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DC/OS Open Service Broker is a toolkit that enables the quick and painless integration of (dcos-commons powered) DC/OS Services in to CloudFoundry, or any other OSB implementing platform.

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DC/OS Open Service Broker is a toolkit that enables the quick and painless integration of (dcos-commons powered) DC/OS Services in to CloudFoundry, or any other OSB implementing platform, by providing a high level ServiceModule API, that allows for the service specific bits -mostly around transforming OSB configuration types to DC/OS package options and service intialization/teardown- to reside in a well isolated, plugin-like implementation class.

Build Status

No knowledge of the Open Service Broker spec or the DC/OS Service lifecycle management APIs is necessary - simply fill in the service specific gaps by extending the ServiceModule abstract class, drop credentials and other configuration, fire up the main class from io.predix.dcosb:service-broker, and you are good to go!

Implementing and building a ServiceModule

ServiceModule implementations represent DC/OS Services towards the toolkit. For an example, see the service-module-cassandra module.

The tl;dr is

  1. extend the ServiceModule abstract class from service-module-api
  2. add io.predix.dcosb:service-broker as a run & build-time dependency
  3. optionally, add io.predix.dcosb:cli as a run & build-time dependency
  4. review configuration options in service-broker/src/main/resources/reference.conf - drop any overrides at the root of your classpath in to application.conf, or any other location specified by -Dconfig.file You may also override individual configuration parameters this way, see the typsafe config documentation for details
  5. for a HOCON representation of the minimally required ServiceModuleConfiguration, see service-broker-api/src/test/resources/reference.conf A helper to parse this structure in to a ServiceModuleConfiguration object is available by mixing in BasicServiceModule See service-module-cassandra for an example.
  6. start sbt "runMain io.predix.dcosb.servicebroker.Daemon" for the Open Service Broker. By default, the Service Broker will listen for requests on 0.0.0.0:8080
  7. run sbt "runMain io.predix.dcosb.cli.DCOSBCli --help" to get the CLI help, if you added cli as a dependency

Open Service Broker API v2.12 compatibility

The DC/OS Open Service Broker intends to eventually fully implement an Open Service Broker API version 2.12 compatible RESTful web service. However, we anticipate this to be achieved over several releases. Please find a matrix describing API compatibility in this release

OSB API Feature Supported? ServiceModule API Notes
Catalog management The catalog response is completely served up from the ServiceModuleConfiguration object and involves no interaction with the ServiceModule implememntation
Provisioning In summary, the Provisioning action is mostly supported. The context object parameter is not yet supported and synchronous processing may not be supported in the near future
uri fragment
/v2/service_instances/instance_id
YES
def createServiceInstance(...
    serviceInstanceId: String,
    ...): Future[_ <: PackageOptions]
Asynchronous processing
( query parameter "accepts_incomplete" = true )
YES the value of the returned operation field is "create"
Synchronous processing
( query parameter "accepts_incomplete" = false, or absent )
NO The Service Broker will return 422 Unprocessable Entity per the spec
request object field
"service_id"
YES
def createServiceInstance(...
    serviceId: String,
    ...): Future[_ <: PackageOptions]
request object field
"plan_id"
YES
def createServiceInstance(...
    planId: String,
    ...): Future[_ <: PackageOptions]
request object field
"context"
NO
request object field
"organization_guid"
YES
def createServiceInstance(...
    organizationGuid: String,
    ...): Future[_ <: PackageOptions]
request object field
"space_guid"
YES
def createServiceInstance(...
    spaceGuid: String,
    ...): Future[_ <: PackageOptions]
request object field
"parameters"
YES
def createServiceInstance(...
    parameters: Option[T] forSome {
      type T <: InstanceParameters
    } = None,
    ...): Future[_ <: PackageOptions]
To implement support for receiving arbitrary parameters at provisioning time ("instance parameters") you need to:
  1. Create type T to represent these parameters as a single object, that extends InstanceParameters
  2. Create a function to parse the JSON representation of the parameters object into an instance of T, and set this on the ServiceModuleConfiguration object
    (Option[JsValue] => Try[T])
  3. Implement the createServiceInstance method on your ServiceModule implementation ( see left )
Updating a Service Instance In summary, updating a service instance is supported on the most basic level. We do not currently allow for an arbitrary parameters object to be sent with the request ( this will require yet another type + reader combo ) nor do we support the similar context object. Additionally, only asynchronous processing is supported
uri fragment
/v2/service_instances/instance_id
YES
def updateServiceInstance(...
    serviceInstanceId: String,
    ...): Future[_ <: PackageOptions]
Asynchronous processing
( query parameter "accepts_incomplete" = true )
YES the value of the returned operation field is "update"
Synchronous processing
( query parameter "accepts_incomplete" = false, or absent )
NO The Service Broker will return 422 Unprocessable Entity per the spec
request object field
"context"
NO
request object field
"service_id"
YES
def updateServiceInstance(...
    serviceId: String,
    ...): Future[_ <: PackageOptions]
request object field
"plan_id"
YES
def updateServiceInstance(...
    planId: Option[String],
    ...): Future[_ <: PackageOptions]
request object field
"parameters"
NO
request object field
"previous_values"
PARTIAL
def updateServiceInstance(...
    previousValues: Option[OSB.PreviousValues],
    ...): Future[_ <: PackageOptions]
On the previous_values object we only support the single non-deprecated field: "plan_id"
case class PreviousValues(planId: String)
Binding In summary, the binding operation is mostly supported. There is no support for the parameters object yet and currently only the app_guid field on the bind_response object will be parsed
uri fragment
/v2/service_instances/instance_id/service_bindings/binding_id
YES
def bindApplicationToServiceInstance(...
    serviceInstanceId: String,
    ...): Future[_ <: BindResponse]
uri fragment
/v2/service_instances/instance_id/service_bindings/binding_id
YES
def bindApplicationToServiceInstance(...
    bindingId: String,
    ...): Future[_ <: BindResponse]
request object field
service_id
YES
def bindApplicationToServiceInstance(...
    serviceId: String,
    ...): Future[_ <: BindResponse]
request object field
plan_id
YES
def bindApplicationToServiceInstance(...
    planId: String,
    ...): Future[_ <: BindResponse]
deprecated request object field
app_guid
NO See bind_resource below
request object field
bind_resource
PARTIAL
def bindApplicationToServiceInstance(...
    bindResource: Option[OSB.BindResource],
    ...): Future[_ <: BindResponse]
The BindResource object supports only the app_guid field currently:
case class BindResource(appGuid: String)
request object field
parameters
NO
returned binding value (type) YES*
trait BindResponse {
	def credentials: Option[Any]
	}
*Currently, only an optional credentials field is enforced on the returned value. This may change if we decide to implement support for proxy or log consuming applications. In the mean time, to return an abitrary binding response object, you need to:
  1. Create an implementation of BindResponse
  2. Create a function to write the BindResponse in to it's JSON representation, and set this on the ServiceModuleConfiguration object
    (B => JsValue)
    where B is your BindResponse implementation
  3. Implement the bindApplicationToServiceInstance method on your ServiceModule implementation ( see left )
Unbinding
uri fragment
/v2/service_instances/instance_id/service_bindings/binding_id
YES
def unbindApplicationFromServiceInstance(...
    serviceInstanceId: String,
    ...): Future[_ <: ApplicationUnboundFromServiceInstance]
uri fragment
/v2/service_instances/instance_id/service_bindings/binding_id
YES
def unbindApplicationFromServiceInstance(...
    bindingId: String,
    ...): Future[_ <: ApplicationUnboundFromServiceInstance]
request object field
service_id
YES
def unbindApplicationFromServiceInstance(...
    serviceId: String,
    ...): Future[_ <: ApplicationUnboundFromServiceInstance]
request object field
plan_id
YES
def unbindApplicationFromServiceInstance(...
    planId: String,
    ...): Future[_ <: ApplicationUnboundFromServiceInstance]
Deprovisioning
Asynchronous processing
( query parameter "accepts_incomplete" = true )
YES the value of the returned operation field is "destroy"
Synchronous processing
( query parameter "accepts_incomplete" = false, or absent )
NO The Service Broker will return 422 Unprocessable Entity per the spec
uri fragment
/v2/service_instances/instance_id
YES
def destroyServiceInstance(...
    serviceInstanceId: String,
    ...): Future[ServiceInstanceDestroyed]
request object field
service_id
YES
def destroyServiceInstance(...
    serviceId: String,
    ...): Future[ServiceInstanceDestroyed]
request object field
plan_id
YES
def destroyServiceInstance(...
    planId: String,
    ...): Future[ServiceInstanceDestroyed]
Last Operation
uri fragment
/v2/service_instances/instance_id
YES
def lastOperation(...
    serviceInstanceId: String,
    ...): Future[LastOperationStatus]
request object field
service_id
YES
def lastOperation(...
    serviceId: Optional[String],
    ...): Future[LastOperationStatus]
request object field
plan_id
YES
def lastOperation(...
    planId: Optional[String],
    ...): Future[LastOperationStatus]
request object field
operation
YES
def lastOperation(...
    operation: OSB.Operation.Value,
    ...): Future[LastOperationStatus]

Utilities provided to ServiceModule implementations

The features of the toolkit don't stop at simply translating HTTP API calls to the Open Service Broker in to invocations of your ServiceModule API methods.

Contextual information

On many of the abstract Service Module methods that you are expected to implement for a fully functional Service Broker, you'll find parameters that are not parsed out of the incoming request, but help you communicate with the DC/OS Service Instance for which the request is being made.

Endpoint

An Endpoint is discoverability information per service port that is registered by a single task of the DC/OS Service, on a single slave.

/**
* If there are service discovery mechanisms available in the
* DC/OS cluster, the application endpoints / service endpoints of
* the service instance will be presented to the API methods whenever
* possible via this type
*/
case class Endpoint(name: String,
                    ports: List[Port] = List.empty)
                    
case class Port(name: Option[String] = None,
                address: InetSocketAddress)

Receiving this with every invocation of the API ( except for provisioning of course ) will help you carry out your service specific lifecycle actions like creating a user account at binding time, cleaning up at unbinding, etc.

PlanApiClient

There is an Actor, accessible via sending a Forward message to dcosProxy that can pull named plans from a dcos-commons compatible service API. For this you'll require a package name ( available on your ServiceModuleConfiguration ) and a Service Instance ID ( available on every method )

Plans give you insight in to any change operation ( create/update/delete ) you perform on a DC/OS service.

You could use this in your lastOperation implementation to discover the progress of an asynchronous operation ( createServiceInstance, updateServiceInstance and destroyServiceInstance ), return a status update to the platform and take any additional action necesarry ( update billing, etc )

HttpClient

There is a helper method available via ServiceModule to send HttpRequests to the DC/OS admin proxy. Typically you will use this to communicate with your Service API to perform service specific tasks. The signature of the helper method is:

def `sendRequest and handle response`[T](request: HttpRequest,
                                       handling: Try[HttpResponse] => T)

For examples how this method is used to send requests and process responses, take a look at PlanApiConsumer

The HttpClientActor trait that contributes method is undergoing some changes, and more helpers should be available soon.

Retrieving Actor and ServiceModule Configuration for your ServiceModule

Should you ever need them, actor and service module configuration instances are available via the two below helper methods on ServiceModule

 def withServiceModuleConfigurationOrFailPromise[T](
  serviceId: String,
  f: (ServiceModuleConfiguration[_, _, _] => _),
  promise: Promise[T])

 def withActorConfigurationOrFailPromise[T](
  f: (ServiceModule.ActorConfiguration => _),
  promise: Promise[T])

f is your code needing a configuration object

Under the hood

Actor Graph

Actor Graph

ServiceModule loading

ServiceModule loading

CreateInstance request flow

CreateInstance request flow

DestroyInstance request flow

Bind request flow

Unbind request flow

Appendices

module overview

service-module-api

Provides the abstract classes and traits to implement a ServiceModule. ServiceModules represent DC/OS Services we wish to expose to CloudFoundry (or any other OSB implementing platform), via the toolkit

service-module-cassandra

A very basic ServiceModule implementation to launch and manage Cassandra clusters

Check dcos connection information under src/main/resources/application.conf, then launch the Cassandra ServiceModule in a Service Broker by running

sbt -Dakka.loglevel=DEBUG "project smCassandra" run

Once launched, you can (currently) send the following requests:

Provision a cluster
http -a apiuser:YYz3aN-kmw PUT http://localhost:8080/dcosb/cassandra-example/broker/v2/service_instances/dcosb-cassandra-1 parameters:='{"nodes":3,"cluster_name":"dcosb-cassandra-1"}' organization_guid=SomeORG plan_id=developer service_id=SomeServiceGUID space_guid=SomeSpaceGUID
HTTP/1.1 201 Created
Content-Length: 22
Content-Type: application/json
Date: Thu, 24 Aug 2017 03:55:25 GMT
Server: akka-http/10.0.5
	
{
    "operation": "create"
}
Monitor the provision operation progress
http -a apiuser:YYz3aN-kmw GET http://localhost:8080/dcosb/cassandra-example/broker/v2/service_instances/dcosb-cassandra-1/last_operation/?operation=create
HTTP/1.1 200 OK
Content-Length: 123
Content-Type: application/json
Date: Thu, 24 Aug 2017 03:56:32 GMT
Server: akka-http/10.0.5

{
    "description": "node-0:[server] -> STARTING, node-1:[server] -> PENDING, node-2:[server] -> PENDING",
    "state": "in progress"
}
Create an application binding with the cluster instance
http -a apiuser:YYz3aN-kmw PUT http://localhost:8080/dcosb/cassandra-example/broker/v2/service_instances/dcosb-cassandra-1/service_bindings/binding-1 service_id=SomeServiceGUID plan_id=developer bind_resource:='{"app_guid":"SomeAppGUID"}'
HTTP/1.1 200 OK
Content-Length: 259
Content-Type: application/json
Date: Thu, 24 Aug 2017 23:48:09 GMT
Server: akka-http/10.0.5

{
    "credentials": {
        "password": "cassandra",
        "username": "cassandra"
    },
    "nodes": [
        {
            "host": "node-2-server.dcosb-cassandra-1.mesos",
            "port": 24339
        },
        {
            "host": "node-1-server.dcosb-cassandra-1.mesos",
            "port": 24339
        },
        {
            "host": "node-0-server.dcosb-cassandra-1.mesos",
            "port": 24339
        }
    ]
}
Update cluster instance

coming soon

Destroy an application binding with the cluster instance
http -a apiuser:YYz3aN-kmw DELETE http://localhost:8080/dcosb/cassandra-example/broker/v2/service_instances/dcosb-cassandra-1/service_bindings/binding-1/?service_id=SomeServiceGUID\&plan_id=developer
HTTP/1.1 200 OK
Content-Length: 2
Content-Type: application/json
Date: Fri, 25 Aug 2017 20:46:21 GMT
Server: akka-http/10.0.5

{}
De-provision the cluster
http -a apiuser:YYz3aN-kmw DELETE http://localhost:8080/dcosb/cassandra-example/broker/v2/service_instances/dcosb-cassandra-1/?service_id=service_guid\&plan_id=developer
HTTP/1.1 202 Accepted
Content-Length: 23
Content-Type: application/json
Date: Thu, 24 Aug 2017 03:59:47 GMT
Server: akka-http/10.0.5

{
    "operation": "destroy"
}
Monitor the de-provision operation progress
http -a apiuser:YYz3aN-kmw GET http://localhost:8080/dcosb/cassandra-example/broker/v2/service_instances/dcosb-cassandra-1/last_operation/?operation=destroy
HTTP/1.1 200 OK
Content-Length: 151
Content-Type: application/json
Date: Thu, 24 Aug 2017 03:59:53 GMT
Server: akka-http/10.0.5

{
    "description": "Scheduler for cluster with id dcosb-cassandra-1 is being re/started. Please re-try later for operation details.",
    "state": "in progress"
}

dcos-utils

Actors that consume DC/OS authentication/authorization, service lifecycle and various other management APIs

mesos-utils

Actors that consume Mesos REST APIs for DC/OS Service monitoring and management

utils

Utility objects, classes, traits, shared all over

service-broker

Actors that provide a Open Service Broker API compatible HTTP RESTful service around ServiceModule implementations. Also includes a main class to start the Service Broker in an embedded ( akka-http ) web server

metrics-collector

Reads the DC/OS Metrics API and forwards data points to the Predix Timeseries service

metrics-proxy

Provides a Grafana simple-json-datasource compatible HTTP RESTful service wrapping around the Predix Timeseries service. By default, deployed by service-broker via dcos-utils, as a Marathon application per ServiceModule instance

cli

Convenience maintenance, debugging and monitoring actions for ServiceModule implementation instances

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DC/OS Open Service Broker is a toolkit that enables the quick and painless integration of (dcos-commons powered) DC/OS Services in to CloudFoundry, or any other OSB implementing platform.

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