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 * Copyright (c) 2010-2014 Oracle and/or its affiliates. All rights reserved.
 *
 * The contents of this file are subject to the terms of either the GNU
 * General Public License Version 2 only ("GPL") or the Common Development
 * and Distribution License("CDDL") (collectively, the "License").  You
 * may not use this file except in compliance with the License.  You can
 * obtain a copy of the License at
 * http://glassfish.java.net/public/CDDL+GPL_1_1.html
 * or packager/legal/LICENSE.txt.  See the License for the specific
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package com.sun.jersey.server.impl.cdi;

import java.lang.annotation.Annotation;
import java.lang.reflect.Array;
import java.lang.reflect.GenericArrayType;
import java.lang.reflect.Method;
import java.lang.reflect.Modifier;
import java.lang.reflect.ParameterizedType;
import java.lang.reflect.Type;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.logging.Logger;

import javax.ws.rs.CookieParam;
import javax.ws.rs.DefaultValue;
import javax.ws.rs.Encoded;
import javax.ws.rs.FormParam;
import javax.ws.rs.HeaderParam;
import javax.ws.rs.MatrixParam;
import javax.ws.rs.PathParam;
import javax.ws.rs.QueryParam;
import javax.ws.rs.core.Application;
import javax.ws.rs.core.Context;
import javax.ws.rs.core.HttpHeaders;
import javax.ws.rs.core.Request;
import javax.ws.rs.core.SecurityContext;
import javax.ws.rs.core.UriInfo;
import javax.ws.rs.ext.Providers;

import javax.enterprise.context.spi.CreationalContext;
import javax.enterprise.event.Observes;
import javax.enterprise.inject.spi.AfterBeanDiscovery;
import javax.enterprise.inject.spi.AnnotatedCallable;
import javax.enterprise.inject.spi.AnnotatedConstructor;
import javax.enterprise.inject.spi.AnnotatedField;
import javax.enterprise.inject.spi.AnnotatedMethod;
import javax.enterprise.inject.spi.AnnotatedParameter;
import javax.enterprise.inject.spi.AnnotatedType;
import javax.enterprise.inject.spi.Bean;
import javax.enterprise.inject.spi.BeanManager;
import javax.enterprise.inject.spi.BeforeBeanDiscovery;
import javax.enterprise.inject.spi.Extension;
import javax.enterprise.inject.spi.InjectionPoint;
import javax.enterprise.inject.spi.ProcessAnnotatedType;
import javax.enterprise.inject.spi.ProcessInjectionTarget;
import javax.enterprise.inject.spi.ProcessManagedBean;
import javax.enterprise.util.AnnotationLiteral;
import javax.inject.Inject;
import javax.inject.Provider;
import javax.naming.InitialContext;
import javax.naming.Name;
import javax.naming.NamingException;

import com.sun.jersey.api.core.ExtendedUriInfo;
import com.sun.jersey.api.core.HttpContext;
import com.sun.jersey.api.core.HttpRequestContext;
import com.sun.jersey.api.core.HttpResponseContext;
import com.sun.jersey.api.core.ResourceConfig;
import com.sun.jersey.api.core.ResourceContext;
import com.sun.jersey.api.model.Parameter;
import com.sun.jersey.core.spi.component.ComponentScope;
import com.sun.jersey.core.util.FeaturesAndProperties;
import com.sun.jersey.server.impl.InitialContextHelper;
import com.sun.jersey.server.impl.inject.AbstractHttpContextInjectable;
import com.sun.jersey.spi.MessageBodyWorkers;
import com.sun.jersey.spi.container.ExceptionMapperContext;
import com.sun.jersey.spi.container.WebApplication;
import com.sun.jersey.spi.inject.Errors;
import com.sun.jersey.spi.inject.Injectable;

/**
 *
 * @author robc
 */
public class CDIExtension implements Extension {

    private static final Logger LOGGER = Logger.getLogger(CDIExtension.class.getName());

    private static class ContextAnnotationLiteral extends AnnotationLiteral implements Context {};
    private final Context contextAnnotationLiteral = new ContextAnnotationLiteral();

    private static class InjectAnnotationLiteral extends AnnotationLiteral implements Inject {};
    private final Inject injectAnnotationLiteral = new InjectAnnotationLiteral();

    private static class SyntheticQualifierAnnotationImpl extends AnnotationLiteral implements SyntheticQualifier {
        private int value;

        public SyntheticQualifierAnnotationImpl(int value) {
            this.value = value;
        }

        public int value() {
            return value;
        }
    }

    private WebApplication webApplication;
    private ResourceConfig resourceConfig;
    private Set> knownParameterQualifiers;
    private Set> staticallyDefinedContextBeans;
    private Map, Parameter.Source> paramQualifiersMap;

    private Map, Set> discoveredParameterMap;
    private Map syntheticQualifierMap;
    private int nextSyntheticQualifierValue = 0;

    private List toBeInitializedLater;

    private static String JNDI_CDIEXTENSION_NAME = "CDIExtension";
    private static String JNDI_CDIEXTENSION_CTX = "com/sun/jersey/config";

    /*
     * Setting this system property to "true" will force use of the BeanManager to look up the bean for the active CDIExtension,
     * rather than going through a thread local.
     */
    private static final String LOOKUP_EXTENSION_IN_BEAN_MANAGER_SYSTEM_PROPERTY = "com.sun.jersey.server.impl.cdi.lookupExtensionInBeanManager";

    public static final boolean lookupExtensionInBeanManager = getLookupExtensionInBeanManager();

    private static boolean getLookupExtensionInBeanManager() {
        return Boolean.parseBoolean(System.getProperty(LOOKUP_EXTENSION_IN_BEAN_MANAGER_SYSTEM_PROPERTY, "false"));
    }

    /*
     * Returns the instance of CDIExtension that was initialized previously in this same thread, if any.
     */
    public static CDIExtension getInitializedExtension() {
        try {
            InitialContext ic = InitialContextHelper.getInitialContext();
            if (ic == null) {
                throw new RuntimeException();
            }
            return (CDIExtension)lookupJerseyConfigJNDIContext(ic).lookup(JNDI_CDIEXTENSION_NAME);
        } catch (NamingException ex) {
            throw new RuntimeException(ex);
        }
    }

    public CDIExtension() {}

    private void initialize(BeanManager manager) {
        // initialize in a separate method because Weld creates a proxy for the extension
        // and we don't want to waste time initializing it

        // workaround for Weld proxy bug
        if (!lookupExtensionInBeanManager) {
            try {
                InitialContext ic = InitialContextHelper.getInitialContext();
                if (ic != null) {
                    javax.naming.Context jerseyConfigJNDIContext = createJerseyConfigJNDIContext(ic);
                    jerseyConfigJNDIContext.rebind(JNDI_CDIEXTENSION_NAME, this);
                }
            } catch (NamingException ex) {
                throw new RuntimeException(ex);
            }
        }

        // annotations to be turned into qualifiers
        Set> set = new HashSet>();
        set.add(CookieParam.class);
        set.add(FormParam.class);
        set.add(HeaderParam.class);
        set.add(MatrixParam.class);
        set.add(PathParam.class);
        set.add(QueryParam.class);
        set.add(Context.class);
        knownParameterQualifiers = Collections.unmodifiableSet(set);

        // used to map a qualifier to a Parameter.Source
        Map, Parameter.Source> map = new HashMap, Parameter.Source>();
        map.put(CookieParam.class,Parameter.Source.COOKIE);
        map.put(FormParam.class,Parameter.Source.FORM);
        map.put(HeaderParam.class,Parameter.Source.HEADER);
        map.put(MatrixParam.class,Parameter.Source.MATRIX);
        map.put(PathParam.class,Parameter.Source.PATH);
        map.put(QueryParam.class,Parameter.Source.QUERY);
        map.put(Context.class,Parameter.Source.CONTEXT);
        paramQualifiersMap = Collections.unmodifiableMap(map);

        // pre-defined contextual types
        Set> set3 = new HashSet>();
        // standard types
        set3.add(Application.class);
        set3.add(HttpHeaders.class);
        set3.add(Providers.class);
        set3.add(Request.class);
        set3.add(SecurityContext.class);
        set3.add(UriInfo.class);
        // Jersey extensions
        set3.add(ExceptionMapperContext.class);
        set3.add(ExtendedUriInfo.class);
        set3.add(FeaturesAndProperties.class);
        set3.add(HttpContext.class);
        set3.add(HttpRequestContext.class);
        set3.add(HttpResponseContext.class);
        set3.add(MessageBodyWorkers.class);
        set3.add(ResourceContext.class);
        set3.add(WebApplication.class);
        staticallyDefinedContextBeans = Collections.unmodifiableSet(set3);

        // tracks all discovered parameters
        Map, Set> map2 = new HashMap, Set>();
        for (Class qualifier : knownParameterQualifiers) {
            map2.put(qualifier, new HashSet());
        }
        discoveredParameterMap = Collections.unmodifiableMap(map2);

        // tracks the synthetic qualifiers we have to create to handle a specific
        // combination of JAX-RS injection annotation + default value + encoded
        syntheticQualifierMap = new HashMap();

        // things to do in a second time, i.e. once Jersey has been initialized,
        // as opposed to when CDI delivers the SPI events to its extensions
        toBeInitializedLater = new ArrayList();
    }

    private static interface JNDIContextDiver {
        javax.naming.Context stepInto(javax.naming.Context currentContext, String currentName) throws NamingException;
    }

    private static javax.naming.Context diveIntoJNDIContext(javax.naming.Context initialContext, JNDIContextDiver diver) throws NamingException {
        Name jerseyConfigCtxName = initialContext.getNameParser("").parse(JNDI_CDIEXTENSION_CTX);
        javax.naming.Context currentContext = initialContext;
        for (int i=0; i qualifier : knownParameterQualifiers) {
            event.addQualifier(qualifier);
        }
    }

    /*
     *  Holds information on one site (constructor/method argument or field) to be patched.
     */
    private static class PatchInformation {
        private DiscoveredParameter parameter;
        private SyntheticQualifier syntheticQualifier;
        private Annotation annotation;
        private boolean mustAddInject;

        public PatchInformation(DiscoveredParameter parameter, SyntheticQualifier syntheticQualifier, boolean mustAddInject) {
            this(parameter, syntheticQualifier, null, mustAddInject);
        }

        public PatchInformation(DiscoveredParameter parameter, SyntheticQualifier syntheticQualifier, Annotation annotation, boolean mustAddInject) {
            this.parameter = parameter;
            this.syntheticQualifier = syntheticQualifier;
            this.annotation = annotation;
            this.mustAddInject = mustAddInject;
        }

        public DiscoveredParameter getParameter() {
            return parameter;
        }

        public SyntheticQualifier getSyntheticQualifier() {
            return syntheticQualifier;
        }

        public Annotation getAnnotation() {
            return annotation;
        }

        public boolean mustAddInject() {
            return mustAddInject;
        }
    }

     void processAnnotatedType(@Observes ProcessAnnotatedType event) {
        LOGGER.fine("Handling ProcessAnnotatedType event for " + event.getAnnotatedType().getJavaClass().getName());

        AnnotatedType type = event.getAnnotatedType();

        /*
        // only scan managed beans
        if (!type.isAnnotationPresent(ManagedBean.class)) {
            return;
        }

        // only scan root resource classes for now
        if (!type.isAnnotationPresent(Path.class)) {
            return;
        }
        */

        // first pass to determine if we need to patch any sites
        // we also record any qualifiers with parameters we encounter
        // so we can create beans for them later

        // TODO - maybe we should detect cases in which the constructor selection
        // rules in CDI and JAX-RS are in conflict -- CDI should win, but
        // the result may surprise the user

        boolean classHasEncodedAnnotation = type.isAnnotationPresent(Encoded.class);

        Set> mustPatchConstructors = new HashSet>();
        Map, PatchInformation> parameterToPatchInfoMap = new HashMap, PatchInformation>();

        for (AnnotatedConstructor constructor : type.getConstructors()) {
            if (processAnnotatedConstructor(constructor, classHasEncodedAnnotation, parameterToPatchInfoMap)) {
                mustPatchConstructors.add(constructor);
            }
        }

        Set> mustPatchFields = new HashSet>();
        Map, PatchInformation> fieldToPatchInfoMap = new HashMap, PatchInformation>();

        for (AnnotatedField field : type.getFields()) {
            if (processAnnotatedField(field, type.getJavaClass(), classHasEncodedAnnotation, fieldToPatchInfoMap)) {
                mustPatchFields.add(field);
            }
        }

        Set> mustPatchMethods = new HashSet>();
        Set> setterMethodsWithoutInject = new HashSet>();

        for (AnnotatedMethod method : type.getMethods()) {
            if (processAnnotatedMethod(method, type.getJavaClass(), classHasEncodedAnnotation, parameterToPatchInfoMap, setterMethodsWithoutInject)) {
                mustPatchMethods.add(method);
            }
        }

        boolean typeNeedsPatching = !(mustPatchConstructors.isEmpty() && mustPatchFields.isEmpty() && mustPatchMethods.isEmpty());

        // second pass
        if (typeNeedsPatching) {
            AnnotatedTypeImpl newType = new AnnotatedTypeImpl(type);

            Set> newConstructors = new HashSet>();
            for (AnnotatedConstructor constructor : type.getConstructors()) {
                AnnotatedConstructorImpl newConstructor = new AnnotatedConstructorImpl(constructor, newType);
                if (mustPatchConstructors.contains(constructor)) {
                    patchAnnotatedCallable(constructor, newConstructor, parameterToPatchInfoMap);
                }
                else {
                    copyParametersOfAnnotatedCallable(constructor, newConstructor);
                }
                newConstructors.add(newConstructor);
            }

            Set> newFields = new HashSet>();
            for (AnnotatedField field : type.getFields()) {
                if (mustPatchFields.contains(field)) {
                    PatchInformation patchInfo = fieldToPatchInfoMap.get(field);
                    Set annotations = new HashSet();
                    if (patchInfo.mustAddInject()) {
                        annotations.add(injectAnnotationLiteral);
                    }
                    if (patchInfo.getSyntheticQualifier() != null) {
                        annotations.add(patchInfo.getSyntheticQualifier());
                        Annotation skippedQualifier = patchInfo.getParameter().getAnnotation();
                        for (Annotation annotation : field.getAnnotations()) {
                            if (annotation != skippedQualifier) {
                                annotations.add(annotation);
                            }
                        }
                    }
                    else {
                        annotations.addAll(field.getAnnotations());
                    }
                    if (patchInfo.getAnnotation() != null) {
                        annotations.add(patchInfo.getAnnotation());
                    }
                    newFields.add(new AnnotatedFieldImpl(field, annotations, newType));
                }
                else {
                    // copy and reparent
                    newFields.add(new AnnotatedFieldImpl(field, newType));
                }
            }

            Set> newMethods = new HashSet>();
            for (AnnotatedMethod method : type.getMethods()) {
                if (mustPatchMethods.contains((AnnotatedMethod)method)) {
                    if (setterMethodsWithoutInject.contains((AnnotatedMethod)method)) {
                        Set annotations = new HashSet();
                        annotations.add(injectAnnotationLiteral);
                        for (Annotation annotation : method.getAnnotations()) {
                            if (!knownParameterQualifiers.contains(annotation.annotationType())) {
                                annotations.add(annotation);
                            }
                        }
                        AnnotatedMethodImpl newMethod = new AnnotatedMethodImpl(method, annotations, newType);
                        patchAnnotatedCallable(method, newMethod, parameterToPatchInfoMap);
                        newMethods.add(newMethod);
                    }
                    else {
                        AnnotatedMethodImpl newMethod = new AnnotatedMethodImpl(method, newType);
                        patchAnnotatedCallable(method, newMethod, parameterToPatchInfoMap);
                        newMethods.add(newMethod);
                    }
                }
                else {
                    AnnotatedMethodImpl newMethod = new AnnotatedMethodImpl(method, newType);
                    copyParametersOfAnnotatedCallable(method, newMethod);
                    newMethods.add(newMethod);
                }
            }

            newType.setConstructors(newConstructors);
            newType.setFields(newFields);
            newType.setMethods(newMethods);
            event.setAnnotatedType(newType);

            LOGGER.fine("  replaced annotated type for " + type.getJavaClass());
        }
    }

    private  boolean processAnnotatedConstructor(AnnotatedConstructor constructor,
                                                    boolean classHasEncodedAnnotation,
                                                    Map, PatchInformation> parameterToPatchInfoMap) {
        boolean mustPatch = false;

        if (constructor.getAnnotation(Inject.class) != null) {
            boolean methodHasEncodedAnnotation = constructor.isAnnotationPresent(Encoded.class);
            for (AnnotatedParameter parameter : constructor.getParameters()) {
                for (Annotation annotation : parameter.getAnnotations()) {
                    Set discovered = discoveredParameterMap.get(annotation.annotationType());
                    if (discovered != null) {
                        if (knownParameterQualifiers.contains(annotation.annotationType())) {
                            if (methodHasEncodedAnnotation ||
                                    classHasEncodedAnnotation ||
                                    parameter.isAnnotationPresent(DefaultValue.class)) {
                                mustPatch = true;
                            }

                            boolean encoded = parameter.isAnnotationPresent(Encoded.class) || methodHasEncodedAnnotation || classHasEncodedAnnotation;
                            DefaultValue defaultValue = parameter.getAnnotation(DefaultValue.class);
                            if (defaultValue != null) {
                                mustPatch = true;
                            }
                            DiscoveredParameter jerseyParameter = new DiscoveredParameter(annotation, parameter.getBaseType(), defaultValue, encoded);
                            discovered.add(jerseyParameter);
                            LOGGER.fine("  recorded " + jerseyParameter);
                            parameterToPatchInfoMap.put(parameter, new PatchInformation(jerseyParameter, getSyntheticQualifierFor(jerseyParameter), false));
                        }
                    }
                }
            }
        }

        return mustPatch;
    }

    private  boolean processAnnotatedMethod(AnnotatedMethod method,
                                               Class token,
                                               boolean classHasEncodedAnnotation,
                                               Map, PatchInformation> parameterToPatchInfoMap,
                                               Set> setterMethodsWithoutInject) {
        boolean mustPatch = false;

        if (method.getAnnotation(Inject.class) != null) {
            // a method already annotated with @Inject -- we assume the user is
            // aware of CDI and all we need to do is to detect the need for
            // a synthetic qualifier so as to take @DefaultValue and @Encoded into
            // account
            boolean methodHasEncodedAnnotation = method.isAnnotationPresent(Encoded.class);
            for (AnnotatedParameter parameter : method.getParameters()) {
                for (Annotation annotation : parameter.getAnnotations()) {
                    Set discovered = discoveredParameterMap.get(annotation.annotationType());
                    if (discovered != null) {
                        if (knownParameterQualifiers.contains(annotation.annotationType())) {
                            if (methodHasEncodedAnnotation ||
                                    classHasEncodedAnnotation ||
                                    parameter.isAnnotationPresent(DefaultValue.class)) {
                                mustPatch = true;
                            }

                            boolean encoded = parameter.isAnnotationPresent(Encoded.class) || methodHasEncodedAnnotation || classHasEncodedAnnotation;
                            DefaultValue defaultValue = parameter.getAnnotation(DefaultValue.class);
                            if (defaultValue != null) {
                                mustPatch = true;
                            }
                            DiscoveredParameter jerseyParameter = new DiscoveredParameter(annotation, parameter.getBaseType(), defaultValue, encoded);
                            discovered.add(jerseyParameter);
                            LOGGER.fine("  recorded " + jerseyParameter);
                            parameterToPatchInfoMap.put(parameter, new PatchInformation(jerseyParameter, getSyntheticQualifierFor(jerseyParameter), false));
                        }
                    }
                }
            }
        }
        else {
            // a method *not* annotated with @Inject -- here we only deal with
            // setter methods with a JAX-RS "qualifier" (Context, QueryParam, etc.)
            // on the method itself
            if (isSetterMethod(method)) {
                boolean methodHasEncodedAnnotation = method.isAnnotationPresent(Encoded.class);
                for (Annotation annotation : method.getAnnotations()) {
                    Set discovered = discoveredParameterMap.get(annotation.annotationType());
                    if (discovered != null) {
                        if (knownParameterQualifiers.contains(annotation.annotationType())) {
                            mustPatch = true;
                            setterMethodsWithoutInject.add(method);
                            for (AnnotatedParameter parameter : method.getParameters()) {
                                boolean encoded = parameter.isAnnotationPresent(Encoded.class) || methodHasEncodedAnnotation || classHasEncodedAnnotation;
                                DefaultValue defaultValue = parameter.getAnnotation(DefaultValue.class);
                                if (defaultValue == null) {
                                    defaultValue = method.getAnnotation(DefaultValue.class);
                                }
                                DiscoveredParameter jerseyParameter = new DiscoveredParameter(annotation, parameter.getBaseType(), defaultValue, encoded);
                                discovered.add(jerseyParameter);
                                LOGGER.fine("  recorded " + jerseyParameter);
                                SyntheticQualifier syntheticQualifier = getSyntheticQualifierFor(jerseyParameter);
                                // if there is no synthetic qualifier, add to the parameter the annotation that was on the method itself
                                Annotation addedAnnotation = syntheticQualifier == null ? annotation : null;
                                parameterToPatchInfoMap.put(parameter, new PatchInformation(jerseyParameter, syntheticQualifier, addedAnnotation, false));
                            }
                            break;
                        }
                    }
                }
            }
        }

        return mustPatch;
    }

    private  boolean isSetterMethod(AnnotatedMethod method) {
        Method javaMethod = method.getJavaMember();
        if ((javaMethod.getModifiers() & Modifier.PUBLIC) != 0 &&
                (javaMethod.getReturnType() == Void.TYPE) &&
                (javaMethod.getName().startsWith("set"))) {
            List> parameters = method.getParameters();
            if (parameters.size() == 1) {
                return true;
            }
        }

        return false;
    }

    private  boolean processAnnotatedField(AnnotatedField field,
                                              Class token,
                                              boolean classHasEncodedAnnotation,
                                              Map, PatchInformation> fieldToPatchInfoMap) {
        boolean mustPatch = false;
        for (Annotation annotation : field.getAnnotations()) {
            if (knownParameterQualifiers.contains(annotation.annotationType())) {
                boolean mustAddInjectAnnotation = !field.isAnnotationPresent(Inject.class);

                if (field.isAnnotationPresent(Encoded.class) ||
                        classHasEncodedAnnotation ||
                        mustAddInjectAnnotation ||
                        field.isAnnotationPresent(DefaultValue.class)) {
                    mustPatch = true;
                }

                Set discovered = discoveredParameterMap.get(annotation.annotationType());
                if (discovered != null) {
                    boolean encoded = field.isAnnotationPresent(Encoded.class) || classHasEncodedAnnotation;
                    DefaultValue defaultValue = field.getAnnotation(DefaultValue.class);
                    DiscoveredParameter parameter = new DiscoveredParameter(annotation, field.getBaseType(), defaultValue, encoded);
                    discovered.add(parameter);
                    LOGGER.fine("  recorded " + parameter);
                    fieldToPatchInfoMap.put(field, new PatchInformation(parameter, getSyntheticQualifierFor(parameter), mustAddInjectAnnotation));
                }
            }
        }

        return mustPatch;
    }

    private  void patchAnnotatedCallable(AnnotatedCallable callable,
                                            AnnotatedCallableImpl newCallable,
                                            Map, PatchInformation> parameterToPatchInfoMap) {
        List> newParams = new ArrayList>();
        for (AnnotatedParameter parameter : callable.getParameters()) {
            PatchInformation patchInfo = parameterToPatchInfoMap.get(parameter);
            if (patchInfo != null) {
                Set annotations = new HashSet();
                // in reality, this cannot happen
                if (patchInfo.mustAddInject()) {
                    annotations.add(injectAnnotationLiteral);
                }

                if (patchInfo.getSyntheticQualifier() != null) {
                    annotations.add(patchInfo.getSyntheticQualifier());
                    Annotation skippedQualifier = patchInfo.getParameter().getAnnotation();
                    for (Annotation annotation : parameter.getAnnotations()) {
                        if (annotation != skippedQualifier) {
                            annotations.add(annotation);
                        }
                    }
                }
                else {
                    annotations.addAll(parameter.getAnnotations());
                }
                if (patchInfo.getAnnotation() != null) {
                    annotations.add(patchInfo.getAnnotation());
                }
                newParams.add(new AnnotatedParameterImpl(parameter, annotations, newCallable));
            }
            else {
                newParams.add(new AnnotatedParameterImpl(parameter, newCallable));
            }
        }
        newCallable.setParameters(newParams);
    }

    private  void copyParametersOfAnnotatedCallable(AnnotatedCallable callable, AnnotatedCallableImpl newCallable) {
        // copy and reparent all the parameters
        List> newParams = new ArrayList>();
        for (AnnotatedParameter parameter : callable.getParameters()) {
            newParams.add(new AnnotatedParameterImpl(parameter, newCallable));
        }
        newCallable.setParameters(newParams);
    }

    private SyntheticQualifier getSyntheticQualifierFor(DiscoveredParameter parameter) {
        SyntheticQualifier result = syntheticQualifierMap.get(parameter);
        if (result == null) {
            // only create a synthetic qualifier if we're dealing with @DefaultValue
            // or @Encoded; this way the application can still use vanilla param
            // annotations as qualifiers
            if (parameter.isEncoded() || parameter.getDefaultValue() != null) {
                result = new SyntheticQualifierAnnotationImpl(nextSyntheticQualifierValue++);
                syntheticQualifierMap.put(parameter, result);
                LOGGER.fine("  created synthetic qualifier " + result);
            }
        }
        return result;
    }

    // taken from ReflectionHelper
    private static Class getClassOfType(Type type) {
        if (type instanceof Class) {
            return (Class)type;
        } else if (type instanceof GenericArrayType) {
            GenericArrayType arrayType = (GenericArrayType)type;
            Type t = arrayType.getGenericComponentType();
            if (t instanceof Class) {
                Class c = (Class)t;
                try {
                    // TODO is there a better way to get the Class object
                    // representing an array
                    Object o = Array.newInstance(c, 0);
                    return o.getClass();
                } catch (Exception e) {
                    throw new IllegalArgumentException(e);
                }
            }
        } else if (type instanceof ParameterizedType) {
            ParameterizedType subType = (ParameterizedType)type;
            Type t = subType.getRawType();
            if (t instanceof Class) {
                return (Class)t;
            }
        }
        return null;
    }

     void processInjectionTarget(@Observes ProcessInjectionTarget event) {
        LOGGER.fine("Handling ProcessInjectionTarget event for " + event.getAnnotatedType().getJavaClass().getName());
    }

    /*
    void processBean(@Observes ProcessBean event) {
        LOGGER.fine("Handling ProcessBean event for " + event.getBean().getBeanClass().getName());
    }
    */

    void processManagedBean(@Observes ProcessManagedBean event) {
        LOGGER.fine("Handling ProcessManagedBean event for " + event.getBean().getBeanClass().getName());

        // TODO - here we should check that all the rules have been followed
        // and call addDefinitionError for each problem we encountered

        Bean bean = event.getBean();
        for (InjectionPoint injectionPoint : bean.getInjectionPoints()) {
            StringBuilder sb = new StringBuilder();
            sb.append("  found injection point ");
            sb.append(injectionPoint.getType());
            for (Annotation annotation : injectionPoint.getQualifiers()) {
                sb.append(" ");
                sb.append(annotation);
            }
            LOGGER.fine(sb.toString());
        }
    }

    void afterBeanDiscovery(@Observes AfterBeanDiscovery event) {
        LOGGER.fine("Handling AfterBeanDiscovery event");

        addPredefinedContextBeans(event);

        // finally define beans for all qualifiers we discovered

        BeanGenerator beanGenerator = new BeanGenerator("com/sun/jersey/server/impl/cdi/generated/Bean");

        for (Map.Entry, Set> entry  : discoveredParameterMap.entrySet()) {
            Class qualifier = entry.getKey();
            for (DiscoveredParameter parameter : entry.getValue()) {
                Annotation annotation = parameter.getAnnotation();
                Class klass = getClassOfType(parameter.getType());

                if (annotation.annotationType() == Context.class &&
                        staticallyDefinedContextBeans.contains(klass) &&
                        !parameter.isEncoded() &&
                        parameter.getDefaultValue() == null) {
                    continue;
                }

                SyntheticQualifier syntheticQualifier = syntheticQualifierMap.get(parameter);
                Annotation theQualifier = syntheticQualifier != null ? syntheticQualifier : annotation;

                Set annotations = new HashSet();
                annotations.add(theQualifier);

                // TODO - here we pass a single annotation as the second argument,
                // i.e. the qualifier itself, but to be true to Jersey semantics we
                // should pass in all the annotations that were on the original program
                // element.
                // The problem here is that (1) we don't have the original program
                // element any more and (2) a single DiscoveredParameter may have
                // been encountered in multiple places with different annotations

                Parameter jerseyParameter = new Parameter(
                        new Annotation[]{ annotation },
                        annotation,
                        paramQualifiersMap.get(annotation.annotationType()),
                        parameter.getValue(),
                        parameter.getType(),
                        klass,
                        parameter.isEncoded(),
                        (parameter.getDefaultValue() == null ? null : parameter.getDefaultValue().value()));
                Class beanClass = beanGenerator.createBeanClass();
                ParameterBean bean = new ParameterBean(beanClass, parameter.getType(), annotations, parameter, jerseyParameter);
                toBeInitializedLater.add(bean);
                event.addBean(bean);
                LOGGER.fine("Added bean for parameter " + parameter + " and qualifier " + theQualifier);
            }
        }

    }

    /*
     * Adds a CDI bean for each @Context type we support out of the box
     */
    private void addPredefinedContextBeans(AfterBeanDiscovery event) {
        // all standard types first

        // @Context Application
        event.addBean(new PredefinedBean(Application.class, contextAnnotationLiteral));

        // @Context HttpHeaders
        event.addBean(new PredefinedBean(HttpHeaders.class, contextAnnotationLiteral));

        // @Context Providers
        event.addBean(new PredefinedBean(Providers.class, contextAnnotationLiteral));

        // @Context Request
        event.addBean(new PredefinedBean(Request.class, contextAnnotationLiteral));

        // @Context SecurityContext
        event.addBean(new PredefinedBean(SecurityContext.class, contextAnnotationLiteral));

        // @Context UriInfo
        event.addBean(new PredefinedBean(UriInfo.class, contextAnnotationLiteral));

        // now the Jersey extensions

        // @Context ExceptionMapperContext
        event.addBean(new PredefinedBean(ExceptionMapperContext.class, contextAnnotationLiteral));

        // @Context ExtendedUriInfo
        event.addBean(new PredefinedBean(ExtendedUriInfo.class, contextAnnotationLiteral));

        // @Context FeaturesAndProperties
        event.addBean(new PredefinedBean(FeaturesAndProperties.class, contextAnnotationLiteral));

        // @Context HttpContext
        event.addBean(new PredefinedBean(HttpContext.class, contextAnnotationLiteral));

        // @Context HttpRequestContext
        event.addBean(new PredefinedBean(HttpRequestContext.class, contextAnnotationLiteral));

        // @Context HttpResponseContext
        event.addBean(new PredefinedBean(HttpResponseContext.class, contextAnnotationLiteral));

        // @Context MessageBodyWorkers
        event.addBean(new PredefinedBean(MessageBodyWorkers.class, contextAnnotationLiteral));

        // @Context ResourceContext
        event.addBean(new PredefinedBean(ResourceContext.class, contextAnnotationLiteral));

        // @Context WebApplication
        event.addBean(new ProviderBasedBean(WebApplication.class, new Provider() {
            public WebApplication get() {
                return webApplication;
            }
        }, contextAnnotationLiteral));

    }

    void setWebApplication(WebApplication wa) {
        webApplication = wa;
    }

    WebApplication getWebApplication() {
        return webApplication;
    }

    void setResourceConfig(ResourceConfig rc) {
        resourceConfig = rc;
    }

    ResourceConfig getResourceConfig() {
        return resourceConfig;
    }

    /*
     * Called after the WebApplication and ResourceConfig have been set,
     * i.e. when Jersey is in a somewhat initialized state.
     *
     * By contrast, all the CDI driven code earlier in this source file
     * runs before Jersey gets a chance to initialize itself.
     */
    void lateInitialize() {
        try {
            for (InitializedLater object : toBeInitializedLater) {
                object.later();
            }
        }
        finally {
            // clear the JNDI reference as soon as possible
            if (!lookupExtensionInBeanManager) {
                try {
                    InitialContext ic = InitialContextHelper.getInitialContext();
                    if (ic != null) {
                        lookupJerseyConfigJNDIContext(ic).unbind(JNDI_CDIEXTENSION_NAME);
                    }
                } catch (NamingException ex) {
                    throw new RuntimeException(ex);
                }
            }
        }
    }

    /*
     * Constructs an object by delegating to the ServerInjectableProviderFactory of the WebApplication
     */
    class PredefinedBean extends AbstractBean {

        private Annotation qualifier;

        public PredefinedBean(Class klass, Annotation qualifier) {
            super(klass, qualifier);
            this.qualifier = qualifier;
        }

        @Override
        public T create(CreationalContext creationalContext) {
            Injectable injectable = webApplication.getServerInjectableProviderFactory().
                    getInjectable(qualifier.annotationType(), null, qualifier, getBeanClass(), ComponentScope.Singleton);
            if (injectable == null) {
                Errors.error("No injectable for " + getBeanClass().getName());
                return null;
            }
            return injectable.getValue();
        }
    }

    /*
     * Constructs an object by delegating to the Injectable for a Jersey parameter
     */
    class ParameterBean extends AbstractBean implements InitializedLater {
        private DiscoveredParameter discoveredParameter;
        private Parameter parameter;
        private Injectable injectable;
        private boolean processed = false;

        public ParameterBean(Class klass, Type type, Set qualifiers,
                             DiscoveredParameter discoveredParameter, Parameter parameter) {
            super(klass, type, qualifiers);
            this.discoveredParameter = discoveredParameter;
            this.parameter = parameter;
        }

        public void later() {
            if (injectable != null) {
                return;
            }
            if (processed)
                return;

            processed = true;
            boolean registered = webApplication.getServerInjectableProviderFactory().
                    isParameterTypeRegistered(parameter);
            if (!registered) {
                Errors.error("Parameter type not registered " + discoveredParameter);
            }
            // TODO - here it just doesn't seem possible to remove the cast
            injectable = (Injectable) webApplication.getServerInjectableProviderFactory().
                    getInjectable(parameter, ComponentScope.PerRequest);
            if (injectable == null) {
                Errors.error("No injectable for parameter " + discoveredParameter);
            }
        }

        @Override
        public T create(CreationalContext creationalContext) {
            if (injectable == null) {
                later();
                if (injectable == null) {
                    return null;
                }
            }

            try {
                return injectable.getValue();
            } catch (IllegalStateException e) {
                if (injectable instanceof AbstractHttpContextInjectable) {
                    return (T)((AbstractHttpContextInjectable)injectable).getValue(webApplication.getThreadLocalHttpContext());
                }
                else {
                    throw e;
                }
            }
        }
    }
}




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