Spring Boot allows you to externalize your configuration so you can work with the same
application code in different environments. You can use properties files, YAML files,
environment variables and command-line arguments to externalize configuration. Property
values can be injected directly into your beans using the @Value
annotation, accessed
via Spring’s Environment
abstraction or
bound to structured objects
via @ConfigurationProperties
.
Spring Boot uses a very particular PropertySource
order that is designed to allow
sensible overriding of values. Properties are considered in the following order:
~/.spring-boot-devtools.properties
when devtools is active).@TestPropertySource
annotations on your tests.@SpringBootTest#properties
annotation attribute on your tests.SPRING_APPLICATION_JSON
(inline JSON embedded in an environment
variable or system property)ServletConfig
init parameters.ServletContext
init parameters.java:comp/env
.System.getProperties()
).RandomValuePropertySource
that only has properties in random.*
.application-{profile}.properties
and YAML variants)application-{profile}.properties
and YAML variants)application.properties
and YAML
variants).application.properties
and YAML
variants).@PropertySource
annotations on your @Configuration
classes.SpringApplication.setDefaultProperties
).To provide a concrete example, suppose you develop a @Component
that uses a
name
property:
import org.springframework.stereotype.* import org.springframework.beans.factory.annotation.* @Component public class MyBean { @Value("${name}") private String name; // ... }
On your application classpath (e.g. inside your jar) you can have an
application.properties
that provides a sensible default property value for name
. When
running in a new environment, an application.properties
can be provided outside of your
jar that overrides the name
; and for one-off testing, you can launch with a specific
command line switch (e.g. java -jar app.jar --name="Spring"
).
Tip | |
---|---|
The $ SPRING_APPLICATION_JSON='{"foo":{"bar":"spam"}}' java -jar myapp.jar In this example you will end up with $ java -Dspring.application.json='{"foo":"bar"}' -jar myapp.jar or command line argument: $ java -jar myapp.jar --spring.application.json='{"foo":"bar"}' or as a JNDI variable |
The RandomValuePropertySource
is useful for injecting random values (e.g. into secrets
or test cases). It can produce integers, longs, uuids or strings, e.g.
my.secret=${random.value} my.number=${random.int} my.bignumber=${random.long} my.uuid=${random.uuid} my.number.less.than.ten=${random.int(10)} my.number.in.range=${random.int[1024,65536]}
The random.int*
syntax is OPEN value (,max) CLOSE
where the OPEN,CLOSE
are any
character and value,max
are integers. If max
is provided then value
is the minimum
value and max
is the maximum (exclusive).
By default SpringApplication
will convert any command line option arguments (starting
with ‘--’, e.g. --server.port=9000
) to a property
and add it to the Spring
Environment
. As mentioned above, command line properties always take precedence over
other property sources.
If you don’t want command line properties to be added to the Environment
you can disable
them using SpringApplication.setAddCommandLineProperties(false)
.
SpringApplication
will load properties from application.properties
files in the
following locations and add them to the Spring Environment
:
/config
subdirectory of the current directory./config
packageThe list is ordered by precedence (properties defined in locations higher in the list override those defined in lower locations).
Note | |
---|---|
You can also use YAML ('.yml') files as an alternative to '.properties'. |
If you don’t like application.properties
as the configuration file name you can switch
to another by specifying a spring.config.name
environment property. You can also refer
to an explicit location using the spring.config.location
environment property
(comma-separated list of directory locations, or file paths).
$ java -jar myproject.jar --spring.config.name=myproject
or
$ java -jar myproject.jar --spring.config.location=classpath:/default.properties,classpath:/override.properties
Warning | |
---|---|
|
If spring.config.location
contains directories (as opposed to files) they should end
in /
(and will be appended with the names generated from spring.config.name
before
being loaded, including profile-specific file names). Files specified in
spring.config.location
are used as-is, with no support for profile-specific variants,
and will be overridden by any profile-specific properties.
The default search path classpath:,classpath:/config,file:,file:config/
is always used, irrespective of the value of spring.config.location
. This search path
is ordered from lowest to highest precedence (file:config/
wins). If you do specify
your own locations, they take precedence over all of the default locations and use the
same lowest to highest precedence ordering. In that way you can set up default values for
your application in application.properties
(or whatever other basename you choose with
spring.config.name
) and override it at runtime with a different file, keeping the
defaults.
Note | |
---|---|
If you use environment variables rather than system properties, most operating
systems disallow period-separated key names, but you can use underscores instead (e.g.
|
Note | |
---|---|
If you are running in a container then JNDI properties (in |
In addition to application.properties
files, profile-specific properties can also be
defined using the naming convention application-{profile}.properties
. The
Environment
has a set of default profiles (by default [default]
) which are
used if no active profiles are set (i.e. if no profiles are explicitly activated
then properties from application-default.properties
are loaded).
Profile-specific properties are loaded from the same locations as standard
application.properties
, with profile-specific files always overriding the non-specific
ones irrespective of whether the profile-specific files are inside or outside your
packaged jar.
If several profiles are specified, a last wins strategy applies. For example, profiles
specified by the spring.profiles.active
property are added after those configured via
the SpringApplication
API and therefore take precedence.
Note | |
---|---|
If you have specified any files in |
The values in application.properties
are filtered through the existing Environment
when they are used so you can refer back to previously defined values (e.g. from System
properties).
app.name=MyApp app.description=${app.name} is a Spring Boot application
Tip | |
---|---|
You can also use this technique to create ‘short’ variants of existing Spring Boot properties. See the Section 72.4, “Use ‘short’ command line arguments” how-to for details. |
YAML is a superset of JSON, and as such is a very convenient format
for specifying hierarchical configuration data. The SpringApplication
class will
automatically support YAML as an alternative to properties whenever you have the
SnakeYAML library on your classpath.
Note | |
---|---|
If you use ‘Starters’ SnakeYAML will be automatically provided via
|
Spring Framework provides two convenient classes that can be used to load YAML documents.
The YamlPropertiesFactoryBean
will load YAML as Properties
and the
YamlMapFactoryBean
will load YAML as a Map
.
For example, the following YAML document:
environments: dev: url: http://dev.bar.com name: Developer Setup prod: url: http://foo.bar.com name: My Cool App
Would be transformed into these properties:
environments.dev.url=http://dev.bar.com environments.dev.name=Developer Setup environments.prod.url=http://foo.bar.com environments.prod.name=My Cool App
YAML lists are represented as property keys with [index]
dereferencers,
for example this YAML:
my: servers: - dev.bar.com - foo.bar.com
Would be transformed into these properties:
my.servers[0]=dev.bar.com my.servers[1]=foo.bar.com
To bind to properties like that using the Spring DataBinder
utilities (which is what
@ConfigurationProperties
does) you need to have a property in the target bean of type
java.util.List
(or Set
) and you either need to provide a setter, or initialize it
with a mutable value, e.g. this will bind to the properties above
@ConfigurationProperties(prefix="my") public class Config { private List<String> servers = new ArrayList<String>(); public List<String> getServers() { return this.servers; } }
Note | |
---|---|
Extra care is required when configuring lists that way as overriding will not work as you
would expect. In the example above, when my: servers: dev.bar.com,foo.bar.com |
The YamlPropertySourceLoader
class can be used to expose YAML as a PropertySource
in the Spring Environment
. This allows you to use the familiar @Value
annotation with
placeholders syntax to access YAML properties.
You can specify multiple profile-specific YAML documents in a single file by
using a spring.profiles
key to indicate when the document applies. For example:
server: address: 192.168.1.100 --- spring: profiles: development server: address: 127.0.0.1 --- spring: profiles: production server: address: 192.168.1.120
In the example above, the server.address
property will be 127.0.0.1
if the
development
profile is active. If the development
and production
profiles are not
enabled, then the value for the property will be 192.168.1.100
.
The default profiles are activated if none are explicitly active when the application
context starts. So in this YAML we set a value for security.user.password
that is
only available in the "default" profile:
server: port: 8000 --- spring: profiles: default security: user: password: weak
whereas in this example, the password is always set because it isn’t attached to any profile, and it would have to be explicitly reset in all other profiles as necessary:
server: port: 8000 security: user: password: weak
Spring profiles designated using the "spring.profiles" element may optionally be negated
using the !
character. If both negated and non-negated profiles are specified for
a single document, at least one non-negated profile must match and no negated profiles
may match.
YAML files can’t be loaded via the @PropertySource
annotation. So in the
case that you need to load values that way, you need to use a properties file.
As we have seen above, any YAML content is ultimately transformed to properties. That process may be counter intuitive when overriding “list” properties via a profile.
For example, assume a MyPojo
object with name
and description
attributes
that are null
by default. Let’s expose a list of MyPojo
from FooProperties
:
@ConfigurationProperties("foo") public class FooProperties { private final List<MyPojo> list = new ArrayList<>(); public List<MyPojo> getList() { return this.list; } }
Consider the following configuration:
foo: list: - name: my name description: my description --- spring: profiles: dev foo: list: - name: my another name
If the dev
profile isn’t active, FooProperties.list
will contain one MyPojo
entry
as defined above. If the dev
profile is enabled however, the list
will still
only contain one entry (with name “my another name” and description null
). This
configuration will not add a second MyPojo
instance to the list, and it won’t merge
the items.
When a collection is specified in multiple profiles, the one with highest priority is used (and only that one):
foo: list: - name: my name description: my description - name: another name description: another description --- spring: profiles: dev foo: list: - name: my another name
In the example above, considering that the dev
profile is active, FooProperties.list
will contain one MyPojo
entry (with name “my another name” and description null
).
Using the @Value("${property}")
annotation to inject configuration properties can
sometimes be cumbersome, especially if you are working with multiple properties or your
data is hierarchical in nature. Spring Boot provides an alternative method of working with
properties that allows strongly typed beans to govern and validate the configuration of
your application.
package com.example; import java.net.InetAddress; import java.util.ArrayList; import java.util.Collections; import java.util.List; import org.springframework.boot.context.properties.ConfigurationProperties; @ConfigurationProperties("foo") public class FooProperties { private boolean enabled; private InetAddress remoteAddress; private final Security security = new Security(); public boolean isEnabled() { ... } public void setEnabled(boolean enabled) { ... } public InetAddress getRemoteAddress() { ... } public void setRemoteAddress(InetAddress remoteAddress) { ... } public Security getSecurity() { ... } public static class Security { private String username; private String password; private List<String> roles = new ArrayList<>(Collections.singleton("USER")); public String getUsername() { ... } public void setUsername(String username) { ... } public String getPassword() { ... } public void setPassword(String password) { ... } public List<String> getRoles() { ... } public void setRoles(List<String> roles) { ... } } }
The POJO above defines the following properties:
foo.enabled
, false
by defaultfoo.remote-address
, with a type that can be coerced from String
foo.security.username
, with a nested "security" whose name is determined by the name
of the property. In particular the return type is not used at all there and could have
been SecurityProperties
foo.security.password
foo.security.roles
, with a collection of String
Note | |
---|---|
Getters and setters are usually mandatory, since binding is via standard Java Beans property descriptors, just like in Spring MVC. There are cases where a setter may be omitted:
Some people use Project Lombok to add getters and setters automatically. Make sure that Lombok doesn’t generate any particular constructor for such type as it will be used automatically by the container to instantiate the object. |
Tip | |
---|---|
See also the differences between |
You also need to list the properties classes to register in the
@EnableConfigurationProperties
annotation:
@Configuration @EnableConfigurationProperties(FooProperties.class) public class MyConfiguration { }
Note | |
---|---|
When The bean name in the example above will be |
Even if the configuration above will create a regular bean for FooProperties
, we
recommend that @ConfigurationProperties
only deal with the environment and in particular
does not inject other beans from the context. Having said that, The
@EnableConfigurationProperties
annotation is also automatically applied to your project
so that any existing bean annotated with @ConfigurationProperties
will be configured
from the Environment
. You could shortcut MyConfiguration
above by making sure
FooProperties
is a already a bean:
@Component @ConfigurationProperties(prefix="foo") public class FooProperties { // ... see above }
This style of configuration works particularly well with the
SpringApplication
external YAML configuration:
# application.yml foo: remote-address: 192.168.1.1 security: username: foo roles: - USER - ADMIN # additional configuration as required
To work with @ConfigurationProperties
beans you can just inject them in the same way
as any other bean.
@Service public class MyService { private final FooProperties properties; @Autowired public MyService(FooProperties properties) { this.properties = properties; } //... @PostConstruct public void openConnection() { Server server = new Server(this.properties.getRemoteAddress()); // ... } }
Tip | |
---|---|
Using |
As well as using @ConfigurationProperties
to annotate a class, you can also use it
on public @Bean
methods. This can be particularly useful when you want to bind
properties to third-party components that are outside of your control.
To configure a bean from the Environment
properties, add @ConfigurationProperties
to
its bean registration:
@ConfigurationProperties(prefix = "bar") @Bean public BarComponent barComponent() { ... }
Any property defined with the bar
prefix will be mapped onto that BarComponent
bean
in a similar manner as the FooProperties
example above.
Spring Boot uses some relaxed rules for binding Environment
properties to
@ConfigurationProperties
beans, so there doesn’t need to be an exact match between
the Environment
property name and the bean property name. Common examples where this
is useful include dashed separated (e.g. context-path
binds to contextPath
), and
capitalized (e.g. PORT
binds to port
) environment properties.
For example, given the following @ConfigurationProperties
class:
@ConfigurationProperties(prefix="person") public class OwnerProperties { private String firstName; public String getFirstName() { return this.firstName; } public void setFirstName(String firstName) { this.firstName = firstName; } }
The following properties names can all be used:
Table 24.1. relaxed binding
Property | Note |
---|---|
| Standard camel case syntax. |
| Dashed notation, recommended for use in |
| Underscore notation, alternative format for use in |
| Upper case format. Recommended when using a system environment variables. |
Spring will attempt to coerce the external application properties to the right type when
it binds to the @ConfigurationProperties
beans. If you need custom type conversion you
can provide a ConversionService
bean (with bean id conversionService
) or custom
property editors (via a CustomEditorConfigurer
bean) or custom Converters
(with
bean definitions annotated as @ConfigurationPropertiesBinding
).
Note | |
---|---|
As this bean is requested very early during the application lifecycle, make sure to
limit the dependencies that your |
Spring Boot will attempt to validate @ConfigurationProperties
classes whenever they
are annotated with Spring’s @Validated
annotation. You can use JSR-303 javax.validation
constraint annotations directly on your configuration class. Simply ensure that a
compliant JSR-303 implementation is on your classpath, then add constraint annotations to
your fields:
@ConfigurationProperties(prefix="foo") @Validated public class FooProperties { @NotNull private InetAddress remoteAddress; // ... getters and setters }
In order to validate values of nested properties, you must annotate the associated field
as @Valid
to trigger its validation. For example, building upon the above
FooProperties
example:
@ConfigurationProperties(prefix="connection") @Validated public class FooProperties { @NotNull private InetAddress remoteAddress; @Valid private final Security security = new Security(); // ... getters and setters public static class Security { @NotEmpty public String username; // ... getters and setters } }
You can also add a custom Spring Validator
by creating a bean definition called
configurationPropertiesValidator
. The @Bean
method should be declared static
. The
configuration properties validator is created very early in the application’s lifecycle
and declaring the @Bean
method as static allows the bean to be created without having to
instantiate the @Configuration
class. This avoids any problems that may be caused by
early instantiation. There is a
property
validation sample so you can see how to set things up.
Tip | |
---|---|
The |
@Value
is a core container feature and it does not provide the same features as
type-safe Configuration Properties. The table below summarizes the features that are
supported by @ConfigurationProperties
and @Value
:
Feature | @ConfigurationProperties | @Value |
---|---|---|
Yes | No | |
Yes | No | |
| No | Yes |
If you define a set of configuration keys for your own components, we recommend you to
group them in a POJO annotated with @ConfigurationProperties
. Please also be aware
that since @Value
does not support relaxed binding, it isn’t a great candidate if you
need to provide the value using environment variables.
Finally, while you can write a SpEL
expression in @Value
, such expressions are not
processed from Application
property files.