[[configuration-guide]]
= Configuration Guide
[partintro]
--
This section describes how you can create your own instance of the service and tune it for
your needs, and also how you can configure an existing instance. You'll also find some
advanced tips to make sure the available options are consistent with the chosen Spring
Boot generation.
--
[[create-instance]]
== Creating your own instance
Spring Initializr is split across three main modules:
* `initializr-generator`: standalone project generation library that can be reused in
many environments (including embedded in your own project)
* `initializr-web`: API endpoints and web interface
* `initializr-actuator`: optional module to provide statistics and metrics on project
generation
Because it contains several auto-configurations, creating your own instance is quite easy,
actually you could get started using Spring Initializr itself to generate a starting point!
Create a new project with the `web` dependency and add the following dependency:
[source,xml,indent=0,subs="verbatim,attributes"]
----
io.spring.initializr
initializr-web
{spring-initializr-version}
----
Or if you are using Gradle:
[source,groovy,indent=0,subs="verbatim,quotes,attributes"]
----
compile("io.spring.initializr:initializr-web:{spring-initializr-version}")
----
If you start the application, you'll see the familiar interface but none of the drop down
lists have values (except the one for the Spring Boot version, we will
<>). In the rest of this section,
we will configure those basic settings.
[TIP]
====
Most of the settings are configured via `application.properties` using the `initializr`
namespace. Because the configuration is highly hierarchical, we recommend using the yaml
format that is more readable for such structure. If you agree, go ahead and rename
`application.properties` to `application.yml`.
====
[[create-instance-basic-settings]]
=== Configuring basic settings
Most of the drop-down lists are configured via a simple list-based structure where each
entry has an `id`, a `name` and whether that entry is the default or not. If no `name` is
provided, the `id` is used instead.
Let's configure the languages and the Java versions we want to support:
[source,yaml,indent=0]
----
initializr:
javaVersions:
- id: 9
default: false
- id: 1.8
default: true
languages:
- name: Java
id: java
default: true
- name: Kotlin
id: kotlin
default: false
----
If you click on the "Switch to the full version" link, the two drop down lists now offer
the options and default values defined above.
Spring Initializr supports `java`, `groovy` and `kotlin` and additional languages can be
added in your own customization.
The available packagings are also configurable that way:
[source,yaml,indent=0]
----
initializr:
packagings:
- name: Jar
id: jar
default: true
- name: War
id: war
default: false
----
These two packaging types are the only one explicitly supported at the moment.
[[create-instance-boot-versions]]
=== Configuring available Spring Boot versions
If you look at http://projects.spring.io/spring-boot[the project home page for Spring
Boot], the latest versions are displayed. And you've probably noticed that they match the
drop down list that you automatically get with a default instance of the Initializr. The
reason for that is that Spring Initializr calls an API on spring.io to retrieve the
latest versions automatically. This makes sure that you always get the latest available
versions.
If that's not what you want, you need to override the `InitializrMetadataProvider` bean to
provide your own metadata for the service. For instance, you could swap to an
implementation that always returns the contents of your configuration file:
[source,java,indent=0]
----
@Bean
public InitializrMetadataProvider initializrMetadataProvider(
InitializrProperties properties) {
InitializrMetadata metadata = InitializrMetadataBuilder
.fromInitializrProperties(properties).build();
return new SimpleInitializrMetadataProvider(metadata);
}
----
The thing to remember is that, by default, you don't have to worry about upgrading your
instance when a new Spring Boot version is released. However, you may need to
<> to avoid requesting that
service too often.
[[create-instance-types]]
=== Configuring available project types
The available project types mostly define the structure of the generated project and its
build system. Once a project type is selected, the related action is invoked to generate
the project.
By default, Spring Initializr exposes the following resources (all accessed via HTTP GET):
* `/pom.xml` generate a Maven `pom.xml`
* `/build.gradle` generate a Gradle build
* `/starter.zip` generate a complete project structure archived in a zip
* `/starter.tgz` generate a complete project structure archived in a tgz
Each type also defines one or more *tags*, that is additional metadata entries to qualify
the entry. The following standard tags exist:
* `build`: the name of the build system to use (e.g. `maven`, `gradle`)
* `format`: the format of the project (e.g. `project` for a full project, `build` for just
a build file).
By default, the HTML UI filters all the available types to only display the ones that have
a `format` tag with value `project`.
You can of course implement additional endpoints that generate whatever project structure
you need but, for now, we'll simply configure our instance to generate a Gradle or a Maven
project:
[source,yaml,indent=0]
----
initializr:
types:
- name: Maven Project
id: maven-project
description: Generate a Maven based project archive
tags:
build: maven
format: project
default: true
action: /starter.zip
- name: Gradle Project
id: gradle-project
description: Generate a Gradle based project archive
tags:
build: gradle
format: project
default: false
action: /starter.zip
----
NOTE: If you intend to build a custom client against your service, you can add as many
tags as you want, and process them in the client in a way that makes sense for your users.
For instance, the spring boot CLI uses them as a shortcut to the full type id. So rather
than having to create a Gradle project as follows:
[indent=0,subs="verbatim,quotes,attributes"]
----
$ spring init --type=gradle-project my-project.zip
----
You can simply define a more convenient build parameter:
[indent=0,subs="verbatim,quotes,attributes"]
----
$ spring init --build=gradle my-project.zip
----
With that configuration, you should be able to generate your first project,
congratulations! Let's now add dependencies so that you can start searching for them.
[[create-instance-dependencies]]
=== Configuring dependencies
The most basic `dependency` is composed of:
* An `id` used in clients to refer to it
* The full maven coordinates of the dependency (`groupId` and `artifactId`)
* A display `name` (used in the UI and the search results)
* A `description` can (and should) be added to provide more information about the
dependency
Spring Initializr automatically considers that a dependency without maven coordinates
defines an official Spring Boot starter. In such a case, the `id` is used to infer the
`artifactId`.
For instance, the following configures the `spring-boot-starter-web` Starter:
[source,yaml,indent=0]
----
initializr:
dependencies:
- name: Web
content:
- name: Web
id: web
description: Full-stack web development with Tomcat and Spring MVC
----
Each dependency is contained in a _group_ that gathers dependencies sharing a common
surface area or any other form of grouping. In the example above, a `Web` group holds our
unique dependency. A group can also provide default values for various settings, see the
<> for more details.
In our `spring-boot-starter-web` example above, the dependency is _managed_ by Spring
Boot so there is no need to provide a `version` attribute for it. You'll surely need to
define additional dependencies that are not provided by Spring Boot and we strongly
recommend you to use a <>.
If no BOM is available you can specify a version directly:
[source,yaml,indent=0]
----
initializr:
dependencies:
- name: Tech
content:
- name: Acme
id: acme
groupId: com.example.acme
artifactId: acme
version: 1.2.0.RELEASE
description: A solid description for this dependency
----
If you add this configuration and search for "acme" (or "solid"), you'll find this extra
entry; generating a maven project with it should add the following to the pom
[source,xml,indent=0,subs="verbatim"]
----
com.example.acme
acme
1.2.0.RELEASE
----
The rest of this section will detail the other configuration options.
[[dependencies-version-range]]
==== Availability (version range)
[[dependencies-mappings]]
==== Map coordinates according to the Spring Boot version
[[dependencies-alias]]
==== Aliases
[[dependencies-repository]]
==== Repository
If the dependency is not available on Maven Central (or whatever default repository that
is configured on your end), you can also add a <>.
[[dependencies-facet]]
==== Facets
[[create-instance-dependencies-link]]
==== Links
[[create-instance-dependencies-search]]
==== Improve search results
Weight + keywords
[[create-instance-repositories]]
=== Configuring Repositories
[[create-instance-boms]]
=== Configuring Bill of Materials
[[configuration-howto]]
== '`How-to`' guides
This section provides answers to some common '`how do I do that...`' type of questions
that often arise when configuring Spring Initializr.
[[howto-add-a-new-checkbox]]
=== Add a new dependency checkbox
[[howto-override-a-version]]
=== Override the version of a dependency
[[howto-link-boot-version]]
=== Link a Boot version to a version of your dependency
[[howto-add-snapshot-repository]]
=== Configure a snapshot repository
[[howto-dependency-starter-flag]]
=== Make sure a regular dependency brings the base starter
[[howto-group-share-settings]]
=== Share common dependency settings in a group
[[create-instance-advanced-config]]
== Advanced configuration
[[create-instance-advanced-config-caching]]
=== Caching configuration
If you use the service, you'll notice that the logs have lots of entries with the message
`Fetching boot metadata from https://spring.io/project_metadata/spring-boot`. To avoid
checking for the latest Spring Boot versions too often, you should enable caching on your
service. Spring Initializr has some auto-configuration to apply the proper caches if you
are willing to use a JCache (JSR-107) implementation.
Add the `javax.cache:cache-api` and your favorite JCache implementation and simply enable
caching by adding `@EnableCaching` to your `@SpringBootApplication`. For instance, you
could use `ehcache` by adding the following:
[source,xml,indent=0,subs="verbatim,attributes"]
----
javax.cache
cache-api
org.ehcache
ehcache
----
Or if you are using Gradle:
[source,groovy,indent=0,subs="verbatim,quotes,attributes"]
----
compile("javax.cache:cache-api")
compile("org.ehcache:ehcache")
----
You'll notice that the log entry is much more rare. If you do not want to use JSR-107, you
should configure the cache yourselves. Here are the caches used by the application (each
one will require some configuration to get it working):
.Cache configuration
|===
| cache name | Description
|`initializr`
|Cache the full metadata of the service. When the metadata expires, it is fully resolved
again (including a check on spring.io for the latest Spring Boot versions). Adapt the
expiration settings accordingly.
|`project-resources`
|Cache resources that are used to generate projects.
|`dependency-metadata`
|Cache dependency-specific metadata.
|===