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/*
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*
* Copyright (c) 2012 Oracle and/or its affiliates. All rights reserved.
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* and Distribution License("CDDL") (collectively, the "License"). You
* may not use this file except in compliance with the License. You can
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package org.glassfish.jersey.internal.inject;
import java.lang.annotation.Annotation;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.Comparator;
import java.util.HashMap;
import java.util.LinkedHashMap;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.SortedSet;
import java.util.TreeSet;
import java.util.logging.Level;
import java.util.logging.Logger;
import javax.ws.rs.ConstrainedTo;
import javax.ws.rs.RuntimeType;
import javax.ws.rs.core.Feature;
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;
import org.glassfish.hk2.api.ActiveDescriptor;
import org.glassfish.hk2.api.Factory;
import org.glassfish.hk2.api.ServiceHandle;
import org.glassfish.hk2.api.ServiceLocator;
import com.google.common.base.Function;
import com.google.common.collect.Collections2;
import com.google.common.collect.Lists;
import com.google.common.collect.Maps;
import com.google.common.collect.Sets;
/**
* Utility class providing a set of utility methods for easier and more type-safe
* interaction with HK2 injection layer.
*
* @author Marek Potociar (marek.potociar at oracle.com)
* @author Miroslav Fuksa (miroslav.fuksa at oracle.com)
*/
public class Providers {
private static final Logger LOGGER = Logger.getLogger(Providers.class.getName());
/**
* 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 static Map, ProviderRuntime> getExternalProviderInterfaces() {
Map, ProviderRuntime> interfaces = new HashMap, ProviderRuntime>();
final ProviderRuntime BOTH = new ProviderRuntime(null);
final ProviderRuntime SERVER = new ProviderRuntime(RuntimeType.SERVER);
final ProviderRuntime CLIENT = new ProviderRuntime(RuntimeType.CLIENT);
// JAX-RS
interfaces.put(javax.ws.rs.ext.ContextResolver.class, BOTH);
interfaces.put(javax.ws.rs.ext.ExceptionMapper.class, BOTH);
interfaces.put(javax.ws.rs.ext.MessageBodyReader.class, BOTH);
interfaces.put(javax.ws.rs.ext.MessageBodyWriter.class, BOTH);
interfaces.put(javax.ws.rs.ext.ReaderInterceptor.class, BOTH);
interfaces.put(javax.ws.rs.ext.WriterInterceptor.class, BOTH);
interfaces.put(javax.ws.rs.ext.ParamConverterProvider.class, BOTH);
interfaces.put(javax.ws.rs.core.Feature.class, BOTH);
interfaces.put(javax.ws.rs.container.ContainerRequestFilter.class, SERVER);
interfaces.put(javax.ws.rs.container.ContainerResponseFilter.class, SERVER);
interfaces.put(javax.ws.rs.container.DynamicFeature.class, SERVER);
interfaces.put(javax.ws.rs.client.ClientResponseFilter.class, CLIENT);
interfaces.put(javax.ws.rs.client.ClientRequestFilter.class, CLIENT);
// HK2
interfaces.put(org.glassfish.hk2.utilities.Binder.class, BOTH);
return interfaces;
}
private static final class ProviderRuntime {
private final RuntimeType runtime;
private ProviderRuntime(RuntimeType runtime) {
this.runtime = runtime;
}
public RuntimeType getRuntime() {
return runtime;
}
}
private Providers() {
}
/**
* Wrap an instance into a HK2 service factory.
*
* @param Java type if the contract produced by the provider and factory.
* @param instance instance to be wrapped into (and provided by) the factory.
* @return HK2 service factory wrapping and providing the instance.
*/
public static Factory factoryOf(final T instance) {
return new Factory() {
@Override
public T provide() {
return instance;
}
@Override
public void dispose(T instance) {
//not used
}
};
}
/**
* Get the set of default providers registered for the given service provider contract
* in the underlying {@link ServiceLocator HK2 service locator} container.
*
* @param service provider contract Java type.
* @param locator underlying HK2 service locator.
* @param contract service provider contract.
* @return set of all available default service provider instances for the contract.
*/
public static Set getProviders(ServiceLocator locator, Class contract) {
final Collection> hk2Providers = getAllServiceHandles(locator, contract);
return getClasses(hk2Providers);
}
/**
* Get the set of all custom providers registered for the given service provider contract
* in the underlying {@link ServiceLocator HK2 service locator} container.
*
* @param service provider contract Java type.
* @param locator underlying HK2 service locator.
* @param contract service provider contract.
* @return set of all available service provider instances for the contract.
*/
public static Set getCustomProviders(ServiceLocator locator, Class contract) {
final Collection> hk2Providers = getAllServiceHandles(locator, contract, new CustomAnnotationImpl());
return getClasses(hk2Providers);
}
/**
* Get the iterable of all providers (custom and default) registered for the given service provider contract
* in the underlying {@link ServiceLocator HK2 service locator} container.
*
* @param service provider contract Java type.
* @param locator underlying HK2 service locator.
* @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(ServiceLocator locator, Class contract) {
return getAllProviders(locator, 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 ServiceLocator HK2 service locator} container.
*
* @param service provider contract Java type.
* @param locator underlying HK2 service locator.
* @param contract service provider contract.
* @return iterable of all available ranked service providers for the contract. Return value is never null.
*/
public static Iterable> getAllRankedProviders(ServiceLocator locator, Class contract) {
List> providers = getAllServiceHandles(locator, contract, new CustomAnnotationImpl());
providers.addAll(getAllServiceHandles(locator, contract));
LinkedHashMap, RankedProvider> providerMap = Maps.newLinkedHashMap();
for (ServiceHandle provider : providers) {
ActiveDescriptor key = provider.getActiveDescriptor();
if (!providerMap.containsKey(key)) {
providerMap.put(key, new RankedProvider(provider.getService(), key.getRanking()));
}
}
return providerMap.values();
}
/**
* Sorts 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 sorted {@link Iterable iterable} instance containing given providers. Return value is never null.
*/
public static Iterable sortRankedProviders(final RankedComparator comparator,
final Iterable>... providerIterables) {
final List> rankedProviders = Lists.newArrayList();
for (final Iterable> providers : providerIterables) {
rankedProviders.addAll(Lists.>newLinkedList(providers));
}
Collections.sort(rankedProviders, comparator);
return Collections2.transform(rankedProviders, new Function, T>() {
@Override
public T apply(final RankedProvider input) {
return input.getProvider();
}
});
}
/**
* Get the sorted iterable of all {@link RankedProvider providers} (custom and default) registered for the given service
* provider contract in the underlying {@link ServiceLocator HK2 service locator} container.
*
* @param service provider contract Java type.
* @param locator underlying HK2 service locator.
* @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(final ServiceLocator locator,
final Class contract,
final RankedComparator comparator) {
//noinspection unchecked
return sortRankedProviders(comparator, getAllRankedProviders(locator, contract));
}
private static List> getAllServiceHandles(ServiceLocator locator, Class contract,
Annotation... qualifiers) {
List> allServiceHandles = qualifiers == null ?
locator.getAllServiceHandles(contract) :
locator.getAllServiceHandles(contract, qualifiers);
ArrayList> serviceHandles = new ArrayList>();
for (ServiceHandle handle : allServiceHandles) {
//noinspection unchecked
serviceHandles.add((ServiceHandle) handle);
}
return serviceHandles;
}
/**
* Get the iterable of all providers (custom and default) registered for the given service provider contract
* in the underlying {@link ServiceLocator HK2 service locator} container ordered based on the given {@code comparator}.
*
* @param service provider contract Java type.
* @param locator underlying HK2 service locator.
* @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(ServiceLocator locator, Class contract, Comparator comparator) {
List> providers = getAllServiceHandles(locator, contract, new CustomAnnotationImpl());
providers.addAll(getAllServiceHandles(locator, contract));
LinkedHashMap> providerMap = Maps.newLinkedHashMap();
for (ServiceHandle provider : providers) {
ActiveDescriptor key = provider.getActiveDescriptor();
if (!providerMap.containsKey(key)) {
providerMap.put(key, provider);
}
}
final ArrayList providerList = new ArrayList(getClasses(providerMap.values()));
if (comparator != null) {
Collections.sort(providerList, comparator);
}
return providerList;
}
private static Set getClasses(Collection> hk2Providers) {
if (hk2Providers.isEmpty()) {
return Sets.newLinkedHashSet();
} else {
return Sets.newLinkedHashSet(Collections2.transform(hk2Providers, new ProviderToService()));
}
}
/**
* Get the set of all providers registered for the given service provider contract
* in the underlying {@link ServiceLocator HK2 locator} container.
*
* @param service provider contract Java type.
* @param locator underlying HK2 service locator.
* @param contract service provider contract.
* @param comparator contract comparator used for ordering contracts in the
* set.
* @return set of all available service provider instances for the contract.
*/
public static SortedSet getProviders(ServiceLocator locator, Class contract, final Comparator comparator) {
final Collection> hk2Providers = getAllServiceHandles(locator, contract);
if (hk2Providers.isEmpty()) {
return Sets.newTreeSet(comparator);
} else {
final TreeSet set = Sets.newTreeSet(comparator);
set.addAll(Collections2.transform(hk2Providers, new ProviderToService()));
return set;
}
}
/**
* 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(Class> clazz) {
Set> contracts = Sets.newIdentityHashSet();
computeProviderContracts(clazz, contracts);
return contracts;
}
private static void computeProviderContracts(Class> clazz, Set> contracts) {
for (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(Class> component,
ContractProvider model,
RuntimeType runtimeConstraint,
boolean scanned,
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)) {
// TODO: solve after implementation
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 (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) {
warnings.append(LocalizationMessages.WARNING_PROVIDER_CONSTRAINED_TO_WRONG_PACKAGE(
component.getName(),
componentConstraint.name(),
contract.getName(),
contractConstraint.name()))
.append(" ");
} else {
foundComponentCompatible = true;
}
}
}
if (!foundComponentCompatible) {
warnings.append(LocalizationMessages.ERROR_PROVIDER_CONSTRAINED_TO_WRONG_PACKAGE(
component.getName(),
componentConstraint.name()));
logProviderSkipped(warnings, component, isResource);
return false;
}
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()));
logProviderSkipped(warnings, component, isResource);
}
// runtimeConstraint vs contractConstraint
if (!foundRuntimeCompatibleContract && !scanned) {
warnings.append(LocalizationMessages.ERROR_PROVIDER_REGISTERED_WRONG_RUNTIME(component.getName(),
runtimeConstraint.name(), runtimeConstraint == RuntimeType.SERVER ? "client" : "server"));
logProviderSkipped(warnings, component, isResource);
return false;
}
return isProviderRuntimeCompatible && foundRuntimeCompatibleContract;
} finally {
if (warnings.length() > 0) {
LOGGER.log(Level.WARNING, warnings.toString());
}
}
}
private static void logProviderSkipped(StringBuilder sb, Class> provider, boolean alsoResourceClass) {
sb.append(alsoResourceClass ? LocalizationMessages.ERROR_PROVIDER_AND_RESOURCE_CONSTRAINED_TO_IGNORED
(provider.getName()) : LocalizationMessages.ERROR_PROVIDER_CONSTRAINED_TO_IGNORED(provider.getName()));
}
/**
* 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(Class> type) {
return (EXTERNAL_PROVIDER_INTERFACE_WHITELIST.get(type) != null || type.isAnnotationPresent(Contract.class));
}
private static RuntimeType getContractConstraint(Class> clazz, 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 List> getImplementedContracts(Class> clazz) {
List> 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(Class> clazz) {
return findFirstProviderContract(clazz);
}
private static boolean findFirstProviderContract(Class> clazz) {
for (Class> contract : getImplementedContracts(clazz)) {
if (isSupportedContract(contract)) {
return true;
}
if (findFirstProviderContract(contract)) {
return true;
}
}
return false;
}
}