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JAX-RS : Advanced Features

JMS Support

CXF has been designed such that multiple transports can be supported for a given endpoint. CXF JAX-RS endpoint and proxies can optionally
support the JMS transport.

Endpoints

If you would like your JAXRS endpoint be capable of serving not only HTTP but also JMS requests then you need to specify a JMS transportId, example:

<jaxrs:server serviceName="s:BookService" transportId="http://cxf.apache.org/transports/jms" address="/">
 <jaxrs:serviceBeans>
   <bean class="org.apache.cxf.systest.jaxrs.JMSBookStore"/>
 </jaxrs:serviceBeans>
</jaxrs:server>

Additionally, JMS queue or topic configuration needs to be done, for example, please see this beans.xml. Please note how a serviceName attribute is used to specify a service QName for a jaxrs endpoint (default is {http://reverse.package.name}ServiceClassName), this service name is
used to configure a jms destination.

Here is the actual test.

Here are JMS properties which can help with matching a required method on the JAXRS endpoint :

  • "Content-Type" : default is "text/xml"
  • "Accept" : default is "/"
  • "OnewayMessage" : default is "false"
  • "org.apache.cxf.message.Message.REQUEST_URI" : default is "/"
  • "org.apache.cxf.message.Message.HTTP_REQUEST_METHOD" : default is "POST"

If JMS messages are sent to topic destinations then one has to either set a "OnewayMessage" property or ensure that target JAXRS methods are annotated with org.apache.cxf.jaxrs.ext.Oneway.

As far as REQUEST_URI is concerned, it is initially matched against a jaxrs:server/@address. So if REQUEST_URI is not set or set to "/" then jaxrs:server/@address has to be set to "/". If REQUEST_URI is set to "/bar/foo" and
jaxrs:server/@address is set to "/bar" then it will be '/foo' which will be used to find a root resource class and its method.

By referencing a bean such as 'org.apache.cxf.systest.jaxrs.JMSBookStore' from multiple jaxrs endpoints you can ensure that both HTTP and JMS requests are handled by the same service bean. In such cases you may want to use a CXF JAXRS specific ProtocolHeaders context which will let you get either HTTP or JMS headers.

Client

Starting from CXF 2.5.5 and CXF 2.6.2 it is possible to use the client proxies to invoke on JMS endpoints. All one needs to do is to provide a JMS endpoint address and then continue working with the proxy as usual. For example:

// setup the the client
String endpointAddressUrlEncoded = "jms:jndi:dynamicQueues/test.jmstransport.text"
             + "?jndiInitialContextFactory=org.apache.activemq.jndi.ActiveMQInitialContextFactory"
             + "&replyToName=dynamicQueues/test.jmstransport.response"
             + "&jndiURL=tcp://localhost:" + JMS_PORT
             + "&jndiConnectionFactoryName=ConnectionFactory";
               
JMSBookStore client = JAXRSClientFactory.create(endpointAddressUrlEncoded, JMSBookStore.class);
Book book = client.getBook("123");
assertEquals("Get a wrong response code.", 200, WebClient.client(client).getResponse().getStatus());
assertEquals("Get a wrong book id.", 123, book.getId());

The client runtime will set up the JMS properties described in the previous section according to JAX-RS and other annotations (such as org.apache.cxf.jaxrs.ext.Oneway) available in JMSBookStore resource class.

FIQL search queries

Introduction

CXF JAXRS (since 2.3.0) lets users do the advanced search queries based on the Feed Item Query Language(FIQL). FIQL lets users express complex search expressions using an intuitive and URI friendly language.

For example, a query such as

?_search=name==CXF;version=ge=2.2

lets users to search for all the Apache projects with the name 'CXF' and the version greater or equals to '2.2'. The initial '=' separates the name of the query '_search' from the FIQL expression, while '==' and '=ge=' convey 'equals to' and 'greater or equals to' respectively.
An expression such as "name==CXF*" can be used to the partial equality checks (in this example: the name should start from "CXF").

More complex composite expressions can also be expressed easily enough.

Note that either '_search' or '_s' query has to be used to pass the FIQL expression.

Dependencies and Configuration

The following dependency is required starting from CXF 2.6.0:

   <dependency>
      <groupId>org.apache.cxf</groupId>
      <artifactId>cxf-rt-rs-extension-search</artifactId>
      <version>2.5.0</version>
   </dependency>

Additionally, in CXF 2.6.0, SearchContextProvider needs to be registered as jaxrs:provider.

Consuming FIQL queries

To work with FIQL queries, a SearchContext needs be injected into an application code and used to retrieve a SearchCondition representing the current FIQL query. This SearchCondition can be used in a number of ways for finding the matching data.

For example :

@Path("books")
public class Books {

private Map<Long, Book> books;
@Context
private SearchContext context;

 @GET
 public List<Book> getBook() {

   SearchCondition<Book> sc = searchContext.getCondition(Book.class);
   // SearchCondition#isMet method can also be used to build a list of matching beans

   // iterate over all the values in the books map and return a collection of matching beans
   List<Book> found = sc.findAll(books.values());
   return found;
 }
}

Note that a searchContext.getCondition(Book.class) call may return an arbitrary complex SearchCondition, it can be a simple primitive
expression or a more complex one. The Book class needs to have a matching property per every name found in the FIQL expression, for example, given a 'name==b;id==123' expression, the Book class would need to have 'name' and 'id' properties available.

Converting FIQL queries

SearchCondition can also be used to convert the search requirements (originally expressed in FIQL) into other query languages.
A custom SearchConditionVisitor implementation can be used to convert SearchCondition objects into custom expressions or typed objects. CXF ships visitors for converting expressions to SQL and JPA 2.0 CriteriaQuery or TypedQuery objects.

SQL

org.apache.cxf.jaxrs.ext.search.sql.SQLPrinterVisitor can be used for creating SQL expressions. For example:

// ?_s="name==ami*;level=gt=10"
SearchCondition<Book> sc = searchContext.getCondition(Book.class);
SQLPrinterVisitor<Book> visitor = new SQLPrinterVisitor<Book>("table");
sc.visit(visitor);
assertEquals("SELECT * FROM table 
              WHERE 
              name LIKE 'ami%' 
              AND 
              level > '10'",
              visitor.getResult());

Note that SQLPrinterVisitor can also be initialized with the names of columns and the field aliases map:

// ?_s="level=gt=10"
SearchCondition<Book> sc = searchContext.getCondition(Book.class);

Map<String, String> fieldMap = new HashMap<String, String>();
fieldMap.put("level", "LEVEL_FIELD");

SQLPrinterVisitor<Book> visitor = new SQLPrinterVisitor<Book>(fieldMap, "table", "LEVEL_COLUMN");
sc.visit(visitor);
assertEquals("SELECT LEVEL_COLUMN FROM table 
              WHERE LEVEL_COLUMN > '10'",
              visitor.getResult());

The fields map can help hide the names of the actual table columns/record fields from the Web frontend. Example, the users will know that the 'level' property is available while internally it will be converted to a LEVEL_COLUMN name.

JPA 2.0

CXF 2.5.5 and CXF 2.6.2 introduces org.apache.cxf.jaxrs.ext.search.jpa.JPATypedQueryVisitor which can be used to produce javax.persistence.criteria.CriteriaQuery or javax.persistence.TypedQuery objects.

import javax.persistence.EntityManager;
import javax.persistence.TypedQuery;

// init EntityManager as required
private EntityManager entityManager;

// ?_s="name==ami*;level=gt=10"
SearchCondition<Book> sc = searchContext.getCondition(Book.class);
JPATypedQuery<Book> visitor = new JPATypedQueryVisitor<Book>(entityManager, Book.class);
sc.visit(visitor);
TypedQuery<Book> typedQuery = visitor.getQuery();
List<Book> books = typedQuery.getResultList();
// or
// CriteriaQuery<Book> criteriaQuery = visitor.getCriteriaQuery();

org.apache.cxf.jaxrs.ext.search.jpa.JPALanguageVisitor for converting FIQL expressions into JPQL expressions have also been introduced.

Custom visitors

Here is a possible code template to follow when a custom visitor needs to be written:

public class CustomVisitor<T> impements SearchConditionVisitor<T> {

private StringBuilder sb = new StringBuilder();

public void visit(SearchCondition<T> sc) {
        
        if (sb == null) {
            sb = new StringBuilder();
            // start the expression as needed
        }
        
        PrimitiveStatement statement = sc.getStatement();
        if (statement != null) {
                // ex a > b
                // use statement.getValue()
                // use statement.getConditionType()
                // use statement.getProperty();
                
        } else {
            for (SearchCondition<T> condition : sc.getSearchConditions()) {
                // pre-process
                condition.accept(this);
                // post-process
            }
        }
    }

    public String getResult() {
        // convert the internal state into String
    }
}

If needed you can access a FIQL query directly and delegate it further to your own custom FIQL handler:


@Path("/search")
public class SearchEngine {
    @Context
    private UriInfo ui;

    @GET
    public List<Book> findBooks() {
        MultivaluedMap<String, String> params = ui.getQueryParameters();
        String fiqlQuery = params.getFirst("_s");
        // delegate to your own custom handler 

        // note that the original search expression can also be retrieved 
        // using a SearchContext.getSearchExpression() method
}

SearchBean

org.apache.cxf.jaxrs.ext.search.SearchBean is a utility bean class which can simplify analyzing the captured FIQL expressions and converting them to the other language expressions, in cases where having to update the bean class such as Book.class with all the properties thatmay need to be supported is not practical. For example:

// ?_s="level=gt=10"
SearchCondition<SearchBean> sc = searchContext.getCondition(SearchBean.class);

Map\<, String\> fieldMap = new HashMap\<String, String\>();
fieldMap.put("level", "LEVEL_FIELD");

SQLPrinterVisitor<SearchBean> visitor = new SQLPrinterVisitor<SearchBean>(fieldMap, "table", "LEVEL_COLUMN");
sc.visit(visitor);
assertEquals("SELECT LEVEL_COLUMN FROM table 
              WHERE LEVEL_COLUMN > '10'",
              visitor.getResult());

Search Expressions in URI Path segments

By default, a FIQL expression is expected to be available in either '_s' or '_search' query.
For example, "find all the books with an 'id' property value less than 123":

GET /books?_s=id=lt=123

Starting from CXF 2.6.2, it is possible to work with FIQL expressions included in URI path segments, for example, the same query can be expressed
in a number of ways:


GET /books/id=lt=123
GET /books[id=lt=123]
GET /books(id=lt=123)
GET /books;id=lt=123

//etc, etc

Such expressions can be captured in the code using JAX-RS annotations:

@Path("search")
public class BooksResource {
   @Context
   private SearchContext context;

   //GET /books[id=lt=123]
   @GET
   @Path("books[{search}]") 
   public List<Book> findSelectedBooks(@PathParam("search") String searchExpression) {
       return doFindSelectedBooks(searchExpression);
   }

   //GET /books(id=lt=123)
   @GET
   @Path("books({search})") 
   public List<Book> findSelectedBooks(@PathParam("search") String searchExpression) {
       return doFindSelectedBooks(searchExpression);
   }

   //GET /books/id=lt=123
   @GET
   @Path("books/{search}") 
   public List<Book> findSelectedBooks(@PathParam("search") String searchExpression) {
       return doFindSelectedBooks(searchExpression);
   }

   //GET /books;id=lt=123
   @GET
   @Path("books;{search}") 
   public List<Book> findSelectedBooks(@PathParam("search") String searchExpression) {
       return doFindSelectedBooks(searchExpression);
   }

   public List<Book> doFindSelectedBooks(String searchExpression) {
       SearchCondition<Book> sc = context.getCondition(searchExpression, Book.class);
   
       // JPA2 enity manager is initialized earlier
       JPATypedQuery<Book> visitor = new JPATypedQueryVisitor<Book>(entityManager, Book.class);
       sc.visit(visitor);
   
       TypedQuery<Book> typedQuery = visitor.getQuery();
       return typedQuery.getResultList();
   }

}

Note that if you have an expression added to a URI path segment with a ";" character acting as a separator, example, "/books;id=lt=123",
or if an expression itself includes ";", example, "/books[id=lt=123;id=gt=300]" ("find all the books with id less than 123 or greater than 300")
then a boolean contextual property "ignore.matrix.parameters" has to be set to "true" for the runtime to avoid splitting the path segment into the path value and matrix parameters.

Queries involving multiple entities

Basic queries

Consider the query like "find the first chapters of all the books with 'id' less than 123".
One easy way to manage such queries is to make FIQL and JAX-RS work together. For example:

@Path("search")
public class BooksResource {
@Context
private SearchContext context;

//GET /books[id=lt=123]/chapter/1
@GET
@Path("books[

]/chapter/

Unknown macro: {id}

")
public List<Book> findSelectedBooks(@PathParam("search") String searchExpression,
@PathParam("id") int chapterIndex)

Unknown macro: { return doFindSelectedChapters(searchExpression, chapterIndex); }

public List<Chapter> doFindSelectedChapters(String searchExpression, int chapterIndex) {
SearchCondition<Book> sc = context.getCondition(searchExpression, Book.class);

// JPA2 enity manager is initialized earlier
JPATypedQuery<Book> visitor = new JPATypedQueryVisitor<Book>(entityManager, Book.class);
sc.visit(visitor);

TypedQuery<Book> typedQuery = visitor.getQuery();
List<Book> books = typedQuery.getResultList();

List<Chapter> chapters = new ArrayList<Chapter>(books.size);
for (Book book : books)

Unknown macro: { chapters.add(book.getChapter(chapterIndex)); }


return chapters;
}

}

 

h3. Complex queries

At the moment one needs to follow the example (not necessarily using JPA2) presented in the previous section to manage the complex queries 
such as "find all the chapters with id less than 5 for all the books with id greater than 300", for example: 


@Path("search")
public class BooksResource {
   @Context
   private SearchContext context;

   //GET /books(id=gt=300)/chapters(id=lt=5)
   @GET
   @Path("books({search1})/chapter/{search2}") 
   public List<Book> findSelectedBooks(@PathParam("search1") String bookExpression,
                                       @PathParam("search2") String chapterExpression) {
       return doFindSelectedBooks(bookExpression, chapterExpression);
   }

   public List<Chapter> doFindSelectedChapters(String bookExpression, String chapterExpression) {
       // find the books first
       
       SearchCondition<Book> bookCondition = context.getCondition(searchExpression, Book.class);
   
       JPATypedQuery<Book> visitor = new JPATypedQueryVisitor<Book>(entityManager, Book.class);
       bookCondition.visit(visitor);
       TypedQuery<Book> typedQuery = visitor.getQuery();
       List<Book> books = typedQuery.getResultList();

       // now get the chapters
       SearchCondition<Chapter> chapterCondition = context.getCondition(chapterExpression, Chapter.class);
       List<Chapter> chapters = new ArrayList<Chapter>();
       for (Book book : books) {
           chapters.addAll(chapterCondition.findAll(book.getChapters()); 
       }   
       return chapters;
   }

}

The above code can be quite functional but not necessarilry optimal. Much depends on the actual relationship between the endities, whether the initial (JPA2) query eagerly loaded all the chapters for every given book, etc. Perhaps a JOIN-like query which will immediately return only the matching chapters will be more optimal. Support for capturing the expressions involving multiple entities and possibly converting them to JOIN statements will be investigated shortly.

Building FIQL queries

CXF 2.4.0 introduces SearchConditionBuilder which makes it simpler to build FIQL queries. SearchConditionBuilder is an abstract class that returns a FIQL builder by default:

SearchConditionBuilder b = SearchConditionBuilder.instance();
String fiqlQuery = b.is("id").greaterThan(123).query();

WebClient wc = WebClient.create("http://books.com/search");
wc.query("_s", fiqlQuery);
// find all the books with id greater than 123 
Collection books = wc.getCollection(Book.class);

Here is an example of building more complex queries:

// OR condition
String ret = b.is("foo").greaterThan(20).or().is("foo").lessThan(10).query();
assertEquals("foo=gt=20,foo=lt=10", ret);

// AND condition
String ret = b.is("foo").greaterThan(20).and().is("bar").equalTo("plonk").query();
assertEquals("foo=gt=20;bar==plonk", ret);

// Complex condition
String ret = b.is("foo").equalTo(123.4).or().and(
            b.is("bar").equalTo("asadf*"), 
            b.is("baz").lessThan(20)).query();
assertEquals("foo==123.4,(bar==asadf*;baz=lt=20.0)", ret);

Using dates in queries

By default, the date values have to have the following format: "yyyy-MM-dd'T'HH:mm:ss.SSSZ", for example:

?_search=time=le=2010-03-11T18:00:00.000+00:00

A simpler date format can be supported. Use "search.date-format" and "search.timezone.support" contextual properies, ex, "search.date-format"="yyyy-MM-dd'T'HH:mm:ss" and "search.timezone.support"="false" will let users avoid specifying milliseconds and timezones:

?_search=time=le=2010-03-11T18:00:00

At the moment, for custom date formats be recognized by SearchConditionBuilder, FIQLSearchConditionBuilder has to be created explicitly:

Map<String, String> props = new HashMap<String, String>();
props.put("search.date-format", "yyyy-MM-dd'T'HH:mm:ss");
props.put("search.timezone.support", "false");

Date d = df.parse("2011-03-01 12:34:00");
        
FiqlSearchConditionBuilder bCustom = new FiqlSearchConditionBuilder(props);
        
String ret = bCustom.is("foo").equalTo(d).query();
assertEquals("foo==2011-03-01T12:34:00", ret);

Alternative query languages

At the moment FIQL is the only and default query language (capable of expressing simple and complex quieries) recognized by the Search module.
org.apache.cxf.jaxrs.ext.search.SearchConditionParser has been introduced to facilitate a support for the alternative query languages. More work in this area will be done in the future.

Oneway invocations

Resource methods with an org.apache.cxf.jaxrs.ext.Oneway annotation will be invoked oneway with the original request returning 202 HTTP status. HTTP or JMS clients can also add a "OnewayRequest" header if adding Oneway annotations is not an option.

Support for Continuations

Please see this blog entry describing how JAXRS (and indeed) JAXWS services can rely on the CXF Continuations API.

Please see the [CXF Continuations] page for more information.

Server-side caching

Ehcache-Web and other similar frameworks can be used to provide an advanced support for
the server-side caching.

For example, the only thing you need to do to interpose Ehcache-Web on top of CXF JAX-RS endpoints is to add the following declarations to the web.xml, assuming the name of the war is 'ehcache-cxf':

<context-param>
        <param-name>webAppRootKey</param-name>
        <param-value>ehcache-cxf</param-value>
    </context-param>
<filter>
        <filter-name>SimplePageCachingFilter</filter-name>
        <filter-class>net.sf.ehcache.constructs.web.filter.SimplePageCachingFilter</filter-class>
        <init-param>
            <param-name>varyHeader</param-name>
            <param-value>true</param-value>
        </init-param>
    </filter>
    
    <filter-mapping>
        <filter-name>SimplePageCachingFilter</filter-name>
        <url-pattern>/*</url-pattern>
    </filter-mapping>

Please see the Ehcache-Web page for more information on how to configure it, here is one example:

<ehcache xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
    xsi:noNamespaceSchemaLocation="../../main/config/ehcache.xsd"
    updateCheck="false"
    monitoring="autodetect"
    dynamicConfig="true">
	
	<defaultCache
		maxElementsInMemory="10"
		eternal="false"
		timeToIdleSeconds="5"
		timeToLiveSeconds="10"
		overflowToDisk="true" />
	
    <cache name="SimplePageCachingFilter"
		maxElementsInMemory="100"
		eternal="false"
		overflowToDisk="false"
		timeToIdleSeconds="5"
		timeToLiveSeconds="10"
        memoryStoreEvictionPolicy="LFU" />
</ehcache>

This configuration has to be saved in ehcache-web.xml file and available as a class-path resource starting from the root.

RESTful services without annotations

One of the latest CXF JAX-RS extensions allows users to provide external models with the information which the runtime typically gets from JAX-RS annotations like @Path, @PathParam, @Consumes, @Produces, etc.
There might be a number of cases when it can be advantageous to describe how a given resource can be exposed as a RESTful service without actually modifying this resource. For example, when new dynamic interface implementations are registered, when no source code can be modified, when the cost of future updates (for ex, modifying the value of @Path annotations) is considered to be expensive, etc.

User model schema type is described in the jaxrs.xsd.

The top-level 'model' element can have 'resource' children elements. A 'resource' element describes a resource class which can be either a root resource class or a sub-resource one and it can have attributes describing 'path', 'produces' and 'consumes' values and it has a 'name' attribute which identifies a fully-qualified resource class.
A 'resource' element can have a number of 'operation' elements pointing to resource methods (with its 'name' attribute) and can have 'path', 'produces', 'consumes' and 'verb' (HTTP method) values. An 'operation' element which has no 'verb' attribute is treated as a sub-resource locator - a corresponding resource class has to be available in the model with its 'name' attribute matching the return type's name of this operation.
Every operation can have a number of 'param' elements. A 'param' element should have its 'name' attribute matching a corresponding parameter name in the class resource method. Its 'type' can have the following values : 'PATH', 'QUERY', 'CONTEXT', 'HEADER', 'MATRIX', 'COOKIE', 'FORM' or 'REQUEST_BODY'. Parameters corresponding to response types do not have to be described. It can also have 'defaultValue' and 'encoded' values being set.

Starting from CXF 2.3.2-SNAPSHOT a "oneway" attribute can also be applied to individual operations.

Here is an example :


<model xmlns="http://cxf.apache.org/jaxrs">
<resource name="org.apache.cxf.systest.jaxrs.BookStoreNoAnnotations" path="bookstore"
produces="application/json" consumes="application/json">
<operation name="getBook" verb="GET" path="/books/

" produces="application/xml">
<param name="id" type="PATH"/>
</operation>
<operation name="getBookChapter" path="/books/

Unknown macro: {id}

/chapter">
<param name="id" type="PATH"/>
</operation>
<operation name="updateBook" verb="PUT">
<param name="book" type="REQUEST_BODY"/>
</operation>
</resource>
<resource name="org.apache.cxf.systest.jaxrs.ChapterNoAnnotations">
<operation name="getItself" verb="GET"/>
<operation name="updateChapter" verb="PUT" consumes="application/xml">
<param name="content" type="REQUEST_BODY"/>
</operation>
</resource>
</model>


This model describes two resources, BookStoreNoAnnotations and ChapterNoAnnotations. The BookStoreNoAnnotations resource has three resource operations, 'getBook', 'getBookChapter' and 'updateBook'. Note that the 'getBookChapter' operation element (described in the model) has no 'verb' attribute so runtime will identify it as a subresource locator.
The runtime will introspect the [org.apache.cxf.systest.jaxrs.BookStoreNoAnnotations|http://svn.apache.org/repos/asf/cxf/trunk/systests/jaxrs/src/test/java/org/apache/cxf/systest/jaxrs/BookStoreNoAnnotations.java] class and check the return types for both 'getBook' and 'getBookChapter' methods.  BookStoreNoAnnotations.getBookChapter() method's return type is [org.apache.cxf.systest.jaxrs.ChapterNoAnnotations|http://svn.apache.org/repos/asf/cxf/trunk/systests/jaxrs/src/test/java/org/apache/cxf/systest/jaxrs/ChapterNoAnnotations.java] so the model will be checked if it contains the resource element with the 'name' attribute equal to 'org.apache.cxf.systest.jaxrs.ChapterNoAnnotations'. After this resource has been found, the  ChapterNoAnnotations class is recognized as a sub-resource and then its 'getItself' method is checked.  

Additionally the BookStoreNoAnnotations resource declares that all its resource methods produce 'application/json' mediaTypes, while its 'getBook' method overrides its with its own 'produces' value. BookStoreNoAnnotations resource also has a 'consumes' attribute which requires all of the resource methods (such as 'updateBook') to consume "application/json" formats. The ChapterNoAnnotations 'updateChapter' resource operation requires 'application/xml' formats.

You can use a comma-seperated list of media type values if needed, for example, produces("application/xml;charset=utf-8,application/json") or consumes("application/xml;charset=utf-8,application/json").

Please also see this [model file|http://svn.apache.org/repos/asf/cxf/trunk/systests/jaxrs/src/test/java/org/apache/cxf/systest/jaxrs/resources/resources2.xml] for an example. Providing this file will let all implementations of the interface described in this model instance be exposed as RESTful services supported by the JAX-RS runtime. 

h2. Configuration 

A user model can be referenced in a number of ways. It can be embedded in a jaxrs:server endpoint definition or linked to through a jaxrs:server modelRef attribute as a classpath resource. 

Please see this [bean|http://svn.apache.org/repos/asf/cxf/trunk/systests/jaxrs/src/test/resources/jaxrs/WEB-INF/beans.xml] Spring configuration file, look at jaxrs server beans with 'bookservice6' and 'bookservice7' names.

Note that when registering a model from Spring you do not need to declare a jaxrs server serviceBeans section - the runtime will instantiate the beans itself. If you do need to inject certain properties into your service bean from Spring then you do need to declare a service bean too. In this case this bean will be instantiated twice - once by the runtime during the model introspection and once by Spring, however in the end it will be the bean created by Spring that will be used, the one created by the runtime will be removed.
You can avoid this double instantiation by having your model describing the interfaces which the actual root resource beans will implement. In this case only Spring will create a bean and the runtime will apply the model description to this injected bean. Note that if Spring proxifies your bean (for example by applying transaction aspects to it) then the model does have to describe an interface for a match between the model and the injected bean proxy to succeed.

Please have a look at [this Spring bean|http://svn.apache.org/repos/asf/cxf/trunk/systests/jaxrs/src/test/resources/jaxrs_proxy/WEB-INF/beans.xml]. The jaxrs endpoint with id 'bookservice2' will have BookStoreWithNoAnnotations created twice but it will be the Spring created BookStoreWithNoAnnotations bean that will serve as a resource class instance. The jaxrs endpoint with id 'bookservice3' will have BookStoreWithNoAnnotationsImpl class instantiated only by Spring, with the model describing BookStoreWithNoAnnotationsInterface only that this class implements.


You can also register a model programmatically, for example :

{code:java}
JAXRSServerFactoryBean sf = new JAXRSServerFactoryBean();
            sf.setAddress("http://localhost:9080/");
String modelRef = "classpath:/org/apache/cxf/systest/jaxrs/resources/resources2.xml";
sf.setModelRef(modelRef);

// or if you have interface classes described in the model already loaded, ex : OSGI
// sf.setModelRefWithServiceClass(modelRef, BookStoreNoAnnotationsInterface.class);

// register an actual bean only if the model describes interfaces
sf.setServiceBeans(new BookStoreNoAnnotationsImpl());

Please also see this system test for the example of how model beans like UserResource can be created and registered programmatically.

Similarly, you can register a user model on the client side, either from jaxrs:client or programmatically, example :

JAXRSClientFactoryBean cf = new JAXRSClientFactoryBean();
cf.setAddress("http://localhost:9080/");
String modelRef = "classpath:/org/apache/cxf/systest/jaxrs/resources/resources2.xml";
sf.setModelRef(modelRef);
BookStoreNoAnnotations proxy = cf.create(BookStoreNoAnnotations.class);

At the moment it is only possible to register a user model with CXFNonSpringJAXRSServlet using the latest 2.2.3-SNAPSHOT like the way it is done in this web.xml. See CXFServlet3 and CXFServlet4 servlet declarations. Note that CXFServlet4 registers a model containing interfaces so it also registers a BookStoreNoAnnotationsImpl service class.

The workaround is to create a custom servlet :

public class JAXRSUserModelServlet extends CXFNonSpringJaxrsServlet  {

@Override
public void loadBus(ServletConfig servletConfig) throws ServletException {

super.loadBus(servletConfig);

JAXRSServerFactoryBean sf = new JAXRSServerFactoryBean();
String address = servletConfig.getInitParameter(SERVICE_ADDRESS_PARAM); //jaxrs.address
if (address == null) {
address = "/";
}
sf.setAddress(address);

// modelRef needs to start from 'classpath:', ex 'classpath:/WEB-INF/models/model1.xml
String modelRef = servletConfig.getInitParameter("user.model");
sf.setModelRef(modelRef);
sf.create();
}
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