Friday, February 21, 2014

Apache Cxf JAX-WS, JAX-RS Example - Translation Service

Source Code

Problem

Make a translator that uses the services of online translation, this translator must then be published using both as JAX-WS as well as JAX-RS

Solution

To solve this problem we will use Web service Code first (Bottom up) approach.

The online translators that will be used are: Google Translator, Microsoft Translator, Systran Translator

The libs that will be used are: Spring Framework 4.0.0, Apache CXF 3.0.0, HttpClient 4.3.2

Structure

We will follow the next structure:

Basic Structure

  1. Core: It contains the main logic that allows us to make the translation, it is formed by:

    1.1. Application Services These are the direct clients of the domain model. They remain very lightweight, coordinating operations performed against domain objects.

    1.2. Domain This is where the business logic and rules of an application live, and it is the heart of the software.

    1.3. Infrastructure This is where general technical, plumbing - related code happens. This layer acts as a supporting library for all the other layers

  2. Interface: This include the classes needed to be able to publish the services using both as JAX-WS as well as JAX-RS

1. Core

1.1 Application Services:

Main interface

public interface TranslatorService {

    TranslatedText translate(String langFrom, String langTo, String text);
}

Main implementation

@Service
public class TranslatorServiceImpl implements TranslatorService {
    @Autowired
    Translator googleTranslator;
    @Autowired
    Translator microsoftTranslator;
    @Autowired
    Translator systranTranslator;

    public TranslatedText translate(String langFrom, String langTo, String text) {
        LanguageSourceTarget languageSourceTarget = new LanguageSourceTarget(Language.fromString(langFrom), Language.fromString(langTo));
        if (languageSourceTarget.sourceAndTargeAreEquals()) {
            throw new TranslatorException("The languages from and to must be differents.");
        }
        Future<String> googleResult = googleTranslator.translate(languageSourceTarget, text);
        Future<String> systranResult = systranTranslator.translate(languageSourceTarget, text);
        Future<String> microsoftResult = microsoftTranslator.translate(languageSourceTarget, text);
        TranslatedText response = new TranslatedText();
        response.setFrom(languageSourceTarget.getSourceAsStr());
        response.setTo(languageSourceTarget.getTargetAsStr());
        response.setMicrosoftTranslation(getTranslation(microsoftResult));
        response.setGoogleTranslation(getTranslation(googleResult));
        response.setSystranTranslation(getTranslation(systranResult));
        return response;
    }

Notes:

  • In this method the 3 translators are called.
  • Future is used in order to execute the translators asynchronously
  • The return class TranslatedText has the 3 translations

1.2. Domain

Main Interface

public interface Translator {

    public Future<String> translate(LanguageSourceTarget languageSourceTarget, String text);
    public String detectLanguage(String text);
}

The pair of languages to be used in translation, is represented by:

public class LanguageSourceTarget {
    private Language source;
    private Language target;

The language to be used in translation, is represented by:

public enum Language {
    AFRIKAANS("af"),
    ALBANIAN("sq"),
    ...

The result of the translation is represented by:

public class TranslatedText {
    private String from;
    private String to;
    private String googleTranslation;
    private String microsoftTranslation;
    private String systranTranslation;

1.3. Infrastructure

Base Implementation of the translators (Template Method)
public abstract class TranslatorImpl implements Translator {
    @Async
    public Future<String> translate(LanguageSourceTarget languageSourceTarget, String text) {
        try {
            String encodedText = URLEncoder.encode(text, ENCODING_UTF_8);
            String from = languageSourceTarget.getSource().asStr();
            String to = languageSourceTarget.getTarget().asStr();
            return new AsyncResult(translateInternal(from, to, text, encodedText));
        } catch (IOException e) {
            LOG.error("Problems translating:" + e.getMessage(), e);
            throw new TranslatorException("Problems translating:" + e.getMessage(), e);
        }
    }

    protected String translateInternal(String from, String to, String text, String encodedText) throws IOException {
        HttpRequestBase requestBase = getHttpRequest(from, to, text, encodedText);
        HttpClient httpclient = HttpClientBuilder.create().build();
        HttpResponse response = httpclient.execute(requestBase);
        HttpEntity responseEntity = response.getEntity();
        String responseAsStr = transformToString(responseEntity);
        if (StringUtils.hasText(responseAsStr)) {
            return getTranslationFrom(responseAsStr);
        }
        return "";
    }

    protected abstract HttpRequestBase getHttpRequest(String from, String to, String text, String encodedText);

    protected abstract String getTranslationFrom(String responseAsStr);

Main methods:

translate:

  • Encode the text using UTF-8
  • Get the string representations of the languages
  • Call to translate internal
  • It is market as Async to mark this method as asynchronous

translateInternal:

  • Get the HttpRequest (GET or POST) to be used.
  • The HttpRequest is invoked using HttpClient, with this we can get the HttpResponse that contains the Entity, which is the response of the translator
  • Convert the Entity to String.
  • Parsing this string we can get the translation

Abstract Methods:

The following methods must be overwritten by each implementation of the translator

HttpRequestBase getHttpRequest(String from, String to, String text, String encodedText)

Return a HttpRequest object that contains: the method (GET or POST), the url that must be called and the parameters that must be sent.

String getTranslationFrom(String responseAsStr)

Receive a String representing the full response of the online translator, and parsing it returns the translation

Google Translator
@Component("googleTranslator")
public class GoogleTranslator extends TranslatorImpl {

    @Override
    protected HttpRequestBase getHttpRequest(String from, String to, String text, String encodedText) {
        HttpGet httpGet = new HttpGet("http://translate.google.com/translate_a/t?client=t&text=" + encodedText + "&hl=" + from + "&sl=" + from + "&tl=" + to + "&multires=1&otf=2&ssel=0&tsel=0&sc=1&ie=" + ENCODING_UTF_8);
        return httpGet;
    }

    protected String getTranslationFrom(String responseAsStr) {
        StringBuilder sb = new StringBuilder();
        if (responseAsStr.length() > 4) {
            int idxEnd = responseAsStr.indexOf("\"", 4);
            sb.append(responseAsStr.substring(4, idxEnd));
        }
        return sb.toString();
    }

Text to translate: "This is a test" (From en to es)

HttpRequestBase GET:

http://translate.google.com/translate_a/t?client=t&text=This+is+a+test&hl=en&sl=en&tl=es&multires=1&otf=2&ssel=0&tsel=0&sc=1&ie=UTF-8

responseAsStr:

[[["Esta es una prueba","This is a test","",""]],,"en",,[["Esta es una prueba",[1],true,false,390,0,4,0]],[["This is a test",1,[["Esta es una prueba",390,true,false],["Esto es una prueba",31,true,false],["esta es una prueba",0,true,false],["Es una prueba",0,true,false],["Este es un examen",0,true,false]],[[0,14]],"This is a test"]],,,[["en"]],103]
Microsoft Translator
@Component("microsoftTranslator")
public class MicrosoftTranslator extends TranslatorImpl {
    private static String API_KEY = "YOUR_API_KEY";

    @Override
    protected HttpRequestBase getHttpRequest(String from, String to, String text, String encodedText) {
        String urlStr = "http://api.microsofttranslator.com/v2/Http.svc/Translate";
        String PARAMETERS = "appId=" + API_KEY + "&text=" + encodedText + "&from=" + from + "&to=" + to + "";
        HttpGet httpget = new HttpGet(urlStr + "?" + PARAMETERS);
        return httpget;
    }

    @Override
    protected String getTranslationFrom(String responseAsStr) {
        return getResultFromResponseStr(responseAsStr);
    }

    public String detectLanguage(String text) {
        try {
            String encodedText = URLEncoder.encode(text, ENCODING_UTF_8);
            String urlStr = "http://api.microsofttranslator.com/v2/Http.svc/Detect";
            String parameters = "appId=" + API_KEY + "&text=" + encodedText;
            HttpGet httpget = new HttpGet(urlStr + "?" + parameters);
            HttpClient httpclient = HttpClientBuilder.create().build();
            HttpResponse response = httpclient.execute(httpget);
            HttpEntity entity = response.getEntity();
            String responseStr = transformToString(entity);
            return getResultFromResponseStr(responseStr);
        } catch (Throwable e) {
            LOG.error("Problems detecting language:" + e.getMessage(), e);
            throw new TranslatorException("Problems detecting language:" + e.getMessage(), e);
        }
    }

    private static String getResultFromResponseStr(String responseAsStr) {
        if (!StringUtils.hasText(responseAsStr)) {
            return "";
        }
        int idxBegin = responseAsStr.indexOf(">");
        int idxEnd = responseAsStr.indexOf("<", idxBegin + 1);
        return responseAsStr.substring(idxBegin + 1, idxEnd);
    }

Text to translate: "This is a test" (From en to es)

HttpRequestBase GET:

http://api.microsofttranslator.com/v2/Http.svc/Translate?appId=YOUR_API_KEY&text=This+is+a+test&from=en&to=es

responseAsStr:

<string xmlns="http://schemas.microsoft.com/2003/10/Serialization/">Esto es una prueba</string>
Systran Translator
@Component("systranTranslator")
public class SystranTranslator extends TranslatorImpl {

    @Override
    protected HttpRequestBase getHttpRequest(String from, String to, String text, String encodedText) {
        String lpStr = from + "_" + to;
        String urlStr = "http://www.systranet.com/sai?gui=text&lp=" + lpStr + "&sessionid=13071170317011544&service=urlmarkuptranslate";
        text = "<html><body>" + text + "<br></body></html>";
        StringEntity entityStr = new StringEntity(text, ENCODING_UTF_8);
        HttpPost httpPost = new HttpPost(urlStr);
        httpPost.setEntity(entityStr);
        return httpPost;
    }

    @Override
    protected String getTranslationFrom(String responseAsStr) {
        String classResult = "<html>";
        int idxBegin = responseAsStr.indexOf(classResult);
        idxBegin = responseAsStr.indexOf(classResult, idxBegin + 1);
        int idxEnd = responseAsStr.length() - 1;
        String htmlResult = responseAsStr.substring(idxBegin, idxEnd);
        String result = SimpleHtmlParser.getInnerText(htmlResult);
        return result != null ? result.trim() : "";
    }

Text to translate: "This is a test" (From en to es)

HttpRequestBase POST:

 http://www.systranet.com/sai?gui=text&lp=en_es&sessionid=13071170317011544&service=urlmarkuptranslate

responseAsStr:

<html><body><span class="systran_seg" id="Sp1.s2_o"><span class="systran_token_word" value="2428/pron" id="p1.t2_1">This</span> <span class="systran_token_word" value="4004/verb:plain" id="p1.t2_2">is</span> <span class="systran_token_word" value="3c3e/det" id="p1.t2_3">a</span> <span class="systran_altmeaning" value="&lt\;reference&gt\;test7f7f&lt\;/reference&gt\;&lt\;choice value='altmeaning-,-31322,-,100'&gt\;[criterio normal] (SYSTRAN Alternative Dictionary)&lt\;/choice&gt\;&lt\;choice value='altmeaning-,-31323,-,100'&gt\;[ensayo] (SYSTRAN Alternative Dictionary)&lt\;/choice&gt\;&lt\;choice value='altmeaning-,-31324,-,100'&gt\;[examen] (SYSTRAN Alternative Dictionary)&lt\;/choice&gt\;&lt\;choice value='_main,0' default='yes'&gt\;[prueba] (General)&lt\;/choice&gt\;&lt\;source&gt\;test&lt\;/source&gt\;" id="altmeaning_1"><span class="systran_token_word" value="1010/noun:common" id="p1.t2_4">test</span></span></span><br></body></html>;<html>
<meta http-equiv="Content-Type" content="text/html\; charset=UTF-8">
<body><span class="systran_seg" id="Sp1.s2_o"><span class="systran_token_word" value="2428/pron" id="p1.t2_1">Esto</span> <span class="systran_token_word" value="4004/verb:plain" id="p1.t2_2">es</span> <span class="systran_token_word" value="*" id="p1.t2_0">una</span> <span class="systran_altmeaning" value="&lt\;reference&gt\;test7f7f&lt\;/reference&gt\;&lt\;choice value='altmeaning-,-31322,-,100'&gt\;[criterio normal] (SYSTRAN Alternative Dictionary)&lt\;/choice&gt\;&lt\;choice value='altmeaning-,-31323,-,100'&gt\;[ensayo] (SYSTRAN Alternative Dictionary)&lt\;/choice&gt\;&lt\;choice value='altmeaning-,-31324,-,100'&gt\;[examen] (SYSTRAN Alternative Dictionary)&lt\;/choice&gt\;&lt\;choice value='_main,0' default='yes'&gt\;[prueba] (General)&lt\;/choice&gt\;&lt\;source&gt\;test&lt\;/source&gt\;" id="altmeaning_1"><span class="systran_token_word" value="1010/noun:common" id="p1.t2_4">prueba</span></span></span><br></body></html>;

Testing Translation Service

@RunWith(SpringJUnit4ClassRunner.class)
@ContextConfiguration(locations = {"/META-INF/spring/applicationContext.xml"})
public class TranslatorServiceTest {

    @Autowired
    TranslatorService translatorService;
    @Test
    public void translateTest() throws Exception {
        TranslatedText translatedText = translatorService.translate("en", "es", "This is a test of translation service");
        System.out.println(translatedText);
    }

It will print:

TranslatedText{from='en', to='es', googleTranslation='Esta es una prueba de servicio de traducción', microsoftTranslation='Esta es una prueba de servicio de traducción', systranTranslation='Ésta es una prueba del servicio de traducción'}

2. Interface

2.1 JAX-RS

Main Interface

@Path("/")
public interface TranslatorRest {

    @GET
    @Path("translate/{from}/{to}/{text}")
    @Produces({MediaType.APPLICATION_JSON})
    public TranslatedText translate(@PathParam("from") String from, @PathParam("to") String to, @PathParam("text") String text);
}

Main Implementation

@Service
public class TranslatorRestImpl implements TranslatorRest {

    @Autowired
    TranslatorService translatorService;

    public TranslatedText translate(String from, String to, String text) {
        TranslatedText translatedText = translatorService.translate(from, to, text);
        return translatedText;
    }
}

Notes:

  • It is only required to put the JAX-RS annotations in the interface
  • The main method only calls the application service. There is no business logic in these methods
Exception Handler
@Component
public class ExceptionHandler implements ExceptionMapper {

    public javax.ws.rs.core.Response toResponse(Throwable throwable) {
        return Response.serverError().entity(throwable.getMessage()).build();
    }
}
Examples:

Request:

http://services.anotes.org/translator/translate/en/es/task

Response:

{"from":"en","to":"es","googleTranslation":"tarea","microsoftTranslation":"tarea","systranTranslation":"tarea"}
Using filters

We need that this service can support links as the following:

http://services.anotes.org/translator/translate/task

In this there is not any information about the language neither "from" nor "to" but we can infer both of them and convert this link to:

http://services.anotes.org/translator/translate/en/es/task

To infer the "from" language we can use the detectLanguage method of MicrosoftTranslator using the text to translate as parameter To infer the "to" language we can use the language sent in the request header.

To convert the url before calling the TranslatorRest we must use a filter. For this case we will implement ContainerRequestFilter as show below

Container Request Filter

@Component
@Provider
@PreMatching
public class LanguageSetterFilter implements ContainerRequestFilter {
    private static final String DEFAULT_LANG_TO = "es";
    private static final String PATH_TRANSLATE = "/translate/";
    @Autowired
    Translator microsoftTranslator;

    public void filter(ContainerRequestContext ctx) {
        UriInfo uriInfo = ctx.getUriInfo();
        String uriStr = uriInfo.getRequestUri().toString();
        int idx = uriStr.indexOf(PATH_TRANSLATE);
        boolean isTranslatePath = idx != -1;
        if (isTranslatePath) {
            String parameters = uriStr.substring(idx + PATH_TRANSLATE.length());
            boolean existLanguages = parameters.indexOf("/") != -1;
            if (!existLanguages) {
                String headerLanguage = getHeaderLanguage(ctx);
                ctx.setRequestUri(getNewUri(uriStr, idx, parameters, headerLanguage));
            }
        }
    }

    private String getHeaderLanguage(ContainerRequestContext ctx) {
        String headerString = ctx.getHeaderString("accept-language");
        return headerString != null && headerString.length() > 2 ? headerString.substring(0, 2) : DEFAULT_LANG_TO;
    }

    private URI getNewUri(String uriStr, int idx, String parameters, String headerLanguage) {
        String langFrom = microsoftTranslator.detectLanguage(parameters);
        String langTo = headerLanguage;
        String newUri = uriStr.substring(0, idx + PATH_TRANSLATE.length()) + langFrom + "/" + langTo + "/" + parameters;
        try {
            return new URI(newUri);
        } catch (URISyntaxException e) {
            LOG.error("Getting new uri:" + newUri, e);
            throw new TranslatorException("Problems Getting new uri:" + newUri, e);
        }
    }
}

Method

filter:

JAX-RS Bean Declaration
<jaxrs:server address="/translator">
    <jaxrs:serviceBeans>
        <ref bean="translatorRestImpl"/>
    </jaxrs:serviceBeans>
    <jaxrs:providers>
        <ref bean="languageSetterFilter"/>
        <ref bean="exceptionHandler"/>
        <bean class="org.codehaus.jackson.jaxrs.JacksonJsonProvider"/>
    </jaxrs:providers>
</jaxrs:server>
Wadl
<application>
    <grammars/>
    <resources base="http://services.gamal-mateo.cloudbees.net/translator">
        <resource path="/">
            <resource path="translate/{from}/{to}/{text}">
                <param name="from" style="template" type="xs:string"/>
                <param name="to" style="template" type="xs:string"/>
                <param name="text" style="template" type="xs:string"/>
                <method name="GET">
                    <request/>
                    <response>
                        <representation mediaType="application/json"/>
                    </response>
                </method>
            </resource>
        </resource>
    </resources>
</application>
Testing
public class TranslatorRestTest {
    private final static String ENDPOINT_ADDRESS = "http://localhost:8062/apache-cxf-example/translator";
    public static final String ENCODING_UTF_8 = "UTF-8";

    @Test
    public void translateTest() throws IOException {
        Client client = ClientBuilder.newClient();
        Response response = client.target(ENDPOINT_ADDRESS + "/translate/es/en/prueba").request("application/json").get();
        String responseStr = getResponseAsStr(response);
        System.out.println(responseStr);
    }

It will print:

{"from":"es","to":"en","googleTranslation":"test","microsoftTranslation":"","systranTranslation":"test"}

2.1 JAX-WS

Main Interface

@WebService
public interface TranslatorPT {

    @SOAPBinding(parameterStyle = SOAPBinding.ParameterStyle.BARE)
    @WebMethod(action = "http://anotes.org/services/translator/ws/translate")
    @WebResult(name = "TranslateResponse", targetNamespace = "http://anotes.org/services/translator/ws/schema", partName = "part")
    @ResponseWrapper(targetNamespace = "http://anotes.org/services/translator/ws/schema", className = "org.anotes.services.translator.ws.schema.TranslateResponse")
    @RequestWrapper(targetNamespace = "http://anotes.org/services/translator/ws/schema", className = "org.anotes.services.translator.ws.schema.TranslateRequest")
    public TranslateResponse translate(@WebParam(name = "translateRequest",
            partName = "part",
            targetNamespace = "http://anotes.org/services/translator/ws/schema")
                                       TranslateRequest request);

}

Main Implementation

@Service
@WebService(portName = "translatorPort",
        serviceName = "translatorService",
        targetNamespace = "http://anotes.org/services/translator/ws",
        endpointInterface = "org.anotes.services.translator.ws.TranslatorPT")
public class TranslatorPTImpl implements TranslatorPT {

    @Autowired
    TranslatorService translatorService;

    @Autowired
    ConversionService conversionService;

    public TranslateResponse translate(TranslateRequest request) {
        TranslatedText translatedText = translatorService.translate(request.getLangFrom(), request.getLangTo(), request.getText());
        TranslateResponse response = conversionService.convert(translatedText, TranslateResponse.class);
        return response;
    }
}

Notes:

  • It is only required to put the full JAX-WS annotations in the interface methods
  • It is required to put the full class JAX-WS @WebService annotations in the implementation class
  • The main method only calls the application service. There is no business logic in these methods

Request

public class TranslateRequest {
    private String langFrom;
    private String langTo;
    private String text;

Response

public class TranslateResponse {
    private ResultEnum resultCode = ResultEnum.OK;
    private String errorMsg;
    private String googleTranslation;
    private String microsoftTranslation;
    private String systranTranslation;

package-info It is needed in order to point where will be generated the objects for this web service

@javax.xml.bind.annotation.XmlSchema(namespace = "http://anotes.org/services/translator/ws/schema")
package org.anotes.services.translator.ws.schema;
Exception Handler

We will use spring-aop; specifically we will use the following aspect in order to intercept all calls to public methods of the *PTImpl class; and in case of exception we will generate an object of TranslateResponse setting the result code and the error message

@Aspect
@Component
public class WsServicesAspect {
    protected final Logger LOG = LoggerFactory.getLogger(getClass());

    @Pointcut("bean(*PTImpl)")
    private void serviceBean() {
    }

    @Pointcut("execution(public * *(..))")
    private void publicMethod() {
    }

    @Around("serviceBean() && publicMethod()")
    public Object processServicePtPublicMethods(ProceedingJoinPoint proceedingJoinPoint) throws Throwable {
        String method = proceedingJoinPoint.getSignature().toShortString();
        try {
            LOG.info("Around: Before executing:" + method);
            Object obj = proceedingJoinPoint.proceed();
            LOG.info("Around: After executing:" + method);
            return obj;
        } catch (Throwable throwable) {
            LOG.error("Problems calling the method: " + method, throwable);
            String errorMsg = throwable.getMessage();
            Object responseObj = getResponseInstance(proceedingJoinPoint);
            BeanWrapper beanWrapper = new BeanWrapperImpl(responseObj);
            beanWrapper.setPropertyValue("resultCode", ResultEnum.ERROR);
            beanWrapper.setPropertyValue("errorMsg", errorMsg);
            return responseObj;
        }
    }
JAX-WS Bean Declaration
<!-- JAX-WS -->
<jaxws:endpoint address="/translatorPort"
                implementor="#translatorPTImpl"/>
Wsdl
<wsdl:definitions xmlns:wsdl="http://schemas.xmlsoap.org/wsdl/"
                  xmlns:tns="http://anotes.org/services/translator/ws"
                  xmlns:soap="http://schemas.xmlsoap.org/wsdl/soap/"
                  xmlns:ns1="http://ws.translator.services.anotes.org/" name="translatorService"
                  targetNamespace="http://anotes.org/services/translator/ws">
    <wsdl:import location="http://services.gamal-mateo.cloudbees.net/translatorPort?wsdl=TranslatorPT.wsdl"
                 namespace="http://ws.translator.services.anotes.org/"></wsdl:import>
    <wsdl:binding name="translatorServiceSoapBinding" type="ns1:TranslatorPT">
        <soap:binding style="document" transport="http://schemas.xmlsoap.org/soap/http"/>
        <wsdl:operation name="translate">
            <soap:operation soapAction="http://anotes.org/services/translator/ws/translate" style="document"/>
            <wsdl:input name="translate">
                <soap:body use="literal"/>
            </wsdl:input>
            <wsdl:output name="translateResponse">
                <soap:body use="literal"/>
            </wsdl:output>
        </wsdl:operation>
    </wsdl:binding>
    <wsdl:service name="translatorService">
        <wsdl:port binding="tns:translatorServiceSoapBinding" name="translatorPort">
            <soap:address location="http://services.gamal-mateo.cloudbees.net/translatorPort"/>
        </wsdl:port>
    </wsdl:service>
</wsdl:definitions>
Testing
@RunWith(SpringJUnit4ClassRunner.class)
@ContextConfiguration(locations = {"/META-INF/spring/spring-context-test.xml"})
public class TranslatorPTTest {

    @Autowired
    private TranslatorPT wsClient;

    @Test
    public void translateTest() {
        TranslateRequest request = new TranslateRequest();
        request.setLangFrom("es");
        request.setLangTo("en");
        request.setText("Esta es una prueba de JAXWS");
        TranslateResponse response = wsClient.translate(request);
        System.out.println(response);
    }

It will print:

TranslateResponse{resultCode=OK, errorMsg='null', googleTranslation='This is a test of JAXWS', microsoftTranslation='', systranTranslation='This is a test of JAXWS'}

Final Notes:

  • Microsoft translator needs an API KEY, so you have to request one and then put it on the private static String API_KEY = "YOUR_API_KEY" in MicrosoftTranslator

  • Gradle is used so you can run the application executing: gradle jettyrun

2 comments:

opcs said...

Awesome Work ! Thanks a ton :D
I have lots of confusion as there are many different library/implementations are provided by different vendors for developing the webServices. like implementation provided by SUN (metro, Jersey) and by apache (axis 1, soap, axis 2, cxf). I am new to web services so could you provide some guidelines how do I start with to learn about it. Thanks

Gamal Mateo said...

Thanks for your comment.
I think that you must start checking the cxf because is easy and support both jax-ws and jax-rs

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