This project provides a framework for building a Spring Boot project to quickly implement a service broker for Cloud Foundry.
This project replaces Spring Boot CF Service Broker.
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Service Broker API: 2.13
See the Spring Boot documentation for getting started building a Spring Boot application.
A sample MongoDB service broker project is available.
Add dependencies to your project’s build file.
Maven example:
<dependencies> ... <dependency> <groupId>org.springframework.cloud</groupId> <artifactId>spring-cloud-cloudfoundry-service-broker</artifactId> <version>${springCloudServiceBrokerVersion}</version> </dependency>
<dependency> <groupId>org.springframework.cloud</groupId> <artifactId>spring-cloud-cloudfoundry-service-broker</artifactId> <version>${springCloudServiceBrokerVersion}</version> <classifier>tests</classifier> <scope>test</scope> </dependency> ... </dependencies>
Gradle example:
dependencies { ... compile("org.springframework.cloud:spring-cloud-cloudfoundry-service-broker:${springCloudServiceBrokerVersion}") testCompile(group: "org.springframework.cloud", name: "spring-cloud-cloudfoundry-service-broker", version: "${springCloudServiceBrokerVersion}", classifier: "tests") ... }
The framework provides default implementations of most of the components needed to implement a service broker. In Spring Boot fashion, you can override the default behavior by providing your own implementation of Spring beans, and the framework will back away from its defaults.
To start, use the @EnableAutoConfiguration
or @SpringBootApplication
annotation on the broker’s main application class:
@ComponentScan @EnableAutoConfiguration public class Application { public static void main(String[] args) { SpringApplication.run(Application.class, args); } }
This will trigger the inclusion of the default configuration.
The Cloud Foundry service broker API has three main endpoint groupings: catalog management, service instance provisioning/deprovisioning, and service instance binding/unbinding. The broker will need to provide one Spring bean to provide the necessary functionality for each endpoint grouping.
For catalog management, the framework provides a default implementation that requires the broker to just provide an implementation of a Catalog
bean. There is an example of this approach in the MongoDB sample broker. To override this default, provide your own bean that implements the CatalogService
interface.
For service instance provisioning/deprovisioning, provide a Spring bean that implements the ServiceInstanceService
interface. There is no default implementation provided.
For service instance binding/unbinding, provide a Spring bean that implements the ServiceInstanceBindingService
interface. If the service broker does not provide any bindable services, this bean can be omitted and a default implementation will be provided.
The project includes the spring-boot-starter-security
project. See the Spring Boot Security documentation for configuration options.
The default behavior creates a user called user
with a generated password that is logged as an INFO
message during app startup. For example:
2014-04-16T10:08:52.54-0600 [App/0] OUT Using default password for application endpoints: 7c2969c1-d9c7-47e9-9c9e-2cd94a7b6cf1
If you are deploying your service broker to Cloud Foundry as an app, be aware the password is re-generated every time you push the application. Therefore, you need to run cf update-service-broker
with the new password after each push.
To see the generated password in the application logs on Cloud Foundry, use one of the following commands:
$ cf logs <broker-app-name> $ cf logs --recent <broker-app-name>
By default, the framework will verify the version of the service broker API for each request it receives. To disable service broker API version header verification, provide a BrokerApiVersion
bean that accepts any API version:
@Bean public BrokerApiVersion brokerApiVersion() { return new BrokerApiVersion(); }
Follow the documentation to register the broker to Cloud Foundry.
The project is built with Gradle. The Gradle wrapper allows you to build the project on multiple platforms and even if you do not have Gradle installed; run it in place of the gradle
command (as ./gradlew
) from the root of the main project directory.
Spring Cloud is released under the non-restrictive Apache 2.0 license, and follows a very standard Github development process, using Github tracker for issues and merging pull requests into master. If you want to contribute even something trivial please do not hesitate, but follow the guidelines below.
Before we accept a non-trivial patch or pull request we will need you to sign the Contributor License Agreement. Signing the contributor’s agreement does not grant anyone commit rights to the main repository, but it does mean that we can accept your contributions, and you will get an author credit if we do. Active contributors might be asked to join the core team, and given the ability to merge pull requests.
This project adheres to the Contributor Covenant code of conduct. By participating, you are expected to uphold this code. Please report unacceptable behavior to spring-code-of-conduct@pivotal.io.
None of these is essential for a pull request, but they will all help. They can also be added after the original pull request but before a merge.
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Use the Spring Framework code format conventions. If you use Eclipse you can import formatter settings using the
eclipse-code-formatter.xml
file from the Spring Cloud Build project. If using IntelliJ, you can use the Eclipse Code Formatter Plugin to import the same file. -
Make sure all new
.java
files to have a simple Javadoc class comment with at least an@author
tag identifying you, and preferably at least a paragraph on what the class is for. -
Add the ASF license header comment to all new
.java
files (copy from existing files in the project) -
Add yourself as an
@author
to the .java files that you modify substantially (more than cosmetic changes). -
Add some Javadocs and, if you change the namespace, some XSD doc elements.
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A few unit tests would help a lot as well — someone has to do it.
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If no-one else is using your branch, please rebase it against the current master (or other target branch in the main project).
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When writing a commit message please follow these conventions, if you are fixing an existing issue please add
Fixes gh-XXXX
at the end of the commit message (where XXXX is the issue number).