Spring Cloud Config provides server-side and client-side support for externalized configuration in a distributed system. With the Config Server, you have a central place to manage external properties for applications across all environments.
The concepts on both client and server map identically to the Spring Environment
and PropertySource
abstractions, so they fit very well with Spring applications but can be used with any application running in any language.
As an application moves through the deployment pipeline from dev to test and into production, you can manage the configuration between those environments and be certain that applications have everything they need to run when they migrate.
The default implementation of the server storage backend uses git, so it easily supports labelled versions of configuration environments as well as being accessible to a wide range of tooling for managing the content.
It is easy to add alternative implementations and plug them in with Spring configuration.
Spring Cloud Config Server offers the following benefits:
-
HTTP resource-based API for external configuration (name-value pairs or equivalent YAML content)
-
Encrypt and decrypt property values (symmetric or asymmetric)
-
Embeddable easily in a Spring Boot application using
@EnableConfigServer
Specifically for Spring applications, Spring Cloud Config Client lets you:
-
Bind to the Config Server and initialize Spring
Environment
with remote property sources. -
Encrypt and decrypt property values (symmetric or asymmetric).
-
@RefreshScope
for Spring@Beans
that want to be re-initialized when configuration changes. -
Use management endpoints:
-
/env
for updatingEnvironment
and rebinding@ConfigurationProperties
and log levels. -
/refresh
for refreshing the@RefreshScope
beans. -
/restart
for restarting the Spring context (disabled by default). -
/pause
and/resume
for calling theLifecycle
methods (stop()
andstart()
on theApplicationContext
).
-
-
Bootstrap application context: a parent context for the main application that can be trained to do anything (by default, it binds to the Config Server and decrypts property values).
This quick start walks through using both the server and the client of Spring Cloud Config Server.
First, start the server, as follows:
$ cd spring-cloud-config-server $ ../mvnw spring-boot:run
The server is a Spring Boot application, so you can run it from your IDE if you prefer to do so (the main class is ConfigServerApplication
).
Next try out a client, as follows:
$ curl localhost:8888/foo/development {"name":"foo","label":"master","propertySources":[ {"name":"https://github.com/scratches/config-repo/foo-development.properties","source":{"bar":"spam"}}, {"name":"https://github.com/scratches/config-repo/foo.properties","source":{"foo":"bar"}} ]}
The default strategy for locating property sources is to clone a git repository (at spring.cloud.config.server.git.uri
) and use it to initialize a mini SpringApplication
.
The mini-application’s Environment
is used to enumerate property sources and publish them at a JSON endpoint.
The HTTP service has resources in the following form:
/{application}/{profile}[/{label}] /{application}-{profile}.yml /{label}/{application}-{profile}.yml /{application}-{profile}.properties /{label}/{application}-{profile}.properties
where application
is injected as the spring.config.name
in the SpringApplication
(what is normally application
in a regular Spring Boot app), profile
is an active profile (or comma-separated list of properties), and label
is an optional git label (defaults to master
.)
Spring Cloud Config Server pulls configuration for remote clients from a git repository (which must be provided), as shown in the following example:
spring:
cloud:
config:
server:
git:
uri: https://github.com/spring-cloud-samples/config-repo
To use these features in an application, you can build it as a Spring Boot application that depends on spring-cloud-config-client (for an example, see the test cases for the config-client or the sample application).
The most convenient way to add the dependency is with a Spring Boot starter org.springframework.cloud:spring-cloud-starter-config
.
There is also a parent pom and BOM (spring-cloud-starter-parent
) for Maven users and a Spring IO version management properties file for Gradle and Spring CLI users. The following example shows a typical Maven configuration:
<parent>
<groupId>org.springframework.boot</groupId>
<artifactId>spring-boot-starter-parent</artifactId>
<version>{spring-boot-docs-version}</version>
<relativePath /> <!-- lookup parent from repository -->
</parent>
<dependencyManagement>
<dependencies>
<dependency>
<groupId>org.springframework.cloud</groupId>
<artifactId>spring-cloud-dependencies</artifactId>
<version>{spring-cloud-version}</version>
<type>pom</type>
<scope>import</scope>
</dependency>
</dependencies>
</dependencyManagement>
<dependencies>
<dependency>
<groupId>org.springframework.cloud</groupId>
<artifactId>spring-cloud-starter-config</artifactId>
</dependency>
<dependency>
<groupId>org.springframework.boot</groupId>
<artifactId>spring-boot-starter-test</artifactId>
<scope>test</scope>
</dependency>
</dependencies>
<build>
<plugins>
<plugin>
<groupId>org.springframework.boot</groupId>
<artifactId>spring-boot-maven-plugin</artifactId>
</plugin>
</plugins>
</build>
<!-- repositories also needed for snapshots and milestones -->
Now you can create a standard Spring Boot application, such as the following HTTP server:
@SpringBootApplication @RestController public class Application { @RequestMapping("/") public String home() { return "Hello World!"; } public static void main(String[] args) { SpringApplication.run(Application.class, args); } }
When this HTTP server runs, it picks up the external configuration from the default local config server (if it is running) on port 8888.
To modify the startup behavior, you can change the location of the config server by using bootstrap.properties
(similar to application.properties
but for the bootstrap phase of an application context), as shown in the following example:
spring.cloud.config.uri: http://myconfigserver.com
By default, if no application name is set, application
will be used. To modify the name, the following property can be added to the bootstrap.properties
file:
spring.application.name: myapp
Note
|
When setting the property ${spring.application.name} do not prefix your app name with the reserved word application- to prevent issues resolving the correct property source.
|
The bootstrap properties show up in the /env
endpoint as a high-priority property source, as shown in the following example.
$ curl localhost:8080/env { "profiles":[], "configService:https://github.com/spring-cloud-samples/config-repo/bar.properties":{"foo":"bar"}, "servletContextInitParams":{}, "systemProperties":{...}, ... }
A property source called ``configService:<URL of remote repository>/<file name>
contains the foo
property with a value of bar
and is highest priority.
Note
|
The URL in the property source name is the git repository, not the config server URL. |
You can find a sample application here.
It is a Spring Boot application, so you can run it by using the usual mechanisms (for instance, mvn spring-boot:run
).
When it runs, it looks for the config server on http://localhost:8888
(a configurable default), so you can run the server as well to see it all working together.
The sample has a test case where the config server is also started in the same JVM (with a different port), and the test asserts that an
environment property from the git configuration repo is present.
To change the location of the config server, you can set spring.cloud.config.uri
in bootstrap.yml
(or in system properties and other places).
The test case has a main()
method that runs the server in the same way (watch the logs for its port), so you can run the whole system in one process and play with it (for example, you can run the main()
method in your IDE).
The main()
method uses target/config
for the working directory of the git repository, so you can make local changes there and see them reflected in the running app. The following example shows a session of tinkering with the test case:
$ curl localhost:8080/env/sample mytest $ vi target/config/mytest.properties .. change value of "sample", optionally commit $ curl localhost:8080/refresh ["sample"] $ curl localhost:8080/env/sample sampleValue
The refresh endpoint reports that the "sample" property changed.
To build the source you will need to install JDK 1.7.
Spring Cloud uses Maven for most build-related activities, and you should be able to get off the ground quite quickly by cloning the project you are interested in and typing
$ ./mvnw install
Note
|
You can also install Maven (>=3.3.3) yourself and run the mvn command
in place of ./mvnw in the examples below. If you do that you also
might need to add -P spring if your local Maven settings do not
contain repository declarations for spring pre-release artifacts.
|
Note
|
Be aware that you might need to increase the amount of memory
available to Maven by setting a MAVEN_OPTS environment variable with
a value like -Xmx512m -XX:MaxPermSize=128m . We try to cover this in
the .mvn configuration, so if you find you have to do it to make a
build succeed, please raise a ticket to get the settings added to
source control.
|
For hints on how to build the project look in .travis.yml
if there
is one. There should be a "script" and maybe "install" command. Also
look at the "services" section to see if any services need to be
running locally (e.g. mongo or rabbit). Ignore the git-related bits
that you might find in "before_install" since they’re related to setting git
credentials and you already have those.
The projects that require middleware generally include a
docker-compose.yml
, so consider using
Docker Compose to run the middeware servers
in Docker containers. See the README in the
scripts demo
repository for specific instructions about the common cases of mongo,
rabbit and redis.
Note
|
If all else fails, build with the command from .travis.yml (usually
./mvnw install ).
|
The spring-cloud-build module has a "docs" profile, and if you switch
that on it will try to build asciidoc sources from
src/main/asciidoc
. As part of that process it will look for a
README.adoc
and process it by loading all the includes, but not
parsing or rendering it, just copying it to ${main.basedir}
(defaults to ${basedir}
, i.e. the root of the project). If there are
any changes in the README it will then show up after a Maven build as
a modified file in the correct place. Just commit it and push the change.
If you don’t have an IDE preference we would recommend that you use Spring Tools Suite or Eclipse when working with the code. We use the m2eclipse eclipse plugin for maven support. Other IDEs and tools should also work without issue as long as they use Maven 3.3.3 or better.
We recommend the m2eclipse eclipse plugin when working with eclipse. If you don’t already have m2eclipse installed it is available from the "eclipse marketplace".
Note
|
Older versions of m2e do not support Maven 3.3, so once the
projects are imported into Eclipse you will also need to tell
m2eclipse to use the right profile for the projects. If you
see many different errors related to the POMs in the projects, check
that you have an up to date installation. If you can’t upgrade m2e,
add the "spring" profile to your settings.xml . Alternatively you can
copy the repository settings from the "spring" profile of the parent
pom into your settings.xml .
|
If you get an exception due to "Illegal key size" and you are using Sun’s JDK, you need to install the Java Cryptography Extension (JCE) Unlimited Strength Jurisdiction Policy Files. See the following links for more information:
Extract the JCE files into the JDK/jre/lib/security
folder for whichever version of JRE/JDK x64/x86 you use.
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.
-
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.
-
A few unit tests would help a lot as well — someone has to do it.
-
If no-one else is using your branch, please rebase it against the current master (or other target branch in the main project).
-
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).