3.0.0
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.
Quick Start
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 various sources. The following example gets configuration 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
Other sources are any JDBC compatible database, Subversion, Hashicorp Vault, Credhub and local filesystems.
Client Side Usage
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 application.properties
as shown in the following example:
spring.config.import=optional:configserver: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 application.properties
file:
spring.application.name: myapp
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 Config Server properties show up in the /env
endpoint as a high-priority property source, as shown in the following example.
$ curl localhost:8080/env { "activeProfiles": [], { "name": "servletContextInitParams", "properties": {} }, { "name": "configserver:https://github.com/spring-cloud-samples/config-repo/foo.properties", "properties": { "foo": { "value": "bar", "origin": "Config Server https://github.com/spring-cloud-samples/config-repo/foo.properties:2:12" } } }, ... }
A property source called configserver:<URL of remote repository>/<file name>
contains the foo
property with a value of bar
.
The URL in the property source name is the git repository, not the config server URL. |
Spring Cloud Config Server
Spring Cloud Config Server provides an HTTP resource-based API for external configuration (name-value pairs or equivalent YAML content).
The server is embeddable in a Spring Boot application, by using the @EnableConfigServer
annotation.
Consequently, the following application is a config server:
@SpringBootApplication
@EnableConfigServer
public class ConfigServer {
public static void main(String[] args) {
SpringApplication.run(ConfigServer.class, args);
}
}
Like all Spring Boot applications, it runs on port 8080 by default, but you can switch it to the more conventional port 8888 in various ways.
The easiest, which also sets a default configuration repository, is by launching it with spring.config.name=configserver
(there is a configserver.yml
in the Config Server jar).
Another is to use your own application.properties
, as shown in the following example:
server.port: 8888
spring.cloud.config.server.git.uri: file://${user.home}/config-repo
where ${user.home}/config-repo
is a git repository containing YAML and properties files.
On Windows, you need an extra "/" in the file URL if it is absolute with a drive prefix (for example,file:///${user.home}/config-repo ).
|
The following listing shows a recipe for creating the git repository in the preceding example: $ cd $HOME $ mkdir config-repo $ cd config-repo $ git init . $ echo info.foo: bar > application.properties $ git add -A . $ git commit -m "Add application.properties" |
Using the local filesystem for your git repository is intended for testing only. You should use a server to host your configuration repositories in production. |
The initial clone of your configuration repository can be quick and efficient if you keep only text files in it. If you store binary files, especially large ones, you may experience delays on the first request for configuration or encounter out of memory errors in the server. |
Environment Repository
Where should you store the configuration data for the Config Server?
The strategy that governs this behaviour is the EnvironmentRepository
, serving Environment
objects.
This Environment
is a shallow copy of the domain from the Spring Environment
(including propertySources
as the main feature).
The Environment
resources are parametrized by three variables:
-
{application}
, which maps tospring.application.name
on the client side. -
{profile}
, which maps tospring.profiles.active
on the client (comma-separated list). -
{label}
, which is a server side feature labelling a "versioned" set of config files.
Repository implementations generally behave like a Spring Boot application, loading configuration files from a spring.config.name
equal to the {application}
parameter, and spring.profiles.active
equal to the {profiles}
parameter.
Precedence rules for profiles are also the same as in a regular Spring Boot application: Active profiles take precedence over defaults, and, if there are multiple profiles, the last one wins (similar to adding entries to a Map
).
The following sample client application has this bootstrap configuration:
spring:
application:
name: foo
profiles:
active: dev,mysql
(As usual with a Spring Boot application, these properties could also be set by environment variables or command line arguments).
If the repository is file-based, the server creates an
Environment
from application.yml
(shared between all clients) and
foo.yml
(with foo.yml
taking precedence).
If the YAML files have documents inside them that point to Spring profiles, those are applied with higher precedence (in order of the profiles listed).
If there are profile-specific YAML (or properties) files, these are also applied with higher precedence than the defaults.
Higher precedence translates to a PropertySource
listed earlier in the Environment
.
(These same rules apply in a standalone Spring Boot application.)
You can set spring.cloud.config.server.accept-empty to false so that Server would return a HTTP 404 status, if the application is not found.By default, this flag is set to true.
Git Backend
The default implementation of EnvironmentRepository
uses a Git backend, which is very convenient for managing upgrades and physical environments and for auditing changes.
To change the location of the repository, you can set the spring.cloud.config.server.git.uri
configuration property in the Config Server (for example in application.yml
).
If you set it with a file:
prefix, it should work from a local repository so that you can get started quickly and easily without a server. However, in that case, the server operates directly on the local repository without cloning it (it does not matter if it is not bare because the Config Server never makes changes to the "remote" repository).
To scale the Config Server up and make it highly available, you need to have all instances of the server pointing to the same repository, so only a shared file system would work.
Even in that case, it is better to use the ssh:
protocol for a shared filesystem repository, so that the server can clone it and use a local working copy as a cache.
This repository implementation maps the {label}
parameter of the HTTP resource to a git label (commit id, branch name, or tag).
If the git branch or tag name contains a slash (/
), then the label in the HTTP URL should instead be specified with the special string (_)
(to avoid ambiguity with other URL paths).
For example, if the label is foo/bar
, replacing the slash would result in the following label: foo(_)bar
.
The inclusion of the special string (_)
can also be applied to the {application}
parameter.
If you use a command-line client such as curl, be careful with the brackets in the URL — you should escape them from the shell with single quotes ('').
Skipping SSL Certificate Validation
The configuration server’s validation of the Git server’s SSL certificate can be disabled by setting the git.skipSslValidation
property to true
(default is false
).
spring:
cloud:
config:
server:
git:
uri: https://example.com/my/repo
skipSslValidation: true
Setting HTTP Connection Timeout
You can configure the time, in seconds, that the configuration server will wait to acquire an HTTP connection. Use the git.timeout
property.
spring:
cloud:
config:
server:
git:
uri: https://example.com/my/repo
timeout: 4
Placeholders in Git URI
Spring Cloud Config Server supports a git repository URL with placeholders for the {application}
and {profile}
(and {label}
if you need it, but remember that the label is applied as a git label anyway).
So you can support a “one repository per application” policy by using a structure similar to the following:
spring:
cloud:
config:
server:
git:
uri: https://github.com/myorg/{application}
You can also support a “one repository per profile” policy by using a similar pattern but with
{profile}
.
Additionally, using the special string "(_)" within your {application}
parameters can enable support for multiple
organizations, as shown in the following example:
spring:
cloud:
config:
server:
git:
uri: https://github.com/{application}
where {application}
is provided at request time in the following format: organization(_)application
.
Pattern Matching and Multiple Repositories
Spring Cloud Config also includes support for more complex requirements with pattern
matching on the application and profile name.
The pattern format is a comma-separated list of {application}/{profile}
names with wildcards (note that a pattern beginning with a wildcard may need to be quoted), as shown in the following example:
spring:
cloud:
config:
server:
git:
uri: https://github.com/spring-cloud-samples/config-repo
repos:
simple: https://github.com/simple/config-repo
special:
pattern: special*/dev*,*special*/dev*
uri: https://github.com/special/config-repo
local:
pattern: local*
uri: file:/home/configsvc/config-repo
If {application}/{profile}
does not match any of the patterns, it uses the default URI defined under spring.cloud.config.server.git.uri
.
In the above example, for the “simple” repository, the pattern is simple/*
(it only matches one application named simple
in all profiles). The “local” repository matches all application names beginning with local
in all profiles (the /*
suffix is added automatically to any pattern that does not have a profile matcher).
The “one-liner” short cut used in the “simple” example can be used only if the only property to be set is the URI. If you need to set anything else (credentials, pattern, and so on) you need to use the full form. |
The pattern
property in the repo is actually an array, so you can use a YAML array (or [0]
, [1]
, etc. suffixes in properties files) to bind to multiple patterns.
You may need to do so if you are going to run apps with multiple profiles, as shown in the following example:
spring:
cloud:
config:
server:
git:
uri: https://github.com/spring-cloud-samples/config-repo
repos:
development:
pattern:
- '*/development'
- '*/staging'
uri: https://github.com/development/config-repo
staging:
pattern:
- '*/qa'
- '*/production'
uri: https://github.com/staging/config-repo
Spring Cloud guesses that a pattern containing a profile that does not end in * implies that you actually want to match a list of profiles starting with this pattern (so */staging is a shortcut for ["*/staging", "*/staging,*"] , and so on).
This is common where, for instance, you need to run applications in the “development” profile locally but also the “cloud” profile remotely.
|
Every repository can also optionally store config files in sub-directories, and patterns to search for those directories can be specified as searchPaths
.
The following example shows a config file at the top level:
spring:
cloud:
config:
server:
git:
uri: https://github.com/spring-cloud-samples/config-repo
searchPaths: foo,bar*
In the preceding example, the server searches for config files in the top level and in the foo/
sub-directory and also any sub-directory whose name begins with bar
.
By default, the server clones remote repositories when configuration is first requested. The server can be configured to clone the repositories at startup, as shown in the following top-level example:
spring:
cloud:
config:
server:
git:
uri: https://git/common/config-repo.git
repos:
team-a:
pattern: team-a-*
cloneOnStart: true
uri: https://git/team-a/config-repo.git
team-b:
pattern: team-b-*
cloneOnStart: false
uri: https://git/team-b/config-repo.git
team-c:
pattern: team-c-*
uri: https://git/team-a/config-repo.git
In the preceding example, the server clones team-a’s config-repo on startup, before it accepts any requests. All other repositories are not cloned until configuration from the repository is requested.
Setting a repository to be cloned when the Config Server starts up can help to identify a misconfigured configuration source (such as an invalid repository URI) quickly, while the Config Server is starting up.
With cloneOnStart not enabled for a configuration source, the Config Server may start successfully with a misconfigured or invalid configuration source and not detect an error until an application requests configuration from that configuration source.
|
Authentication
To use HTTP basic authentication on the remote repository, add the username
and password
properties separately (not in the URL), as shown in the following example:
spring:
cloud:
config:
server:
git:
uri: https://github.com/spring-cloud-samples/config-repo
username: trolley
password: strongpassword
If you do not use HTTPS and user credentials, SSH should also work out of the box when you store keys in the default directories (~/.ssh
) and the URI points to an SSH location, such as [email protected]:configuration/cloud-configuration
.
It is important that an entry for the Git server be present in the ~/.ssh/known_hosts
file and that it is in ssh-rsa
format.
Other formats (such as ecdsa-sha2-nistp256
) are not supported.
To avoid surprises, you should ensure that only one entry is present in the known_hosts
file for the Git server and that it matches the URL you provided to the config server.
If you use a hostname in the URL, you want to have exactly that (not the IP) in the known_hosts
file.
The repository is accessed by using JGit, so any documentation you find on that should be applicable.
HTTPS proxy settings can be set in ~/.git/config
or (in the same way as for any other JVM process) with
system properties (-Dhttps.proxyHost
and -Dhttps.proxyPort
).
If you do not know where your ~/.git directory is, use git config --global to manipulate the settings (for example, git config --global http.sslVerify false ).
|
JGit requires RSA keys in PEM format. Below is an example ssh-keygen (from openssh) command that will generate a key in the corect format:
ssh-keygen -m PEM -t rsa -b 4096 -f ~/config_server_deploy_key.rsa
Warning: When working with SSH keys, the expected ssh private-key must begin with
. If the key starts with -----BEGIN RSA PRIVATE KEY-----
then the RSA key will not load when spring-cloud-config server is started. The error looks like:-----BEGIN OPENSSH PRIVATE KEY-----
- Error in object 'spring.cloud.config.server.git': codes [PrivateKeyIsValid.spring.cloud.config.server.git,PrivateKeyIsValid]; arguments [org.springframework.context.support.DefaultMessageSourceResolvable: codes [spring.cloud.config.server.git.,]; arguments []; default message []]; default message [Property 'spring.cloud.config.server.git.privateKey' is not a valid private key]
To correct the above error the RSA key must be converted to PEM format. An example using openssh is provided above for generating a new key in the appropriate format.
Authentication with AWS CodeCommit
Spring Cloud Config Server also supports AWS CodeCommit authentication. AWS CodeCommit uses an authentication helper when using Git from the command line. This helper is not used with the JGit library, so a JGit CredentialProvider for AWS CodeCommit is created if the Git URI matches the AWS CodeCommit pattern. AWS CodeCommit URIs follow this pattern://git-codecommit.${AWS_REGION}.amazonaws.com/${repopath}.
If you provide a username and password with an AWS CodeCommit URI, they must be the AWS accessKeyId and secretAccessKey that provide access to the repository. If you do not specify a username and password, the accessKeyId and secretAccessKey are retrieved by using the AWS Default Credential Provider Chain.
If your Git URI matches the CodeCommit URI pattern (shown earlier), you must provide valid AWS credentials in the username and password or in one of the locations supported by the default credential provider chain. AWS EC2 instances may use IAM Roles for EC2 Instances.
The aws-java-sdk-core jar is an optional dependency.
If the aws-java-sdk-core jar is not on your classpath, the AWS Code Commit credential provider is not created, regardless of the git server URI.
|
Authentication with Google Cloud Source
Spring Cloud Config Server also supports authenticating against Google Cloud Source repositories.
If your Git URI uses the http
or https
protocol and the domain name is source.developers.google.com
, the Google Cloud Source credentials provider will be used. A Google Cloud Source repository URI has the format https://source.developers.google.com/p/${GCP_PROJECT}/r/${REPO}
. To obtain the URI for your repository, click on "Clone" in the Google Cloud Source UI, and select "Manually generated credentials". Do not generate any credentials, simply copy the displayed URI.
The Google Cloud Source credentials provider will use Google Cloud Platform application default credentials. See Google Cloud SDK documentation on how to create application default credentials for a system. This approach will work for user accounts in dev environments and for service accounts in production environments.
com.google.auth:google-auth-library-oauth2-http is an optional dependency.
If the google-auth-library-oauth2-http jar is not on your classpath, the Google Cloud Source credential provider is not created, regardless of the git server URI.
|
Git SSH configuration using properties
By default, the JGit library used by Spring Cloud Config Server uses SSH configuration files such as ~/.ssh/known_hosts
and /etc/ssh/ssh_config
when connecting to Git repositories by using an SSH URI.
In cloud environments such as Cloud Foundry, the local filesystem may be ephemeral or not easily accessible.
For those cases, SSH configuration can be set by using Java properties.
In order to activate property-based SSH configuration, the spring.cloud.config.server.git.ignoreLocalSshSettings
property must be set to true
, as shown in the following example:
spring:
cloud:
config:
server:
git:
uri: [email protected]:team/repo1.git
ignoreLocalSshSettings: true
hostKey: someHostKey
hostKeyAlgorithm: ssh-rsa
privateKey: |
-----BEGIN RSA PRIVATE KEY-----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-----END RSA PRIVATE KEY-----
The following table describes the SSH configuration properties.
Property Name | Remarks |
---|---|
ignoreLocalSshSettings |
If |
privateKey |
Valid SSH private key. Must be set if |
hostKey |
Valid SSH host key. Must be set if |
hostKeyAlgorithm |
One of |
strictHostKeyChecking |
|
knownHostsFile |
Location of custom |
preferredAuthentications |
Override server authentication method order. This should allow for evading login prompts if server has keyboard-interactive authentication before the |
Placeholders in Git Search Paths
Spring Cloud Config Server also supports a search path with placeholders for the {application}
and {profile}
(and {label}
if
you need it), as shown in the following example:
spring:
cloud:
config:
server:
git:
uri: https://github.com/spring-cloud-samples/config-repo
searchPaths: '{application}'
The preceding listing causes a search of the repository for files in the same name as the directory (as well as the top level). Wildcards are also valid in a search path with placeholders (any matching directory is included in the search).
Force pull in Git Repositories
As mentioned earlier, Spring Cloud Config Server makes a clone of the remote git repository in case the local copy gets dirty (for example, folder content changes by an OS process) such that Spring Cloud Config Server cannot update the local copy from remote repository.
To solve this issue, there is a force-pull
property that makes Spring Cloud Config Server force pull from the remote repository if the local copy is dirty, as shown in the following example:
spring:
cloud:
config:
server:
git:
uri: https://github.com/spring-cloud-samples/config-repo
force-pull: true
If you have a multiple-repositories configuration, you can configure the force-pull
property per repository, as shown in the following example:
spring:
cloud:
config:
server:
git:
uri: https://git/common/config-repo.git
force-pull: true
repos:
team-a:
pattern: team-a-*
uri: https://git/team-a/config-repo.git
force-pull: true
team-b:
pattern: team-b-*
uri: https://git/team-b/config-repo.git
force-pull: true
team-c:
pattern: team-c-*
uri: https://git/team-a/config-repo.git
The default value for force-pull property is false .
|
Deleting untracked branches in Git Repositories
As Spring Cloud Config Server has a clone of the remote git repository
after check-outing branch to local repo (e.g fetching properties by label) it will keep this branch
forever or till the next server restart (which creates new local repo).
So there could be a case when remote branch is deleted but local copy of it is still available for fetching.
And if Spring Cloud Config Server client service starts with --spring.cloud.config.label=deletedRemoteBranch,master
it will fetch properties from deletedRemoteBranch
local branch, but not from master
.
In order to keep local repository branches clean and up to remote - deleteUntrackedBranches
property could be set.
It will make Spring Cloud Config Server force delete untracked branches from local repository.
Example:
spring:
cloud:
config:
server:
git:
uri: https://github.com/spring-cloud-samples/config-repo
deleteUntrackedBranches: true
The default value for deleteUntrackedBranches property is false .
|
Git Refresh Rate
You can control how often the config server will fetch updated configuration data
from your Git backend by using spring.cloud.config.server.git.refreshRate
. The
value of this property is specified in seconds. By default the value is 0, meaning
the config server will fetch updated configuration from the Git repo every time it
is requested.
Version Control Backend Filesystem Use
With VCS-based backends (git, svn), files are checked out or cloned to the local filesystem.
By default, they are put in the system temporary directory with a prefix of config-repo- .
On linux, for example, it could be /tmp/config-repo-<randomid> .
Some operating systems routinely clean out temporary directories.
This can lead to unexpected behavior, such as missing properties.
To avoid this problem, change the directory that Config Server uses by setting spring.cloud.config.server.git.basedir or spring.cloud.config.server.svn.basedir to a directory that does not reside in the system temp structure.
|
File System Backend
There is also a “native” profile in the Config Server that does not use Git but loads the config files from the local classpath or file system (any static URL you want to point to with spring.cloud.config.server.native.searchLocations
).
To use the native profile, launch the Config Server with spring.profiles.active=native
.
Remember to use the file: prefix for file resources (the default without a prefix is usually the classpath).
As with any Spring Boot configuration, you can embed ${} -style environment placeholders, but remember that absolute paths in Windows require an extra / (for example, file:///${user.home}/config-repo ).
|
The default value of the searchLocations is identical to a local Spring Boot application (that is, [classpath:/, classpath:/config,
file:./, file:./config] ).
This does not expose the application.properties from the server to all clients, because any property sources present in the server are removed before being sent to the client.
|
A filesystem backend is great for getting started quickly and for testing. To use it in production, you need to be sure that the file system is reliable and shared across all instances of the Config Server. |
The search locations can contain placeholders for {application}
, {profile}
, and {label}
.
In this way, you can segregate the directories in the path and choose a strategy that makes sense for you (such as subdirectory per application or subdirectory per profile).
If you do not use placeholders in the search locations, this repository also appends the {label}
parameter of the HTTP resource to a suffix on the search path, so properties files are loaded from each search location and a subdirectory with the same name as the label (the labelled properties take precedence in the Spring Environment).
Thus, the default behaviour with no placeholders is the same as adding a search location ending with /{label}/
.
For example, file:/tmp/config
is the same as file:/tmp/config,file:/tmp/config/{label}
.
This behavior can be disabled by setting spring.cloud.config.server.native.addLabelLocations=false
.
Vault Backend
Spring Cloud Config Server also supports Vault as a backend.
For more information on Vault, see the Vault quick start guide.
To enable the config server to use a Vault backend, you can run your config server with the vault
profile.
For example, in your config server’s application.properties
, you can add spring.profiles.active=vault
.
By default, the config server assumes that your Vault server runs at http://127.0.0.1:8200
.
It also assumes that the name of backend is secret
and the key is application
.
All of these defaults can be configured in your config server’s application.properties
.
The following table describes configurable Vault properties:
Name | Default Value |
---|---|
host |
127.0.0.1 |
port |
8200 |
scheme |
http |
backend |
secret |
defaultKey |
application |
profileSeparator |
, |
kvVersion |
1 |
skipSslValidation |
false |
timeout |
5 |
namespace |
null |
All of the properties in the preceding table must be prefixed with spring.cloud.config.server.vault or placed in the correct Vault section of a composite configuration.
|
All configurable properties can be found in org.springframework.cloud.config.server.environment.VaultEnvironmentProperties
.
Vault 0.10.0 introduced a versioned key-value backend (k/v backend version 2) that exposes a different API than earlier versions, it now requires a data/ between the mount path and the actual context path and wraps secrets in a data object. Setting spring.cloud.config.server.vault.kv-version=2 will take this into account.
|
Optionally, there is support for the Vault Enterprise X-Vault-Namespace
header. To have it sent to Vault set the namespace
property.
With your config server running, you can make HTTP requests to the server to retrieve values from the Vault backend. To do so, you need a token for your Vault server.
First, place some data in you Vault, as shown in the following example:
$ vault kv put secret/application foo=bar baz=bam
$ vault kv put secret/myapp foo=myappsbar
Second, make an HTTP request to your config server to retrieve the values, as shown in the following example:
$ curl -X "GET" "http://localhost:8888/myapp/default" -H "X-Config-Token: yourtoken"
You should see a response similar to the following:
{
"name":"myapp",
"profiles":[
"default"
],
"label":null,
"version":null,
"state":null,
"propertySources":[
{
"name":"vault:myapp",
"source":{
"foo":"myappsbar"
}
},
{
"name":"vault:application",
"source":{
"baz":"bam",
"foo":"bar"
}
}
]
}
The default way for a client to provide the necessary authentication to let Config Server talk to Vault is to set the X-Config-Token header.
However, you can instead omit the header and configure the authentication in the server, by setting the same configuration properties as Spring Cloud Vault.
The property to set is spring.cloud.config.server.vault.authentication
.
It should be set to one of the supported authentication methods.
You may also need to set other properties specific to the authentication method you use, by using the same property names as documented for spring.cloud.vault
but instead using the spring.cloud.config.server.vault
prefix.
See the Spring Cloud Vault Reference Guide for more detail.
If you omit the X-Config-Token header and use a server property to set the authentication, the Config Server application needs an additional dependency on Spring Vault to enable the additional authentication options. See the Spring Vault Reference Guide for how to add that dependency. |
Multiple Properties Sources
When using Vault, you can provide your applications with multiple properties sources. For example, assume you have written data to the following paths in Vault:
secret/myApp,dev
secret/myApp
secret/application,dev
secret/application
Properties written to secret/application
are available to all applications using the Config Server.
An application with the name, myApp
, would have any properties written to secret/myApp
and secret/application
available to it.
When myApp
has the dev
profile enabled, properties written to all of the above paths would be available to it, with properties in the first path in the list taking priority over the others.
Accessing Backends Through a Proxy
The configuration server can access a Git or Vault backend through an HTTP or HTTPS proxy. This behavior is controlled for either Git or Vault by settings under proxy.http
and proxy.https
. These settings are per repository, so if you are using a composite environment repository you must configure proxy settings for each backend in the composite individually. If using a network which requires separate proxy servers for HTTP and HTTPS URLs, you can configure both the HTTP and the HTTPS proxy settings for a single backend.
The following table describes the proxy configuration properties for both HTTP and HTTPS proxies. All of these properties must be prefixed by proxy.http
or proxy.https
.
Property Name | Remarks |
---|---|
host |
The host of the proxy. |
port |
The port with which to access the proxy. |
nonProxyHosts |
Any hosts which the configuration server should access outside the proxy. If values are provided for both |
username |
The username with which to authenticate to the proxy. If values are provided for both |
password |
The password with which to authenticate to the proxy. If values are provided for both |
The following configuration uses an HTTPS proxy to access a Git repository.
spring:
profiles:
active: git
cloud:
config:
server:
git:
uri: https://github.com/spring-cloud-samples/config-repo
proxy:
https:
host: my-proxy.host.io
password: myproxypassword
port: '3128'
username: myproxyusername
nonProxyHosts: example.com
Sharing Configuration With All Applications
Sharing configuration between all applications varies according to which approach you take, as described in the following topics:
File Based Repositories
With file-based (git, svn, and native) repositories, resources with file names in application*
(application.properties
, application.yml
, application-*.properties
, and so on) are shared between all client applications.
You can use resources with these file names to configure global defaults and have them be overridden by application-specific files as necessary.
The property overrides feature can also be used for setting global defaults, with placeholders applications allowed to override them locally.
With the “native” profile (a local file system backend) , you should use an explicit search location that is not part of the server’s own configuration.
Otherwise, the application* resources in the default search locations get removed because they are part of the server.
|
Vault Server
When using Vault as a backend, you can share configuration with all applications by placing configuration in secret/application
.
For example, if you run the following Vault command, all applications using the config server will have the properties foo
and baz
available to them:
$ vault write secret/application foo=bar baz=bam
CredHub Server
When using CredHub as a backend, you can share configuration with all applications by placing configuration in /application/
or by placing it in the default
profile for the application.
For example, if you run the following CredHub command, all applications using the config server will have the properties shared.color1
and shared.color2
available to them:
credhub set --name "/application/profile/master/shared" --type=json
value: {"shared.color1": "blue", "shared.color": "red"}
credhub set --name "/my-app/default/master/more-shared" --type=json
value: {"shared.word1": "hello", "shared.word2": "world"}
JDBC Backend
Spring Cloud Config Server supports JDBC (relational database) as a backend for configuration properties.
You can enable this feature by adding spring-jdbc
to the classpath and using the jdbc
profile or by adding a bean of type JdbcEnvironmentRepository
.
If you include the right dependencies on the classpath (see the user guide for more details on that), Spring Boot configures a data source.
You can disable autoconfiguration for JdbcEnvironmentRepository
by setting the spring.cloud.config.server.jdbc.enabled
property to false
.
The database needs to have a table called PROPERTIES
with columns called APPLICATION
, PROFILE
, and LABEL
(with the usual Environment
meaning), plus KEY
and VALUE
for the key and value pairs in Properties
style.
All fields are of type String in Java, so you can make them VARCHAR
of whatever length you need.
Property values behave in the same way as they would if they came from Spring Boot properties files named {application}-{profile}.properties
, including all the encryption and decryption, which will be applied as post-processing steps (that is, not in the repository implementation directly).
Redis Backend
Spring Cloud Config Server supports Redis as a backend for configuration properties. You can enable this feature by adding a dependency to Spring Data Redis.
<dependencies>
<dependency>
<groupId>org.springframework.boot</groupId>
<artifactId>spring-boot-starter-data-redis</artifactId>
</dependency>
</dependencies>
The following configuration uses Spring Data RedisTemplate
to access a Redis. We can use spring.redis.*
properties to override default connection settings.
spring:
profiles:
active: redis
redis:
host: redis
port: 16379
The properties should be stored as fields in a hash. The name of hash should be the same as spring.application.name
property or conjunction of spring.application.name
and spring.profiles.active[n]
.
HMSET sample-app server.port "8100" sample.topic.name "test" test.property1 "property1"
After running the command visible above a hash should contain the following keys with values:
HGETALL sample-app { "server.port": "8100", "sample.topic.name": "test", "test.property1": "property1" }
When no profile is specified default will be used.
|
AWS S3 Backend
Spring Cloud Config Server supports AWS S3 as a backend for configuration properties. You can enable this feature by adding a dependency to the AWS Java SDK For Amazon S3.
<dependencies>
<dependency>
<groupId>com.amazonaws</groupId>
<artifactId>aws-java-sdk-s3</artifactId>
</dependency>
</dependencies>
The following configuration uses the AWS S3 client to access configuration files. We can use spring.awss3.*
properties to select the bucket where your configuration is stored.
spring:
profiles:
active: awss3
cloud:
config:
server:
awss3:
region: us-east-1
bucket: bucket1
It is also possible to specify an AWS URL to override the standard endpoint of your S3 service with spring.awss3.endpoint
. This allows support for beta regions of S3, and other S3 compatible storage APIs.
Credentials are found using the Default AWS Credential Provider Chain. Versioned and encrypted buckets are supported without further configuration.
Configuration files are stored in your bucket as {application}-{profile}.properties
, {application}-{profile}.yml
or {application}-{profile}.json
. An optional label can be provided to specify a directory path to the file.
When no profile is specified default will be used.
|
CredHub Backend
Spring Cloud Config Server supports CredHub as a backend for configuration properties. You can enable this feature by adding a dependency to Spring CredHub.
<dependencies>
<dependency>
<groupId>org.springframework.credhub</groupId>
<artifactId>spring-credhub-starter</artifactId>
</dependency>
</dependencies>
The following configuration uses mutual TLS to access a CredHub:
spring:
profiles:
active: credhub
cloud:
config:
server:
credhub:
url: https://credhub:8844
The properties should be stored as JSON, such as:
credhub set --name "/demo-app/default/master/toggles" --type=json
value: {"toggle.button": "blue", "toggle.link": "red"}
credhub set --name "/demo-app/default/master/abs" --type=json
value: {"marketing.enabled": true, "external.enabled": false}
All client applications with the name spring.cloud.config.name=demo-app
will have the following properties available to them:
{ toggle.button: "blue", toggle.link: "red", marketing.enabled: true, external.enabled: false }
When no profile is specified default will be used and when no label is specified master will be used as a default value.
NOTE: Values added to application will be shared by all the applications.
|
OAuth 2.0
<dependencies>
<dependency>
<groupId>org.springframework.security</groupId>
<artifactId>spring-security-config</artifactId>
</dependency>
<dependency>
<groupId>org.springframework.security</groupId>
<artifactId>spring-security-oauth2-client</artifactId>
</dependency>
</dependencies>
The following configuration uses OAuth 2.0 and UAA to access a CredHub:
spring:
profiles:
active: credhub
cloud:
config:
server:
credhub:
url: https://credhub:8844
oauth2:
registration-id: credhub-client
security:
oauth2:
client:
registration:
credhub-client:
provider: uaa
client-id: credhub_config_server
client-secret: asecret
authorization-grant-type: client_credentials
provider:
uaa:
token-uri: https://uaa:8443/oauth/token
The used UAA client-id should have credhub.read as scope.
|
Composite Environment Repositories
In some scenarios, you may wish to pull configuration data from multiple environment repositories.
To do so, you can enable the composite
profile in your configuration server’s application properties or YAML file.
If, for example, you want to pull configuration data from a Subversion repository as well as two Git repositories, you can set the following properties for your configuration server:
spring:
profiles:
active: composite
cloud:
config:
server:
composite:
-
type: svn
uri: file:///path/to/svn/repo
-
type: git
uri: file:///path/to/rex/git/repo
-
type: git
uri: file:///path/to/walter/git/repo
Using this configuration, precedence is determined by the order in which repositories are listed under the composite
key.
In the above example, the Subversion repository is listed first, so a value found in the Subversion repository will override values found for the same property in one of the Git repositories.
A value found in the rex
Git repository will be used before a value found for the same property in the walter
Git repository.
If you want to pull configuration data only from repositories that are each of distinct types, you can enable the corresponding profiles, rather than the composite
profile, in your configuration server’s application properties or YAML file.
If, for example, you want to pull configuration data from a single Git repository and a single HashiCorp Vault server, you can set the following properties for your configuration server:
spring:
profiles:
active: git, vault
cloud:
config:
server:
git:
uri: file:///path/to/git/repo
order: 2
vault:
host: 127.0.0.1
port: 8200
order: 1
Using this configuration, precedence can be determined by an order
property.
You can use the order
property to specify the priority order for all your repositories.
The lower the numerical value of the order
property, the higher priority it has.
The priority order of a repository helps resolve any potential conflicts between repositories that contain values for the same properties.
If your composite environment includes a Vault server as in the previous example, you must include a Vault token in every request made to the configuration server. See Vault Backend. |
Any type of failure when retrieving values from an environment repository results in a failure for the entire composite environment. |
When using a composite environment, it is important that all repositories contain the same labels.
If you have an environment similar to those in the preceding examples and you request configuration data with the master label but the Subversion repository does not contain a branch called master , the entire request fails.
|
Custom Composite Environment Repositories
In addition to using one of the environment repositories from Spring Cloud, you can also provide your own EnvironmentRepository
bean to be included as part of a composite environment.
To do so, your bean must implement the EnvironmentRepository
interface.
If you want to control the priority of your custom EnvironmentRepository
within the composite environment, you should also implement the Ordered
interface and override the getOrdered
method.
If you do not implement the Ordered
interface, your EnvironmentRepository
is given the lowest priority.
Property Overrides
The Config Server has an “overrides” feature that lets the operator provide configuration properties to all applications.
The overridden properties cannot be accidentally changed by the application with the normal Spring Boot hooks.
To declare overrides, add a map of name-value pairs to spring.cloud.config.server.overrides
, as shown in the following example:
spring:
cloud:
config:
server:
overrides:
foo: bar
The preceding examples causes all applications that are config clients to read foo=bar
, independent of their own configuration.
A configuration system cannot force an application to use configuration data in any particular way. Consequently, overrides are not enforceable. However, they do provide useful default behavior for Spring Cloud Config clients. |
Normally, Spring environment placeholders with ${} can be escaped (and resolved on the client) by using backslash (\ ) to escape the $ or the { .
For example, \${app.foo:bar} resolves to bar , unless the app provides its own app.foo .
|
In YAML, you do not need to escape the backslash itself. However, in properties files, you do need to escape the backslash, when you configure the overrides on the server. |
You can change the priority of all overrides in the client to be more like default values, letting applications supply their own values in environment variables or System properties, by setting the spring.cloud.config.overrideNone=true
flag (the default is false) in the remote repository.
Health Indicator
Config Server comes with a Health Indicator that checks whether the configured EnvironmentRepository
is working.
By default, it asks the EnvironmentRepository
for an application named app
, the default
profile, and the default label provided by the EnvironmentRepository
implementation.
You can configure the Health Indicator to check more applications along with custom profiles and custom labels, as shown in the following example:
spring:
cloud:
config:
server:
health:
repositories:
myservice:
label: mylabel
myservice-dev:
name: myservice
profiles: development
You can disable the Health Indicator by setting management.health.config.enabled=false
.
Security
You can secure your Config Server in any way that makes sense to you (from physical network security to OAuth2 bearer tokens), because Spring Security and Spring Boot offer support for many security arrangements.
To use the default Spring Boot-configured HTTP Basic security, include Spring Security on the classpath (for example, through spring-boot-starter-security
).
The default is a username of user
and a randomly generated password. A random password is not useful in practice, so we recommend you configure the password (by setting spring.security.user.password
) and encrypt it (see below for instructions on how to do that).
Encryption and Decryption
To use the encryption and decryption features you need the full-strength JCE installed in your JVM (it is not included by default). You can download the “Java Cryptography Extension (JCE) Unlimited Strength Jurisdiction Policy Files” from Oracle and follow the installation instructions (essentially, you need to replace the two policy files in the JRE lib/security directory with the ones that you downloaded). |
If the remote property sources contain encrypted content (values starting with {cipher}
), they are decrypted before sending to clients over HTTP.
The main advantage of this setup is that the property values need not be in plain text when they are “at rest” (for example, in a git repository).
If a value cannot be decrypted, it is removed from the property source and an additional property is added with the same key but prefixed with invalid
and a value that means “not applicable” (usually <n/a>
).
This is largely to prevent cipher text being used as a password and accidentally leaking.
If you set up a remote config repository for config client applications, it might contain an application.yml
similar to the following:
spring:
datasource:
username: dbuser
password: '{cipher}FKSAJDFGYOS8F7GLHAKERGFHLSAJ'
Encrypted values in a .properties file must not be wrapped in quotes. Otherwise, the value is not decrypted. The following example shows values that would work:
spring.datasource.username: dbuser spring.datasource.password: {cipher}FKSAJDFGYOS8F7GLHAKERGFHLSAJ
You can safely push this plain text to a shared git repository, and the secret password remains protected.
The server also exposes /encrypt
and /decrypt
endpoints (on the assumption that these are secured and only accessed by authorized agents).
If you edit a remote config file, you can use the Config Server to encrypt values by POSTing to the /encrypt
endpoint, as shown in the following example:
$ curl localhost:8888/encrypt -s -d mysecret 682bc583f4641835fa2db009355293665d2647dade3375c0ee201de2a49f7bda
If you are testing with curl, then use --data-urlencode (instead of -d ) and prefix the value to encrypt with = (curl requires this) or set an explicit Content-Type: text/plain to make sure curl encodes the data correctly when there are special characters ('+' is particularly tricky).
|
Be sure not to include any of the curl command statistics in the encrypted value, this is why the examples use the -s option to silence them. Outputting the value to a file can help avoid this problem.
|
The inverse operation is also available through /decrypt
(provided the server is
configured with a symmetric key or a full key pair), as shown in the following example:
$ curl localhost:8888/decrypt -s -d 682bc583f4641835fa2db009355293665d2647dade3375c0ee201de2a49f7bda mysecret
Take the encrypted value and add the {cipher}
prefix before you put it in the YAML or properties file and before you commit and push it to a remote (potentially insecure) store.
The /encrypt
and /decrypt
endpoints also both accept paths in the form of /*/{application}/{profiles}
, which can be used to control cryptography on a per-application (name) and per-profile basis when clients call into the main environment resource.
To control the cryptography in this granular way, you must also provide a @Bean of type TextEncryptorLocator that creates a different encryptor per name and profiles.
The one that is provided by default does not do so (all encryptions use the same key).
|
The spring
command line client (with Spring Cloud CLI extensions
installed) can also be used to encrypt and decrypt, as shown in the following example:
$ spring encrypt mysecret --key foo 682bc583f4641835fa2db009355293665d2647dade3375c0ee201de2a49f7bda $ spring decrypt --key foo 682bc583f4641835fa2db009355293665d2647dade3375c0ee201de2a49f7bda mysecret
To use a key in a file (such as an RSA public key for encryption), prepend the key value with "@" and provide the file path, as shown in the following example:
$ spring encrypt mysecret --key @${HOME}/.ssh/id_rsa.pub AQAjPgt3eFZQXwt8tsHAVv/QHiY5sI2dRcR+...
The --key argument is mandatory (despite having a -- prefix).
|
Key Management
The Config Server can use a symmetric (shared) key or an asymmetric one (RSA key pair).
The asymmetric choice is superior in terms of security, but it is often more convenient to use a symmetric key since it is a single property value to configure in the bootstrap.properties
.
To configure a symmetric key, you need to set encrypt.key
to a secret String (or use the ENCRYPT_KEY
environment variable to keep it out of plain-text configuration files).
You cannot configure an asymmetric key using encrypt.key .
|
To configure an asymmetric key use a keystore (e.g. as
created by the keytool
utility that comes with the JDK). The
keystore properties are encrypt.keyStore.*
with *
equal to
Property | Description |
---|---|
|
Contains a |
|
Holds the password that unlocks the keystore |
|
Identifies which key in the store to use |
|
The type of KeyStore to create. Defaults to |
The encryption is done with the public key, and a private key is needed for decryption. Thus, in principle, you can configure only the public key in the server if you want to only encrypt (and are prepared to decrypt the values yourself locally with the private key). In practice, you might not want to do decrypt locally, because it spreads the key management process around all the clients, instead of concentrating it in the server. On the other hand, it can be a useful option if your config server is relatively insecure and only a handful of clients need the encrypted properties.
Creating a Key Store for Testing
To create a keystore for testing, you can use a command resembling the following:
$ keytool -genkeypair -alias mytestkey -keyalg RSA \ -dname "CN=Web Server,OU=Unit,O=Organization,L=City,S=State,C=US" \ -keypass changeme -keystore server.jks -storepass letmein
When using JDK 11 or above you may get the following warning when using the command above. In this case
you probably want to make sure the keypass and storepass values match.
|
Warning: Different store and key passwords not supported for PKCS12 KeyStores. Ignoring user-specified -keypass value.
Put the server.jks
file in the classpath (for instance) and then, in
your bootstrap.yml
, for the Config Server, create the following settings:
encrypt:
keyStore:
location: classpath:/server.jks
password: letmein
alias: mytestkey
secret: changeme
Using Multiple Keys and Key Rotation
In addition to the {cipher}
prefix in encrypted property values, the Config Server looks for zero or more {name:value}
prefixes before the start of the (Base64 encoded) cipher text.
The keys are passed to a TextEncryptorLocator
, which can do whatever logic it needs to locate a TextEncryptor
for the cipher.
If you have configured a keystore (encrypt.keystore.location
), the default locator looks for keys with aliases supplied by the key
prefix, with a cipher text like resembling the following:
foo:
bar: `{cipher}{key:testkey}...`
The locator looks for a key named "testkey".
A secret can also be supplied by using a {secret:…}
value in the prefix.
However, if it is not supplied, the default is to use the keystore password (which is what you get when you build a keystore and do not specify a secret).
If you do supply a secret, you should also encrypt the secret using a custom SecretLocator
.
When the keys are being used only to encrypt a few bytes of configuration data (that is, they are not being used elsewhere), key rotation is hardly ever necessary on cryptographic grounds.
However, you might occasionally need to change the keys (for example, in the event of a security breach).
In that case, all the clients would need to change their source config files (for example, in git) and use a new {key:…}
prefix in all the ciphers.
Note that the clients need to first check that the key alias is available in the Config Server keystore.
If you want to let the Config Server handle all encryption as well as decryption, the {name:value} prefixes can also be added as plain text posted to the /encrypt endpoint, .
|
Serving Encrypted Properties
Sometimes you want the clients to decrypt the configuration locally, instead of doing it in the server.
In that case, if you provide the encrypt.*
configuration to locate a key, you can still have /encrypt
and /decrypt
endpoints, but you need to explicitly switch off the decryption of outgoing properties by placing spring.cloud.config.server.encrypt.enabled=false
in bootstrap.[yml|properties]
.
If you do not care about the endpoints, it should work if you do not configure either the key or the enabled flag.
Serving Alternative Formats
The default JSON format from the environment endpoints is perfect for consumption by Spring applications, because it maps directly onto the Environment
abstraction.
If you prefer, you can consume the same data as YAML or Java properties by adding a suffix (".yml", ".yaml" or ".properties") to the resource path.
This can be useful for consumption by applications that do not care about the structure of the JSON endpoints or the extra metadata they provide (for example, an application that is not using Spring might benefit from the simplicity of this approach).
The YAML and properties representations have an additional flag (provided as a boolean query parameter called resolvePlaceholders
) to signal that placeholders in the source documents (in the standard Spring ${…}
form) should be resolved in the output before rendering, where possible.
This is a useful feature for consumers that do not know about the Spring placeholder conventions.
There are limitations in using the YAML or properties formats, mainly in relation to the loss of metadata. For example, the JSON is structured as an ordered list of property sources, with names that correlate with the source. The YAML and properties forms are coalesced into a single map, even if the origin of the values has multiple sources, and the names of the original source files are lost. Also, the YAML representation is not necessarily a faithful representation of the YAML source in a backing repository either. It is constructed from a list of flat property sources, and assumptions have to be made about the form of the keys. |
Serving Plain Text
Instead of using the Environment
abstraction (or one of the alternative representations of it in YAML or properties format), your applications might need generic plain-text configuration files that are tailored to their environment.
The Config Server provides these through an additional endpoint at /{application}/{profile}/{label}/{path}
, where application
, profile
, and label
have the same meaning as the regular environment endpoint, but path
is a path to a file name (such as log.xml
).
The source files for this endpoint are located in the same way as for the environment endpoints.
The same search path is used for properties and YAML files.
However, instead of aggregating all matching resources, only the first one to match is returned.
After a resource is located, placeholders in the normal format (${…}
) are resolved by using the effective Environment
for the supplied application name, profile, and label.
In this way, the resource endpoint is tightly integrated with the environment endpoints.
As with the source files for environment configuration, the profile is used to resolve the file name.
So, if you want a profile-specific file, /*/development/*/logback.xml can be resolved by a file called logback-development.xml (in preference to logback.xml ).
|
If you do not want to supply the label and let the server use the default label, you can supply a useDefaultLabel request parameter.
Consequently, the preceding example for the default profile could be /sample/default/nginx.conf?useDefaultLabel .
|
At present, Spring Cloud Config can serve plaintext for git, SVN, native backends, and AWS S3. The support for git, SVN, and native backends is identical. AWS S3 works a bit differently. The following sections show how each one works:
Git, SVN, and Native Backends
Consider the following example for a GIT or SVN repository or a native backend:
application.yml
nginx.conf
The nginx.conf
might resemble the following listing:
server {
listen 80;
server_name ${nginx.server.name};
}
application.yml
might resemble the following listing:
nginx:
server:
name: example.com
---
spring:
profiles: development
nginx:
server:
name: develop.com
The /sample/default/master/nginx.conf
resource might be as follows:
server {
listen 80;
server_name example.com;
}
/sample/development/master/nginx.conf
might be as follows:
server {
listen 80;
server_name develop.com;
}
AWS S3
To enable serving plain text for AWS s3, the Config Server application needs to include a dependency on Spring Cloud AWS. For details on how to set up that dependency, see the Spring Cloud AWS Reference Guide. Then you need to configure Spring Cloud AWS, as described in the Spring Cloud AWS Reference Guide.
Decrypting Plain Text
By default, encrypted values in plain text files are not decrypted. In order to enable decryption for plain text files, set spring.cloud.config.server.encrypt.enabled=true
and spring.cloud.config.server.encrypt.plainTextEncrypt=true
in bootstrap.[yml|properties]
Decrypting plain text files is only supported for YAML, JSON, and properties file extensions. |
If this feature is enabled, and an unsupported file extention is requested, any encrypted values in the file will not be decrypted.
Embedding the Config Server
The Config Server runs best as a standalone application.
However, if need be, you can embed it in another application.
To do so, use the @EnableConfigServer
annotation.
An optional property named spring.cloud.config.server.bootstrap
can be useful in this case.
It is a flag to indicate whether the server should configure itself from its own remote repository.
By default, the flag is off, because it can delay startup.
However, when embedded in another application, it makes sense to initialize the same way as any other application.
When setting spring.cloud.config.server.bootstrap
to true
you must also use a composite environment repository configuration.
For example
spring:
application:
name: configserver
profiles:
active: composite
cloud:
config:
server:
composite:
- type: native
search-locations: ${HOME}/Desktop/config
bootstrap: true
If you use the bootstrap flag, the config server needs to have its name and repository URI configured in bootstrap.yml .
|
To change the location of the server endpoints, you can (optionally) set spring.cloud.config.server.prefix
(for example, /config
), to serve the resources under a prefix.
The prefix should start but not end with a /
.
It is applied to the @RequestMappings
in the Config Server (that is, underneath the Spring Boot server.servletPath
and server.contextPath
prefixes).
If you want to read the configuration for an application directly from the backend repository (instead of from the config server), you
basically want an embedded config server with no endpoints.
You can switch off the endpoints entirely by not using the @EnableConfigServer
annotation (set spring.cloud.config.server.bootstrap=true
).
Push Notifications and Spring Cloud Bus
Many source code repository providers (such as Github, Gitlab, Gitea, Gitee, Gogs, or Bitbucket) notify you of changes in a repository through a webhook.
You can configure the webhook through the provider’s user interface as a URL and a set of events in which you are interested.
For instance, Github uses a POST to the webhook with a JSON body containing a list of commits and a header (X-Github-Event
) set to push
.
If you add a dependency on the spring-cloud-config-monitor
library and activate the Spring Cloud Bus in your Config Server, then a /monitor
endpoint is enabled.
When the webhook is activated, the Config Server sends a RefreshRemoteApplicationEvent
targeted at the applications it thinks might have changed.
The change detection can be strategized.
However, by default, it looks for changes in files that match the application name (for example, foo.properties
is targeted at the foo
application, while application.properties
is targeted at all applications).
The strategy to use when you want to override the behavior is PropertyPathNotificationExtractor
, which accepts the request headers and body as parameters and returns a list of file paths that changed.
The default configuration works out of the box with Github, Gitlab, Gitea, Gitee, Gogs or Bitbucket.
In addition to the JSON notifications from Github, Gitlab, Gitee, or Bitbucket, you can trigger a change notification by POSTing to /monitor
with form-encoded body parameters in the pattern of path={application}
.
Doing so broadcasts to applications matching the {application}
pattern (which can contain wildcards).
The RefreshRemoteApplicationEvent is transmitted only if the spring-cloud-bus is activated in both the Config Server and in the client application.
|
The default configuration also detects filesystem changes in local git repositories. In that case, the webhook is not used. However, as soon as you edit a config file, a refresh is broadcast. |
Spring Cloud Config Client
A Spring Boot application can take immediate advantage of the Spring Config Server (or other external property sources provided by the application developer).
It also picks up some additional useful features related to Environment
change events.
Spring Boot Config Data Import
Spring Boot 2.4 introduced a new way to import configuration data via the spring.config.import
property. This is now the default way to bind to Config Server.
To optionally connect to config server set the following in application.properties:
spring.config.import=optional:configserver:
This will connect to the Config Server at the default location of "http://localhost:8888". Removing the optional:
prefix will cause the Config Client to fail if it is unable to connect to Config Server. To change the location of Config Server either set spring.cloud.config.uri
or add the url to the spring.config.import
statement such as, spring.config.import=optional:configserver:http://myhost:8888
. The location in the import property has precedence over the uri property.
A bootstrap file (properties or yaml) is not needed for the Spring Boot Config Data method of import via spring.config.import .
|
Config First Bootstrap
To use the legacy bootstrap way of connecting to Config Server, bootstrap must be enabled via a property or the spring-cloud-starter-bootstrap
starter. The property is spring.cloud.bootstrap.enabled=true
. It must be set as a System Property or environment variable.
Once bootstrap has been enabled any application with Spring Cloud Config Client on the classpath will connect to Config Server as follows:
When a config client starts, it binds to the Config Server (through the spring.cloud.config.uri
bootstrap configuration property) and initializes Spring Environment
with remote property sources.
The net result of this behavior is that all client applications that want to consume the Config Server need a bootstrap.yml
(or an environment variable) with the server address set in spring.cloud.config.uri
(it defaults to "http://localhost:8888").
Discovery First Bootstrap
If you use a DiscoveryClient
implementation, such as Spring Cloud Netflix and Eureka Service Discovery or Spring Cloud Consul, you can have the Config Server register with the Discovery Service.
However, in the default “Config First” mode, clients cannot take advantage of the registration.
If you prefer to use DiscoveryClient
to locate the Config Server, you can do so by setting spring.cloud.config.discovery.enabled=true
(the default is false
).
The net result of doing so is that client applications all need a bootstrap.yml
(or an environment variable) with the appropriate discovery configuration.
For example, with Spring Cloud Netflix, you need to define the Eureka server address (for example, in eureka.client.serviceUrl.defaultZone
).
The price for using this option is an extra network round trip on startup, to locate the service registration.
The benefit is that, as long as the Discovery Service is a fixed point, the Config Server can change its coordinates.
The default service ID is configserver
, but you can change that on the client by setting spring.cloud.config.discovery.serviceId
(and on the server, in the usual way for a service, such as by setting spring.application.name
).
The discovery client implementations all support some kind of metadata map (for example, we have eureka.instance.metadataMap
for Eureka).
Some additional properties of the Config Server may need to be configured in its service registration metadata so that clients can connect correctly.
If the Config Server is secured with HTTP Basic, you can configure the credentials as user
and password
.
Also, if the Config Server has a context path, you can set configPath
.
For example, the following YAML file is for a Config Server that is a Eureka client:
eureka:
instance:
...
metadataMap:
user: osufhalskjrtl
password: lviuhlszvaorhvlo5847
configPath: /config
Config Client Fail Fast
In some cases, you may want to fail startup of a service if it cannot connect to the Config Server.
If this is the desired behavior, set the bootstrap configuration property spring.cloud.config.fail-fast=true
to make the client halt with an Exception.
To get similar functionality using spring.config.import , simply omit the optional: prefix.
|
Config Client Retry
If you expect that the config server may occasionally be unavailable when your application starts, you can make it keep trying after a failure.
First, you need to set spring.cloud.config.fail-fast=true
.
Then you need to add spring-retry
and spring-boot-starter-aop
to your classpath.
The default behavior is to retry six times with an initial backoff interval of 1000ms and an exponential multiplier of 1.1 for subsequent backoffs.
You can configure these properties (and others) by setting the spring.cloud.config.retry.*
configuration properties.
To take full control of the retry behavior, add a @Bean of type RetryOperationsInterceptor with an ID of configServerRetryInterceptor .
Spring Retry has a RetryInterceptorBuilder that supports creating one.
|
Locating Remote Configuration Resources
The Config Service serves property sources from /{application}/{profile}/{label}
, where the default bindings in the client app are as follows:
-
"name" =
${spring.application.name}
-
"profile" =
${spring.profiles.active}
(actuallyEnvironment.getActiveProfiles()
) -
"label" = "master"
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.
|
You can override all of them by setting spring.cloud.config.*
(where *
is name
, profile
or label
).
The label
is useful for rolling back to previous versions of configuration.
With the default Config Server implementation, it can be a git label, branch name, or commit ID.
Label can also be provided as a comma-separated list.
In that case, the items in the list are tried one by one until one succeeds.
This behavior can be useful when working on a feature branch.
For instance, you might want to align the config label with your branch but make it optional (in that case, use spring.cloud.config.label=myfeature,develop
).
Specifying Multiple Urls for the Config Server
To ensure high availability when you have multiple instances of Config Server deployed and expect one or more instances to be unavailable from time to time, you can either specify multiple URLs (as a comma-separated list under the spring.cloud.config.uri
property) or have all your instances register in a Service Registry like Eureka ( if using Discovery-First Bootstrap mode ). Note that doing so ensures high availability only when the Config Server is not running (that is, when the application has exited) or when a connection timeout has occurred. For example, if the Config Server returns a 500 (Internal Server Error) response or the Config Client receives a 401 from the Config Server (due to bad credentials or other causes), the Config Client does not try to fetch properties from other URLs. An error of that kind indicates a user issue rather than an availability problem.
If you use HTTP basic security on your Config Server, it is currently possible to support per-Config Server auth credentials only if you embed the credentials in each URL you specify under the spring.cloud.config.uri
property. If you use any other kind of security mechanism, you cannot (currently) support per-Config Server authentication and authorization.
Configuring Timeouts
If you want to configure timeout thresholds:
-
Read timeouts can be configured by using the property
spring.cloud.config.request-read-timeout
. -
Connection timeouts can be configured by using the property
spring.cloud.config.request-connect-timeout
.
Security
If you use HTTP Basic security on the server, clients need to know the password (and username if it is not the default). You can specify the username and password through the config server URI or via separate username and password properties, as shown in the following example:
spring:
cloud:
config:
uri: https://user:[email protected]
The following example shows an alternate way to pass the same information:
spring:
cloud:
config:
uri: https://myconfig.mycompany.com
username: user
password: secret
The spring.cloud.config.password
and spring.cloud.config.username
values override anything that is provided in the URI.
If you deploy your apps on Cloud Foundry, the best way to provide the password is through service credentials (such as in the URI, since it does not need to be in a config file).
The following example works locally and for a user-provided service on Cloud Foundry named configserver
:
spring:
cloud:
config:
uri: ${vcap.services.configserver.credentials.uri:http://user:password@localhost:8888}
If config server requires client side TLS certificate, you can configure client side TLS certificate and trust store via properties, as shown in following example:
spring:
cloud:
config:
uri: https://myconfig.myconfig.com
tls:
enabled: true
key-store: <path-of-key-store>
key-store-type: PKCS12
key-store-password: <key-store-password>
key-password: <key-password>
trust-store: <path-of-trust-store>
trust-store-type: PKCS12
trust-store-password: <trust-store-password>
The spring.cloud.config.tls.enabled
needs to be true to enable config client side TLS. When spring.cloud.config.tls.trust-store
is omitted, a JVM default trust store is used. The default value for spring.cloud.config.tls.key-store-type
and spring.cloud.config.tls.trust-store-type
is PKCS12. When password properties are omitted, empty password is assumed.
If you use another form of security, you might need to provide a RestTemplate
to the ConfigServicePropertySourceLocator
(for example, by grabbing it in the bootstrap context and injecting it).
Health Indicator
The Config Client supplies a Spring Boot Health Indicator that attempts to load configuration from the Config Server.
The health indicator can be disabled by setting health.config.enabled=false
.
The response is also cached for performance reasons.
The default cache time to live is 5 minutes.
To change that value, set the health.config.time-to-live
property (in milliseconds).
Providing A Custom RestTemplate
In some cases, you might need to customize the requests made to the config server from the client.
Typically, doing so involves passing special Authorization
headers to authenticate requests to the server.
To provide a custom RestTemplate
:
-
Create a new configuration bean with an implementation of
PropertySourceLocator
, as shown in the following example:
@Configuration
public class CustomConfigServiceBootstrapConfiguration {
@Bean
public ConfigServicePropertySourceLocator configServicePropertySourceLocator() {
ConfigClientProperties clientProperties = configClientProperties();
ConfigServicePropertySourceLocator configServicePropertySourceLocator = new ConfigServicePropertySourceLocator(clientProperties);
configServicePropertySourceLocator.setRestTemplate(customRestTemplate(clientProperties));
return configServicePropertySourceLocator;
}
}
For a simplified approach to adding Authorization headers, the spring.cloud.config.headers.* property can be used instead.
|
-
In
resources/META-INF
, create a file calledspring.factories
and specify your custom configuration, as shown in the following example:
org.springframework.cloud.bootstrap.BootstrapConfiguration = com.my.config.client.CustomConfigServiceBootstrapConfiguration
Vault
When using Vault as a backend to your config server, the client needs to supply a token for the server to retrieve values from Vault.
This token can be provided within the client by setting spring.cloud.config.token
in bootstrap.yml
, as shown in the following example:
spring:
cloud:
config:
token: YourVaultToken
Nested Keys In Vault
Vault supports the ability to nest keys in a value stored in Vault, as shown in the following example:
echo -n '{"appA": {"secret": "appAsecret"}, "bar": "baz"}' | vault write secret/myapp -
This command writes a JSON object to your Vault.
To access these values in Spring, you would use the traditional dot(.
) annotation, as shown in the following example
@Value("${appA.secret}")
String name = "World";
The preceding code would sets the value of the name
variable to appAsecret
.