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A bundle project producing JAX-RS RI bundles. The primary artifact is an "all-in-one" OSGi-fied JAX-RS RI bundle (jaxrs-ri.jar). Attached to that are two compressed JAX-RS RI archives. The first archive (jaxrs-ri.zip) consists of binary RI bits and contains the API jar (under "api" directory), RI libraries (under "lib" directory) as well as all external RI dependencies (under "ext" directory). The secondary archive (jaxrs-ri-src.zip) contains buildable JAX-RS RI source bundle and contains the API jar (under "api" directory), RI sources (under "src" directory) as well as all external RI dependencies (under "ext" directory). The second archive also contains "build.xml" ANT script that builds the RI sources. To build the JAX-RS RI simply unzip the archive, cd to the created jaxrs-ri directory and invoke "ant" from the command line.

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/*
 * Copyright (c) 2012, 2020 Oracle and/or its affiliates. All rights reserved.
 *
 * This program and the accompanying materials are made available under the
 * terms of the Eclipse Public License v. 2.0, which is available at
 * http://www.eclipse.org/legal/epl-2.0.
 *
 * This Source Code may also be made available under the following Secondary
 * Licenses when the conditions for such availability set forth in the
 * Eclipse Public License v. 2.0 are satisfied: GNU General Public License,
 * version 2 with the GNU Classpath Exception, which is available at
 * https://www.gnu.org/software/classpath/license.html.
 *
 * SPDX-License-Identifier: EPL-2.0 OR GPL-2.0 WITH Classpath-exception-2.0
 */

package org.glassfish.jersey.internal.inject;

import java.lang.annotation.Annotation;
import java.lang.reflect.Type;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.Comparator;
import java.util.HashMap;
import java.util.IdentityHashMap;
import java.util.LinkedHashMap;
import java.util.LinkedHashSet;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.logging.Level;
import java.util.logging.Logger;
import java.util.stream.Collectors;
import java.util.stream.StreamSupport;

import jakarta.ws.rs.ConstrainedTo;
import jakarta.ws.rs.Priorities;
import jakarta.ws.rs.RuntimeType;
import jakarta.ws.rs.core.Feature;

import jakarta.annotation.Priority;

import org.glassfish.jersey.internal.LocalizationMessages;
import org.glassfish.jersey.model.ContractProvider;
import org.glassfish.jersey.model.internal.RankedComparator;
import org.glassfish.jersey.model.internal.RankedProvider;
import org.glassfish.jersey.spi.Contract;

/**
 * Utility class providing a set of utility methods for easier and more type-safe
 * interaction with an injection layer.
 *
 * @author Marek Potociar
 * @author Miroslav Fuksa
 */
public final class Providers {

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

    /**
     * Map of all standard JAX-RS providers and their run-time affinity.
     */
    private static final Map, ProviderRuntime> JAX_RS_PROVIDER_INTERFACE_WHITELIST =
            getJaxRsProviderInterfaces();
    /**
     * Map of all supported external (i.e. non-Jersey) contracts and their run-time affinity.
     */
    private static final Map, ProviderRuntime> EXTERNAL_PROVIDER_INTERFACE_WHITELIST =
            getExternalProviderInterfaces();

    private Providers() {
    }

    private static Map, ProviderRuntime> getJaxRsProviderInterfaces() {
        final Map, ProviderRuntime> interfaces = new HashMap, ProviderRuntime>();

        interfaces.put(jakarta.ws.rs.ext.ContextResolver.class, ProviderRuntime.BOTH);
        interfaces.put(jakarta.ws.rs.ext.ExceptionMapper.class, ProviderRuntime.BOTH);
        interfaces.put(jakarta.ws.rs.ext.MessageBodyReader.class, ProviderRuntime.BOTH);
        interfaces.put(jakarta.ws.rs.ext.MessageBodyWriter.class, ProviderRuntime.BOTH);
        interfaces.put(jakarta.ws.rs.ext.ReaderInterceptor.class, ProviderRuntime.BOTH);
        interfaces.put(jakarta.ws.rs.ext.WriterInterceptor.class, ProviderRuntime.BOTH);
        interfaces.put(jakarta.ws.rs.ext.ParamConverterProvider.class, ProviderRuntime.BOTH);

        interfaces.put(jakarta.ws.rs.container.ContainerRequestFilter.class, ProviderRuntime.SERVER);
        interfaces.put(jakarta.ws.rs.container.ContainerResponseFilter.class, ProviderRuntime.SERVER);
        interfaces.put(jakarta.ws.rs.container.DynamicFeature.class, ProviderRuntime.SERVER);

        interfaces.put(jakarta.ws.rs.client.ClientResponseFilter.class, ProviderRuntime.CLIENT);
        interfaces.put(jakarta.ws.rs.client.ClientRequestFilter.class, ProviderRuntime.CLIENT);
        interfaces.put(jakarta.ws.rs.client.RxInvokerProvider.class, ProviderRuntime.CLIENT);

        return interfaces;
    }

    private static Map, ProviderRuntime> getExternalProviderInterfaces() {
        final Map, ProviderRuntime> interfaces = new HashMap, ProviderRuntime>();

        // JAX-RS
        interfaces.putAll(JAX_RS_PROVIDER_INTERFACE_WHITELIST);
        interfaces.put(jakarta.ws.rs.core.Feature.class, ProviderRuntime.BOTH);
        interfaces.put(Binder.class, ProviderRuntime.BOTH);
        return interfaces;
    }

    private enum ProviderRuntime {

        BOTH(null), SERVER(RuntimeType.SERVER), CLIENT(RuntimeType.CLIENT);

        private final RuntimeType runtime;

        private ProviderRuntime(final RuntimeType runtime) {
            this.runtime = runtime;
        }

        public RuntimeType getRuntime() {
            return runtime;
        }
    }

    /**
     * Get the set of default providers registered for the given service provider contract
     * in the underlying {@link InjectionManager injection manager} container.
     *
     * @param              service provider contract Java type.
     * @param injectionManager underlying injection manager.
     * @param contract        service provider contract.
     * @return set of all available default service provider instances for the contract.
     */
    public static  Set getProviders(InjectionManager injectionManager, Class contract) {
        Collection> providers = getServiceHolders(injectionManager, contract);
        return getProviderClasses(providers);
    }

    /**
     * Get the set of all custom providers registered for the given service provider contract
     * in the underlying {@link InjectionManager injection manager} container.
     * 

* Returned providers are sorted based on {@link Priority} (lower {@code Priority} value is higher priority, * see {@link Priorities}. * * @param service provider contract Java type. * @param injectionManager underlying injection manager. * @param contract service provider contract. * @return set of all available service provider instances for the contract. */ public static Set getCustomProviders(InjectionManager injectionManager, Class contract) { List> providers = getServiceHolders(injectionManager, contract, Comparator.comparingInt(Providers::getPriority), CustomAnnotationLiteral.INSTANCE); return getProviderClasses(providers); } /** * Get the iterable of all providers (custom and default) registered for the given service provider contract * in the underlying {@link InjectionManager injection manager} container. * * @param service provider contract Java type. * @param injectionManager underlying injection manager. * @param contract service provider contract. * @return iterable of all available service provider instances for the contract. Return value is never null. */ public static Iterable getAllProviders(InjectionManager injectionManager, Class contract) { return getAllProviders(injectionManager, contract, (Comparator) null); } /** * Get the iterable of all {@link RankedProvider providers} (custom and default) registered for the given service provider * contract in the underlying {@link InjectionManager injection manager} container. * * @param service provider contract Java type. * @param injectionManager underlying injection manager. * @param contract service provider contract. * @return iterable of all available ranked service providers for the contract. Return value is never {@code null}. */ public static Iterable> getAllRankedProviders(InjectionManager injectionManager, Class contract) { final List> providers = getServiceHolders(injectionManager, contract, CustomAnnotationLiteral.INSTANCE); providers.addAll(getServiceHolders(injectionManager, contract)); final LinkedHashMap, RankedProvider> providerMap = new LinkedHashMap<>(); for (final ServiceHolder provider : providers) { final Class implClass = getImplementationClass(contract, provider); if (!providerMap.containsKey(implClass)) { Set contracts = isProxyGenerated(contract, provider) ? provider.getContractTypes() : null; providerMap.put(implClass, new RankedProvider<>(provider.getInstance(), provider.getRank(), contracts)); } } return providerMap.values(); } /** * Sort given providers with {@link RankedComparator ranked comparator}. * * @param comparator comparator to sort the providers with. * @param providers providers to be sorted. * @param service provider contract Java type. * @return sorted {@link Iterable iterable} instance containing given providers. * The returned value is never {@code null}. */ @SuppressWarnings("TypeMayBeWeakened") public static Iterable sortRankedProviders(final RankedComparator comparator, final Iterable> providers) { return StreamSupport.stream(providers.spliterator(), false) .sorted(comparator) .map(RankedProvider::getProvider) .collect(Collectors.toList()); } /** * Get the iterable of all providers (custom and default) registered for the given service provider contract in the underlying * {@link InjectionManager injection manager} container and automatically sorted using * {@link RankedComparator ranked comparator}. * * @param service provider contract Java type. * @param injectionManager underlying injection manager. * @param contract service provider contract. * @return iterable of all available service providers for the contract. Return value is never {@code null}. */ @SuppressWarnings("TypeMayBeWeakened") public static Iterable getAllRankedSortedProviders(InjectionManager injectionManager, Class contract) { Iterable> allRankedProviders = Providers.getAllRankedProviders(injectionManager, contract); return Providers.sortRankedProviders(new RankedComparator<>(), allRankedProviders); } /** * Merge and sort given providers with {@link RankedComparator ranked comparator}. * * @param comparator comparator to sort the providers with. * @param providerIterables providers to be sorted. * @param service provider contract Java type. * @return merged and sorted {@link Iterable iterable} instance containing given providers. * The returned value is never {@code null}. */ @SuppressWarnings("TypeMayBeWeakened") public static Iterable mergeAndSortRankedProviders(final RankedComparator comparator, final Iterable>> providerIterables) { return StreamSupport.stream(providerIterables.spliterator(), false) .flatMap(rankedProviders -> StreamSupport.stream(rankedProviders.spliterator(), false)) .sorted(comparator) .map(RankedProvider::getProvider) .collect(Collectors.toList()); } /** * Get the sorted iterable of all {@link RankedProvider providers} (custom and default) registered for the given service * provider contract in the underlying {@link InjectionManager injection manager} container. * * @param service provider contract Java type. * @param injectionManager underlying injection manager. * @param contract service provider contract. * @param comparator comparator to sort the providers with. * @return set of all available ranked service providers for the contract. Return value is never null. */ public static Iterable getAllProviders( InjectionManager injectionManager, Class contract, RankedComparator comparator) { //noinspection unchecked return sortRankedProviders(comparator, getAllRankedProviders(injectionManager, contract)); } /** * Get collection of all {@link ServiceHolder}s bound for providers (custom and default) registered for the given service * provider contract in the underlying {@link InjectionManager injection manager} container. * * @param service provider contract Java type. * @param injectionManager underlying injection manager. * @param contract service provider contract. * @return set of all available service provider instances for the contract */ public static Collection> getAllServiceHolders(InjectionManager injectionManager, Class contract) { List> providers = getServiceHolders(injectionManager, contract, Comparator.comparingInt(Providers::getPriority), CustomAnnotationLiteral.INSTANCE); providers.addAll(getServiceHolders(injectionManager, contract)); final LinkedHashMap, ServiceHolder> providerMap = new LinkedHashMap<>(); for (final ServiceHolder provider : providers) { final Class implClass = getImplementationClass(contract, provider); if (!providerMap.containsKey(implClass)) { providerMap.put(implClass, provider); } } return providerMap.values(); } private static List> getServiceHolders( InjectionManager bm, Class contract, Annotation... qualifiers) { return bm.getAllServiceHolders(contract, qualifiers); } private static List> getServiceHolders(InjectionManager injectionManager, Class contract, Comparator> objectComparator, Annotation... qualifiers) { List> serviceHolders = injectionManager.getAllServiceHolders(contract, qualifiers); serviceHolders.sort((o1, o2) -> objectComparator.compare( getImplementationClass(contract, o1), getImplementationClass(contract, o2)) ); return serviceHolders; } /** * Returns {@code true} if given component class is a JAX-RS provider. * * @param clazz class to check. * @return {@code true} if the class is a JAX-RS provider, {@code false} otherwise. */ public static boolean isJaxRsProvider(final Class clazz) { for (final Class providerType : JAX_RS_PROVIDER_INTERFACE_WHITELIST.keySet()) { if (providerType.isAssignableFrom(clazz)) { return true; } } return false; } /** * Get the iterable of all providers (custom and default) registered for the given service provider contract * in the underlying {@link InjectionManager injection manager} container ordered based on the given {@code comparator}. * * @param service provider contract Java type. * @param injectionManager underlying injection manager. * @param contract service provider contract. * @param comparator comparator to be used for sorting the returned providers. * @return set of all available service provider instances for the contract ordered using the given * {@link Comparator comparator}. */ public static Iterable getAllProviders( InjectionManager injectionManager, Class contract, Comparator comparator) { List providerList = new ArrayList<>(getProviderClasses(getAllServiceHolders(injectionManager, contract))); if (comparator != null) { providerList.sort(comparator); } return providerList; } private static Set getProviderClasses(final Collection> providers) { return providers.stream() .map(Providers::holder2service) .collect(Collectors.toCollection(LinkedHashSet::new)); } private static T holder2service(ServiceHolder holder) { return (holder != null) ? holder.getInstance() : null; } private static int getPriority(Class serviceClass) { Priority annotation = serviceClass.getAnnotation(Priority.class); if (annotation != null) { return annotation.value(); } // default priority return Priorities.USER; } private static Class getImplementationClass(Class contract, ServiceHolder serviceHolder) { return isProxyGenerated(contract, serviceHolder) ? serviceHolder.getContractTypes().stream().filter(a -> Class.class.isInstance(a)) .map(a -> (Class) a).reduce(contract, (a, b) -> a.isAssignableFrom(b) ? b : a) : serviceHolder.getImplementationClass(); } private static boolean isProxyGenerated(Class contract, ServiceHolder serviceHolder) { return !contract.isAssignableFrom(serviceHolder.getImplementationClass()); } /** * Returns provider contracts recognized by Jersey that are implemented by the {@code clazz}. * Recognized provider contracts include all JAX-RS providers as well as all Jersey SPI * components annotated with {@link Contract @Contract} annotation. * * @param clazz class to extract the provider interfaces from. * @return set of provider contracts implemented by the given class. */ public static Set> getProviderContracts(final Class clazz) { final Set> contracts = Collections.newSetFromMap(new IdentityHashMap<>()); computeProviderContracts(clazz, contracts); return contracts; } private static void computeProviderContracts(final Class clazz, final Set> contracts) { for (final Class contract : getImplementedContracts(clazz)) { if (isSupportedContract(contract)) { contracts.add(contract); } computeProviderContracts(contract, contracts); } } /** * Check the {@code component} whether it is appropriate correctly configured for client or server * {@link RuntimeType runtime}. *

* If a problem occurs a warning is logged and if the component is not usable at all in the current runtime * {@code false} is returned. For classes found during component scanning (scanned=true) certain warnings are * completely ignored (e.g. components {@link ConstrainedTo constrained to} the client runtime and found by * server-side class path scanning will be silently ignored and no warning will be logged). * * @param component the class of the component being checked. * @param model model of the component. * @param runtimeConstraint current runtime (client or server). * @param scanned {@code false} if the component type has been registered explicitly; * {@code true} if the class has been discovered during any form of component scanning. * @param isResource {@code true} if the component is also a resource class. * @return {@code true} if component is acceptable for use in the given runtime type, {@code false} otherwise. */ public static boolean checkProviderRuntime(final Class component, final ContractProvider model, final RuntimeType runtimeConstraint, final boolean scanned, final boolean isResource) { final Set> contracts = model.getContracts(); final ConstrainedTo constrainedTo = component.getAnnotation(ConstrainedTo.class); final RuntimeType componentConstraint = constrainedTo == null ? null : constrainedTo.value(); if (Feature.class.isAssignableFrom(component)) { return true; } final StringBuilder warnings = new StringBuilder(); try { /* * Indicates that the provider implements at least one contract compatible * with it's implementation class constraint. */ boolean foundComponentCompatible = componentConstraint == null; boolean foundRuntimeCompatibleContract = isResource && runtimeConstraint == RuntimeType.SERVER; for (final Class contract : contracts) { // if the contract is common/not constrained, default to provider constraint final RuntimeType contractConstraint = getContractConstraint(contract, componentConstraint); foundRuntimeCompatibleContract |= contractConstraint == null || contractConstraint == runtimeConstraint; if (componentConstraint != null) { if (contractConstraint != componentConstraint) { //noinspection ConstantConditions warnings.append(LocalizationMessages.WARNING_PROVIDER_CONSTRAINED_TO_WRONG_PACKAGE( component.getName(), componentConstraint.name(), contract.getName(), contractConstraint.name())) // is never null .append(" "); } else { foundComponentCompatible = true; } } } if (!foundComponentCompatible) { //noinspection ConstantConditions warnings.append(LocalizationMessages.ERROR_PROVIDER_CONSTRAINED_TO_WRONG_PACKAGE( component.getName(), componentConstraint.name())) // is never null .append(" "); logProviderSkipped(warnings, component, isResource); return false; } final boolean isProviderRuntimeCompatible; // runtimeConstraint vs. providerConstraint isProviderRuntimeCompatible = componentConstraint == null || componentConstraint == runtimeConstraint; if (!isProviderRuntimeCompatible && !scanned) { // log failure for manually registered providers warnings.append(LocalizationMessages.ERROR_PROVIDER_CONSTRAINED_TO_WRONG_RUNTIME( component.getName(), componentConstraint.name(), runtimeConstraint.name())) .append(" "); logProviderSkipped(warnings, component, isResource); } // runtimeConstraint vs contractConstraint if (!foundRuntimeCompatibleContract && !scanned) { warnings.append(LocalizationMessages.ERROR_PROVIDER_REGISTERED_WRONG_RUNTIME( component.getName(), runtimeConstraint.name())) .append(" "); logProviderSkipped(warnings, component, isResource); return false; } return isProviderRuntimeCompatible && foundRuntimeCompatibleContract; } finally { if (warnings.length() > 0) { LOGGER.log(Level.WARNING, warnings.toString()); } } } private static void logProviderSkipped(final StringBuilder sb, final Class provider, final boolean alsoResourceClass) { sb.append(alsoResourceClass ? LocalizationMessages.ERROR_PROVIDER_AND_RESOURCE_CONSTRAINED_TO_IGNORED(provider.getName()) : LocalizationMessages.ERROR_PROVIDER_CONSTRAINED_TO_IGNORED(provider.getName())).append(" "); } /** * Check if the given Java type is a Jersey-supported contract. * * @param type contract type. * @return {@code true} if given type is a Jersey-supported contract, {@code false} otherwise. */ public static boolean isSupportedContract(final Class type) { return (EXTERNAL_PROVIDER_INTERFACE_WHITELIST.get(type) != null || type.isAnnotationPresent(Contract.class)); } private static RuntimeType getContractConstraint(final Class clazz, final RuntimeType defaultConstraint) { final ProviderRuntime jaxRsProvider = EXTERNAL_PROVIDER_INTERFACE_WHITELIST.get(clazz); RuntimeType result = null; if (jaxRsProvider != null) { result = jaxRsProvider.getRuntime(); } else if (clazz.getAnnotation(Contract.class) != null) { final ConstrainedTo constrainedToAnnotation = clazz.getAnnotation(ConstrainedTo.class); if (constrainedToAnnotation != null) { result = constrainedToAnnotation.value(); } } return (result == null) ? defaultConstraint : result; } private static Iterable> getImplementedContracts(final Class clazz) { final Collection> list = new LinkedList<>(); Collections.addAll(list, clazz.getInterfaces()); final Class superclass = clazz.getSuperclass(); if (superclass != null) { list.add(superclass); } return list; } /** * Returns {@code true} if the given component class is a provider (implements specific interfaces). * See {@link #getProviderContracts}. * * @param clazz class to test. * @return {@code true} if the class is provider, {@code false} otherwise. */ public static boolean isProvider(final Class clazz) { return findFirstProviderContract(clazz); } /** * Ensure the supplied implementation classes implement the expected contract. * * @param contract contract that is expected to be implemented by the implementation classes. * @param implementations contract implementations. * @throws java.lang.IllegalArgumentException in case any of the implementation classes does not * implement the expected contract. */ public static void ensureContract(final Class contract, final Class... implementations) { if (implementations == null || implementations.length <= 0) { return; } final StringBuilder invalidClassNames = new StringBuilder(); for (final Class impl : implementations) { if (!contract.isAssignableFrom(impl)) { if (invalidClassNames.length() > 0) { invalidClassNames.append(", "); } invalidClassNames.append(impl.getName()); } } if (invalidClassNames.length() > 0) { throw new IllegalArgumentException(LocalizationMessages.INVALID_SPI_CLASSES( contract.getName(), invalidClassNames.toString())); } } private static boolean findFirstProviderContract(final Class clazz) { for (final Class contract : getImplementedContracts(clazz)) { if (isSupportedContract(contract)) { return true; } if (findFirstProviderContract(contract)) { return true; } } return false; } }





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