Spring Boot has an opinionated view of how to build an application with Spring. For instance, it has conventional locations for common configuration files and has endpoints for common management and monitoring tasks. Spring Cloud builds on top of that and adds a few features that probably all components in a system would use or occasionally need.
A Spring Cloud application operates by creating a “bootstrap” context, which is a parent context for the main application.
It is responsible for loading configuration properties from the external sources and for decrypting properties in the local external configuration files.
The two contexts share an Environment
, which is the source of external properties for any Spring application.
By default, bootstrap properties are added with high precedence, so they cannot be overridden by local configuration.
The bootstrap context uses a different convention for locating external configuration than the main application context.
Instead of application.yml
(or .properties
), you can use bootstrap.yml
, keeping the external configuration for bootstrap and main context
nicely separate.
The following listing shows an example:
bootstrap.yml.
spring: application: name: foo cloud: config: uri: ${SPRING_CONFIG_URI:http://localhost:8888}
If your application needs any application-specific configuration from the server, it is a good idea to set the spring.application.name
(in bootstrap.yml
or application.yml
).
You can disable the bootstrap process completely by setting spring.cloud.bootstrap.enabled=false
(for example, in system properties).
If you build an application context from SpringApplication
or SpringApplicationBuilder
, then the Bootstrap context is added as a parent to that context.
It is a feature of Spring that child contexts inherit property sources and profiles from their parent, so the “main” application context contains additional property sources, compared to building the same context without Spring Cloud Config.
The additional property sources are:
PropertySourceLocators
are found in the Bootstrap context and if they have non-empty properties, an optional CompositePropertySource
appears with high priority.
An example would be properties from the Spring Cloud Config Server.
See “Section 1.6, “Customizing the Bootstrap Property Sources”” for instructions on how to customize the contents of this property source.bootstrap.yml
(or .properties
), those properties are used to configure the Bootstrap context.
Then they get added to the child context when its parent is set.
They have lower precedence than the application.yml
(or .properties
) and any other property sources that are added to the child as a normal part of the process of creating a Spring Boot application.
See “Section 1.3, “Changing the Location of Bootstrap Properties”” for instructions on how to customize the contents of these property sources.Because of the ordering rules of property sources, the “bootstrap” entries take precedence.
However, note that these do not contain any data from bootstrap.yml
, which has very low precedence but can be used to set defaults.
You can extend the context hierarchy by setting the parent context of any ApplicationContext
you create — for example, by using its own interface or with the SpringApplicationBuilder
convenience methods (parent()
, child()
and sibling()
).
The bootstrap context is the parent of the most senior ancestor that you create yourself.
Every context in the hierarchy has its own “bootstrap” (possibly empty) property source to avoid promoting values inadvertently from parents down to their descendants.
If there is a Config Server, every context in the hierarchy can also (in principle) have a different spring.application.name
and, hence, a different remote property source.
Normal Spring application context behavior rules apply to property resolution: properties from a child context override those in
the parent, by name and also by property source name.
(If the child has a property source with the same name as the parent, the value from the parent is not included in the child).
Note that the SpringApplicationBuilder
lets you share an Environment
amongst the whole hierarchy, but that is not the default.
Thus, sibling contexts, in particular, do not need to have the same profiles or property sources, even though they may share common values with their parent.
The bootstrap.yml
(or .properties
) location can be specified by setting spring.cloud.bootstrap.name
(default: bootstrap
) or spring.cloud.bootstrap.location
(default: empty) — for example, in System properties.
Those properties behave like the spring.config.*
variants with the same name.
In fact, they are used to set up the bootstrap ApplicationContext
by setting those properties in its Environment
.
If there is an active profile (from spring.profiles.active
or through the Environment
API in the
context you are building), properties in that profile get loaded as well, the same as in a regular Spring Boot app — for example, from bootstrap-development.properties
for a development
profile.
The property sources that are added to your application by the bootstrap context are often “remote” (from example, from Spring Cloud Config Server).
By default, they cannot be overridden locally, except on the command line.
If you want to let your applications override the remote properties with their own System properties or config files, the remote property source has to grant it permission by setting spring.cloud.config.allowOverride=true
(it does not work to set this locally).
Once that flag is set, two finer-grained settings control the location of the remote properties in relation to system properties and the application’s local configuration:
spring.cloud.config.overrideNone=true
: Override from any local property source.spring.cloud.config.overrideSystemProperties=false
: Only system properties and environment variables (but not the local config files) should override the remote settings.The bootstrap context can be set to do anything you like by adding entries to /META-INF/spring.factories
under a key named org.springframework.cloud.bootstrap.BootstrapConfiguration
.
This holds a comma-separated list of Spring @Configuration
classes that are used to create the context.
Any beans that you want to be available to the main application context for autowiring can be created here.
There is a special contract for @Beans
of type ApplicationContextInitializer
.
If you want to control the startup sequence, classes can be marked with an @Order
annotation (the default order is last
).
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The bootstrap process ends by injecting initializers into the main SpringApplication
instance (which is the normal Spring Boot startup sequence, whether it is running as a standalone application or deployed in an application server).
First, a bootstrap context is created from the classes found in spring.factories
.
Then, all @Beans
of type ApplicationContextInitializer
are added to the main SpringApplication
before it is started.
The default property source for external configuration added by the bootstrap process is the Spring Cloud Config Server, but you can add additional sources by adding beans of type PropertySourceLocator
to the bootstrap context (through spring.factories
).
For instance, you can insert additional properties from a different server or from a database.
As an example, consider the following custom locator:
@Configuration public class CustomPropertySourceLocator implements PropertySourceLocator { @Override public PropertySource<?> locate(Environment environment) { return new MapPropertySource("customProperty", Collections.<String, Object>singletonMap("property.from.sample.custom.source", "worked as intended")); } }
The Environment
that is passed in is the one for the ApplicationContext
about to be created — in other words, the one for which we supply additional property sources for.
It already has its normal Spring Boot-provided property sources, so you can use those to locate a property source specific to this Environment
(for example, by keying it on spring.application.name
, as is done in the default Spring Cloud Config Server property source locator).
If you create a jar with this class in it and then add a META-INF/spring.factories
containing the following, the customProperty
PropertySource
appears in any application that includes that jar on its classpath:
org.springframework.cloud.bootstrap.BootstrapConfiguration=sample.custom.CustomPropertySourceLocator
The application listens for an EnvironmentChangeEvent
and reacts to the change in a couple of standard ways (additional ApplicationListeners
can be added as @Beans
by the user in the normal way).
When an EnvironmentChangeEvent
is observed, it has a list of key values that have changed, and the application uses those to:
@ConfigurationProperties
beans in the contextlogging.level.*
Note that the Config Client does not, by default, poll for changes in the Environment
.
Generally, we would not recommend that approach for detecting changes (although you could set it up with a
@Scheduled
annotation).
If you have a scaled-out client application, it is better to broadcast the EnvironmentChangeEvent
to all the instances instead of having them polling for changes (for example, by using the Spring Cloud Bus).
The EnvironmentChangeEvent
covers a large class of refresh use cases, as long as you can actually make a change to the Environment
and publish the event.
Note that those APIs are public and part of core Spring).
You can verify that the changes are bound to @ConfigurationProperties
beans by visiting the /configprops
endpoint (a normal Spring Boot Actuator feature).
For instance, a DataSource
can have its maxPoolSize
changed at runtime (the default DataSource
created by Spring Boot is an @ConfigurationProperties
bean) and grow capacity dynamically.
Re-binding @ConfigurationProperties
does not cover another large class of use cases, where you need more control over the refresh and where you need a change to be atomic over the whole ApplicationContext
.
To address those concerns, we have @RefreshScope
.
When there is a configuration change, a Spring @Bean
that is marked as @RefreshScope
gets special treatment.
This feature addresses the problem of stateful beans that only get their configuration injected when they are initialized.
For instance, if a DataSource
has open connections when the database URL is changed via the Environment
, you probably want the holders of those connections to be able to complete what they are doing.
Then, the next time something borrows a connection from the pool, it gets one with the new URL.
Refresh scope beans are lazy proxies that initialize when they are used (that is, when a method is called), and the scope acts as a cache of initialized values. To force a bean to re-initialize on the next method call, you must invalidate its cache entry.
The RefreshScope
is a bean in the context and has a public refreshAll()
method to refresh all beans in the scope by clearing the target cache.
The /refresh
endpoint exposes this functionality (over HTTP or JMX).
To refresh an individual bean by name, there is also a refresh(String)
method.
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Spring Cloud has an Environment
pre-processor for decrypting property values locally.
It follows the same rules as the Config Server and has the same external configuration through encrypt.*
.
Thus, you can use encrypted values in the form of {cipher}*
and, as long as there is a valid key, they are decrypted before the main application context gets the Environment
settings.
To use the encryption features in an application, you need to include Spring Security RSA in your classpath (Maven co-ordinates: "org.springframework.security:spring-security-rsa"), and you also need the full strength JCE extensions in your JVM.
If you get an exception due to "Illegal key size" and you use 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 files into the JDK/jre/lib/security folder for whichever version of JRE/JDK x64/x86 you use.
For a Spring Boot Actuator application, some additional management endpoints are available. You can use:
POST
to /actuator/env
to update the Environment
and rebind @ConfigurationProperties
and log levels./actuator/refresh
to re-load the boot strap context and refresh the @RefreshScope
beans./actuator/restart
to close the ApplicationContext
and restart it (disabled by default)./actuator/pause
and /actuator/resume
for calling the Lifecycle
methods (stop()
and start()
on the ApplicationContext
).