The microprofile-config
quickstart demonstrates the use of the MicroProfile Config specification in {productName}.
MicroProfile Config allows users to externalize their configuration from their application code. Users can modify the configuration from outside of the application so they can change it without the need to rebuild their applications. It exposes the configuration values to the application code through the CDI injection.
In this quickstart, we have a collection of CDI beans that expose functionalities of the MicroProfile Config specification. The individual externally configured values are provided to the users through a set of REST endpoints.
We recommend that you follow the instructions that create the application step by step. However, you can also go right to the completed example which is available in this directory.
mvn archetype:generate \
-DgroupId=org.wildfly.quickstarts \
-DartifactId=microprofile-config \
-DinteractiveMode=false \
-DarchetypeGroupId=org.apache.maven.archetypes \
-DarchetypeArtifactId=maven-archetype-webapp
cd microprofile-config
Open the project in your favourite IDE.
Open the generated pom.xml
:
The first thing to do is to setup our dependencies. Add the following section to your
pom.xml
:
<dependencyManagement>
<dependencies>
<!-- importing the microprofile BOM adds MicroProfile specs -->
<dependency>
<groupId>org.wildfly.bom</groupId>
<artifactId>wildfly-microprofile</artifactId>
<version>{versionMicroprofileBom}</version>
<type>pom</type>
<scope>import</scope>
</dependency>
</dependencies>
</dependencyManagement>
Now we need to add the following two dependencies:
<!-- Import the MicroProfile Config API, we use provided scope as the API is included in the server -->
<dependency>
<groupId>org.eclipse.microprofile.config</groupId>
<artifactId>microprofile-config-api</artifactId>
<scope>provided</scope>
</dependency>
<!-- Import the CDI API, we use provided scope as the API is included in the server -->
<dependency>
<groupId>jakarta.enterprise</groupId>
<artifactId>jakarta.enterprise.cdi-api</artifactId>
<scope>provided</scope>
</dependency>
<!-- Import the Jakarta REST API, we use provided scope as the API is included in the server -->
<dependency>
<groupId>org.jboss.spec.javax.ws.rs</groupId>
<artifactId>jboss-jaxrs-api_2.1_spec</artifactId>
<scope>provided</scope>
</dependency>
Note
|
Because MicroProfile Config uses CDI injection to expose configuration values to the user application we need to also include the CDI API dependency. |
All dependencies can have provided scope.
As we are going to be deploying this application to the {productName} server, let’s also add a maven plugin that will simplify the deployment operations (you can replace the generated build section):
<build>
<!-- Set the name of the archive -->
<finalName>${project.artifactId}</finalName>
<plugins>
<!-- Allows to use mvn wildfly:deploy -->
<plugin>
<groupId>org.wildfly.plugins</groupId>
<artifactId>wildfly-maven-plugin</artifactId>
</plugin>
</plugins>
</build>
As this is a Jakarta REST application we need to also create an application class.
Create org.wildfly.quickstarts.microprofile.config.JaxRsApplication
with the following content:
Note
|
The new file should be created in
src/main/java/org/quickstarts/microprofile/config/JaxRsApplication.java .
|
package org.wildfly.quickstarts.microprofile.config;
import javax.ws.rs.ApplicationPath;
import javax.ws.rs.core.Application;
@ApplicationPath("/")
public class JaxRsApplication extends Application {
}
Now we are ready to start working with MicroProfile Config.
Let’s start by creating a new CDI bean which will use for the injection of our
configuration values. This CDI bean will also be a JAX-RS resource. Create a new
class org.wildfly.quickstarts.microprofile.config.ConfigResource
;
To inject any configuration value, MicroProfile Config provides a custom qualifier
ConfigProperty
:
package org.wildfly.quickstarts.microprofile.config;
import org.eclipse.microprofile.config.inject.ConfigProperty;
import javax.enterprise.context.ApplicationScoped;
import javax.inject.Inject;
import javax.ws.rs.GET;
import javax.ws.rs.Path;
@Path("/config")
@ApplicationScoped
public class ConfigResource {
@Inject
@ConfigProperty(name = "config.prop")
private String configValue;
@GET
@Path("/value")
public String getValue() {
return configValue;
}
}
As you can see, we are injecting a String
configuration value named config.prop
directly into our CDI bean (annotated with @ApplicationScoped
) which is also at the
same time a REST endpoint.
Let’s try to deploy this application to the application server. There are several ways of how you can specify the value of your configuration properties which the specification calls config sources. By default each MicroProfile Config implementation must provide at least three default config sources:
-
System properties
-
Environment properties
-
META-INF/microprofile-config.properties file
If the same configuration value is defined by several config sources at the same time, it is resolved based on the config sources priority. The default config sources are prioritized in descending order (system properties, environment properties, and microprofile-config.properties). So we look for the configuration value in the environment properties only if we cannot find it in the system properties.
Now we can start configuring our application. As specified above, the lowest
ranking of the default config sources has the microprofile-config.properties file.
So let’s create a new file in our
src/main/resources/META-INF/microprofile-config.properties
with the following
content:
config.prop=MyPropertyFileConfigValue
Now we can test our application correctly recognizes the configuration value:
-
Start your {productName} server
-
Package and deploy your application:
$ mvn clean package wildfly:deploy
To check that the {productName} is working as expected:
-
access the
http://localhost:8080/microprofile-config/config/value
endpoint using your browser orcurl http://localhost:8080/microprofile-config/config/value
You will see that the returned value is our configured system property
MyPropertyFileConfigValue
.
As said above, there are three different default config sources. So far we have
seen only the microprofile-config.properties
file which has the lowest priority.
Let’s override our configuration value with an environment property which has
a bigger priority:
-
Stop you {productName} server
-
Set the environment propety
CONFIG_PROP
(the name is defined by the specification):export CONFIG_PROP=MyEnvPropConfigValue
-
Start your {productName} server again
-
access the
http://localhost:8080/microprofile-config/config/value
endpoint using your browser orcurl http://localhost:8080/microprofile-config/config/value
You can see that our configuration value defined in the configuration file was
now overridden by the environment property and the value MyEnvPropConfigValue
is returned.
The last default config source is the system properties which has the highest priority:
-
Stop you {productName} server
-
Start your {productName} server with the
-Dconfig.prop=MySysPropConfigValue
-
access the
http://localhost:8080/microprofile-config/config/value
endpoint using your browser orcurl http://localhost:8080/microprofile-config/config/value
The configuration property was overriden again and the value MySysPropConfigValue
is returned.
We covered the basic injection and the default config sources provided by the MicroProfile Config specification. Let’s see what else the MicroProfile Config can offer.
In our first example we injected a concrete String
value:
@Inject
@ConfigProperty(name = "config.prop")
private String configValue;
The ConfigProperty
qualifier contains one more optional parameter called the
defaultValue
. As the name says, this parameter sets the default value if the
configuration property is not found in any of the config sources.
To demonstrate how this works, let’s define a new configuration property without the default value:
-
Add the following code to
org.wildfly.quickstarts.microprofile.config.ConfigResource
:
@Inject
@ConfigProperty(name = "required.prop")
private String requiredProp;
@GET
@Path("/required")
public String getRequiredProp() {
return requiredProp;
}
-
Build and redeploy the application
$ mvn clean package wildfly:deploy
The deployment will fail with the following error:
Caused by: org.jboss.weld.exceptions.DeploymentException: No Config Value exists for required property required.prop
because the required configuration property required.prop
wasn’t defined. Let’s
fix this by providing a default value for this property if it’s not found in any
of the config sources:
@Inject
@ConfigProperty(name = "required.prop", defaultValue = "Default required prop value")
private String requiredProp;
Build and redeploy the application
$ mvn clean package wildfly:deploy
The application should now deploy without any errors and if access the
http://localhost:8080/microprofile-config/config/required
endpoint
using your browser or
curl http://localhost:8080/microprofile-config/config/required
you
will see the default value that we configured in the ConfigProperty
qualifier.
However, this is not the only way how you can deal with the situation when the configuration value is not provided. MicroProfile Config allows you to define different types of injections:
-
concrete values (String, int, double, …) — see the default converters later
-
optional values (Optional<T>) — if the value is not found the specification injects
Optional.empty()
so the application can still be successfully deployed even if the configuration property is undefined -
always reloaded values (Provider<T>) — the value will be reevaluated with every access (see later with custom config sources)
Let’s add a new configuration property optional.prop
with the type
Optional<String>
and corresponding endpoint:
@Inject
@ConfigProperty(name = "optional.prop")
private Optional<String> optionalString;
@GET
@Path("/optional")
public String getOptionalValue() {
return optionalString.orElse("no optional value provided, use this as the default");
}
Build and redeploy the application
$ mvn clean package wildfly:deploy
If you now access the
http://localhost:8080/microprofile-config/config/optional
endpoint
using your browser or
curl http://localhost:8080/microprofile-config/config/optional
you
will get back the orElse
value because the optional.prop
was not defined
in our config sources.
Last but not least, MicroProfile Config also allows you to inject the whole
configuration collected from all config sources as a single object instance of
the Config
interface which provides a programmatic access to the configuration.
Add the following code to org.wildfly.quickstarts.microprofile.config.ConfigResource
:
@Inject
private Config config;
@GET
@Path("/all-props")
public String getConfigPropertyNames() {
return config.getPropertyNames().toString();
}
Build and redeploy the application
$ mvn clean package wildfly:deploy
Access the http://localhost:8080/microprofile-config/config/all-props
endpoint using your browser or
curl http://localhost:8080/microprofile-config/config/all-props
and
you will see all available configuration property names.
Note
|
You can investigate also the other methods of the Config interface.
|
MicroProfile Config allows you to define your own custom configuration sources
to extend the three default ones provided by the implementation. To define your
custom configuration source you need to provide a class which implements either
org.eclipse.microprofile.config.spi.ConfigSource
or
org.eclipse.microprofile.config.spi.ConfigSourceProvider
and define it through
the service file
which will be detected and installed at application startup/deployment.
Let’s define a custom config source with some predefined values. First create
a new REST resource
org.wildfly.quickstarts.microprofile.config.CustomConfigResource
which will be enclosing
our custom configurations:
package org.wildfly.quickstarts.microprofile.config;
import org.eclipse.microprofile.config.inject.ConfigProperty;
import javax.inject.Inject;
import javax.ws.rs.GET;
import javax.ws.rs.Path;
@Path("/custom-config")
public class CustomConfigResource {
@Inject
@ConfigProperty(name = "custom.config.source.prop")
private String customConfigSourceProp;
@GET
@Path("/value")
public String getCustomConfigSourceProp() {
return customConfigSourceProp;
}
}
Let’s now define a custom configuration source that will provide
custom.config.source.prop
configuration property. Create a new class
org.wildfly.quickstarts.microprofile.config.custom.CustomConfigSource
:
package org.wildfly.quickstarts.microprofile.config.custom;
import org.eclipse.microprofile.config.spi.ConfigSource;
import java.util.HashMap;
import java.util.Map;
public class CustomConfigSource implements ConfigSource {
private final Map<String, String> properties;
public CustomConfigSource() {
properties = new HashMap<>();
properties.put("custom.config.source.prop", "MyCustomValue");
}
@Override
public Map<String, String> getProperties() {
return properties;
}
@Override
public String getValue(String propertyName) {
return properties.get(propertyName);
}
@Override
public String getName() {
return "Custom Config Source with predefined values";
}
@Override
public int getOrdinal() {
return 400;
}
}
We only need to override the necessary methods required to get the properties and
to set the config source name. In this example, we also override the getOrdinal
method which sets the config source priority to be higher than any of the default
config sources.
The last thing we need to do is to include our custom configuration source service
loader definition. Create
src/main/resources/META-INF/services/org.eclipse.microprofile.config.spi.ConfigSource
with the following content:
org.wildfly.quickstarts.microprofile.config.custom.CustomConfigSource
.
Build and redeploy the application
$ mvn clean package wildfly:deploy
If you now access the
http://localhost:8080/microprofile-config/custom-config/value
endpoint using your browser or
curl http://localhost:8080/microprofile-config/custom-config/value
you will get back the configuration value MyCustomValue
defined in our custom
configuration source.
If you would like to have a more programmatic approach to the definition of
different ConfigSource
s, you can use
org.eclipse.microprofile.config.spi.ConfigSourceProvider
. Let’s create a
ConfigSourceProvider
that defines a dynamic ConfigSource
. Create a new class
org.wildfly.quickstarts.microprofile.config.custom.CustomPropertiesFileProvider
:
package org.wildfly.quickstarts.microprofile.config.custom;
import org.eclipse.microprofile.config.spi.ConfigSource;
import org.eclipse.microprofile.config.spi.ConfigSourceProvider;
import java.io.FileInputStream;
import java.nio.file.Files;
import java.nio.file.Path;
import java.nio.file.Paths;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Properties;
import java.util.stream.Collectors;
public class CustomPropertiesFileProvider implements ConfigSourceProvider {
@Override
public Iterable<ConfigSource> getConfigSources(ClassLoader forClassLoader) {
List<ConfigSource> configSources = new ArrayList<>();
configSources.add(new ConfigSource() {
@Override
public Map<String, String> getProperties() {
return reloadPropertiesFile();
}
@Override
public String getValue(String propertyName) {
return reloadPropertiesFile().get(propertyName);
}
@Override
public String getName() {
return "Custom dynamic configuration source";
}
});
return configSources;
}
private Map<String, String> reloadPropertiesFile() {
Properties properties = new Properties();
Path customPropertiesPath = Paths.get(System.getenv("JBOSS_HOME") + "/custom.properties");
if (!Files.exists(customPropertiesPath)) {
return new HashMap<>();
}
try (FileInputStream is = new FileInputStream(customPropertiesPath.toFile())) {
properties.load(is);
} catch (Exception e) {
throw new RuntimeException(e);
}
return properties.entrySet().stream().collect(
Collectors.toMap(
entry -> entry.getKey().toString(),
entry -> entry.getValue().toString()
)
);
}
}
Important
|
This requires that the JBOSS_HOME environment variable is set.
|
Note
|
Note that our new custom ConfigSource reloads the property file on every
access.
|
As you can see above, our custom configuration source is accessing a file
named custom.properties
which needs to be created in your {productName}
root directory (JBOSS_HOME
):
custom.provided.prop=FileSystemCustomConfigValue
And as previously we need the service loader definition
src/main/resources/META-INF/services/org.eclipse.microprofile.config.spi.ConfigSourceProvider
with the content:
org.wildfly.quickstarts.microprofile.config.custom.CustomPropertiesFileProvider
.
Let’s define a new endpoint for accessing this custom dynamic config source.
Add the following code to the
org.wildfly.quickstarts.microprofile.config.CustomConfigResource
:
@Inject
@ConfigProperty(name = "custom.provided.prop", defaultValue = "default")
private Provider<String> providedCustomProp;
@GET
@Path("/reloaded-value")
public String providedCustomProp() {
return providedCustomProp.get();
}
Note that we are now using javax.inject.Provider
as an injected type. This means
that our value will be reloaded from config sources on every access. Since we are
reloading the property file from the file system on every access this allows us to
change the configuration dynamically without the need to restart the {productName}
server or to redeploy the application.
Build and redeploy the application:
$ mvn clean package wildfly:deploy
If you now access the
http://localhost:8080/microprofile-config/custom-config/reloaded-value
endpoint using your browser or
curl http://localhost:8080/microprofile-config/custom-config/reloaded-value
you will get back the configuration value FileSystemCustomConfigValue
defined
in our custom configuration file. But if you now change the custom.properties
file (without stopping of the server or the need to redeploy the application)
and repeat the invocation at
http://localhost:8080/microprofile-config/custom-config/reloaded-value
you will see that the value is dynamically reloaded:
-
change
$JBOSS_HOME/custom.properties
(don’t forget to save the file):
custom.provided.prop=DynamicallyUpdatedValue
-
repeat the invocation at
http://localhost:8080/microprofile-config/custom-config/reloaded-value
You will see that the value DynamicallyUpdatedValue
is returned. If you repeat
this with different values of custom.provide.prop
it will always get reloaded.
The MicroProfile Config provides several default converters from the configuration
values which are typed as String
s (e.g. int
, Integer
, Double
, float
, …).
However, you can also use your custom types as a configuration values. This can be
done by implementing
org.eclipse.microprofile.config.spi.Converter<T>
and adding its fully qualified
class name in the
META-INF/services/org.eclipse.microprofile.config.spi.Converter
file. Let’s create
a new class
org.wildfly.quickstarts.microprofile.config.converter.type.MicroProfileCustomValue
:
package org.wildfly.quickstarts.microprofile.config.converter.type;
public class MicroProfileCustomValue {
private String name;
public MicroProfileCustomValue(String name) {
this.name = name;
}
public String getName() {
return name;
}
}
which represents our custom value and the corresponding
Converter<MicroProfileCustomValue>
implementation
org.wildfly.quickstarts.microprofile.config.converter.MicroProfileCustomValueConverter
:
package org.wildfly.quickstarts.microprofile.config.converter;
import org.eclipse.microprofile.config.spi.Converter;
import org.wildfly.quickstarts.microprofile.config.converter.type.MicroProfileCustomValue;
public class MicroProfileCustomValueConverter implements Converter<MicroProfileCustomValue> {
@Override
public MicroProfileCustomValue convert(String value) {
return new MicroProfileCustomValue(value);
}
}
Note
|
Please note that your custom converter class must be public and must have a public no-argument constructor. It also must not be abstract. |
Then you need to include the fully qualified class name of the converter in a
service file
src/main/resources/META-INF/services/org.eclipse.microprofile.config.spi.Converter
:
org.wildfly.quickstarts.microprofile.config.converter.MicroProfileCustomValueConverter
After this is done you can use your custom type as a configuration value. Create
a new resource class org.wildfly.quickstarts.microprofile.config.ConverterResource
:
package org.wildfly.quickstarts.microprofile.config;
import org.eclipse.microprofile.config.inject.ConfigProperty;
import org.wildfly.quickstarts.microprofile.config.converter.type.MicroProfileCustomValue;
import javax.inject.Inject;
import javax.ws.rs.GET;
import javax.ws.rs.Path;
@Path("/converter")
public class ConverterResource {
@Inject
@ConfigProperty(name = "custom.converter.prop")
private MicroProfileCustomValue microProfileCustomValue;
@GET
@Path("/value")
public String customConverterProp() {
return microProfileCustomValue.getName();
}
}
And define the custom.converter.prop
in, for instance,
microprofile-config.properties
file.
custom.converter.prop=MyCustomConverterValue
Build and redeploy the application
$ mvn clean package wildfly:deploy
And now you can access the
http://localhost:8080/microprofile-config/converter/value
endpoint using your browser or
curl http://localhost:8080/microprofile-config/converter/value
to make use of the custom
converter. You will see the configured value which is taken from our created
MicroProfileCustomValue
object.
MicroProfile Config provides a way for your application to separate the configuration from your application code which is a requirement for modern applications targeting containers and cloud deployments. It allows you to adjust every aspect of the configuration according to the application needs. The more information can be found in the MicroProfile config specification.