CDI
Since Camel 2.10
The Camel CDI component provides auto-configuration for Apache Camel
using CDI as dependency injection framework based
on convention-over-configuration. It auto-detects Camel routes
available in the application and provides beans for common Camel
primitives like Endpoint
, FluentProducerTemplate
, ProducerTemplate
or TypeConverter
. It
implements standard Camel bean integration
so that Camel annotations like @Consume
, @Produce
and @PropertyInject
can be used seamlessly in CDI beans. Besides, it
bridges Camel events (e.g. RouteAddedEvent
,
CamelContextStartedEvent
, ExchangeCompletedEvent
, …) as CDI events
and provides a CDI events endpoint that can be used to consume / produce
CDI events from / to Camel routes.
More details on how to test Camel CDI applications are available in Camel CDI testing.
Auto-configured Camel context
Camel CDI automatically deploys and configures a CamelContext
bean.
That CamelContext
bean is automatically instantiated, configured and
started (resp. stopped) when the CDI container initializes (resp. shuts
down). It can be injected in the application, e.g.:
@Inject
CamelContext context;
That default CamelContext
bean is qualified with the
built-in @Default
qualifier, is scoped @ApplicationScoped
and is of
type DefaultCamelContext
.
Note that this bean can be customized programmatically and other Camel context beans can be deployed in the application as well.
Auto-detecting Camel routes
Camel CDI automatically collects all the RoutesBuilder
beans in the
application, instantiates and add them to the CamelContext
bean
instance when the CDI container initializes. For example, adding a Camel
route is as simple as declaring a class, e.g.:
class MyRouteBean extends RouteBuilder {
@Override
public void configure() {
from("jms:invoices").to("file:/invoices");
}
}
Note that you can declare as many RoutesBuilder
beans as you want.
Besides, RouteContainer
beans are also automatically collected,
instantiated and added to the CamelContext
bean instance managed by
Camel CDI when the container initializes.
In some situations, it may be necessary to disable the auto-configuration of the RouteBuilder
and RouteContainer
beans. That can be achieved by observing for the CdiCamelConfiguration
event, e.g.:
static void configuration(@Observes CdiCamelConfiguration configuration) {
configuration.autoConfigureRoutes(false);
}
Similarly, it is possible to deactivate the automatic starting of the configured CamelContext
beans, e.g.:
static void configuration(@Observes CdiCamelConfiguration configuration) {
configuration.autoStartContexts(false);
}
Auto-configured Camel primitives
Camel CDI provides beans for common Camel primitives that can be injected in any CDI beans, e.g.:
@Inject
@Uri("direct:inbound")
ProducerTemplate producerTemplate;
@Inject
@Uri("direct:inbound")
FluentProducerTemplate fluentProducerTemplate;
@Inject
MockEndpoint outbound; // URI defaults to the member name, i.e. mock:outbound
@Inject
@Uri("direct:inbound")
Endpoint endpoint;
@Inject
TypeConverter converter;
Camel context configuration
If you just want to change the name of the default CamelContext
bean,
you can used the @Named
qualifier provided by CDI, e.g.:
@ApplicationScoped
@Named("myCamelName")
class CustomCamelContext extends DefaultCamelContext {
}
Else, if more customization is needed, any CamelContext
class can be
used to declare a custom Camel context bean. Then,
the @PostConstruct
and @PreDestroy
lifecycle callbacks can be done
to do the customization, e.g.:
@ApplicationScoped
class CustomCamelContext extends DefaultCamelContext {
@PostConstruct
void customize() {
// Or set the Camel context name here
setName("custom");
// Disable JMX
disableJMX();
}
@PreDestroy
void cleanUp() {
// ...
}
}
class CamelContextFactory {
@Produces
@ApplicationScoped
CamelContext customize() {
DefaultCamelContext context = new DefaultCamelContext();
context.setName("custom");
return context;
}
void cleanUp(@Disposes CamelContext context) {
// ...
}
}
Similarly, producer fields can be used, e.g.:
@Produces
@ApplicationScoped
CamelContext context = new CustomCamelContext();
class CustomCamelContext extends DefaultCamelContext {
CustomCamelContext() {
setName("custom");
}
}
This pattern can be used for example to avoid having the Camel context
routes started automatically when the container initializes by calling
the setAutoStartup
method, e.g.:
@ApplicationScoped
class ManualStartupCamelContext extends DefaultCamelContext {
@PostConstruct
void manual() {
setAutoStartup(false);
}
}
Configuration properties
To configure the sourcing of the configuration properties used by Camel
to resolve properties placeholders, you can declare
a PropertiesComponent
bean qualified with @Named("properties")
,
e.g.:
@Produces
@ApplicationScoped
@Named("properties")
PropertiesComponent propertiesComponent() {
Properties properties = new Properties();
properties.put("property", "value");
PropertiesComponent component = new PropertiesComponent();
component.setInitialProperties(properties);
component.setLocation("classpath:placeholder.properties");
return component;
}
If you want to
use DeltaSpike
configuration mechanism you can declare the
following PropertiesComponent
bean:
@Produces
@ApplicationScoped
@Named("properties")
PropertiesComponent properties(PropertiesParser parser) {
PropertiesComponent component = new PropertiesComponent();
component.setPropertiesParser(parser);
return component;
}
// PropertiesParser bean that uses DeltaSpike to resolve properties
static class DeltaSpikeParser extends DefaultPropertiesParser {
@Override
public String parseProperty(String key, String value, Properties properties) {
return ConfigResolver.getPropertyValue(key);
}
}
You can see the camel-example-cdi-properties
example for a working
example of a Camel CDI application using DeltaSpike configuration
mechanism.
Auto-configured type converters
CDI beans annotated with the @Converter
annotation are automatically
registered into the deployed Camel contexts, e.g.:
@Converter
public class MyTypeConverter {
@Converter
public Output convert(Input input) {
//...
}
}
Note that CDI injection is supported within the type converters.
Camel bean integration
Camel annotations
As part of the Camel bean integration, Camel comes with a set of annotations that are seamlessly supported by Camel CDI. So you can use any of these annotations in your CDI beans, e.g.:
Camel annotation | CDI equivalent | |
---|---|---|
Configuration property |
|
If using DeltaSpike configuration mechanism:
See configuration properties for more details. |
Producer template injection (default Camel context) |
|
|
Endpoint injection (default Camel context) |
|
@Inject @Uri("direct:inbound") Endpoint contextEndpoint; |
Bean injection (by type) |
|
|
Bean injection (by name) |
|
|
POJO consuming |
|
Bean component
You can refer to CDI beans, either by type or name, From the Camel DSL, e.g. with the Java Camel DSL:
class MyBean {
//...
}
from("direct:inbound").bean(MyBean.class);
Or to lookup a CDI bean by name from the Java DSL:
@Named("foo")
class MyNamedBean {
//...
}
from("direct:inbound").bean("foo");
Referring beans from Endpoint URIs
When configuring endpoints using the URI syntax you can refer to beans
in the Registry using the #
notation. If the URI
parameter value starts with a #
sign then Camel CDI will lookup for a
bean of the given type by name, e.g.:
from("jms:queue:{{destination}}?transacted=true&transactionManager=#jtaTransactionManager").to("...");
Having the following CDI bean qualified
with @Named("jtaTransactionManager")
:
@Produces
@Named("jtaTransactionManager")
PlatformTransactionManager createTransactionManager(TransactionManager transactionManager, UserTransaction userTransaction) {
JtaTransactionManager jtaTransactionManager = new JtaTransactionManager();
jtaTransactionManager.setUserTransaction(userTransaction);
jtaTransactionManager.setTransactionManager(transactionManager);
jtaTransactionManager.afterPropertiesSet();
return jtaTransactionManager;
}
Camel events to CDI events
Camel provides a set of management events that can be subscribed to for listening to Camel context, service, route and exchange events. Camel CDI seamlessly translates these Camel events into CDI events that can be observed using CDI observer methods, e.g.:
void onContextStarting(@Observes CamelContextStartingEvent event) {
// Called before the default Camel context is about to start
}
It is possible to observe events for a particular route (RouteAddedEvent
,
RouteStartedEvent
, RouteStoppedEvent
and RouteRemovedEvent
) should it have
an explicit defined, e.g.:
from("...").routeId("foo").to("...");
void onRouteStarted(@Observes @Named("foo") RouteStartedEvent event) {
// Called after the route "foo" has started
}
Similarly, the @Default
qualifier can be used to observe Camel events
for the default Camel context if multiples contexts exist, e.g.:
void onExchangeCompleted(@Observes @Default ExchangeCompletedEvent event) {
// Called after the exchange 'event.getExchange()' processing has completed
}
In that example, if no qualifier is specified, the @Any
qualifier is
implicitly assumed, so that corresponding events for all the Camel
contexts get received.
Note that the support for Camel events translation into CDI events is only activated if observer methods listening for Camel events are detected in the deployment, and that per Camel context.
CDI events endpoint
The CDI event endpoint bridges the CDI events with the Camel routes so that CDI events can be seamlessly observed / consumed (resp. produced / fired) from Camel consumers (resp. by Camel producers).
The CdiEventEndpoint<T>
bean provided by Camel CDI can be used to
observe / consume CDI events whose event type is T
, for example:
@Inject
CdiEventEndpoint<String> cdiEventEndpoint;
from(cdiEventEndpoint).log("CDI event received: ${body}");
This is equivalent to writing:
@Inject
@Uri("direct:event")
ProducerTemplate producer;
void observeCdiEvents(@Observes String event) {
producer.sendBody(event);
}
from("direct:event").log("CDI event received: ${body}");
Conversely, the CdiEventEndpoint<T>
bean can be used to produce / fire
CDI events whose event type is T
, for example:
@Inject
CdiEventEndpoint<String> cdiEventEndpoint;
from("direct:event").to(cdiEventEndpoint).log("CDI event sent: ${body}");
This is equivalent to writing:
@Inject
Event<String> event;
from("direct:event").process(new Processor() {
@Override
public void process(Exchange exchange) {
event.fire(exchange.getBody(String.class));
}
}).log("CDI event sent: ${body}");
Or using a Java 8 lambda expression:
@Inject
Event<String> event;
from("direct:event")
.process(exchange -> event.fire(exchange.getIn().getBody(String.class)))
.log("CDI event sent: ${body}");
The type variable T
(resp. the qualifiers) of a
particular CdiEventEndpoint<T>
injection point are automatically
translated into the parameterized event type (resp. into the event
qualifiers) e.g.:
@Inject
@FooQualifier
CdiEventEndpoint<List<String>> cdiEventEndpoint;
from("direct:event").to(cdiEventEndpoint);
void observeCdiEvents(@Observes @FooQualifier List<String> event) {
logger.info("CDI event: {}", event);
}
Note that the CDI event Camel endpoint dynamically adds an observer method for each unique combination of event type and event qualifiers and solely relies on the container typesafe observer resolution, which leads to an implementation as efficient as possible.
Besides, as the impedance between the typesafe nature of CDI and the dynamic nature of the Camel component model is quite high, it is not possible to create an instance of the CDI event Camel endpoint via URIs. Indeed, the URI format for the CDI event component is:
cdi-event://PayloadType<T1,...,Tn>[?qualifiers=QualifierType1[,...[,QualifierTypeN]...]]
With the authority PayloadType
(resp. the QualifierType
) being the
URI escaped fully qualified name of the payload (resp. qualifier) raw
type followed by the type parameters section delimited by angle brackets
for payload parameterized type. Which leads to unfriendly URIs,
e.g.:
cdi-event://org.apache.camel.cdi.example.EventPayload%3Cjava.lang.Integer%3E?qualifiers=org.apache.camel.cdi.example.FooQualifier%2Corg.apache.camel.cdi.example.BarQualifier
But more fundamentally, that would prevent efficient binding between the endpoint instances and the observer methods as the CDI container doesn’t have any ways of discovering the Camel context model during the deployment phase.
Camel XML configuration import
While CDI favors a typesafe dependency injection mechanism, it may be useful to reuse existing Camel XML configuration files into a Camel CDI application. In other use cases, it might be handy to rely on the Camel XML DSL to configure its Camel context(s).
You can use the @ImportResource
annotation that’s provided by Camel
CDI on any CDI beans and Camel CDI will automatically load the Camel XML
configuration at the specified locations, e.g.:
@ImportResource("camel-context.xml")
class MyBean {
}
Camel CDI will load the resources at the specified locations from the classpath (other protocols may be added in the future).
Every CamelContext
elements and other Camel primitives from the
imported resources are automatically deployed as CDI beans during the
container bootstrap so that they benefit from the auto-configuration
provided by Camel CDI and become available for injection at runtime. If
such an element has an explicit id
attribute set, the corresponding
CDI bean is qualified with the @Named
qualifier, e.g., given the
following Camel XML configuration:
<camelContext id="foo">
<endpoint id="bar" uri="seda:inbound">
<property key="queue" value="#queue"/>
<property key="concurrentConsumers" value="10"/>
</endpoint>
<camelContext/>
The corresponding CDI beans are automatically deployed and can be injected, e.g.:
@Inject
CamelContext context;
@Inject
@Named("bar")
Endpoint endpoint;
Conversely, CDI beans deployed in the application can be referred to
from the Camel XML configuration, usually using the ref
attribute,
e.g., given the following bean declared:
@Produces
@Named("baz")
Processor processor = exchange -> exchange.getIn().setHeader("qux", "quux");
A reference to that bean can be declared in the imported Camel XML configuration, e.g.:
<camelContext id="foo">
<route>
<from uri="..."/>
<process ref="baz"/>
</route>
<camelContext/>
Transaction support
Camel CDI provides support for Camel transactional client using JTA.
That support is optional hence you need to have JTA in your application classpath, e.g., by explicitly add JTA as a dependency when using Maven:
<dependency>
<groupId>javax.transaction</groupId>
<artifactId>javax.transaction-api</artifactId>
<scope>runtime</scope>
</dependency>
You’ll have to have your application deployed in a JTA capable container or provide a standalone JTA implementation.
Note that, for the time being, the transaction manager is looked up as JNDI resource with the More flexible strategies will be added in the future to support a wider range of deployment scenarios. |
Transaction policies
Camel CDI provides implementation for the typically supported Camel TransactedPolicy
as CDI beans. It is possible to have these policies looked up by name using the transacted EIP, e.g.:
class MyRouteBean extends RouteBuilder {
@Override
public void configure() {
from("activemq:queue:foo")
.transacted("PROPAGATION_REQUIRED")
.bean("transformer")
.to("jpa:my.application.entity.Bar")
.log("${body.id} inserted");
}
}
This would be equivalent to:
class MyRouteBean extends RouteBuilder {
@Inject
@Named("PROPAGATION_REQUIRED")
Policy required;
@Override
public void configure() {
from("activemq:queue:foo")
.policy(required)
.bean("transformer")
.to("jpa:my.application.entity.Bar")
.log("${body.id} inserted");
}
}
The list of supported transaction policy names is:
-
PROPAGATION_NEVER
, -
PROPAGATION_NOT_SUPPORTED
, -
PROPAGATION_SUPPORTS
, -
PROPAGATION_REQUIRED
, -
PROPAGATION_REQUIRES_NEW
, -
PROPAGATION_NESTED
, -
PROPAGATION_MANDATORY
.
Transactional error handler
Camel CDI provides a transactional error handler that extends the redelivery error handler, forces a rollback whenever an exception occurs and creates a new transaction for each redelivery.
Camel CDI provides the CdiRouteBuilder
class that exposes the transactionErrorHandler
helper method to enable quick access to the configuration, e.g.:
class MyRouteBean extends CdiRouteBuilder {
@Override
public void configure() {
errorHandler(transactionErrorHandler()
.setTransactionPolicy("PROPAGATION_SUPPORTS")
.maximumRedeliveries(5)
.maximumRedeliveryDelay(5000)
.collisionAvoidancePercent(10)
.backOffMultiplier(1.5));
}
}
Lazy Injection / Programmatic Lookup
While the CDI programmatic model favors a typesafe resolution mechanism that occurs at application initialization time, it is possible to perform dynamic / lazy injection later during the application execution using the programmatic lookup mechanism.
Camel CDI provides for convenience the annotation literals corresponding to the
CDI qualifiers that you can use for standard injection of Camel primitives.
These annotation literals can be used in conjunction with the javax.enterprise.inject.Instance
interface which is the CDI entry point to perform lazy injection / programmatic lookup.
For example, you can use the provided annotation literal for the @Uri
qualifier
to lazily lookup for Camel primitives, e.g. for ProducerTemplate
beans:
@Any
@Inject
Instance<ProducerTemplate> producers;
ProducerTemplate inbound = producers
.select(Uri.Literal.of("direct:inbound"))
.get();
Or for Endpoint
beans, e.g.:
@Any
@Inject
Instance<Endpoint> endpoints;
MockEndpoint outbound = endpoints
.select(MockEndpoint.class, Uri.Literal.of("mock:outbound"))
.get();
Maven Archetype
Among the available Camel Maven
archetypes, you can use the provided camel-archetype-cdi
to generate
a Camel CDI Maven project, e.g.:
mvn archetype:generate -DarchetypeGroupId=org.apache.camel.archetypes -DarchetypeArtifactId=camel-archetype-cdi