CXF

Since Camel 1.0

Both producer and consumer are supported

The CXF component provides integration with Apache CXF for connecting to JAX-WS services hosted in CXF.

When using CXF in streaming mode - check the DataFormat options below, then also read about stream caching.

Maven users must add the following dependency to their pom.xml for this component:

<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-cxf-soap</artifactId>
    <version>x.x.x</version>
    <!-- use the same version as your Camel core version -->
</dependency>

URI format

There are two URI formats for this endpoint: cxfEndpoint and someAddress.

cxf:bean:cxfEndpoint[?options]

Where cxfEndpoint represents a bean ID that references a bean in the Spring bean registry. With this URI format, most of the endpoint details are specified in the bean definition.

cxf://someAddress[?options]

Where someAddress specifies the CXF endpoint’s address. With this URI format, most of the endpoint details are specified using options.

For either style above, you can append options to the URI as follows:

cxf:bean:cxfEndpoint?wsdlURL=wsdl/hello_world.wsdl&dataFormat=PAYLOAD

Configuring Options

Camel components are configured on two separate levels:

  • component level

  • endpoint level

Configuring Component Options

At the component level, you set general and shared configurations that are, then, inherited by the endpoints. It is the highest configuration level.

For example, a component may have security settings, credentials for authentication, urls for network connection and so forth.

Some components only have a few options, and others may have many. Because components typically have pre-configured defaults that are commonly used, then you may often only need to configure a few options on a component; or none at all.

You can configure components using:

  • the Component DSL.

  • in a configuration file (application.properties, *.yaml files, etc).

  • directly in the Java code.

Configuring Endpoint Options

You usually spend more time setting up endpoints because they have many options. These options help you customize what you want the endpoint to do. The options are also categorized into whether the endpoint is used as a consumer (from), as a producer (to), or both.

Configuring endpoints is most often done directly in the endpoint URI as path and query parameters. You can also use the Endpoint DSL and DataFormat DSL as a type safe way of configuring endpoints and data formats in Java.

A good practice when configuring options is to use Property Placeholders.

Property placeholders provide a few benefits:

  • They help prevent using hardcoded urls, port numbers, sensitive information, and other settings.

  • They allow externalizing the configuration from the code.

  • They help the code to become more flexible and reusable.

The following two sections list all the options, firstly for the component followed by the endpoint.

Component Options

The CXF component supports 7 options, which are listed below.

Name Description Default Type

bridgeErrorHandler (consumer)

Allows for bridging the consumer to the Camel routing Error Handler, which mean any exceptions (if possible) occurred while the Camel consumer is trying to pickup incoming messages, or the likes, will now be processed as a message and handled by the routing Error Handler. Important: This is only possible if the 3rd party component allows Camel to be alerted if an exception was thrown. Some components handle this internally only, and therefore bridgeErrorHandler is not possible. In other situations we may improve the Camel component to hook into the 3rd party component and make this possible for future releases. By default the consumer will use the org.apache.camel.spi.ExceptionHandler to deal with exceptions, that will be logged at WARN or ERROR level and ignored.

false

boolean

lazyStartProducer (producer)

Whether the producer should be started lazy (on the first message). By starting lazy you can use this to allow CamelContext and routes to startup in situations where a producer may otherwise fail during starting and cause the route to fail being started. By deferring this startup to be lazy then the startup failure can be handled during routing messages via Camel’s routing error handlers. Beware that when the first message is processed then creating and starting the producer may take a little time and prolong the total processing time of the processing.

false

boolean

synchronous (producer (advanced))

Sets whether synchronous processing should be strictly used.

false

boolean

allowStreaming (advanced)

This option controls whether the CXF component, when running in PAYLOAD mode, will DOM parse the incoming messages into DOM Elements or keep the payload as a javax.xml.transform.Source object that would allow streaming in some cases.

Boolean

autowiredEnabled (advanced)

Whether autowiring is enabled. This is used for automatic autowiring options (the option must be marked as autowired) by looking up in the registry to find if there is a single instance of matching type, which then gets configured on the component. This can be used for automatic configuring JDBC data sources, JMS connection factories, AWS Clients, etc.

true

boolean

headerFilterStrategy (filter)

To use a custom org.apache.camel.spi.HeaderFilterStrategy to filter header to and from Camel message.

HeaderFilterStrategy

useGlobalSslContextParameters (security)

Enable usage of global SSL context parameters.

false

boolean

Endpoint Options

The CXF endpoint is configured using URI syntax:

cxf:beanId:address

With the following path and query parameters:

Path Parameters (2 parameters)

Name Description Default Type

beanId (common)

To lookup an existing configured CxfEndpoint. Must used bean: as prefix.

String

address (service)

The service publish address.

String

Query Parameters (36 parameters)

Name Description Default Type

dataFormat (common)

The data type messages supported by the CXF endpoint.

Enum values:

  • PAYLOAD

  • RAW

  • MESSAGE

  • CXF_MESSAGE

  • POJO

POJO

DataFormat

wrappedStyle (common)

The WSDL style that describes how parameters are represented in the SOAP body. If the value is false, CXF will chose the document-literal unwrapped style, If the value is true, CXF will chose the document-literal wrapped style.

Boolean

bridgeErrorHandler (consumer (advanced))

Allows for bridging the consumer to the Camel routing Error Handler, which mean any exceptions (if possible) occurred while the Camel consumer is trying to pickup incoming messages, or the likes, will now be processed as a message and handled by the routing Error Handler. Important: This is only possible if the 3rd party component allows Camel to be alerted if an exception was thrown. Some components handle this internally only, and therefore bridgeErrorHandler is not possible. In other situations we may improve the Camel component to hook into the 3rd party component and make this possible for future releases. By default the consumer will use the org.apache.camel.spi.ExceptionHandler to deal with exceptions, that will be logged at WARN or ERROR level and ignored.

false

boolean

exceptionHandler (consumer (advanced))

To let the consumer use a custom ExceptionHandler. Notice if the option bridgeErrorHandler is enabled then this option is not in use. By default the consumer will deal with exceptions, that will be logged at WARN or ERROR level and ignored.

ExceptionHandler

exchangePattern (consumer (advanced))

Sets the exchange pattern when the consumer creates an exchange.

Enum values:

  • InOnly

  • InOut

ExchangePattern

cookieHandler (producer)

Configure a cookie handler to maintain a HTTP session.

CookieHandler

defaultOperationName (producer)

This option will set the default operationName that will be used by the CxfProducer which invokes the remote service.

String

defaultOperationNamespace (producer)

This option will set the default operationNamespace that will be used by the CxfProducer which invokes the remote service.

String

hostnameVerifier (producer)

The hostname verifier to be used. Use the # notation to reference a HostnameVerifier from the registry.

HostnameVerifier

sslContextParameters (producer)

The Camel SSL setting reference. Use the # notation to reference the SSL Context.

SSLContextParameters

wrapped (producer)

Which kind of operation that CXF endpoint producer will invoke.

false

boolean

lazyStartProducer (producer (advanced))

Whether the producer should be started lazy (on the first message). By starting lazy you can use this to allow CamelContext and routes to startup in situations where a producer may otherwise fail during starting and cause the route to fail being started. By deferring this startup to be lazy then the startup failure can be handled during routing messages via Camel’s routing error handlers. Beware that when the first message is processed then creating and starting the producer may take a little time and prolong the total processing time of the processing.

false

boolean

synchronous (producer (advanced))

Sets whether synchronous processing should be strictly used.

false

boolean

allowStreaming (advanced)

This option controls whether the CXF component, when running in PAYLOAD mode, will DOM parse the incoming messages into DOM Elements or keep the payload as a javax.xml.transform.Source object that would allow streaming in some cases.

Boolean

bus (advanced)

To use a custom configured CXF Bus.

Bus

continuationTimeout (advanced)

This option is used to set the CXF continuation timeout which could be used in CxfConsumer by default when the CXF server is using Jetty or Servlet transport.

30000

long

cxfBinding (advanced)

To use a custom CxfBinding to control the binding between Camel Message and CXF Message.

CxfBinding

cxfConfigurer (advanced)

This option could apply the implementation of org.apache.camel.component.cxf.CxfEndpointConfigurer which supports to configure the CXF endpoint in programmatic way. User can configure the CXF server and client by implementing configure{ServerClient} method of CxfEndpointConfigurer.

CxfConfigurer

defaultBus (advanced)

Will set the default bus when CXF endpoint create a bus by itself.

false

boolean

headerFilterStrategy (advanced)

To use a custom HeaderFilterStrategy to filter header to and from Camel message.

HeaderFilterStrategy

mergeProtocolHeaders (advanced)

Whether to merge protocol headers. If enabled then propagating headers between Camel and CXF becomes more consistent and similar. For more details see CAMEL-6393.

false

boolean

mtomEnabled (advanced)

To enable MTOM (attachments). This requires to use POJO or PAYLOAD data format mode.

false

boolean

properties (advanced)

To set additional CXF options using the key/value pairs from the Map. For example to turn on stacktraces in SOAP faults, properties.faultStackTraceEnabled=true.

Map

schemaValidationEnabled (advanced)

Enable schema validation for request and response. Disabled by default for performance reason.

false

Boolean

skipPayloadMessagePartCheck (advanced)

Sets whether SOAP message validation should be disabled.

false

boolean

loggingFeatureEnabled (logging)

This option enables CXF Logging Feature which writes inbound and outbound SOAP messages to log.

false

boolean

loggingSizeLimit (logging)

To limit the total size of number of bytes the logger will output when logging feature has been enabled and -1 for no limit.

49152

int

skipFaultLogging (logging)

This option controls whether the PhaseInterceptorChain skips logging the Fault that it catches.

false

boolean

password (security)

This option is used to set the basic authentication information of password for the CXF client.

String

username (security)

This option is used to set the basic authentication information of username for the CXF client.

String

bindingId (service)

The bindingId for the service model to use.

String

portName (service)

The endpoint name this service is implementing, it maps to the wsdl:portname. In the format of ns:PORT_NAME where ns is a namespace prefix valid at this scope.

String

publishedEndpointUrl (service)

This option can override the endpointUrl that published from the WSDL which can be accessed with service address url plus wsd.

String

serviceClass (service)

The class name of the SEI (Service Endpoint Interface) class which could have JSR181 annotation or not.

Class

serviceName (service)

The service name this service is implementing, it maps to the wsdl:servicename.

String

wsdlURL (service)

The location of the WSDL. Can be on the classpath, file system, or be hosted remotely.

String

Message Headers

The CXF component supports 6 message header(s), which is/are listed below:

Name Description Default Type

operationName (common)

Constant: OPERATION_NAME

The name of the operation.

String

operationNamespace (common)

Constant: OPERATION_NAMESPACE

The operation namespace.

String

CamelDestinationOverrideUrl (common)

Constant: DESTINATION_OVERRIDE_URL

The destination override url.

String

ResponseContext (common)

Constant: RESPONSE_CONTEXT

The response context.

Map

CamelAuthentication (common)

Constant: AUTHENTICATION

The authentication.

Subject

RequestContext (common)

Constant: REQUEST_CONTEXT

The request context.

Object

The serviceName and portName are QNames, so if you provide them be sure to prefix them with their {namespace} as shown in the examples above.

Descriptions of the data formats

In Apache Camel, the Camel CXF component is the key to integrating routes with Web services. You can use the Camel CXF component to create a CXF endpoint, which can be used in either of the following ways:

  • Consumer — (at the start of a route) represents a Web service instance, which integrates with the route. The type of payload injected into the route depends on the value of the endpoint’s dataFormat option.

  • Producer — (at other points in the route) represents a WS client proxy, which converts the current exchange object into an operation invocation on a remote Web service. The format of the current exchange must match the endpoint’s dataFormat setting.

DataFormat Description

POJO

POJOs (Plain old Java objects) are the Java parameters to the method being invoked on the target server. Both Protocol and Logical JAX-WS handlers are supported.

PAYLOAD

PAYLOAD is the message payload (the contents of the soap:body) after message configuration in the CXF endpoint is applied. Only Protocol JAX-WS handler is supported. Logical JAX-WS handler is not supported.

RAW

RAW mode provides the raw message stream received from the transport layer. It is not possible to touch or change the stream, some of the CXF interceptors will be removed if you are using this kind of DataFormat, so you can’t see any soap headers after the Camel CXF consumer. JAX-WS handler is not supported. Note that RAW mode is equivalent to deprecated MESSAGE mode.

CXF_MESSAGE

CXF_MESSAGE allows for invoking the full capabilities of CXF interceptors by converting the message from the transport layer into a raw SOAP message

You can determine the data format mode of an exchange by retrieving the exchange property, CamelCXFDataFormat. The exchange key constant is defined in org.apache.camel.component.cxf.common.message.CxfConstants.DATA_FORMAT_PROPERTY.

How to create a simple CXF service with POJO data format

Having simple java web service interface:

package org.apache.camel.component.cxf.soap.server;

@WebService(targetNamespace = "http://server.soap.cxf.component.camel.apache.org/", name = "EchoService")
public interface EchoService {

    String echo(String text);
}

And implementation:

package org.apache.camel.component.cxf.soap.server;

@WebService(name = "EchoService", serviceName = "EchoService", targetNamespace = "http://server.soap.cxf.component.camel.apache.org/")
public class EchoServiceImpl implements EchoService {

    @Override
    public String echo(String text) {
        return text;
    }

}

We can then create the simplest CXF service (note we didn’t specify the POJO mode, as it is the default mode):

    from("cxf:echoServiceResponseFromImpl?serviceClass=org.apache.camel.component.cxf.soap.server.EchoServiceImpl&address=/echo-impl")// no body set here; the response comes from EchoServiceImpl
                .log("${body}");

For more complicated implementation of the service (more "Camel way"), we can set the body from the route instead:

    from("cxf:echoServiceResponseFromRoute?serviceClass=org.apache.camel.component.cxf.soap.server.EchoServiceImpl&address=/echo-route")
                .setBody(exchange -> exchange.getMessage().getBody(String.class) + " from Camel route");

How to consume a message from a Camel CXF endpoint in POJO data format

The Camel CXF endpoint consumer POJO data format is based on the CXF invoker, so the message header has a property with the name of CxfConstants.OPERATION_NAME and the message body is a list of the SEI method parameters.

Consider the PersonProcessor example code:

public class PersonProcessor implements Processor {

    private static final Logger LOG = LoggerFactory.getLogger(PersonProcessor.class);

    @Override
    @SuppressWarnings("unchecked")
    public void process(Exchange exchange) throws Exception {
        LOG.info("processing exchange in camel");

        BindingOperationInfo boi = (BindingOperationInfo) exchange.getProperty(BindingOperationInfo.class.getName());
        if (boi != null) {
            LOG.info("boi.isUnwrapped" + boi.isUnwrapped());
        }
        // Get the parameter list which element is the holder.
        MessageContentsList msgList = (MessageContentsList) exchange.getIn().getBody();
        Holder<String> personId = (Holder<String>) msgList.get(0);
        Holder<String> ssn = (Holder<String>) msgList.get(1);
        Holder<String> name = (Holder<String>) msgList.get(2);

        if (personId.value == null || personId.value.length() == 0) {
            LOG.info("person id 123, so throwing exception");
            // Try to throw out the soap fault message
            org.apache.camel.wsdl_first.types.UnknownPersonFault personFault
                    = new org.apache.camel.wsdl_first.types.UnknownPersonFault();
            personFault.setPersonId("");
            org.apache.camel.wsdl_first.UnknownPersonFault fault
                    = new org.apache.camel.wsdl_first.UnknownPersonFault("Get the null value of person name", personFault);
            exchange.getMessage().setBody(fault);
            return;
        }

        name.value = "Bonjour";
        ssn.value = "123";
        LOG.info("setting Bonjour as the response");
        // Set the response message, the first element is the return value of the operation,
        // the others are the holders of method parameters
        exchange.getMessage().setBody(new Object[] { null, personId, ssn, name });
    }

}

How to prepare the message for the Camel CXF endpoint in POJO data format

The Camel CXF endpoint producer is based on the CXF client API. First, you need to specify the operation name in the message header, then add the method parameters to a list, and initialize the message with this parameter list. The response message’s body is a messageContentsList, you can get the result from that list.

If you don’t specify the operation name in the message header, CxfProducer will try to use the defaultOperationName from CxfEndpoint, if there is no defaultOperationName set on CxfEndpoint, it will pick up the first operationName from the Operation list.

If you want to get the object array from the message body, you can get the body using message.getBody(Object[].class), as shown in CxfProducerRouterTest.testInvokingSimpleServerWithParams:

Exchange senderExchange = new DefaultExchange(context, ExchangePattern.InOut);
final List<String> params = new ArrayList<>();
// Prepare the request message for the camel-cxf procedure
params.add(TEST_MESSAGE);
senderExchange.getIn().setBody(params);
senderExchange.getIn().setHeader(CxfConstants.OPERATION_NAME, ECHO_OPERATION);

Exchange exchange = template.send("direct:EndpointA", senderExchange);

org.apache.camel.Message out = exchange.getMessage();
// The response message's body is a MessageContentsList which first element is the return value of the operation,
// If there are some holder parameters, the holder parameter will be filled in the reset of List.
// The result will be extracted from the MessageContentsList with the String class type
MessageContentsList result = (MessageContentsList) out.getBody();
LOG.info("Received output text: " + result.get(0));
Map<String, Object> responseContext = CastUtils.cast((Map<?, ?>) out.getHeader(Client.RESPONSE_CONTEXT));
assertNotNull(responseContext);
assertEquals("UTF-8", responseContext.get(org.apache.cxf.message.Message.ENCODING),
        "We should get the response context here");
assertEquals("echo " + TEST_MESSAGE, result.get(0), "Reply body on Camel is wrong");

How to consume a message from a Camel CXF endpoint in PAYLOAD data format

PAYLOAD means that you process the payload from the SOAP envelope as a native CxfPayload. Message.getBody() will return a org.apache.camel.component.cxf.CxfPayload object, with getters for SOAP message headers and the SOAP body.

protected RouteBuilder createRouteBuilder() {
    return new RouteBuilder() {
        public void configure() {
            from(simpleEndpointURI + "&dataFormat=PAYLOAD").to("log:info").process(new Processor() {
                @SuppressWarnings("unchecked")
                public void process(final Exchange exchange) throws Exception {
                    CxfPayload<SoapHeader> requestPayload = exchange.getIn().getBody(CxfPayload.class);
                    List<Source> inElements = requestPayload.getBodySources();
                    List<Source> outElements = new ArrayList<>();
                    // You can use a customer toStringConverter to turn a CxfPayLoad message into String as you want
                    String request = exchange.getIn().getBody(String.class);
                    XmlConverter converter = new XmlConverter();
                    String documentString = ECHO_RESPONSE;

                    Element in = new XmlConverter().toDOMElement(inElements.get(0));
                    // Check the element namespace
                    if (!in.getNamespaceURI().equals(ELEMENT_NAMESPACE)) {
                        throw new IllegalArgumentException("Wrong element namespace");
                    }
                    if (in.getLocalName().equals("echoBoolean")) {
                        documentString = ECHO_BOOLEAN_RESPONSE;
                        checkRequest("ECHO_BOOLEAN_REQUEST", request);
                    } else {
                        documentString = ECHO_RESPONSE;
                        checkRequest("ECHO_REQUEST", request);
                    }
                    Document outDocument = converter.toDOMDocument(documentString, exchange);
                    outElements.add(new DOMSource(outDocument.getDocumentElement()));
                    // set the payload header with null
                    CxfPayload<SoapHeader> responsePayload = new CxfPayload<>(null, outElements, null);
                    exchange.getMessage().setBody(responsePayload);
                }
            });
        }
    };
}

How to get and set SOAP headers in POJO mode

POJO means that the data format is a "list of Java objects" when the Camel CXF endpoint produces or consumes Camel exchanges. Even though Camel exposes the message body as POJOs in this mode, Camel CXF still provides access to read and write SOAP headers. However, since CXF interceptors remove in-band SOAP headers from the header list, after they have been processed, only out-of-band SOAP headers are available to Camel CXF in POJO mode.

The following example illustrates how to get/set SOAP headers. Suppose we have a route that forwards from one Camel CXF endpoint to another. That is, SOAP Client → Camel → CXF service. We can attach two processors to obtain/insert SOAP headers at (1) before a request goes out to the CXF service and (2) before the response comes back to the SOAP Client. Processors (1) and (2) in this example are InsertRequestOutHeaderProcessor and InsertResponseOutHeaderProcessor. Our route looks like this:

  • Java

  • XML

from("cxf:bean:routerRelayEndpointWithInsertion")
    .process(new InsertRequestOutHeaderProcessor())
    .to("cxf:bean:serviceRelayEndpointWithInsertion")
    .process(new InsertResponseOutHeaderProcessor());
<route>
    <from uri="cxf:bean:routerRelayEndpointWithInsertion"/>
    <process ref="InsertRequestOutHeaderProcessor" />
    <to uri="cxf:bean:serviceRelayEndpointWithInsertion"/>
    <process ref="InsertResponseOutHeaderProcessor" />
</route>

SOAP headers are propagated to and from Camel Message headers. The Camel message header name is org.apache.cxf.headers.Header.list which is a constant defined in CXF (org.apache.cxf.headers.Header.HEADER_LIST). The header value is a List of CXF SoapHeader objects (org.apache.cxf.binding.soap.SoapHeader). The following snippet is the InsertResponseOutHeaderProcessor (that inserts a new SOAP header in the response message). The way to access SOAP headers in both InsertResponseOutHeaderProcessor and InsertRequestOutHeaderProcessor are actually the same. The only difference between the two processors is setting the direction of the inserted SOAP header.

You can find the InsertResponseOutHeaderProcessor example in CxfMessageHeadersRelayTest:

public static class InsertResponseOutHeaderProcessor implements Processor {

    public void process(Exchange exchange) throws Exception {
        List<SoapHeader> soapHeaders = CastUtils.cast((List<?>)exchange.getIn().getHeader(Header.HEADER_LIST));

        // Insert a new header
        String xml = "<?xml version=\"1.0\" encoding=\"utf-8\"?><outofbandHeader "
            + "xmlns=\"http://cxf.apache.org/outofband/Header\" hdrAttribute=\"testHdrAttribute\" "
            + "xmlns:soap=\"http://schemas.xmlsoap.org/soap/envelope/\" soap:mustUnderstand=\"1\">"
            + "<name>New_testOobHeader</name><value>New_testOobHeaderValue</value></outofbandHeader>";
        SoapHeader newHeader = new SoapHeader(soapHeaders.get(0).getName(),
                       DOMUtils.readXml(new StringReader(xml)).getDocumentElement());
        // make sure the direction is OUT since it is a response message.
        newHeader.setDirection(Direction.DIRECTION_OUT);
        //newHeader.setMustUnderstand(false);
        soapHeaders.add(newHeader);

    }

}

How to get and set SOAP headers in PAYLOAD mode

We’ve already shown how to access the SOAP message as CxfPayload object in PAYLOAD mode in the section How to consume a message from a Camel CXF endpoint in PAYLOAD data format.

Once you obtain a CxfPayload object, you can invoke the CxfPayload.getHeaders() method that returns a List of DOM Elements (SOAP headers).

For example, see CxfPayLoadSoapHeaderTest:

from(getRouterEndpointURI()).process(new Processor() {
    @SuppressWarnings("unchecked")
    public void process(Exchange exchange) throws Exception {
        CxfPayload<SoapHeader> payload = exchange.getIn().getBody(CxfPayload.class);
        List<Source> elements = payload.getBodySources();
        assertNotNull(elements, "We should get the elements here");
        assertEquals(1, elements.size(), "Get the wrong elements size");

        Element el = new XmlConverter().toDOMElement(elements.get(0));
        elements.set(0, new DOMSource(el));
        assertEquals("http://camel.apache.org/pizza/types",
                el.getNamespaceURI(), "Get the wrong namespace URI");

        List<SoapHeader> headers = payload.getHeaders();
        assertNotNull(headers, "We should get the headers here");
        assertEquals(1, headers.size(), "Get the wrong headers size");
        assertEquals("http://camel.apache.org/pizza/types",
                ((Element) (headers.get(0).getObject())).getNamespaceURI(), "Get the wrong namespace URI");
        // alternatively, you can also get the SOAP header via the camel header:
        headers = exchange.getIn().getHeader(Header.HEADER_LIST, List.class);
        assertNotNull(headers, "We should get the headers here");
        assertEquals(1, headers.size(), "Get the wrong headers size");
        assertEquals("http://camel.apache.org/pizza/types",
                ((Element) (headers.get(0).getObject())).getNamespaceURI(), "Get the wrong namespace URI");

    }

})
.to(getServiceEndpointURI());

You can also use the same way as described in subchapter "How to get and set SOAP headers in POJO mode" to set or get the SOAP headers. So, you can use the header org.apache.cxf.headers.Header.list to get and set a list of SOAP headers.This does also mean that if you have a route that forwards from one Camel CXF endpoint to another (SOAP Client → Camel → CXF service), now also the SOAP headers sent by the SOAP client are forwarded to the CXF service. If you do not want that these headers are forwarded, you have to remove them in the Camel header org.apache.cxf.headers.Header.list.

SOAP headers are not available in RAW mode

SOAP headers are not available in RAW mode as SOAP processing is skipped.

How to throw a SOAP Fault from Camel

If you are using a Camel CXF endpoint to consume the SOAP request, you may need to throw the SOAP Fault from the camel context.
Basically, you can use the throwFault DSL to do that; it works for POJO, PAYLOAD and RAW data format.
You can define the soap fault as shown in CxfCustomizedExceptionTest:

SOAP_FAULT = new SoapFault(EXCEPTION_MESSAGE, SoapFault.FAULT_CODE_CLIENT);
Element detail = SOAP_FAULT.getOrCreateDetail();
Document doc = detail.getOwnerDocument();
Text tn = doc.createTextNode(DETAIL_TEXT);
detail.appendChild(tn);

Then throw it as you like:

from(routerEndpointURI).setFaultBody(constant(SOAP_FAULT));

If your CXF endpoint is working in the RAW data format, you could set the SOAP Fault message in the message body and set the response code in the message header as demonstrated by CxfMessageStreamExceptionTest:

from(routerEndpointURI).process(new Processor() {

    public void process(Exchange exchange) throws Exception {
        Message out = exchange.getMessage();
        // Set the message body
        out.setBody(this.getClass().getResourceAsStream("SoapFaultMessage.xml"));
        // Set the response code here
        out.setHeader(org.apache.cxf.message.Message.RESPONSE_CODE, new Integer(500));
    }

});

Same for using POJO data format. You can set the SOAPFault on the OUT body.

How to propagate a Camel CXF endpoint’s request and response context

CXF client API provides a way to invoke the operation with request and response context. If you are using a Camel CXF endpoint producer to invoke the outside web service, you can set the request context and get response context with the following code:

CxfExchange exchange = (CxfExchange)template.send(getJaxwsEndpointUri(), new Processor() {
     public void process(final Exchange exchange) {
         final List<String> params = new ArrayList<String>();
         params.add(TEST_MESSAGE);
         // Set the request context to the inMessage
         Map<String, Object> requestContext = new HashMap<String, Object>();
         requestContext.put(BindingProvider.ENDPOINT_ADDRESS_PROPERTY, JAXWS_SERVER_ADDRESS);
         exchange.getIn().setBody(params);
         exchange.getIn().setHeader(Client.REQUEST_CONTEXT , requestContext);
         exchange.getIn().setHeader(CxfConstants.OPERATION_NAME, GREET_ME_OPERATION);
     }
});
org.apache.camel.Message out = exchange.getMessage();
// The output is an object array, the first element of the array is the return value
Object\[\] output = out.getBody(Object\[\].class);
LOG.info("Received output text: " + output\[0\]);
// Get the response context form outMessage
Map<String, Object> responseContext = CastUtils.cast((Map)out.getHeader(Client.RESPONSE_CONTEXT));
assertNotNull(responseContext);
assertEquals("Get the wrong wsdl operation name", "{http://apache.org/hello_world_soap_http}greetMe",
    responseContext.get("javax.xml.ws.wsdl.operation").toString());

Attachment Support

POJO Mode

Message Transmission Optimization Mechanism (MTOM) is supported if enabled - check the example in Payload Mode for enabling MTOM. Since attachments are marshalled and unmarshalled into POJOs, the attachments should be retrieved from the Apache Camel message body (as a parameter list), and it isn’t possible to retrieve attachments by Camel Message API

DataHandler handler = Exchange.getIn(AttachmentMessage.class).getAttachment("id");

Payload Mode

Message Transmission Optimization Mechanism (MTOM) is supported by this Mode. Attachments can be retrieved by Camel Message APIs mentioned above. SOAP with Attachment (SwA) is supported and attachments can be retrieved. SwA is the default (same as setting the CXF endpoint property mtomEnabled to false).

To enable MTOM, set the CXF endpoint property mtomEnabled to true.

  • Java (Quarkus)

  • XML (Spring)

import org.apache.camel.builder.RouteBuilder;
import org.apache.camel.component.cxf.common.DataFormat;
import org.apache.camel.component.cxf.jaxws.CxfEndpoint;
import jakarta.enterprise.context.ApplicationScoped;
import jakarta.enterprise.context.SessionScoped;
import jakarta.enterprise.inject.Produces;
import jakarta.inject.Named;

@ApplicationScoped
public class CxfSoapMtomRoutes extends RouteBuilder {

    @Override
    public void configure() {
        from("cxf:bean:mtomPayloadModeEndpoint")
                .process( exchange -> { ... });
    }

    @Produces
    @SessionScoped
    @Named
    CxfEndpoint mtomPayloadModeEndpoint() {
        final CxfEndpoint result = new CxfEndpoint();
        result.setServiceClass(MyMtomService.class);
        result.setDataFormat(DataFormat.PAYLOAD);
        result.setMtomEnabled(true);
        result.setAddress("/mtom/hello");
        return result;
    }
}
<cxf:cxfEndpoint id="mtomPayloadModeEndpoint" address="http://localhost:${CXFTestSupport.port1}/CxfMtomRouterPayloadModeTest/mtom"
        wsdlURL="mtom.wsdl"
        serviceName="ns:MyMtomService"
        endpointName="ns:MyMtomPort"
        xmlns:ns="http://apache.org/camel/cxf/mtom_feature">

    <cxf:properties>
        <!--  enable mtom by setting this property to true -->
        <entry key="mtom-enabled" value="true"/>
        <!--  set the Camel CXF endpoint data fromat to PAYLOAD mode -->
        <entry key="dataFormat" value="PAYLOAD"/>
    </cxf:properties>
</cxf:cxfEndpoint>

You can produce a Camel message with attachment to send to a CXF endpoint in Payload mode.

Exchange exchange = context.createProducerTemplate().send("direct:testEndpoint", new Processor() {

    public void process(Exchange exchange) throws Exception {
        exchange.setPattern(ExchangePattern.InOut);
        List<Source> elements = new ArrayList<Source>();
        elements.add(new DOMSource(DOMUtils.readXml(new StringReader(MtomTestHelper.REQ_MESSAGE)).getDocumentElement()));
        CxfPayload<SoapHeader> body = new CxfPayload<SoapHeader>(new ArrayList<SoapHeader>(),
            elements, null);
        exchange.getIn().setBody(body);
        exchange.getIn(AttachmentMessage.class).addAttachment(MtomTestHelper.REQ_PHOTO_CID,
            new DataHandler(new ByteArrayDataSource(MtomTestHelper.REQ_PHOTO_DATA, "application/octet-stream")));

        exchange.getIn(AttachmentMessage.class).addAttachment(MtomTestHelper.REQ_IMAGE_CID,
            new DataHandler(new ByteArrayDataSource(MtomTestHelper.requestJpeg, "image/jpeg")));

    }

});

// process response

CxfPayload<SoapHeader> out = exchange.getMessage().getBody(CxfPayload.class);
assertEquals(1, out.getBody().size());

Map<String, String> ns = new HashMap<>();
ns.put("ns", MtomTestHelper.SERVICE_TYPES_NS);
ns.put("xop", MtomTestHelper.XOP_NS);

XPathUtils xu = new XPathUtils(ns);
Element oute = new XmlConverter().toDOMElement(out.getBody().get(0));
Element ele = (Element) xu.getValue("//ns:DetailResponse/ns:photo/xop:Include", oute,
                XPathConstants.NODE);
String photoId = ele.getAttribute("href").substring(4); // skip "cid:"

ele = (Element) xu.getValue("//ns:DetailResponse/ns:image/xop:Include", oute,
                XPathConstants.NODE);
String imageId = ele.getAttribute("href").substring(4); // skip "cid:"

DataHandler dr = exchange.getMessage(AttachmentMessage.class).getAttachment(decodingReference(photoId));
assertEquals("application/octet-stream", dr.getContentType());
assertArrayEquals(MtomTestHelper.RESP_PHOTO_DATA, IOUtils.readBytesFromStream(dr.getInputStream()));

dr = exchange.getMessage(AttachmentMessage.class).getAttachment(decodingReference(imageId));
assertEquals("image/jpeg", dr.getContentType());

BufferedImage image = ImageIO.read(dr.getInputStream());
assertEquals(560, image.getWidth());
assertEquals(300, image.getHeight());

You can also consume a Camel message received from a CXF endpoint in Payload mode. The CxfMtomConsumerPayloadModeTest illustrates how this works:

public static class MyProcessor implements Processor {

    @Override
    @SuppressWarnings("unchecked")
    public void process(Exchange exchange) throws Exception {
        CxfPayload<SoapHeader> in = exchange.getIn().getBody(CxfPayload.class);

        // verify request
        assertEquals(1, in.getBody().size());

        Map<String, String> ns = new HashMap<>();
        ns.put("ns", MtomTestHelper.SERVICE_TYPES_NS);
        ns.put("xop", MtomTestHelper.XOP_NS);

        XPathUtils xu = new XPathUtils(ns);
        Element body = new XmlConverter().toDOMElement(in.getBody().get(0));
        Element ele = (Element) xu.getValue("//ns:Detail/ns:photo/xop:Include", body,
                XPathConstants.NODE);
        String photoId = ele.getAttribute("href").substring(4); // skip "cid:"
        assertEquals(MtomTestHelper.REQ_PHOTO_CID, photoId);

        ele = (Element) xu.getValue("//ns:Detail/ns:image/xop:Include", body,
                XPathConstants.NODE);
        String imageId = ele.getAttribute("href").substring(4); // skip "cid:"
        assertEquals(MtomTestHelper.REQ_IMAGE_CID, imageId);

        DataHandler dr = exchange.getIn(AttachmentMessage.class).getAttachment(photoId);
        assertEquals("application/octet-stream", dr.getContentType());
        assertArrayEquals(MtomTestHelper.REQ_PHOTO_DATA, IOUtils.readBytesFromStream(dr.getInputStream()));

        dr = exchange.getIn(AttachmentMessage.class).getAttachment(imageId);
        assertEquals("image/jpeg", dr.getContentType());
        assertArrayEquals(MtomTestHelper.requestJpeg, IOUtils.readBytesFromStream(dr.getInputStream()));

        // create response
        List<Source> elements = new ArrayList<>();
        elements.add(new DOMSource(StaxUtils.read(new StringReader(MtomTestHelper.RESP_MESSAGE)).getDocumentElement()));
        CxfPayload<SoapHeader> sbody = new CxfPayload<>(
                new ArrayList<SoapHeader>(),
                elements, null);
        exchange.getMessage().setBody(sbody);
        exchange.getMessage(AttachmentMessage.class).addAttachment(MtomTestHelper.RESP_PHOTO_CID,
                new DataHandler(new ByteArrayDataSource(MtomTestHelper.RESP_PHOTO_DATA, "application/octet-stream")));

        exchange.getMessage(AttachmentMessage.class).addAttachment(MtomTestHelper.RESP_IMAGE_CID,
                new DataHandler(new ByteArrayDataSource(MtomTestHelper.responseJpeg, "image/jpeg")));

    }
}

RAW Mode

Attachments are not supported as it does not process the message at all.

CXF_MESSAGE Mode

MTOM is supported, and Attachments can be retrieved by Camel Message APIs mentioned above. Note that when receiving a multipart (i.e., MTOM) message, the default SOAPMessag`e to `String converter will provide the complete multipart payload on the body. If you require just the SOAP XML as a String, you can set the message body with message.getSOAPPart(), and the Camel converter can do the rest of the work for you.

Streaming Support in PAYLOAD mode

The Camel CXF component now supports streaming of incoming messages when using PAYLOAD mode. Previously, the incoming messages would have been completely DOM parsed. For large messages, this is time-consuming and uses a significant amount of memory. The incoming messages can remain as a javax.xml.transform.Source while being routed and, if nothing modifies the payload, can then be directly streamed out to the target destination. For common "simple proxy" use cases (example: from("cxf:…​").to("cxf:…​")), this can provide very significant performance increases as well as significantly lowered memory requirements.

However, there are cases where streaming may not be appropriate or desired. Due to the streaming nature, invalid incoming XML may not be caught until later in the processing chain. Also, certain actions may require the message to be DOM parsed anyway (like WS-Security or message tracing and such) in which case, the advantages of the streaming are limited. At this point, there are two ways to control the streaming:

  • Endpoint property: you can add allowStreaming=false as an endpoint property to turn the streaming on/off.

  • Component property: the CxfComponent object also has an allowStreaming property that can set the default for endpoints created from that component.

Global system property: you can add a system property of org.apache.camel.component.cxf.streaming to false to turn it off. That sets the global default, but setting the endpoint property above will override this value for that endpoint.

Using the generic CXF Dispatch mode

The Camel CXF component supports the generic CXF dispatch mode that can transport messages of arbitrary structures (i.e., not bound to a specific XML schema). To use this mode, you omit specifying the wsdlURL and serviceClass attributes of the CXF endpoint.

  • Java (Quarkus)

  • XML (Spring)

import org.apache.camel.component.cxf.common.DataFormat;
import org.apache.camel.component.cxf.jaxws.CxfEndpoint;
import jakarta.enterprise.context.SessionScoped;
import jakarta.enterprise.inject.Produces;
import jakarta.inject.Named;

...

@Produces
@SessionScoped
@Named
CxfEndpoint dispatchEndpoint() {
    final CxfEndpoint result = new CxfEndpoint();
    result.setDataFormat(DataFormat.PAYLOAD);
    result.setAddress("/SoapAnyPort");
    return result;
}
<cxf:cxfEndpoint id="dispatchEndpoint" address="http://localhost:9000/SoapContext/SoapAnyPort">
    <cxf:properties>
        <entry key="dataFormat" value="PAYLOAD"/>
    </cxf:properties>
</cxf:cxfEndpoint>

It is noted that the default CXF dispatch client does not send a specific SOAPAction header. Therefore, when the target service requires a specific SOAPAction value, it is supplied in the Camel header using the key SOAPAction (case-insensitive).

How to enable CXF’s LoggingOutInterceptor in RAW mode

CXF’s LoggingOutInterceptor outputs outbound message that goes on the wire to logging system (Java Util Logging). Since the LoggingOutInterceptor is in PRE_STREAM phase (but PRE_STREAM phase is removed in RAW mode), you have to configure LoggingOutInterceptor to be run during the WRITE phase. The following is an example.

  • Java (Quarkus)

  • XML (Spring)

import java.util.List;
import org.apache.camel.builder.RouteBuilder;
import org.apache.camel.component.cxf.common.DataFormat;
import org.apache.camel.component.cxf.jaxws.CxfEndpoint;
import org.apache.cxf.interceptor.LoggingOutInterceptor;
import org.apache.cxf.phase.Phase;
import jakarta.enterprise.context.SessionScoped;
import jakarta.enterprise.inject.Produces;
import jakarta.inject.Named;

...

@Produces
@SessionScoped
@Named
CxfEndpoint soapMtomEnabledServerPayloadModeEndpoint() {
    final CxfEndpoint result = new CxfEndpoint();
    result.setServiceClass(HelloService.class);
    result.setDataFormat(DataFormat.RAW);
    result.setOutFaultInterceptors(List.of(new LoggingOutInterceptor(Phase.WRITE)));;
    result.setAddress("/helloworld");
    return result;
}
<bean id="loggingOutInterceptor" class="org.apache.cxf.interceptor.LoggingOutInterceptor">
    <!--  it really should have been user-prestream, but CXF does have such a phase! -->
    <constructor-arg value="write"/>
</bean>

<cxf:cxfEndpoint id="serviceEndpoint" address="http://localhost:${CXFTestSupport.port2}/LoggingInterceptorInMessageModeTest/helloworld"
    serviceClass="org.apache.camel.component.cxf.HelloService">
    <cxf:outInterceptors>
        <ref bean="loggingOutInterceptor"/>
    </cxf:outInterceptors>
    <cxf:properties>
        <entry key="dataFormat" value="RAW"/>
    </cxf:properties>
</cxf:cxfEndpoint>

Description of CxfHeaderFilterStrategy options

There are in-band and out-of-band on-the-wire headers from the perspective of a JAXWS WSDL-first developer.

The in-band headers are headers that are explicitly defined as part of the WSDL binding contract for an endpoint such as SOAP headers.

The out-of-band headers are headers that are serialized over the wire, but are not explicitly part of the WSDL binding contract.

Headers relaying/filtering is bi-directional.

When a route has a CXF endpoint and the developer needs to have on-the-wire headers, such as SOAP headers, be relayed along the route to be consumed say by another JAXWS endpoint, a CxfHeaderFilterStrategy instance should be set on the CXF endpoint, then relayHeaders property of the CxfHeaderFilterStrategy instance should be set to true, which is the default value. Plus, the CxfHeaderFilterStrategy instance also holds a list of MessageHeaderFilter interface, which decides if a specific header will be relayed or not.

Take a look at the tests that show how you’d be able to relay/drop headers here:

  • The relayHeaders=true expresses an intent to relay the headers. The actual decision on whether a given header is relayed is delegated to a pluggable instance that implements the MessageHeaderFilter interface. A concrete implementation of MessageHeaderFilter will be consulted to decide if a header needs to be relayed or not. There is already an implementation of SoapMessageHeaderFilter which binds itself to well-known SOAP name spaces. If there is a header on the wire whose name space is unknown to the runtime, the header will be simply relayed.

  • POJO and PAYLOAD modes are supported. In POJO mode, only out-of-band message headers are available for filtering as the in-band headers have been processed and removed from the header list by CXF. The in-band headers are incorporated into the MessageContentList in POJO mode. The Camel CXF component does make any attempt to remove the in-band headers from the MessageContentList. If filtering of in-band headers is required, please use PAYLOAD mode or plug in a (pretty straightforward) CXF interceptor/JAXWS Handler to the CXF endpoint. Here is an example of configuring the CxfHeaderFilterStrategy.

<bean id="dropAllMessageHeadersStrategy" class="org.apache.camel.component.cxf.transport.header.CxfHeaderFilterStrategy">

    <!--  Set relayHeaders to false to drop all SOAP headers -->
    <property name="relayHeaders" value="false"/>

</bean>

Then, your endpoint can reference the CxfHeaderFilterStrategy:

<route>
    <from uri="cxf:bean:routerNoRelayEndpoint?headerFilterStrategy=#dropAllMessageHeadersStrategy"/>
    <to uri="cxf:bean:serviceNoRelayEndpoint?headerFilterStrategy=#dropAllMessageHeadersStrategy"/>
</route>
  • You can plug in your own MessageHeaderFilter implementations overriding or adding additional ones to the list of relays. To override a preloaded relay instance, make sure that your MessageHeaderFilter implementation services the same name spaces as the one you are looking to override.

Here is an example of configuring user defined Message Header Filters:

<bean id="customMessageFilterStrategy" class="org.apache.camel.component.cxf.transport.header.CxfHeaderFilterStrategy">
    <property name="messageHeaderFilters">
        <list>
            <!--  SoapMessageHeaderFilter is the built-in filter.  It can be removed by omitting it. -->
            <bean class="org.apache.camel.component.cxf.common.header.SoapMessageHeaderFilter"/>

            <!--  Add custom filter here -->
            <bean class="org.apache.camel.component.cxf.soap.headers.CustomHeaderFilter"/>
        </list>
    </property>
</bean>
  • In addition to relayHeaders, the following properties can be configured in CxfHeaderFilterStrategy.

Name Required Description

relayHeaders

No

All message headers will be processed by Message Header Filters Type: boolean Default: true

relayAllMessageHeaders

No

All message headers will be propagated (without processing by Message Header Filters) Type: boolean Default: false

allowFilterNamespaceClash

No

If two filters overlap in activation namespace, the property controls how it should be handled. If the value is true, last one wins. If the value is false, it will throw an exception Type: boolean Default: false

How to make the Camel CXF component use log4j instead of java.util.logging

CXF’s default logger is java.util.logging. If you want to change it to log4j, proceed as follows. Create a file, in the classpath, named META-INF/cxf/org.apache.cxf.logger. This file should contain the fully qualified name of the class, org.apache.cxf.common.logging.Log4jLogger, with no comments, on a single line.

How to let Camel CXF response start with xml processing instruction

If you are using some SOAP client such as PHP, you will get this kind of error because CXF doesn’t add the XML processing instruction <?xml version="1.0" encoding="utf-8"?>:

Error:sendSms: SoapFault exception: [Client] looks like we got no XML document in [...]

To resolve this issue, you need to tell StaxOutInterceptor to write the XML start document for you, as in the WriteXmlDeclarationInterceptor below:

public class WriteXmlDeclarationInterceptor extends AbstractPhaseInterceptor<SoapMessage> {
    public WriteXmlDeclarationInterceptor() {
        super(Phase.PRE_STREAM);
        addBefore(StaxOutInterceptor.class.getName());
    }

    public void handleMessage(SoapMessage message) throws Fault {
        message.put("org.apache.cxf.stax.force-start-document", Boolean.TRUE);
    }

}

As an alternative, you can add a message header for it as demonstrated in CxfConsumerTest:

 // set up the response context which force start document
 Map<String, Object> map = new HashMap<String, Object>();
 map.put("org.apache.cxf.stax.force-start-document", Boolean.TRUE);
 exchange.getMessage().setHeader(Client.RESPONSE_CONTEXT, map);

Configure the CXF endpoints with Spring

You can configure the CXF endpoint with the Spring configuration file shown below, and you can also embed the endpoint into the camelContext tags. When you are invoking the service endpoint, you can set the operationName and operationNamespace headers to explicitly state which operation you are calling.

<beans xmlns="http://www.springframework.org/schema/beans"
        xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
        xmlns:cxf="http://camel.apache.org/schema/cxf"
        xsi:schemaLocation="
        http://www.springframework.org/schema/beans http://www.springframework.org/schema/beans/spring-beans.xsd
        http://camel.apache.org/schema/cxf http://camel.apache.org/schema/cxf/camel-cxf.xsd
        http://camel.apache.org/schema/spring http://camel.apache.org/schema/spring/camel-spring.xsd">
     <cxf:cxfEndpoint id="routerEndpoint" address="http://localhost:9003/CamelContext/RouterPort"
            serviceClass="org.apache.hello_world_soap_http.GreeterImpl"/>
     <cxf:cxfEndpoint id="serviceEndpoint" address="http://localhost:9000/SoapContext/SoapPort"
            wsdlURL="testutils/hello_world.wsdl"
            serviceClass="org.apache.hello_world_soap_http.Greeter"
            endpointName="s:SoapPort"
            serviceName="s:SOAPService"
        xmlns:s="http://apache.org/hello_world_soap_http" />
     <camelContext id="camel" xmlns="http://camel.apache.org/schema/spring">
       <route>
         <from uri="cxf:bean:routerEndpoint" />
         <to uri="cxf:bean:serviceEndpoint" />
       </route>
    </camelContext>
  </beans>

Be sure to include the JAX-WS schemaLocation attribute specified on the root beans element. This allows CXF to validate the file and is required. Also note the namespace declarations at the end of the <cxf:cxfEndpoint/> tag. These declarations are required because the combined {namespace}localName syntax is presently not supported for this tag’s attribute values.

The cxf:cxfEndpoint element supports many additional attributes:

Name Value

PortName

The endpoint name this service is implementing, it maps to the wsdl:port@name. In the format of ns:PORT_NAME where ns is a namespace prefix valid at this scope.

serviceName

The service name this service is implementing, it maps to the wsdl:service@name. In the format of ns:SERVICE_NAME where ns is a namespace prefix valid at this scope.

wsdlURL

The location of the WSDL. Can be on the classpath, file system, or be hosted remotely.

bindingId

The bindingId for the service model to use.

address

The service publish address.

bus

The bus name that will be used in the JAX-WS endpoint.

serviceClass

The class name of the SEI (Service Endpoint Interface) class which could have JSR181 annotation or not.

It also supports many child elements:

Name Value

cxf:inInterceptors

The incoming interceptors for this endpoint. A list of <bean> or <ref>.

cxf:inFaultInterceptors

The incoming fault interceptors for this endpoint. A list of <bean> or <ref>.

cxf:outInterceptors

The outgoing interceptors for this endpoint. A list of <bean> or <ref>.

cxf:outFaultInterceptors

The outgoing fault interceptors for this endpoint. A list of <bean> or <ref>.

cxf:properties

A properties map which should be supplied to the JAX-WS endpoint. See below.

cxf:handlers

A JAX-WS handler list which should be supplied to the JAX-WS endpoint. See below.

cxf:dataBinding

You can specify which DataBinding will be used in the endpoint. This can be supplied using the Spring <bean class="MyDataBinding"/> syntax.

cxf:binding

You can specify the BindingFactory for this endpoint to use. This can be supplied using the Spring <bean class="MyBindingFactory"/> syntax.

cxf:features

The features that hold the interceptors for this endpoint. A list of beans or refs

cxf:schemaLocations

The schema locations for endpoint to use. A list of schemaLocations

cxf:serviceFactory

The service factory for this endpoint to use. This can be supplied using the Spring <bean class="MyServiceFactory"/> syntax

You can find more advanced examples that show how to provide interceptors, properties and handlers on the CXF JAX-WS Configuration page.

You can use cxf:properties to set the Camel CXF endpoint’s dataFormat and setDefaultBus properties from spring configuration file.

<cxf:cxfEndpoint id="testEndpoint" address="http://localhost:9000/router"
     serviceClass="org.apache.camel.component.cxf.HelloService"
     endpointName="s:HelloPort"
     serviceName="s:HelloService"
     xmlns:s="http://www.example.com/test">
     <cxf:properties>
       <entry key="dataFormat" value="RAW"/>
       <entry key="setDefaultBus" value="true"/>
     </cxf:properties>
   </cxf:cxfEndpoint>

Spring Boot Auto-Configuration

When using cxf with Spring Boot make sure to use the following Maven dependency to have support for auto configuration:

<dependency>
  <groupId>org.apache.camel.springboot</groupId>
  <artifactId>camel-cxf-soap-starter</artifactId>
  <version>x.x.x</version>
  <!-- use the same version as your Camel core version -->
</dependency>

The component supports 8 options, which are listed below.

Name Description Default Type

camel.component.cxf.allow-streaming

This option controls whether the CXF component, when running in PAYLOAD mode, will DOM parse the incoming messages into DOM Elements or keep the payload as a javax.xml.transform.Source object that would allow streaming in some cases.

Boolean

camel.component.cxf.autowired-enabled

Whether autowiring is enabled. This is used for automatic autowiring options (the option must be marked as autowired) by looking up in the registry to find if there is a single instance of matching type, which then gets configured on the component. This can be used for automatic configuring JDBC data sources, JMS connection factories, AWS Clients, etc.

true

Boolean

camel.component.cxf.bridge-error-handler

Allows for bridging the consumer to the Camel routing Error Handler, which mean any exceptions (if possible) occurred while the Camel consumer is trying to pickup incoming messages, or the likes, will now be processed as a message and handled by the routing Error Handler. Important: This is only possible if the 3rd party component allows Camel to be alerted if an exception was thrown. Some components handle this internally only, and therefore bridgeErrorHandler is not possible. In other situations we may improve the Camel component to hook into the 3rd party component and make this possible for future releases. By default the consumer will use the org.apache.camel.spi.ExceptionHandler to deal with exceptions, that will be logged at WARN or ERROR level and ignored.

false

Boolean

camel.component.cxf.enabled

Whether to enable auto configuration of the cxf component. This is enabled by default.

Boolean

camel.component.cxf.header-filter-strategy

To use a custom org.apache.camel.spi.HeaderFilterStrategy to filter header to and from Camel message. The option is a org.apache.camel.spi.HeaderFilterStrategy type.

HeaderFilterStrategy

camel.component.cxf.lazy-start-producer

Whether the producer should be started lazy (on the first message). By starting lazy you can use this to allow CamelContext and routes to startup in situations where a producer may otherwise fail during starting and cause the route to fail being started. By deferring this startup to be lazy then the startup failure can be handled during routing messages via Camel’s routing error handlers. Beware that when the first message is processed then creating and starting the producer may take a little time and prolong the total processing time of the processing.

false

Boolean

camel.component.cxf.synchronous

Sets whether synchronous processing should be strictly used.

false

Boolean

camel.component.cxf.use-global-ssl-context-parameters

Enable usage of global SSL context parameters.

false

Boolean