This section includes topics relating directly to Spring Boot applications.
FailureAnalyzer
is a great way to intercept an exception on startup and turn it into a human-readable message, wrapped in a FailureAnalysis
.
Spring Boot provides such an analyzer for application-context-related exceptions, JSR-303 validations, and more.
You can also create your own.
AbstractFailureAnalyzer
is a convenient extension of FailureAnalyzer
that checks the presence of a specified exception type in the exception to handle.
You can extend from that so that your implementation gets a chance to handle the exception only when it is actually present.
If, for whatever reason, you cannot handle the exception, return null
to give another implementation a chance to handle the exception.
FailureAnalyzer
implementations must be registered in META-INF/spring.factories
.
The following example registers ProjectConstraintViolationFailureAnalyzer
:
org.springframework.boot.diagnostics.FailureAnalyzer=\
com.example.ProjectConstraintViolationFailureAnalyzer
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The Spring Boot auto-configuration tries its best to “do the right thing”, but sometimes things fail, and it can be hard to tell why.
There is a really useful ConditionEvaluationReport
available in any Spring Boot ApplicationContext
.
You can see it if you enable DEBUG
logging output.
If you use the spring-boot-actuator
(see the Actuator chapter), there is also a conditions
endpoint that renders the report in JSON.
Use that endpoint to debug the application and see what features have been added (and which have not been added) by Spring Boot at runtime.
Many more questions can be answered by looking at the source code and the Javadoc. When reading the code, remember the following rules of thumb:
*AutoConfiguration
and read their sources.
Pay special attention to the @Conditional*
annotations to find out what features they enable and when.
Add --debug
to the command line or a System property -Ddebug
to get a log on the console of all the auto-configuration decisions that were made in your app.
In a running application with actuator enabled, look at the conditions
endpoint (/actuator/conditions
or the JMX equivalent) for the same information.@ConfigurationProperties
(such as ServerProperties
) and read from there the available external configuration options.
The @ConfigurationProperties
annotation has a name
attribute that acts as a prefix to external properties.
Thus, ServerProperties
has prefix="server"
and its configuration properties are server.port
, server.address
, and others.
In a running application with actuator enabled, look at the configprops
endpoint.bind
method on the Binder
to pull configuration values explicitly out of the Environment
in a relaxed manner.
It is often used with a prefix.@Value
annotations that bind directly to the Environment
.@ConditionalOnExpression
annotations that switch features on and off in response to SpEL expressions, normally evaluated with placeholders resolved from the Environment
.A SpringApplication
has ApplicationListeners
and ApplicationContextInitializers
that are used to apply customizations to the context or environment.
Spring Boot loads a number of such customizations for use internally from META-INF/spring.factories
.
There is more than one way to register additional customizations:
addListeners
and addInitializers
methods on SpringApplication
before you run it.context.initializer.classes
or context.listener.classes
properties.META-INF/spring.factories
and packaging a jar file that the applications all use as a library.The SpringApplication
sends some special ApplicationEvents
to the listeners (some even before the context is created) and then registers the listeners for events published by the ApplicationContext
as well.
See “Section 24.5, “Application Events and Listeners”” in the ‘Spring Boot features’ section for a complete list.
It is also possible to customize the Environment
before the application context is refreshed by using EnvironmentPostProcessor
.
Each implementation should be registered in META-INF/spring.factories
, as shown in the following example:
org.springframework.boot.env.EnvironmentPostProcessor=com.example.YourEnvironmentPostProcessor
The implementation can load arbitrary files and add them to the Environment
.
For instance, the following example loads a YAML configuration file from the classpath:
public class EnvironmentPostProcessorExample implements EnvironmentPostProcessor { private final YamlPropertySourceLoader loader = new YamlPropertySourceLoader(); @Override public void postProcessEnvironment(ConfigurableEnvironment environment, SpringApplication application) { Resource path = new ClassPathResource("com/example/myapp/config.yml"); PropertySource<?> propertySource = loadYaml(path); environment.getPropertySources().addLast(propertySource); } private PropertySource<?> loadYaml(Resource path) { if (!path.exists()) { throw new IllegalArgumentException("Resource " + path + " does not exist"); } try { return this.loader.load("custom-resource", path).get(0); } catch (IOException ex) { throw new IllegalStateException("Failed to load yaml configuration from " + path, ex); } } }
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You can use the ApplicationBuilder
class to create parent/child ApplicationContext
hierarchies.
See “Section 24.4, “Fluent Builder API”” in the ‘Spring Boot features’ section for more information.
Not all Spring applications have to be web applications (or web services).
If you want to execute some code in a main
method but also bootstrap a Spring application to set up the infrastructure to use, you can use the SpringApplication
features of Spring Boot.
A SpringApplication
changes its ApplicationContext
class, depending on whether it thinks it needs a web application or not.
The first thing you can do to help it is to leave server-related dependencies (e.g. servlet API) off the classpath.
If you cannot do that (for example, you run two applications from the same code base) then you can explicitly call setWebApplicationType(WebApplicationType.NONE)
on your SpringApplication
instance or set the applicationContextClass
property (through the Java API or with external properties).
Application code that you want to run as your business logic can be implemented as a CommandLineRunner
and dropped into the context as a @Bean
definition.