service Plans from their catalogs, as Platforms might have provisioned Service Instances of these Service Plans. For example, Platforms might restrict the actions that users can perform on existing Service Instances if the associated Service Offering or Service Plan is deleted. Consider your deprecation strategy.

Platforms MAY have limits on the length of strings that they can handle or display to end users, such as the description of a Service Offering or Service Plan. It is RECOMMENDED that strings do not exceed 255 characters to increase the likelihood of having compatibility with any Platform.

Service Brokers and Platforms MAY support the ETag and If-Modified-Since HTTP headers to enable caching of the catalog. (See RFC 7232 for details.)

The following sections describe catalog requests and responses in the Service Broker API.

Request

Route

GET /v2/catalog

cURL

$ curl http://username:password@service-broker-url/v2/catalog -H "X-Broker-API-Version: 2.17"

Response

Status Code	Description
200 OK	MUST be returned upon successful processing of this request. The expected response body is below.

Body

CLI clients will typically have restrictions on how names, such as Service Offering and Service Plan names, will be provided by users. Therefore, this specification defines a "CLI-friendly" string as a short string that MUST only use alphanumeric characters, periods, and hyphens, with no spaces. This will make it easier for users when they have to type it as an argument on the command line. For comparison purposes, Service Offering and Service Plan names MUST be treated as case-sensitive strings.

Note: In previous versions of the specification Service Offering and Service Plan names were not allowed to use uppercase characters. However, this requirement was not enforced and therefore to ensure backwards compatibility with existing Service Brokers that might use uppercase characters the specification has been changed.

For backwards compatibility reasons, this specification does not preclude the use of CLI-unfriendly strings that might cause problems for command line parsers (or that are not very meaningful to users), such as -. It is therefore RECOMMENDED that implementations avoid such strings.

Response Field	Type	Description
services*	array of Service Offering objects	Schema of service objects defined below. MAY be empty.

* Fields with an asterisk are REQUIRED.

Service Offering Object

Response Field	Type	Description
name*	string	The name of the Service Offering. MUST be unique across all Service Offering objects returned in this response. MUST be a non-empty string. Using a CLI-friendly name is RECOMMENDED.
id*	string	An identifier used to correlate this Service Offering in future requests to the Service Broker. This MUST be globally unique such that Platforms (and their users) MUST be able to assume that seeing the same value (no matter what Service Broker uses it) will always refer to this Service Offering. MUST be a non-empty string. Using a GUID is RECOMMENDED.
description*	string	A short description of the service. MUST be a non-empty string.
tags	array of strings	Tags provide a flexible mechanism to expose a classification, attribute, or base technology of a service, enabling equivalent services to be swapped out without changes to dependent logic in applications, buildpacks, or other services. E.g. mysql, relational, redis, key-value, caching, messaging, amqp.
requires	array of strings	A list of permissions that the user would have to give the service, if they provision it. The only permissions currently supported are syslog_drain, route_forwarding and volume_mount.
bindable*	boolean	Specifies whether Service Instances of the service can be bound to applications. This specifies the default for all Service Plans of this Service Offering. Service Plans can override this field (see Service Plan Object).
instances_retrievable	boolean	Specifies whether the Fetching a Service Instance endpoint is supported for all Service Plans.
bindings_retrievable	boolean	Specifies whether the Fetching a Service Binding endpoint is supported for all Service Plans.
allow_context_updates	boolean	Specifies whether a Service Instance supports Update requests when contextual data for the Service Instance in the Platform changes.
metadata	object	An opaque object of metadata for a Service Offering. It is expected that Platforms will treat this as a blob. Note that there are conventions in existing Service Brokers and Platforms for fields that aid in the display of catalog data.
dashboard_client	DashboardClient	A Cloud Foundry extension described in Catalog Extensions. Contains the data necessary to activate the Dashboard SSO feature for this service.
plan_updateable	boolean	Whether the Service Offering supports upgrade/downgrade for Service Plans by default. Service Plans can override this field (see Service Plan). Please note that the misspelling of the attribute plan_updatable as plan_updateable was done by mistake. We have opted to keep that misspelling instead of fixing it and thus breaking backward compatibility. Defaults to false.
plans*	array of Service Plan objects	A list of Service Plans for this Service Offering, schema is defined below. MUST contain at least one Service Plan.

* Fields with an asterisk are REQUIRED.

Note: Platforms will typically use the Service Offering name as an input parameter from their users to indicate which Service Offering they want to instantiate. Therefore, it is important that these values be unique for all Service Offerings that have been registered with a Platform. To achieve this goal service providers often will prefix their Service Offering names with some unique value (such as the name of their company). Additionally, some Platforms might modify the Service Offering names before presenting them to their users. This specification places no requirements on how Platforms might expose these values to their users.

Service Plan Object

Response Field	Type	Description
id*	string	An identifier used to correlate this Service Plan in future requests to the Service Broker. This MUST be globally unique such that Platforms (and their users) MUST be able to assume that seeing the same value (no matter what Service Broker uses it) will always refer to this Service Plan and for the same Service Offering. MUST be a non-empty string. Using a GUID is RECOMMENDED.
name*	string	The name of the Service Plan. MUST be unique within the Service Offering. MUST be a non-empty string. Using a CLI-friendly name is RECOMMENDED.
description*	string	A short description of the Service Plan. MUST be a non-empty string.
metadata	object	An opaque object of metadata for a Service Plan. It is expected that Platforms will treat this as a blob. Note that there are conventions in existing Service Brokers and Platforms for fields that aid in the display of catalog data.
free	boolean	When false, Service Instances of this Service Plan have a cost. The default is true.
bindable	boolean	Specifies whether Service Instances of the Service Plan can be bound to applications. This field is OPTIONAL. If specified, this takes precedence over the bindable attribute of the Service Offering. If not specified, the default is derived from the Service Offering.
binding_rotatable	boolean	Whether a Service Binding of that Plan supports Service Binding rotation. The default is false.
plan_updateable	boolean	Whether the Plan supports upgrade/downgrade/sidegrade to another version. This field is OPTIONAL. If specificed, this takes precedence over the Service Offering's plan_updateable field. If not specified, the default is derived from the Service Offering. Please note that the attribute is intentionally misspelled as plan_updateable for legacy reasons.
schemas	Schemas	Schema definitions for Service Instances and Service Bindings for the Service Plan.
maximum_polling_duration	integer	A duration, in seconds, that the Platform SHOULD use as the Service's maximum polling duration.
maintenance_info	Maintenance Info	Maintenance information for a Service Instance which is provisioned using the Service Plan. If provided, a version string MUST be provided and platforms MAY use this when Provisioning or Updating a Service Instance.

* Fields with an asterisk are REQUIRED.

Schemas Object

Response Field	Type	Description
service_instance	ServiceInstanceSchema	The schema definitions for creating and updating a Service Instance.
service_binding	ServiceBindingSchema	The schema definition for creating a Service Binding. Used only if the Service Plan is bindable.

Service Instance Schema Object

Response Field	Type	Description
create	InputParametersSchema	The schema definition for creating a Service Instance.
update	InputParametersSchema	The schema definition for updating a Service Instance.

Service Binding Schema Object

Response Field	Type	Description
create	InputParametersSchema	The schema definition for creating a Service Binding.

Input Parameters Schema Object

Response Field	Type	Description
parameters	JSON schema object	The schema definition for the input parameters. Each input parameter is expressed as a property within a JSON object.

The following rules apply if parameters is included anywhere in the catalog:

• Platforms MUST support at least JSON Schema draft v4.
• Platforms SHOULD be prepared to support later versions of JSON schema.
• The $schema key MUST be present in the schema declaring the version of JSON schema being used.
• Schemas MUST NOT contain any external references.
• Schemas MUST NOT be larger than 64kB.

Maintenance Info Object

Response Field	Type	Description
version*	string	This MUST be a string conforming to a semantic version 2.0. The Platform MAY use this field to determine whether a maintenance update is available for a Service Instance.
description	string	This SHOULD be a string describing the impact of the maintenance update, for example, important version changes, configuration changes, default value changes, etc. The Platform MAY present this information to the user before they trigger the maintenance update.

* Fields with an asterisk are REQUIRED.

{
  "services": [{
    "name": "fake-service",
    "id": "acb56d7c-XXXX-XXXX-XXXX-feb140a59a66",
    "description": "A fake service.",
    "tags": ["no-sql", "relational"],
    "requires": ["route_forwarding"],
    "bindable": true,
    "instances_retrievable": true,
    "bindings_retrievable": true,
    "allow_context_updates": true,
    "metadata": {
      "provider": {
        "name": "The name"
      },
      "listing": {
        "imageUrl": "http://example.com/cat.gif",
        "blurb": "Add a blurb here",
        "longDescription": "A long time ago, in a galaxy far far away..."
      },
      "displayName": "The Fake Service Broker"
    },
    "plan_updateable": true,
    "plans": [{
      "name": "fake-plan-1",
      "id": "d3031751-XXXX-XXXX-XXXX-a42377d3320e",
      "description": "Shared fake Server, 5tb persistent disk, 40 max concurrent connections.",
      "free": false,
      "metadata": {
        "max_storage_tb": 5,
        "costs":[
            {
               "amount":{
                  "usd":99.0
               },
               "unit":"MONTHLY"
            },
            {
               "amount":{
                  "usd":0.99
               },
               "unit":"1GB of messages over 20GB"
            }
         ],
        "bullets": [
          "Shared fake server",
          "5 TB storage",
          "40 concurrent connections"
        ]
      },
      "schemas": {
        "service_instance": {
          "create": {
            "parameters": {
              "$schema": "http://json-schema.org/draft-04/schema#",
              "type": "object",
              "properties": {
                "billing-account": {
                  "description": "Billing account number used to charge use of shared fake server.",
                  "type": "string"
                }
              }
            }
          },
          "update": {
            "parameters": {
              "$schema": "http://json-schema.org/draft-04/schema#",
              "type": "object",
              "properties": {
                "billing-account": {
                  "description": "Billing account number used to charge use of shared fake server.",
                  "type": "string"
                }
              }
            }
          }
        },
        "service_binding": {
          "create": {
            "parameters": {
              "$schema": "http://json-schema.org/draft-04/schema#",
              "type": "object",
              "properties": {
                "billing-account": {
                  "description": "Billing account number used to charge use of shared fake server.",
                  "type": "string"
                }
              }
            }
          }
        }
      },
      "maintenance_info": {
        "version": "2.1.1+abcdef",
        "description": "OS image update.\nExpect downtime."
      }
    }, {
      "name": "fake-plan-2",
      "id": "0f4008b5-XXXX-XXXX-XXXX-dace631cd648",
      "description": "Shared fake Server, 5tb persistent disk, 40 max concurrent connections. 100 async.",
      "free": false,
      "metadata": {
        "max_storage_tb": 5,
        "costs":[
            {
               "amount":{
                  "usd":199.0
               },
               "unit":"MONTHLY"
            },
            {
               "amount":{
                  "usd":0.99
               },
               "unit":"1GB of messages over 20GB"
            }
         ],
        "bullets": [
          "40 concurrent connections"
        ]
      }
    }]
  }]
}

Synchronous and Asynchronous Operations

Platforms expect prompt responses to all API requests in order to provide users with fast feedback. Service Broker authors SHOULD implement their Service Brokers to respond promptly to all requests but will need to decide whether to implement synchronous or asynchronous responses. Service Brokers that can guarantee completion of the requested operation with the response SHOULD return the synchronous response. Service Brokers that cannot guarantee completion of the operation with the response SHOULD implement the asynchronous response.

Providing a synchronous response for a provision, update, or bind operation before actual completion causes confusion for users as their service might not be usable and they have no way to find out when it will be. Asynchronous responses set expectations for users that an operation is in progress and can also provide updates on the status of the operation.

Support for synchronous or asynchronous responses MAY vary by Service Offering, even by Service Plan.

Synchronous Operations

To execute a request synchronously, the Service Broker need only return the usual status codes: 201 Created for provision and bind, and 200 OK for update, unbind, and deprovision. 200 OK MAY be returned synchronously by Service Brokers that accept provisioning requests with unchanged parameters and synchronous operations.

Platforms that rely on eventual consistency are RECOMMENDED to use 409 Conflict as a no-op response and SHOULD use the last_operation endpoint to verify the status of the provisioning request instead in asynchronous mode.

Service Brokers that support synchronous responses for provision, update, and delete can ignore the accepts_incomplete=true query parameter if it is provided by the client.

Asynchronous Operations

For a Service Broker to return an asynchronous response, the query parameter accepts_incomplete=true MUST be included the request. If the parameter is not included or is set to false, and the Service Broker cannot fulfil the request synchronously (guaranteeing that the operation is complete on response), then the Service Broker MUST reject the request with the status code 422 Unprocessable Entity and a response body containing error code "AsyncRequired" (see Service Broker Errors). The error response MAY include a helpful error message in the description field such as "This Service Plan requires client support for asynchronous service operations.".

If the query parameter described above is present, and the Service Broker executes the request asynchronously, the Service Broker MUST return the asynchronous response 202 Accepted.

An asynchronous response triggers the Platform to poll the Service Instance or Service Binding's last_operation endpoint until the Service Broker indicates that the requested operation has succeeded or failed. Service Brokers MAY include a status message with each response for the last_operation endpoint that provides visibility to end users as to the progress of the operation.

Blocking Operations

Service Brokers MAY choose the degree to which they support concurrent requests, ranging from not supporting them at all to only supporting them in selective situations. If a Service Broker receives a request that it is not able to process due a concurrency issue then the Service Broker MUST reject the request with a HTTP 422 Unprocessable Entity and a response body containing error code "ConcurrencyError" (see Service Broker Errors). The error response MAY include a helpful error message in the description field such as "Another operation for this Service Instance is in progress.".

Upon receiving this error response, Platforms MUST NOT perform Orphan Mitigation.

Brokers MAY choose to treat the creation of a Service Binding as a mutation of the corresponding Service Instance - it is an implementation choice. Doing so would cause Platforms to serialize multiple Service Binding creation requests when they are directed at the same Service Instance if concurrent updates are not supported.

Polling Last Operation for Service Instances

When a Service Broker returns status code 202 Accepted for Provision, Update, or Deprovision, the Platform will begin polling the /v2/service_instances/:instance_id/last_operation endpoint to obtain the state of the last requested operation.

Returning "state": "succeeded" or "state": "failed" will cause the Platform to cease polling.

Request

Route

GET /v2/service_instances/:instance_id/last_operation

:instance_id MUST be the ID of a previously provisioned Service Instance.

Parameters

Query-String Field	Type	Description
service_id	string	If present, it MUST be the ID of the Service Offering being used.
plan_id	string	If present, it MUST be the ID of the Service Plan for the Service Instance. If this endpoint is being polled as a result of changing the Service Plan through a Service Instance Update, the ID of the Service Plan prior to the update MUST be used.
operation	string	A Service Broker-provided identifier for the operation. When a value for operation is included with asynchronous responses for Provision, Update, and Deprovision requests, the Platform MUST provide the same value using this query parameter as a percent-encoded string. If present, MUST be a non-empty string.

Note: Although the request query parameters service_id and plan_id are not mandatory, the Platform SHOULD include them on all last_operation requests it makes to Service Brokers.

cURL

$ curl http://username:password@service-broker-url/v2/service_instances/:instance_id/last_operation -H "X-Broker-API-Version: 2.17"

Response

Status Code	Description
200 OK	MUST be returned upon successful processing of this request. The expected response body is below.
400 Bad Request	MUST be returned if the request is malformed or missing mandatory data. MAY be returned if the request contains invalid data, in which case the error response MAY include a helpful error message in the description field (see Service Broker Errors).
404 Not Found	MUST be returned if the Service Instance being polled does not exist.
410 Gone	Appropriate only for asynchronous delete operations. The Platform MUST consider this response a success and forget about the resource. Returning this while the Platform is polling for create or update operations SHOULD be interpreted as an invalid response and the Platform SHOULD continue polling.

Responses with any other status code SHOULD be interpreted as an error or invalid response. The Platform SHOULD continue polling until the Service Broker returns a valid response or the maximum polling duration is reached.

Body

For success responses, the following fields are defined:

Response Field	Type	Description
state*	string	Valid values are in progress, succeeded, and failed. While "state": "in progress", the Platform SHOULD continue polling. A response with "state": "succeeded" or "state": "failed" MUST cause the Platform to cease polling.
description	string	A user-facing message that can be used to tell the user details about the status of the operation. If present, MUST be a non-empty string.
instance_usable	boolean	If an update or deprovisioning operation failed, this flag indicates whether or not the Service Instance is still usable. If true, the Service Instance can still be used, false otherwise. This field MUST NOT be present for errors of other operations. Defaults to true.
update_repeatable	boolean	If an update operation failed, this flag indicates whether this update can be repeated or not. If true, the same update operation MAY be repeated and MAY succeed; if false, repeating the same update operation will fail again. This field MUST NOT be present for errors of other operations. Defaults to true.

The response MAY also include the Retry-After HTTP header. This header will indicate how long the Platform SHOULD wait before polling again and is intended to prevent unnecessary, and premature, calls to the last_operation endpoint. It is RECOMMENDED that the header include a duration rather than a timestamp.

* Fields with an asterisk are REQUIRED.

{
  "state": "in progress",
  "description": "Creating service (10% complete)."
}

For asynchronous provision operations, if the response contains "state": "failed" then the Platform might need to perform Orphan Mitigation.

Service Brokers SHOULD NOT forget the state of an operation immediately after returning a "succeeded" or "failed" state in case the Platform needs to ask again.

Polling Last Operation for Service Bindings

When a broker returns status code 202 Accepted for Binding or Unbinding, the Platform will begin polling the /v2/service_instances/:instance_id/service_bindings/:binding_id/last_operation endpoint to obtain the state of the last requested operation.

Returning "state": "succeeded" or "state": "failed" will cause the Platform to cease polling and, in the case of a Binding request, information regarding the Service Binding can then immediately be fetched using the Fetching a Service Binding endpoint.

Request

Route

GET /v2/service_instances/:instance_id/service_bindings/:binding_id/last_operation

:instance_id MUST be the ID of a previously provisioned Service Instance.

:binding_id MUST be the ID of a previously provisioned Service Binding for that instance.

Parameters

The request provides these query string parameters as useful hints for brokers.

Query-String Field	Type	Description
service_id	string	ID of the Service Offering from the catalog. If present, MUST be a non-empty string.
plan_id	string	ID of the Service Plan from the catalog. If present, MUST be a non-empty string.
operation	string	A broker-provided identifier for the operation. When a value for operation is included with asynchronous responses for Binding and Unbinding requests, the Platform MUST provide the same value using this query parameter as a URL-encoded string. If brokers do not return this operation field, only one asynchronous operation MAY be supported at a time. If present, MUST be a non-empty string.

Note: Although the request query parameters service_id and plan_id are not mandatory, the Platform SHOULD include them on all last_operation requests it makes to Service Brokers.

cURL

$ curl http://username:password@broker-url/v2/service_instances/:instance_id/service_bindings/:binding_id/last_operation

Response

Status Code	Description
200 OK	MUST be returned upon successful processing of this request. The expected response body is below.
400 Bad Request	MUST be returned if the request is malformed or missing mandatory data. MAY be returned if the request contains invalid data, in which case the error response MAY include a helpful error message in the description field (see Service Broker Errors).
404 Not Found	MUST be returned if the Service Binding being polled does not exist.
410 Gone	Appropriate only for asynchronous delete operations. The Platform MUST consider this response a success and remove the resource from its database. Returning this while the Platform is polling for create operations SHOULD be interpreted as an invalid response and the Platform SHOULD continue polling.

Responses with any other status code SHOULD be interpreted as an error or invalid response. The Platform SHOULD continue polling until the broker returns a valid response or the maximum polling duration is reached.

Body

For success responses, the following fields are defined:

Response field	Type	Description
state*	string	Valid values are in progress, succeeded, and failed. While "state": "in progress", the Platform SHOULD continue polling. A response with "state": "succeeded" or "state": "failed" MUST cause the Platform to cease polling.
description	string	A user-facing message that can be used to tell the user details about the status of the operation.

The response MAY also include the Retry-After HTTP header. This header will indicate how long the Platform SHOULD wait before polling again and is intended to prevent unnecessary, and premature, calls to the last_operation endpoint. It is RECOMMENDED that the header include a duration rather than a timestamp.

* Fields with an asterisk are REQUIRED.

{
  "state": "in progress",
  "description": "Creating binding (10% complete)."
}

If the response contains "state": "failed", then the Platform might need to perform Orphan Mitigation.

Service Brokers SHOULD NOT forget the state of an operation immediately after returning a "succeeded" or "failed" state in case the Platform needs to ask again.

Polling Interval and Duration

The frequency and maximum duration of polling MAY vary by Platform. Additionally, Service Brokers can specify the maximum time a Platform SHOULD poll via the maximum_polling_duration field returned by the Service Plan Object. If either the Platform or Service Plan's maximum polling duration is reached, the Platform SHOULD cease polling and the operation state MUST be considered failed.

Provisioning

When the Service Broker receives a provision request from the Platform, it MUST take whatever action is necessary to create a new resource. What provisioning represents varies by Service Offering and Service Plan, although there are several common use cases. For a MySQL service, provisioning could result in an empty dedicated database server running on its own VM or an empty schema on a shared database server. For non-data services, provisioning could just mean an account on an multi-tenant SaaS application.

Request

Route

PUT /v2/service_instances/:instance_id

:instance_id MUST be a globally unique non-empty string. This ID will be used for future requests (bind and deprovision), so the Service Broker will use it to correlate the resource it creates.

Platforms SHOULD NOT reuse IDs, since Service Brokers MAY NOT support this.

Parameters

Parameter Name	Type	Description
accepts_incomplete	boolean	A value of true indicates that the Platform and its clients support asynchronous Service Broker operations. If this parameter is not included in the request, and the Service Broker can only provision a Service Instance of the requested Service Plan asynchronously, the Service Broker MUST reject the request with a 422 Unprocessable Entity as described below.

Body

Request Field	Type	Description
service_id*	string	MUST be the ID of a Service Offering from the catalog for this Service Broker.
plan_id*	string	MUST be the ID of a Service Plan from the Service Offering that has been requested.
context	object	Contextual data for the Service Instance. context will replace organization_guid and space_guid in future versions of the specification - in the interim both SHOULD be used to ensure interoperability with old and new implementations.
organization_guid*	string	Deprecated in favor of context. The Platform GUID for the organization under which the Service Instance is to be provisioned. Although most Service Brokers will not use this field, it might be helpful for executing operations on a user's behalf. MUST be a non-empty string.
space_guid*	string	Deprecated in favor of context. The identifier for the project space within the Platform organization. Although most Service Brokers will not use this field, it might be helpful for executing operations on a user's behalf. MUST be a non-empty string.
parameters	object	Configuration parameters for the Service Instance. Service Brokers SHOULD ensure that the client has provided valid configuration parameters and values for the operation.
maintenance_info	Maintenance Info	If a Service Broker provides maintenance information for a Service Plan in its Catalog, a Platform MAY provide the same maintenance information when provisioning a Service Instance. Any field except for maintenance_info.version will be ignored. This field can be used to ensure that the end-user of a Platform is provisioning what they are expecting since maintenance information can be used to describe important information (such as the version of the operating system the Service Instance will run on). If a Service Broker's catalog has changed and new maintenance information version is available for the Service Plan being provisioned, then the Service Broker MUST reject the request with a 422 Unprocessable Entity as described below.

* Fields with an asterisk are REQUIRED.

{
  "service_id": "service-offering-id-here",
  "plan_id": "service-plan-id-here",
  "context": {
    "platform": "cloudfoundry",
    "some_field": "some-contextual-data"
  },
  "organization_guid": "org-guid-here",
  "space_guid": "space-guid-here",
  "parameters": {
    "parameter1": 1,
    "parameter2": "foo"
  },
  "maintenance_info": {
    "version": "2.1.1+abcdef",
  }
}

cURL

$ curl http://username:password@service-broker-url/v2/service_instances/:instance_id?accepts_incomplete=true -d '{
  "service_id": "service-offering-id-here",
  "plan_id": "service-plan-id-here",
  "context": {
    "platform": "cloudfoundry",
    "some_field": "some-contextual-data"
  },
  "organization_guid": "org-guid-here",
  "space_guid": "space-guid-here",
  "parameters": {
    "parameter1": 1,
    "parameter2": "foo"
  }
}' -X PUT -H "X-Broker-API-Version: 2.17" -H "Content-Type: application/json"

Response

Status Code	Description
200 OK	SHOULD be returned if the Service Instance already exists, is fully provisioned, and the requested parameters are identical to the existing Service Instance. The expected response body is below. This response is only valid in synchronous operations.
201 Created	MUST be returned if the Service Instance was provisioned as a result of this request. The expected response body is below.
202 Accepted	MUST be returned if the Service Instance provisioning is in progress. The operation string MUST match that returned for the original request. This triggers the Platform to poll the Last Operation for Service Instances endpoint for operation status. Note that a re-sent PUT request MUST return a 202 Accepted, not a 200 OK, if the Service Instance is not yet fully provisioned.
400 Bad Request	MUST be returned if the request is malformed or missing mandatory data. MAY be returned if the request contains invalid data, in which case the error response MAY include a helpful error message in the description field (see Service Broker Errors).
409 Conflict	MUST be returned if a Service Instance with the same id already exists or is being provisioned but with different attributes.
422 Unprocessable Entity	MUST be returned if the Service Broker only supports asynchronous provisioning for the requested Service Plan and the request did not include ?accepts_incomplete=true. The response body MUST contain error code "AsyncRequired" (see Service Broker Errors). The error response MAY include a helpful error message in the description field such as "This Service Plan requires client support for asynchronous service operations.". This MUST also be returned if the maintenance_info.version provided in the request does not match the maintenance_info.version described for the Service Plan in the Service Broker's catalog. In this case, the response body MUST contain error code "MaintenanceInfoConflict" (see Service Broker Errors). The error response MAY include a helpful error message in the description field such as "The maintenance information for the requested Service Plan has changed.".

Responses with any other status code MUST be interpreted as a failure and the Platform might need to perform Orphan Mitigation.

Body

For success responses, the following fields are defined:

Response Field	Type	Description
dashboard_url	string	The URL of a web-based management user interface for the Service Instance; we refer to this as a service dashboard. The URL MUST contain enough information for the dashboard to identify the resource being accessed (9189kdfsk0vfnku in the example below). Note: a Service Broker that wishes to return dashboard_url for a Service Instance MUST return it with the initial response to the provision request, even if the service is provisioned asynchronously. If present, MUST be a string or null.
operation	string	For asynchronous responses, Service Brokers MAY return an identifier representing the operation. The value of this field MUST be provided by the Platform with requests to the Polling Last Operation for Service Instances endpoint in a percent-encoded query parameter. If present, MAY be null, and MUST NOT contain more than 10,000 characters.
metadata	ServiceInstanceMetadata object	An OPTIONAL object containing metadata for the Service Instance.

{
  "dashboard_url": "http://example-dashboard.example.com/9189kdfsk0vfnku",
  "operation": "task_10",
  "metadata": {
    "labels": {
      "key1" : "value1",
      "key2" : "value2"
    },
    attributes: {
      "broker.generated.attr1": "value1",
      "broker.generated.attr2": "value2"
    }
  }
}

Fetching a Service Instance

If "instances_retrievable" :true is declared for a Service Offering in the Catalog endpoint, Service Brokers MUST support this endpoint for all Service Plans of the Service Offering and this endpoint MUST be available immediately after the Polling Last Operation for Service Instances endpoint returns "state": "succeeded" for a Provisioning operation. Otherwise, Platforms SHOULD NOT attempt to call this endpoint under any circumstances.

By polling this endpoint, Platforms MAY refresh their view of a successfully provisioned Service Instance, and discover out-of-bands changes that were applied on a Service Instance (such as parameters, dashboard url or maintenance info).

Request

Route

GET /v2/service_instances/:instance_id

:instance_id MUST be the ID of a previously provisioned Service Instance.

Parameters

The request provides these query string parameters as useful hints for brokers.

Query-String Field	Type	Description
service_id	string	ID of the Service Offering from the catalog. If present, MUST be a non-empty string.
plan_id	string	ID of the Service Plan from the catalog. If present, MUST be a non-empty string.

cURL

$ curl 'http://username:password@broker-url/v2/service_instances/:instance_id' -X GET -H "X-Broker-API-Version: 2.17"

Response

Status Code	Description
200 OK	The expected response body is below.
404 Not Found	MUST be returned if the Service Instance does not exist or if a provisioning operation is still in progress.
422 Unprocessable Entity	MUST be returned if the Service Instance is being updated and therefore cannot be fetched at this time. The response body MUST contain error code "ConcurrencyError" (see Service Broker Errors).

Responses with any other status code MUST be interpreted as a failure and the Platform MUST continue to remember the Service Instance.

Body

For success responses, the following fields are defined:

Response field	Type	Description
service_id	string	The ID of the Service Offering from the catalog that is associated with the Service Instance.
plan_id	string	The ID of the Service Plan from the catalog that is associated with the Service Instance.
dashboard_url	string	The URL of a web-based management user interface for the Service Instance; we refer to this as a service dashboard. The URL MUST contain enough information for the dashboard to identify the resource being accessed (9189kdfsk0vfnku in the example below). Note: a Service Broker that wishes to return dashboard_url for a Service Instance MUST return it with the initial response to the provision request, even if the service is provisioned asynchronously.
parameters	object	Configuration parameters for the Service Instance.
maintenance_info	Maintenance Info	If a Service Broker provides maintenance information for a Service Plan in its Catalog, a Broker MAY return the maintenance information currently associated with the Service Instance. Any field except for maintenance_info.version SHOULD be ignored by the Platform. This field MAY be used by the Platform to inform the end-user of unattended maintenances that were triggered out-of-band and applied to the Service Instance.
metadata	ServiceInstanceMetadata object	An OPTIONAL object containing metadata for the Service Instance.

Service Brokers MAY choose to not return some or all parameters when a Service Instance is fetched - for example, if it contains sensitive information.

{
  "dashboard_url": "http://example-dashboard.example.com/9189kdfsk0vfnku",
  "parameters": {
    "billing-account": "abcde12345"
  },
  "metadata": {
    "labels": {
      "key1" : "value1",
      "key2" : "value2"
    },
    attributes: {
      "broker.generated.attr1": "value1",
      "broker.generated.attr2": "value2"
    }
  }
}

Updating a Service Instance

By implementing this endpoint, Service Broker authors can:

• Enable users to modify the Service Plan of a Service Instance. By changing the Service Plan, users can upgrade or downgrade their Service Instance to other plans.
• Enable users to modify the parameters of a Service Instance. By modifying parameters, users can change configuration options that are specific to a Service or Service Plan.
• Enable Platforms to send an update request for a Service Instance containing only contextual data (no changes to the Service Plan or parameters). This MAY be used by Platforms to let Service Brokers know when contextual information for a Service Instance has changed (i.e. instance_name in the Cloud Foundry Context Object. To enable support for Platforms to send an update request for a Service Instance containing only contextual data, a Service Broker MUST declare support by including "allow_context_updates": true in its catalog endpoint.
• Enable Platforms to update maintenance information (allowing users to perform maintenance on their Service Instance, such as upgrading the underlying operating system the Service Instance is running on).

To enable support for the update of the Service Plan, a Service Broker MUST declare support per Service Offering by including "plan_updateable": true in either the Service Offering or Service Plan in its catalog endpoint.

If "plan_updateable": true is declared for a Service Plan in the Catalog endpoint, the Platform MAY request a Service Plan change on a Service Instance using the given Service Plan. Otherwise, Platforms MUST NOT make any Service Plan change requests to the Service Broker for any Service Instance using the given Service Plan, but MAY request an update to the Service Instance parameters or perform maintenance on the Service Instance.

Not all permutations of Service Plan changes are expected to be supported. For example, a service might support upgrading from Service Plan "shared small" to "shared large" but not to Service Plan "dedicated". It is up to the Service Broker to validate whether a particular permutation of Service Plan change is supported. If a particular Service Plan change is not supported, the Service Broker SHOULD return a meaningful error message in response.

Request

Route

PATCH /v2/service_instances/:instance_id

:instance_id MUST be the ID of a previously provisioned Service Instance.

Parameters

Parameter Name	Type	Description
accepts_incomplete	boolean	A value of true indicates that the Platform and its clients support asynchronous Service Broker operations. If this parameter is not included in the request, and the Service Broker can only update a Service Instance of the requested Service Plan asynchronously, the Service Broker MUST reject the request with a 422 Unprocessable Entity as described below.

Body

Request Field	Type	Description
context	object	Contextual data for the Service Instance.
service_id*	string	MUST be the ID of a Service Offering from the catalog for this Service Broker.
plan_id	string	If present, MUST be the ID of a Service Plan from the Service Offering that has been requested. If this field is not present in the request message, then the Service Broker MUST NOT change the Service Plan of the Service Instance as a result of this request.
parameters	object	Configuration parameters for the Service Instance. Service Brokers SHOULD ensure that the client has provided valid configuration parameters and values for the operation. See "Note" below.
previous_values	PreviousValues	Information about the Service Instance prior to the update.
maintenance_info	Maintenance Info	If a Service Broker provides maintenance information for a Service Plan in its Catalog, a Platform MAY provide the same maintenance information when updating a Service Instance. Any field except for maintenance_info.version will be ignored. This field can be used to perform maintenance on a Service Instance (for example, to upgrade the underlying operating system the Service Instance is running on). If a Service Broker's catalog has changed and new maintenance information version is available for the Service Plan that the Service Instance being updated is using, then the Service Broker MUST reject the request with a 422 Unprocessable Entity as described below.

* Fields with an asterisk are REQUIRED.

Previous Values Object

Request Field	Type	Description
service_id	string	Deprecated; determined to be unnecessary as the value is immutable. If present, it MUST be the ID of the Service Offering for the Service Instance.
plan_id	string	If present, it MUST be the ID of the Service Plan prior to the update.
organization_id	string	Deprecated as it was redundant information. The organization ID for the Service Instance MUST be provided by Platforms in the top-level field context. If present, it MUST be the ID of the organization specified for the Service Instance.
space_id	string	Deprecated as it was redundant information. The space ID for the Service Instance MUST be provided by Platforms in the top-level field context. If present, it MUST be the ID of the space specified for the Service Instance.
maintenance_info	Maintenance Info	The maintenance information that was used when the Service Instance was provisioned or when it was last updated.

Note: The parameters specified are expected to be the values specified by an end-user. Whether the user chooses to include the complete set of configuration options or just a subset (or even none) is their choice. How a Service Broker interprets these parameters (including the absence of any particular parameter) is out of scope of this specification - with the exception that if this field is not present in the request then the Service Broker MUST NOT change the parameters of the instance as a result of this request.

Since some Service Instances will provide a dashboard_url, it is possible that a user has modified some of these parameters via the dashboard and therefore the Platform might not be aware of these changes. For this reason, Platforms SHOULD NOT include any parameters on the request that the user did not explicitly specify in their request for the update.

* Fields with an asterisk are REQUIRED.

{
  "context": {
    "platform": "cloudfoundry",
    "some_field": "some-contextual-data"
  },
  "service_id": "service-offering-id-here",
  "plan_id": "service-plan-id-here",
  "parameters": {
    "parameter1": 1,
    "parameter2": "foo"
  },
  "previous_values": {
    "plan_id": "old-service-plan-id-here",
    "service_id": "service-offering-id-here",
    "organization_id": "org-guid-here",
    "space_id": "space-guid-here",
    "maintenance_info": {
      "version": "2.1.1+abcdef",
    }
  },
  "maintenance_info": {
    "version": "2.1.1+abcdef",
  }
}

cURL

$ curl http://username:password@service-broker-url/v2/service_instances/:instance_id?accepts_incomplete=true -d '{
  "context": {
    "platform": "cloudfoundry",
    "some_field": "some-contextual-data"
  },
  "service_id": "service-offering-id-here",
  "plan_id": "service-plan-id-here",
  "parameters": {
    "parameter1": 1,
    "parameter2": "foo"
  },
  "previous_values": {
    "plan_id": "old-service-plan-id-here",
    "service_id": "service-offering-id-here",
    "organization_id": "org-guid-here",
    "space_id": "space-guid-here"
  }
}' -X PATCH -H "X-Broker-API-Version: 2.17" -H "Content-Type: application/json"

Response

Status Code	Description
200 OK	MUST be returned if the request's changes have been applied or MAY be returned if the request's changes have had no effect. The expected response body is {}.
202 Accepted	MUST be returned if the Service Instance update is in progress. The operation string MUST match that returned for the original request. This triggers the Platform to poll the Polling Last Operation for Service Instances endpoint for operation status. Note that a re-sent PATCH request MUST return a 202 Accepted, not a 200 OK, if the requested update has not yet completed.
400 Bad Request	MUST be returned if the request is malformed or missing mandatory data. MAY be returned if the request contains invalid data, in which case the error response MAY include a helpful error message in the description field (see Service Broker Errors).
422 Unprocessable entity	MUST be returned if the requested change is not supported or if the request cannot currently be fulfilled due to the state of the Service Instance (e.g. Service Instance utilization is over the quota of the requested Service Plan). Additionally, this MUST be returned if the Service Broker only supports asynchronous update for the requested Service Plan and the request did not include ?accepts_incomplete=true; in this case the response body MUST contain a error code "AsyncRequired" (see Service Broker Errors). The error response MAY include a helpful error message in the description field such as "This Service Plan requires client support for asynchronous service operations.". Additionally, this MUST be returned if the maintenance_info.version provided in the request does not match the maintenance_info.version described for the Service Plan in the Service Broker's catalog. In this case, the response body MUST contain error code "MaintenanceInfoConflict" (see Service Broker Errors). The error response MAY include a helpful error message in the description field such as "The maintenance information for the requested Service Plan has changed.".

Responses with any other status code MUST be interpreted as a failure. When the response includes a 4xx or 5xx status code, the Service Broker MUST NOT apply any of the requested changes to the Service Instance.

When an update fails, the Service Instance can still be usable or unusable or its state could be unknown to the Platform. If a Service Instance became unusable, another update MAY repair the Service Instance. The Platform SHOULD NOT allow the creation of new bindings of an unusable Service Instance until the instance has been deleted or repaired by a subsequent update. If the broker does not indicate in the Error response or Last Operation response whether the Service Instance is usable or not, the Platform SHOULD assume it is still usable.

A failed update might be repeatable. If the Service Broker indicates in the Error response or Last Operation response that retrying this update does not make sense, the Platform SHOULD NOT repeat this update. For example, if a certain plan change is not supported by the Service Broker, all subsequent attempts will always fail, and the Platform SHOULD NOT retry this. Other updates MAY be possible.

Body

For success responses, the following fields are defined:

Response Field	Type	Description
dashboard_url	string	The updated URL of a web-based management user interface for the Service Instance; we refer to this as a service dashboard. The URL MUST contain enough information for the dashboard to identify the resource being accessed (0129d920a083838 in the example below). Note: a Service Broker that wishes to return dashboard_url for a Service Instance MUST return it with the initial response to the update request, even if the Service Instance is being updated asynchronously. If not present or null, the Platform MUST retain the previous value of the dashboard_url.
operation	string	For asynchronous responses, Service Brokers MAY return an identifier representing the operation. The value of this field MUST be provided by the Platform with requests to the Polling Last Operation for Service Instances endpoint in a percent-encoded query parameter. If present, MUST be a non-empty string.
metadata	ServiceInstanceMetadata object	An OPTIONAL object containing metadata for the Service Instance.

{
  "dashboard_url": "http://example-dashboard.example.com/9189kdfsk0vfnku",
  "operation": "task_10",
  "metadata": {
    "labels": {
      "key1" : "value1",
      "key2" : "value2"
    },
    attributes: {
      "broker.generated.attr1": "value1",
      "broker.generated.attr2": "value2"
    }
  }
}

Service Instance Metadata

Response Field	Type	Description
labels	object	Labels are broker specified key-value pairs specifying attributes of Service Instances that are meaningful and relevant to Platform users, but do not directly imply behaviour changes by the Platform. Platforms that support metadata labels MAY chose to update those, and if they do, they SHOULD replace all existing metadata labels with the labels received during provision or update. The Platform SHOULD ignore labels that do not adhere to the Platforms syntax.
attributes	object	Attributes are Broker specific key-value pairs generated by the Broker that MAY imply behavior changes by the Platform. Platforms that support attributes MAY chose to update attributes and the new value will be updated in the response body of the FETCH Service Instances. The Platform SHOULD ignore attributes that do not adhere to the Platform supported attribute list.

Binding

If "bindable": true is declared for a Service Offering or Service Plan in the Catalog endpoint, the Platform MAY request generation of a Service Binding. Otherwise, Platforms MUST NOT make a binding request to the Service Broker for any Service Instance using the given Service Offering or Service Plan.

Note: Not all services need to be bindable --- some deliver value just from being provisioned. Service Brokers that offer services that are bindable MUST declare them as such using "bindable": true in the Catalog. Service Brokers that do not offer any bindable services do not need to implement the endpoint for bind requests.

Service Brokers MAY choose to only return the information that represents a Service Binding once, either when the Service Binding is being created synchronously, or when the Service Binding is first fetched via the Fetching a Service Binding endpoint. However, in order for the Platform to successfully use the Service Binding, the information MUST be returned at least once.

In some cases, the creation of a Service Binding has to be accompanied by additional network configuration. This could be the configuration of a firewall or a load balancer or it could be the setup of a network tunnel or a VPN connection. To enable the Platform to do this in a service agnostic way, the Service Broker SHOULD provide the endpoints that the Application uses to connect to the service alongside the binding credentials.

Binding Rotation

Some Service Bindings are not valid forever. Especially credentials expire and have to be replaced at some point in time. The simplest form of exchanging a binding is to create a new Service Binding, make it available to the Application and remove and unbind the old one. In many cases, this requires a restart of the Application.

But this approach has a few downsides. First of all, from the Service Broker point of view, there is no continuity. The Service Broker doesn't know that the new binding is the successor of the old one. If state is attached to the old binding, the Service Broker is not able to transfer this state to the new binding. The second challenge is, that Platforms have to provide the binding parameters again to the successor binding. But Platforms do not necessarily store these parameter values. Without the values, a user has to provide them again and that prevents an automated rotation of Service Bindings.

Therefore, this specification defines means to rotate Service Bindings. A Service Broker can declare in the catalog per plan if it supports the creation of a successor binding by setting the binding_rotatable field to true. If the field is set to false or not present, the Platform MUST NOT attempt to rotate a Service Binding of this plan.

To create a successor binding, the Platform MUST provide a predecessor_binding_id field in the binding provisioning request. The value of this field MUST be the Service Binding ID of a non-expired Service Binding of the same Service Instance. The request creates a new Service Binding with a new binding ID. Both Service Bindings, the new and the old one, MUST both be valid in parallel until they expired or are deleted.

Types of Binding

Credentials

Credentials are a set of information used by an Application or a user to utilize the Service Instance. Credentials SHOULD be unique whenever possible, so access can be revoked for each Service Binding without affecting consumers of other Service Bindings for the Service Instance.

Service Brokers SHOULD also provide all network hosts and ports that the Application uses to connect to the Service Instance via this Service Binding. This data allows the Platform to adjust network configurations, if necessary.

Log Drain

There are a class of Service Offerings that provide aggregation, indexing, and analysis of log data. To utilize these services an application that generates logs needs information for the location to which it will stream logs. A create binding response from a Service Broker that provides one of these services MUST include a syslog_drain_url. The Platform MUST use the syslog_drain_url value when sending logs to the service.

Route Services

Route services are a class of Service Offerings that intermediate requests to applications, performing functions such as rate limiting or authorization. To indicate support for route services, the catalog entry for the Service MUST include the "requires":["route_forwarding"] property.

When creating a route service type of Service Binding, a Platform MUST send a routable address, or endpoint, for the application along with the request to create a Service Binding using "bind_resource":{"route":"some-address.com"}. Service Brokers MAY support configuration specific to an address using parameters; exposing this feature to users would require a Platform to support binding multiple routable addresses to the same Service Instance.

If a service is deployed in a configuration to support this behavior, the Service Broker MUST return a route_service_url in the response for a request to create a Service Binding, so that the Platform knows where to proxy the application request. If the service is deployed such that the network configuration to proxy application requests through instances of the service is managed out-of-band, the Service Broker MUST NOT return route_service_url in the response.

Volume Services

There are a class of Service Offerings that provide network storage to applications via volume mounts in the application container. A create Service Binding response from one of these services MUST include volume_mounts.

Request (Creating a Service Binding)

Route

PUT /v2/service_instances/:instance_id/service_bindings/:binding_id

:instance_id MUST be the ID of a previously provisioned Service Instance.

:binding_id MUST be a globally unique non-empty string. This ID will be used for future unbind requests, so the Service Broker will use it to correlate the resource it creates.

Parameters

Parameter name	Type	Description
accepts_incomplete	boolean	A value of true indicates that the Platform and its clients support asynchronous broker operations. If this parameter is not included in the request, and the broker can only perform a binding operation asynchronously, the broker MUST reject the request with a 422 Unprocessable Entity as described below.

Body

Request Field	Type	Description
context	object	Contextual data for the Service Binding.
service_id*	string	MUST be the ID of the Service Offering that is being used.
plan_id*	string	MUST be the ID of the Servie Plan from the service that is being used.
app_guid	string	Deprecated in favor of bind_resource.app_guid. GUID of an application associated with the Service Binding to be created. If present, MUST be a non-empty string.
bind_resource	BindResource	A JSON object that contains data for Platform resources associated with the Service Binding to be created. See Bind Resource Object for more information.
parameters	object	Configuration parameters for the Service Binding. Service Brokers SHOULD ensure that the client has provided valid configuration parameters and values for the operation.

* Fields with an asterisk are REQUIRED.

Bind Resource Object

The bind_resource object contains Platform specific information related to the context in which the service will be used. In some cases the Platform might not be able to provide this information at the time of the binding request, therefore the bind_resource and its fields are OPTIONAL.

Below are some common fields that MAY be used. Platforms MAY choose to add additional ones as needed (see Bind Resource Object conventions).

Request Field	Type	Description
app_guid	string	GUID of an application associated with the Service Binding. For credentials bindings. MUST be unique within the scope of the Platform.
route	string	URL of the application to be intermediated. For route services Service Bindings.

app_guid represents the scope to which the Service Binding will apply within the Platform. For example, in Cloud Foundry it might map to an "application" while in Kubernetes it might map to a "namespace". The scope of what a Platform maps the app_guid to is Platform specific and MAY vary across binding requests.

{
  "context": {
    "platform": "cloudfoundry",
    "some_field": "some-contextual-data"
  },
  "service_id": "service-offering-id-here",
  "plan_id": "service-plan-id-here",
  "bind_resource": {
    "app_guid": "app-guid-here"
  },
  "parameters": {
    "parameter1-name-here": 1,
    "parameter2-name-here": "parameter2-value-here"
  }
}

cURL

$ curl http://username:password@service-broker-url/v2/service_instances/:instance_id/service_bindings/:binding_id?accepts_incomplete=true -d '{
  "context": {
    "platform": "cloudfoundry",
    "some_field": "some-contextual-data"
  },
  "service_id": "service-offering-id-here",
  "plan_id": "service-plan-id-here",
  "bind_resource": {
    "app_guid": "app-guid-here"
  },
  "parameters": {
    "parameter1-name-here": 1,
    "parameter2-name-here": "parameter2-value-here"
  }
}' -X PUT -H "X-Broker-API-Version: 2.17" -H "Content-Type: application/json"

Response

Status Code	Description
200 OK	SHOULD be returned if the Service Binding already exists and the requested parameters are identical to the existing Service Binding. The expected response body is below. This response is only valid in synchronous operations.
201 Created	MUST be returned if the Service Binding was created as a result of this request. The expected response body is below.
202 Accepted	MUST be returned if the binding is in progress. The operation string MUST match that returned for the original request. This triggers the Platform to poll the Polling Last Operation for Service Bindings endpoint for operation status. Information regarding the Service Binding (i.e. credentials) MUST NOT be returned in this response. Note that a re-sent PUT request MUST return a 202 Accepted, not a 200 OK, if the Service Binding is not yet fully created.
400 Bad Request	MUST be returned if the request is malformed or missing mandatory data. MAY be returned if the request contains invalid data, in which case the error response MAY include a helpful error message in the description field (see Service Broker Errors).
409 Conflict	MUST be returned if a Service Binding with the same id, for the same Service Instance, already exists or is being created but with different parameters.
422 Unprocessable Entity	MUST be returned if the Service Broker requires that app_guid be included in the request body. The response body MUST contain error code "RequiresApp" (see Service Broker Errors). The error response MAY include a helpful error message in the description field such as "This Service supports generation of credentials through binding an application only.". Additionally, if the Service Broker rejects the request due to a concurrent request to create a Service Binding for the same Service Instance, then this error MUST be returned (see Blocking Operations). This MUST also be returned if the Service Broker only supports asynchronous bindings for the Service Instance and the request did not include ?accepts_incomplete=true. In this case, the response body MUST contain error code "AsyncRequired" (see Service Broker Errors). The error response MAY include a helpful error message in the description field such as "This Service Instance requires client support for asynchronous binding operations.".

Responses with any other status code MUST be interpreted as a failure and the Platform might need to perform Orphan Mitigation.

Body

For a 202 Accepted response code, the following fields are defined:

Response Field	Type	Description
operation	string	For asynchronous responses, Service Brokers MAY return an identifier representing the operation. The value of this field MUST be provided by the Platform with requests to the Polling Last Operation for Service Bindings endpoint in a URL encoded query parameter. If present, MUST be a string containing no more than 10,000 characters.

For 200 OK and 201 Created response codes, the following fields are defined:

Response Field	Type	Description
metadata	BindingMetadata object	An OPTIONAL object containing metadata about this Service Binding. This metadata is mainly used to manage the Service Binding itself and SHOULD NOT contain any data that is needed to connect to the Service Instance.
credentials	object	A free-form hash of credentials that can be used by applications or users to access the service. MUST be returned if the Service Broker supports generation of credentials.
syslog_drain_url	string	A URL to which logs MUST be streamed. "requires":["syslog_drain"] MUST be declared in the Catalog endpoint or the Platform can consider the response invalid.
route_service_url	string	A URL to which the Platform MUST proxy requests for the address sent with bind_resource.route in the request body. "requires":["route_forwarding"] MUST be declared in the Catalog endpoint or the Platform can consider the response invalid.
volume_mounts	array of VolumeMount objects	An array of configuration for remote storage devices to be mounted into an application container filesystem. "requires":["volume_mount"] MUST be declared in the Catalog endpoint or the Platform can consider the response invalid.
endpoints	array of Endpoint objects	The network endpoints that the Application uses to connect to the Service Instance. If present, all Service Instance endpoints that are relevant for the Application MUST be in this list, even if endpoints are not reachable or host names are not resolvable from outside the service network.

Binding Metadata Object

Response Field	Type	Description
expires_at	string	The date and time when the Service Binding becomes invalid and SHOULD NOT or CANNOT be used anymore. If present, the string MUST follow ISO 8601 and this pattern: yyyy-mm-ddThh:mm:ss.sZ.
renew_before	string	The date and time before the Service Binding SHOULD be renewed. Applications or Platforms MAY use this field to initiate a Service Binding rotation or create a new Service Binding on time. It is RECOMMENDED to trigger the creation of a new Service Binding shortly before this timestamp. If the expires_at field is also present, the renew_before timestamp MUST be before or equal to the expires_at timestamp. Service Brokers SHOULD leave enough time between both timestamps to create a new Service Binding including a buffer to enable continuity. If present, the string MUST follow ISO 8601 and this pattern: yyyy-mm-ddThh:mm:ss.sZ.

Volume Mount Object

Response Field	Type	Description
driver*	string	Name of the volume driver plugin which manages the device.
container_dir*	string	The path in the application container onto which the volume will be mounted. This specification does not mandate what action the Platform is to take if the path specified already exists in the container.
mode*	string	"r" to mount the volume read-only or "rw" to mount it read-write.
device_type*	string	A string specifying the type of device to mount. Currently the only supported value is "shared".
device*	Device	Device object containing device_type specific details. Currently only shared devices are supported.

* Fields with an asterisk are REQUIRED.

Device Object

Currently only shared devices are supported; a distributed file system which can be mounted on all app instances simultaneously.

Response Field	Type	Description
volume_id*	string	ID of the shared volume to mount on every app instance.
mount_config	object	Configuration object to be passed to the driver when the volume is mounted.

* Fields with an asterisk are REQUIRED.

Endpoint Object

Response Field	Type	Description
host*	string	A host name or a single IP address.
ports*	array of strings	A non-empty array. Each element is either a single port (for example "443") or a port range (for example "9000-9010").
protocol	string	The protocol. Valid values are tcp, udp, or all. The default value is tcp.

* Fields with an asterisk are REQUIRED.

{
  "credentials": {
    "uri": "mysql://mysqluser:pass@mysqlhost:3306/dbname",
    "username": "mysqluser",
    "password": "pass",
    "host": "mysqlhost",
    "port": 3306,
    "database": "dbname"
  },
  "endpoints": [
    {
      "host": "mysqlhost",
      "ports:" ["3306"]
    }
  ]
}

{
  "volume_mounts": [{
    "driver": "cephdriver",
    "container_dir": "/data/images",
    "mode": "r",
    "device_type": "shared",
    "device": {
      "volume_id": "bc2c1eab-05b9-482d-b0cf-750ee07de311",
      "mount_config": {
        "key": "value"
      }
    }
  }]
}

Request (Rotating a Service Binding)

Route

PUT /v2/service_instances/:instance_id/service_bindings/:binding_id

:instance_id MUST be the ID of a previously provisioned Service Instance.

:binding_id MUST be a globally unique non-empty string. This ID will be used for future unbind requests, so the Service Broker will use it to correlate the resource it creates.

Parameters

Parameter name	Type	Description
accepts_incomplete	boolean	A value of true indicates that the Platform and its clients support asynchronous broker operations. If this parameter is not included in the request, and the broker can only perform a binding operation asynchronously, the broker MUST reject the request with a 422 Unprocessable Entity as described below.

Body

Request Field	Type	Description
predecessor_binding_id*	string	MUST be the ID of non-expired Service Binding of the same Service Instance.

* Fields with an asterisk are REQUIRED.

Response

The same response as in the response section above is expected.

Fetching a Service Binding

If "bindings_retrievable" :true is declared for a Service Offering in the Catalog endpoint, Service Brokers MUST support this endpoint for all Service Offerings and Service Plans that support bindings ("bindable": true) and this endpoint MUST be available immediately after the Polling Last Operation for Service Bindings endpoint returns "state": "succeeded" for a Binding operation.

Request

Route

GET /v2/service_instances/:instance_id/service_bindings/:binding_id

:instance_id MUST be the ID of a previously provisioned Service Instance.

:binding_id MUST be the ID of a previously provisioned Service Binding for that instance.

Parameters

The request provides these query string parameters as useful hints for brokers.

Query-String Field	Type	Description
service_id	string	ID of the Service Offering from the catalog. If present, MUST be a non-empty string.
plan_id	string	ID of the Service Plan from the catalog. If present, MUST be a non-empty string.

cURL

$ curl 'http://username:password@broker-url/v2/service_instances/:instance_id/service_bindings/:binding_id' -X GET -H "X-Broker-API-Version: 2.17"

Response

Status Code	Description
200 OK	The expected response body is below.
404 Not Found	MUST be returned if the Service Binding does not exist or if a binding operation is still in progress.

Responses with any other status code MUST be interpreted as a failure and the Platform MUST continue to remember the Service Binding.

Body

For success responses, the following fields are defined:

Response Field	Type	Description
metadata	BindingMetadata object	An OPTIONAL object containing metadata about this Service Binding. This metadata is mainly used to manage the Service Binding itself and SHOULD NOT contain any data that is needed to connect to the Service Instance.
credentials	object	A free-form hash of credentials that can be used by applications or users to access the service. MUST be returned if the Service Broker supports generation of credentials and the Service Binding was provisioned asynchronously.
syslog_drain_url	string	A URL to which logs MUST be streamed. "requires":["syslog_drain"] MUST be declared in the Catalog endpoint or the Platform can consider the response invalid.
route_service_url	string	A URL to which the Platform MUST proxy requests for the address sent with bind_resource.route in the request body. "requires":["route_forwarding"] MUST be declared in the Catalog endpoint or the Platform can consider the response invalid.
volume_mounts	array of VolumeMount objects	An array of configuration for mounting volumes. "requires":["volume_mount"] MUST be declared in the Catalog endpoint or the Platform can consider the response invalid.
parameters	object	Configuration parameters for the Service Binding.
endpoints	array of Endpoint objects	The network endpoints that the Application uses to connect to the Service Instance. If present, all Service Instance endpoints that are relevant for the Application MUST be in this list, even if endpoints are not reachable or host names are not resolvable from outside the service network.

Service Brokers MAY choose to not return some or all parameters when a Service Binding is fetched - for example, if it contains sensitive information.

{
  "metadata": {
    "expires_at": "2019-12-31T23:59:59.0Z"
  },
  "credentials": {
    "uri": "mysql://mysqluser:pass@mysqlhost:3306/dbname",
    "username": "mysqluser",
    "password": "pass",
    "host": "mysqlhost",
    "port": 3306,
    "database": "dbname"
  },
  "endpoints": [
    {
      "host": "mysqlhost",
      "ports:" ["3306"]
    }
  ],
  "parameters": {
    "billing-account": "abcde12345"
  }
}

Unbinding

Note: Service Brokers that do not provide any bindable Service Offerings or Service Plans do not need to implement this endpoint.

When a Service Broker receives an unbind request from a Platform, it MUST delete any resources associated with the Service Binding. In the case where credentials were generated, this might result in requests to the Service Instance failing to authenticate.

If a Service Broker accepts the request to delete a Service Binding during the process of it being created, then it MUST have the net effect of halting the current creation process and beginning the deletion of any resources associated with the Service Binding. If the request to delete the Service Binding is being performed asynchronously, then the Polling Last Operation for Service Bindings endpoint SHOULD indicate the state of the delete request (unless a different operation identifier was provided by the Service Broker). If the request to delete the Service Binding is being performed synchronously, then the Polling Last Operation for Service Bindings endpoint SHOULD indicate that the create request has a state value of failed.

Request

Route

DELETE /v2/service_instances/:instance_id/service_bindings/:binding_id

:instance_id MUST be the ID of a previously provisioned Service Instance.

:binding_id MUST be the the ID of a previously provisioned Service Binding for that Service Instance.

Parameters

Query-String Field	Type	Description
service_id*	string	MUST be the ID of the Service Offering associated with the Service Binding being deleted.
plan_id*	string	MUST be the ID of the Service Plan associated with the Service Binding being deleted.
accepts_incomplete	boolean	A value of true indicates that the Platform and its clients support asynchronous Service Broker operations. If this parameter is not included in the request, and the Service Broker can only perform an unbinding operation asynchronously, the Service Broker MUST reject the request with a 422 Unprocessable Entity as described below.

* Query parameters with an asterisk are REQUIRED.

cURL

$ curl 'http://username:password@service-broker-url/v2/service_instances/:instance_id/
  service_bindings/:binding_id?service_id=service-offering-id-here&plan_id=service-plan-id-here&accepts_incomplete=true' -X DELETE -H "X-Broker-API-Version: 2.17"

Response

Status Code	Description
200 OK	MUST be returned if the Service Binding was deleted as a result of this request. The expected response body is {}.
202 Accepted	MUST be returned if the unbinding is in progress. The operation string MUST match that returned for the original request. This triggers the Platform to poll the Polling Last Operation for Service Bindings endpoint for operation status. Note that a re-sent DELETE request MUST return a 202 Accepted, not a 200 OK, if the unbinding request has not completed yet.
400 Bad Request	MUST be returned if the request is malformed or missing mandatory data. MAY be returned if the request contains invalid data, in which case the error response MAY include a helpful error message in the description field (see Service Broker Errors).
410 Gone	MUST be returned if the Service Binding does not exist.
422 Unprocessable Entity	MUST also be returned if the Service Broker only supports asynchronous unbinding for the Service Instance and the request did not include ?accepts_incomplete=true. The response body MUST contain error code "AsyncRequired" (see Service Broker Errors). The error response MAY include a helpful error message in the description field such as "This Service Instance requires client support for asynchronous binding operations.". Additionally, this MUST be returned if the Service Binding is being processed by some other operation and therefore cannot be deleted at this time. The response body MUST contain error code "ConcurrencyError" (see Service Broker Errors).

Responses with any other status code MUST be interpreted as a failure and the Platform MUST continue to remember the Service Binding.

Body

For success responses, the following fields are defined:

Response field	Type	Description
operation	string	For asynchronous responses, Service Brokers MAY return an identifier representing the operation. The value of this field MUST be provided by the Platform with requests to the Polling Last Operation for Service Bindings endpoint in a percent-encoded query parameter. If present, MUST be a string containing no more than 10,000 characters.

* Fields with an asterisk are REQUIRED.

{
  "operation": "task_10"
}

Deprovisioning

When a Service Broker receives a deprovision request from a Platform, it MUST delete any resources it created during the provision. Usually this means that all resources are immediately reclaimed for future provisions.

Platforms MUST delete all Service Bindings for a Service Instance prior to attempting to deprovision the Service Instance. This specification does not specify what a Service Broker is to do if it receives a deprovision request while there are still Service Bindings associated with it.

If a Service Broker accepts the request to delete a Service Instance during the process of it being provisioned, then it MUST have the net effect of halting the current creation process and beginning the deletion of any resources associated with the Service Instance. If the request to deprovision the Service Instance is being performed asynchronously, then the Polling Last Operation for Service Instances endpoint SHOULD indicate the state of the deprovision request (unless a different operation identifier was provided by the Service Broker). If the request to deprovision the Service Instance is being performed synchronously, then the Polling Last Operation for Service Instances endpoint SHOULD indicate that the provision request has a state value of failed.

Request

Route

DELETE /v2/service_instances/:instance_id

:instance_id MUST be the ID of a previously provisioned Service Instance.

Parameters

The request provides these query string parameters as useful hints for Service Brokers.

Query-String Field	Type	Description
service_id*	string	MUST be the ID of the Service Offering associated with the Service Instance being deleted.
plan_id*	string	MUST be the ID of the Service Plan associated with the Service Instance being deleted.
accepts_incomplete	boolean	A value of true indicates that both the Platform and the requesting client support asynchronous deprovisioning. If this parameter is not included in the request, and the Service Broker can only deprovision a Service Instance of the requested Service Plan asynchronously, the Service Broker MUST reject the request with a 422 Unprocessable Entity as described below.

* Query parameters with an asterisk are REQUIRED.

cURL

$ curl 'http://username:password@service-broker-url/v2/service_instances/:instance_id?accepts_incomplete=true
  &service_id=service-offering-id-here&plan_id=service-plan-id-here' -X DELETE -H "X-Broker-API-Version: 2.17"

Response

Status Code	Description
200 OK	MUST be returned if the Service Instance was deleted as a result of this request. The expected response body is {}.
202 Accepted	MUST be returned if the Service Instance deletion is in progress. The operation string MUST match that returned for the original request. This triggers the Platform to poll the Polling Last Operation for Service Instances endpoint for operation status. Note that a re-sent DELETE request MUST return a 202 Accepted, not a 200 OK, if the delete request has not completed yet.
400 Bad Request	MUST be returned if the request is malformed or missing mandatory data. MAY be returned if the request contains invalid data, in which case the error response MAY include a helpful error message in the description field (see Service Broker Errors).
410 Gone	MUST be returned if the Service Instance does not exist.
422 Unprocessable Entity	MUST be returned if the Service Broker only supports asynchronous deprovisioning for the requested Service Plan and the request did not include ?accepts_incomplete=true. The response body MUST contain error code "AsyncRequired" (see Service Broker Errors). The error response MAY include a helpful error message in the description field such as "This Service Plan requires client support for asynchronous service operations.". Additionally, this MUST be returned if the Service Instance is being processed by some other operation and therefore cannot be deleted at this time. The response body MUST contain error code "ConcurrencyError" (see Service Broker Errors).

Responses with any other status code MUST be interpreted as a failure and the Platform MUST remember the Service Instance.

When a deprovisioning fails, the Service Instance can still be usable or unusable or its state could be unknown. If a Service Instance becomes unusable, the Platform SHOULD NOT request new Service Bindings for that Service Instance. If the broker does not indicate in the Error response or Last Operation response whether the Service Instance is usable or not, the Platform SHOULD assume it is still usable.

Body

For success responses, the following fields are defined:

Response Field	Type	Description
operation	string	For asynchronous responses, Service Brokers MAY return an identifier representing the operation. The value of this field MUST be provided by the Platform with requests to the Polling Last Operation for Service Instances endpoint in a percent-encoded query parameter. If present, MUST NOT contain more than 10,000 characters.

{
  "operation": "task_10"
}

Orphan Mitigation

The Platform is the source of truth for Service Instances and Service Bindings. Service Brokers are expected to have successfully provisioned all of the Service Instances and Service Bindings that the Platform knows about, and none that it doesn't.

Orphaned Service Instances and Service Bindings might have been created in one of the following scenarios:

• The Service Broker does not return a response before a request from the Platform times out (typically 60 seconds). The Service Broker might eventually succeed in creating a resource, however the Platform might have already considered the request a failure.
• A synchronous Provisioning request fails.
• A call to the Polling Last Operation for Service Instances endpoint returns "state": "failed" for an asynchronous provisioning or deprovisioning request.
• A synchronous Binding request fails.
• A call to the Polling Last Operation for Service Bindings endpoint returns "state": "failed" for an asynchronous binding or unbinding request.
• The Platform encounters an internal error when creating a Service Instance or Service Binding (for example, saving to the database fails).

To mitigate orphaned Service Instances and Service Bindings, the Platform SHOULD attempt to delete resources it cannot be sure were successfully created, and SHOULD keep trying to delete them until the Service Broker responds with a success. Service Brokers MAY automatically delete any resources they believe to be orphaned on their own. Note that the Platform MAY allow end users to determine when orphan mitigation occurs, in order to allow them to investigate the cause of any failures.

The following table aims to describe when Orphan Mitigation is to be initiated by the Platform:

Request	Service Broker Response Status Code	Platform Interpretation Of Response	Orphan Mitigation SHOULD be performed for Service Instances	Orphan Mitigation SHOULD be performed for Service Bindings
All	200	Success (only returned in synchronous mode)	No	No
All	200 with malformed response	Failure	No	No
Polling Last Operation for Service Instances for Provisioning/Deprovisioning	200 with "state": "failed"	Failure	Yes	No
Polling Last Operation for Service Bindings for Binding/Unbinding	200 with "state": "failed"	Failure	No	Yes
All	201	Success	No	No
Provisioning	201 with malformed response	Failure	Yes	No
Binding	201 with malformed response	Failure	No	Yes
All	202	Success	No	No
Provisioning	202 with malformed response	Failure	Yes	No
Binding	202 with malformed response	Failure	No	Yes
Provisioning/Deprovisioning	All other 2xx	Failure	Yes	No
Binding/Unbinding	All other 2xx	Failure	No	Yes
Updating a Service Instance	All other 2xx	Failure	No	No
All	408	Client timeout failure (request not received at the server)	No	No
All	All other 4xx	Request rejected	No	No
Provisioning/Deprovisioning	5xx	Service Broker error	Yes	No
Binding/Unbinding	5xx	Service Broker error	No	Yes
Updating a Service Instance	5xx	Service Broker error	No	No
Provisioning	Timeout	Failure	Yes	No
Binding	Timeout	Failure	No	Yes
All (except Provisioning and Binding)	Timeout	Failure	No	No