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Tailored Service Template for creating a Spring Boot application to run on Aurora Openshift

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Spring Boot Reference Application

This version of the reference application is based upon springboot v2, look in the release/v1 branch for a version based upon springboot v1

If your team has not migrated to v7 of Jenkins pipeline yet look at the release/v3 branch for the latest reference application on v6 pipeline version.

The intention of the Reference Application is to serve as a guide when developing Business Applications (Fagapplikasjoner) within The Norwegian Tax Administration (Skatteetaten); applications implementing the core business rules in the tax domain for which Skatteetaten is responsible.

In this repository your will find examples on how to solve common technical issues and implement requirements for applications running within the networks of Skatteetaten and especially on the Aurora OpenShift platform. This includes logging, handling database migrations, testing, security, application versioning, build pipeline, to name a few.

The Reference Application is implemented in Spring Boot.

In order to deploy this application on the AuroraPlattform using AuroraConfig the following must be specified in the base file:

prometheus:
  path: /actuator/prometheus

The standard value is /prometheus that works for spring boot 1 based applications but not boot2 based applications.

About the Core Technologies

The recommended technology for all new business applications created within Skatteetaten is Spring Boot. Recommending a technology in this way is always associated with some controversy, especially in an organization with history of using several other technology stacks. It is, however, our opinion that at the time there are few other stacks that are better supported and are driving development in the Cloud Native space better than Spring Boot.

How to Use the Application

As the intention of the Reference Application is to serve as a guide to how to set up your own application, it is not intended to be used directly as a starting point for new applications without any modifications.

You may fork the repository of the application to be able to apply new commits onto your own modified application, or your may export the code into your own fresh repository and manually keep up to date with changes to the central repository by inspecting the change logs. Which approach is best will depend on the amount of changes you make to central files, like the pom.xml and application.yml.

Regardless of the approach you use to keep up with changes, you will have to make the following changes to the fork/export:

  • change the iqOrganizationName in the Jenkinsfile to match your organization
  • change the groupId, artifactId, name and description in the pom.xml to match that of your application
  • rename the main package in src/main to match that of your application
  • change the info.links in application.yml to match that of your application
  • remove the example database code (migrations under src/main/resource/db/migrations), the Counter-classes in the controllers, health and service packages and the database config in application.yml

Custom configuration

This section describes custom configration within this application.

Database: maximum pool size

Config: spring.datasource.hikari.maximumPoolSize

Default maxmimumPoolSize for Hikary is 10. This has been reduced to 3 in this application.

What is Covered in the Application?

Starters

The application requires the starter aurora-spring-boot-mvc-starter in order to set up normal aurora requirements such as

  • grouping properties into their own property sources
  • setting default properties for actuator
  • instrumenting RestTemplates with metrics
  • instrument ServerFilter with metrics
  • instrument logback with metrics

Aurora also provides another starter, aurora-spring-boot-webflux-starter, which is intended for reactive applications.

Log Configuration

All Skatteetaten applications should log using the same standard logging pattern. Also, all applications running on Openshift has to log to a specific folder in the container for the logs to picked up and automatically indexed in Splunk. Logfiles put in the container need to be rolled before reaching a predetermined size to avoid the platform terminating the application (in self defence; log files filling up disk on the Openshift nodes may wreak havoc in a cluster).

To avoid every application having to maintain their own logback.xml-file implementing all the requirements, one is provided by the platform in the runtime Docker image. The reference application is configured to use this Logback file when it exists, while still preserving the convenient Spring Boot features for setting the log level. This is done in the src/main/assembly/metadata/openshift.json-file. The application.yml-file also contains an example on how to set the log levels.

HTTP Header Handling

According to the Aurora Requirements all applications should use the Klientid header for identifying themeselves when they operate as a client to other services. They should also send a Korrelasjonsid header for traceability. They may also optionally send a Meldingsid header as an identifier for the current message.

The value of the Klientid, Korrelasjonsid and Meldingsid headers should be logged on every request. This is implemented by using a filter that will extract the values of these headers and putting them on SLF4J MDC. The artifact implementing the filter is aurora-header-mdc-filter and is included as a dependency in the pom.xml-file. See the ApplicationConfig-class for details on how the filter is configured.

Database Migrations with Flyway

Databases are migrated using the database migration tool Flyway. Migrations should be put in the src/main/resources/db/migration-folder. Flyway is included as a dependency in the pom.xml-file and Spring Boot automatically picks it up and configures it using the application DataSource.

Flyways out-of-order mode is enabled by default which allows migrations to be created in branches with concurrent development activity and hot fixes without running the risk of creating a series of migrations that cannot be applied because they have been created with an index/timestamp older than migrations already run against the database.

The recommended naming scheme for migration files is VyyyyMMddHHmm__Migration_short_description.sql, for example V201609232312__CounterTableInit.sql. Using timestamps in preference of indexes is recommended to avoid having to coordinate migration indexes across branches and developers.

For details, see:

HTTP Endpoint JSON serialization

The format for Dates in JSON responses has been set to com.fasterxml.jackson.databind.util.ISO8601DateFormat in preference of the default format which is just milliseconds since Epoch.

Management interface

The management interface is exposed on a seperate port (MANAGEMENT_HTTP_PORT) for security reasons. The main part of this is Spring Boot Actuator (with HATEOAS). Most of the endpoints are turned off by default. See the resources/application.yml file for more details.

A central component Marjory is deployed in the OpenShift cluster that aggregate the management interfaces for all applications and works as a proxy to the hidden management interface.

The standard management interface consist of the following urls

/info - Information

The /info endpoint is particularly relevant because it is used to collect and display information about the application. Some of that information is maintained and set in the application.yml file (everything under info.* is exposed as properties), and some is set via maven plugins;

  • the spring-boot-maven plugin has a build-info goal that is configured to run by default. This will goal will create a file META-INF/build-info.properties which includes information like build time, groupId and artifactId. This will be added to the info section by spring actuator. See Spring Boot Maven Plugin for details.
  • the git-commit-id-plugin will create a file git.properties which includes information like committer, commit id, tags, commit time etc from the commit currently being built. Spring actuator will add this information to the info section.

The info endpoint has a dependencies section that list the name of all the external dependencies and their static base URL. This information will be stored in a CMDB for cause analysis and to chart dependencies in Skatteetatens infrastructure.

The links part of the info endpoint show application specific links to other part of the internal infrastructure in Skatteeaten. The links contains some placeholders that are replaced marked with {} fences.

/health - Health status

The health endpoint is used to communicate to the platform the status of your application. This information is scraped by the aurora-console and used in the overall status of you application.

For more info see:

/env - Configuration

This endpoint prints out the given configuration for an application. Sensitive fields are masked using standard Spring Boot mechanisms.

/prometheus - Metrics

The reference application sets up metrics as described in the aurora-spring-boot-mvc-starter

For applications that are deployed to OpenShift, metrics exposed at /prometheus (default, configurable) in the format required by Prometheus will be automatically scraped.

Security

Management interface is exposed on a separate port that is not accessible outside of the cluster. This means that no information about metrics, env vars, health status is available to the the outside world.

Tomcat is the application server used in the standard spring boot starter web, it by default disables the TRACE endpoint closing another security issue.

All application calls between applications are secured with an application level token that is provided by a central authority.

Unit Testing with Spock

Unit testing has been set up and configured to use the Spock Framework with support for mocking classes and classes with non-default constructors. The gmavenplus-plugin and surefire-plugin are configured so that the tests will run in a standard maven build.

For details, see:

Documentation

For documentation, the Reference Application configured to use spring-rest-docs which is an approach to documentation that combines hand-written documentation with auto-generated snippets produced with Spring MVC Test. Please read the spring-rest-docs documentation for an overview of how the technology works.

The pom.xml is set up with the necessary plugins to build the documentation. This is basically including spring-rest-docs on the test classpath to generate snippets and configuring the asciidoctor-maven-plugin to process documentation in the src/main/asciidoc-folder and the output folder of the spring-rest-docs tests. The maven-resources-plugin is configured to include the generated documentation in /static/docs in the final jar which results in spring-boot exposing the files over HTTP on /docs (see Static Content from the spring-boot documentation for details).

A class, AbstractControllerTest, is included as an example base class for tests that use spring-rest-docs.

When working with the documentation it can be convenient to enable continuous rendering of the asciidoc source. This can be done by running the maven goal

./mvnw asciidoctor:auto-refresh

How an application is built

Application Configuration and Spring Profiles

The Reference Application is set up to work with two Spring configuration profiles one called local and one called openshift. The local profile is active by default (see the spring.profiles.active property in application.yml), and the intention is that this profile should be used when running the application locally during development, and the application should ideally be startable from the IDE without modifications after cloning it from Git.

In the metadata/openshift.json-file the jvmOpts property is set to -Dspring.profiles.active=openshift, which will disable the local profile and activate a profile called openshift (it could be called pretty much whatever, as long as it is something different from local). This allows you to have configuration that is active only when you develop locally, or only when you run the application from the Docker image (for instance on Openshift).

Obviously, this dual profile setup does not help if you need different configuration for different deployed instances of your application (for instance different environment/namespaces). Openshift supports many methods for applying configuration to Docker containers, and Aurora Openshift in particular has guidelines to how environment specific configuration should be done.

Build Configuration

This section relates to how the pom.xml file is set up to produce artifacts and reports. Some of this have already been covered in detail in other sections and will hence not be covered here again. In fact, most of the features of the Reference Application have one or more entires in the pom. This section covers what is not explicitly covered elsewhere.

Leveransepakke

The maven-assembly-plugin is configured to create a Leveransepakke compatible artifact from the build (basically just a .zip-file with all application jars). What is included in the file is configured in src/main/assembly/leveransepakke_descriptor.xml.

Note that the spring-boot-maven-plugin is configured to exclude the repackage goal (which is enabled by default). The repackage goal will create an "uberjar" that includes the application and all its dependencies instead of a jar file with only the application classes and resources. If this behaviour is not disabled all application dependencies will be included in the Leveransepakke twice; once in the application jar from the repackage goal, and once from the maven-assembly-plugin.

Versioning

The pom.xml is configured with the aurora-cd-plugin for versioning. aurora-cd, in turn, uses the aurora-git-version component. See aurora-git-version for details.

Maven does not allow plugins to change the version of the current build, so the plugin has to be triggered once before the actual "main" build is started. This is handled by Jenkins via the Jenkinsfile. See the Jenkinsfile in the root folder. The pipeline scripts will be opensource soon.

Code Analysis

Plugins for code analysis via Checkstyle, Sonar, Jacoco and PiTest are included in the pom. Checkstyle is configured with the default rule set for Skatteetaten. All code analysis is runn via the standard Jenkins pipeline scripts. See section on Jenkinsfile for more details.

Nexus IQ

Every application that is deployed into production in the Skatteetaten networks are required to run a security check via the Nexus IQ tool. A profile for performing this check is included in the pom, but you will need to acquire your own staging profile id.

Nexus IQ docs: https://help.sonatype.com/display/NXIQ)

Build Metadata for Docker Images

Build data for docker images is read from the docker part of the src/main/assembly/metadata/openshift.json-file.

  • maintainer will be set as the MAINTAINER instruction in the generated docker image
  • all the labels in the labels object will be added as LABEL instructions in the generated docker image

Development Tools

It is recommended to take a look at the productivity features of spring boot developer tools. See Developer Tools.

Developement tools are activated via a profile. In order to always activate the profile when building locally add the following to your ~/.m2/settings.xml

<...>
	<profile>
		<id>enable-devtools</id>
		<properties>
			<springBootDevtools>true</springBootDevtools>
		</properties>
	</profile>
</profiles>

<activeProfiles>
	<activeProfile>enable-devtools</activeProfile>
</activeProfiles>

In Jenkins this will be disabled so that all Leveransepakke that is built on Jenkins will not have devtools included. If you want to have jenkins in a snapshot build use the development flow and build it locally. Or conditionally add the devtools profile to the deploy goal in jenkins pipeline.

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Tailored Service Template for creating a Spring Boot application to run on Aurora Openshift

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