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/*
 * Copyright (c) 1997, 2020 Oracle and/or its affiliates. All rights reserved.
 *
 * This program and the accompanying materials are made available under the
 * terms of the Eclipse Distribution License v. 1.0, which is available at
 * http://www.eclipse.org/org/documents/edl-v10.php.
 *
 * SPDX-License-Identifier: BSD-3-Clause
 */

package com.sun.xml.ws.util;

import com.sun.istack.NotNull;
import com.sun.istack.Nullable;
import com.sun.xml.ws.api.Component;
import com.sun.xml.ws.api.ComponentEx;
import com.sun.xml.ws.api.server.ContainerResolver;

import java.io.BufferedReader;
import java.io.IOException;
import java.io.InputStream;
import java.io.InputStreamReader;
import java.lang.reflect.Array;
import java.net.URL;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.Enumeration;
import java.util.Iterator;
import java.util.List;
import java.util.NoSuchElementException;
import java.util.Set;
import java.util.TreeSet;
import java.util.WeakHashMap;
import java.util.concurrent.ConcurrentHashMap;


/**
 * A simple service-provider lookup mechanism.  A service is a
 * well-known set of interfaces and (usually abstract) classes.  A service
 * provider is a specific implementation of a service.  The classes in a
 * provider typically implement the interfaces and subclass the classes defined
 * in the service itself.  Service providers may be installed in an
 * implementation of the Java platform in the form of extensions, that is, jar
 * files placed into any of the usual extension directories.  Providers may
 * also be made available by adding them to the applet or application class
 * path or by some other platform-specific means.
 * 
*

In this lookup mechanism a service is represented by an interface or an * abstract class. (A concrete class may be used, but this is not * recommended.) A provider of a given service contains one or more concrete * classes that extend this service class with data and code specific to * the provider. This provider class will typically not be the entire * provider itself but rather a proxy that contains enough information to * decide whether the provider is able to satisfy a particular request together * with code that can create the actual provider on demand. The details of * provider classes tend to be highly service-specific; no single class or * interface could possibly unify them, so no such class has been defined. The * only requirement enforced here is that provider classes must have a * zero-argument constructor so that they may be instantiated during lookup. *
*

A service provider identifies itself by placing a provider-configuration * file in the resource directory {@code META-INF/services}. The file's name * should consist of the fully-qualified name of the abstract service class. * The file should contain a list of fully-qualified concrete provider-class * names, one per line. Space and tab characters surrounding each name, as * well as blank lines, are ignored. The comment character is {@code '#'} * ({@code 0x23}); on each line all characters following the first comment * character are ignored. The file must be encoded in UTF-8. *
*

If a particular concrete provider class is named in more than one * configuration file, or is named in the same configuration file more than * once, then the duplicates will be ignored. The configuration file naming a * particular provider need not be in the same jar file or other distribution * unit as the provider itself. The provider must be accessible from the same * class loader that was initially queried to locate the configuration file; * note that this is not necessarily the class loader that found the file. *
*

Example: Suppose we have a service class named * {@code java.io.spi.CharCodec}. It has two abstract methods: *
*

 *   public abstract CharEncoder getEncoder(String encodingName);
 *   public abstract CharDecoder getDecoder(String encodingName);
 * 
*
* Each method returns an appropriate object or {@code null} if it cannot * translate the given encoding. Typical {@code CharCodec} providers will * support more than one encoding. *
*

If {@code sun.io.StandardCodec} is a provider of the {@code CharCodec} * service then its jar file would contain the file * {@code META-INF/services/java.io.spi.CharCodec}. This file would contain * the single line: *
*

 *   sun.io.StandardCodec    # Standard codecs for the platform
 * 
*
* To locate an codec for a given encoding name, the internal I/O code would * do something like this: *
*
 *   CharEncoder getEncoder(String encodingName) {
 *       for( CharCodec cc : ServiceFinder.find(CharCodec.class) ) {
 *           CharEncoder ce = cc.getEncoder(encodingName);
 *           if (ce != null)
 *               return ce;
 *       }
 *       return null;
 *   }
 * 
*
* The provider-lookup mechanism always executes in the security context of the * caller. Trusted system code should typically invoke the methods in this * class from within a privileged security context. * * @author Mark Reinhold * @version 1.11, 03/12/19 * @since 1.3 */ public final class ServiceFinder implements Iterable { private static final String prefix = "META-INF/services/"; private static WeakHashMap> serviceNameCache = new WeakHashMap>(); private final Class serviceClass; private final @Nullable ClassLoader classLoader; private final @Nullable ComponentEx component; private static class ServiceName { final String className; final URL config; public ServiceName(String className, URL config) { this.className = className; this.config = config; } } public static ServiceFinder find(@NotNull Class service, @Nullable ClassLoader loader, Component component) { return new ServiceFinder(service, loader, component); } public static ServiceFinder find(@NotNull Class service, Component component) { return find(service,Thread.currentThread().getContextClassLoader(),component); } /** * Locates and incrementally instantiates the available providers of a * given service using the given class loader. *
*

This method transforms the name of the given service class into a * provider-configuration filename as described above and then uses the * {@code getResources} method of the given class loader to find all * available files with that name. These files are then read and parsed to * produce a list of provider-class names. The iterator that is returned * uses the given class loader to lookup and then instantiate each element * of the list. *
*

Because it is possible for extensions to be installed into a running * Java virtual machine, this method may return different results each time * it is invoked.

* * @param service The service's abstract service class * @param loader The class loader to be used to load provider-configuration files * and instantiate provider classes, or {@code null} if the system * class loader (or, failing that the bootstrap class loader) is to * be used * @throws ServiceConfigurationError If a provider-configuration file violates the specified format * or names a provider class that cannot be found and instantiated * @see #find(Class) */ public static ServiceFinder find(@NotNull Class service, @Nullable ClassLoader loader) { return find(service, loader, ContainerResolver.getInstance().getContainer()); } /** * Locates and incrementally instantiates the available providers of a * given service using the context class loader. This convenience method * is equivalent to *
*

     *   ClassLoader cl = Thread.currentThread().getContextClassLoader();
     *   return Service.providers(service, cl);
     * 
* * @param service The service's abstract service class * * @throws ServiceConfigurationError If a provider-configuration file violates the specified format * or names a provider class that cannot be found and instantiated * @see #find(Class, ClassLoader) */ public static ServiceFinder find(Class service) { return find(service,Thread.currentThread().getContextClassLoader()); } private ServiceFinder(Class service, ClassLoader loader, Component component) { this.serviceClass = service; this.classLoader = loader; this.component = getComponentEx(component); } private static ServiceName[] serviceClassNames(Class serviceClass, ClassLoader classLoader) { ArrayList l = new ArrayList(); for (Iterator it = new ServiceNameIterator(serviceClass,classLoader);it.hasNext();) l.add(it.next()); return l.toArray(new ServiceName[l.size()]); } /** * Returns discovered objects incrementally. * * @return An {@code Iterator} that yields provider objects for the given * service, in some arbitrary order. The iterator will throw a * {@code ServiceConfigurationError} if a provider-configuration * file violates the specified format or if a provider class cannot * be found and instantiated. */ @SuppressWarnings("unchecked") public Iterator iterator() { Iterator it = MrJarUtil.getIterator(serviceClass, classLoader); return component != null ? new CompositeIterator( component.getIterableSPI(serviceClass).iterator(),it) : it; } /** * Returns discovered objects all at once. * * @return * can be empty but never null. * * @throws ServiceConfigurationError */ public T[] toArray() { List result = new ArrayList(); for (T t : this) { result.add(t); } return result.toArray((T[])Array.newInstance(serviceClass,result.size())); } private static void fail(Class service, String msg, Throwable cause) throws ServiceConfigurationError { ServiceConfigurationError sce = new ServiceConfigurationError(service.getName() + ": " + msg); sce.initCause(cause); throw sce; } private static void fail(Class service, String msg) throws ServiceConfigurationError { throw new ServiceConfigurationError(service.getName() + ": " + msg); } private static void fail(Class service, URL u, int line, String msg) throws ServiceConfigurationError { fail(service, u + ":" + line + ": " + msg); } /** * Parse a single line from the given configuration file, adding the name * on the line to both the names list and the returned set iff the name is * not already a member of the returned set. */ private static int parseLine(Class service, URL u, BufferedReader r, int lc, List names, Set returned) throws IOException, ServiceConfigurationError { String ln = r.readLine(); if (ln == null) { return -1; } int ci = ln.indexOf('#'); if (ci >= 0) ln = ln.substring(0, ci); ln = ln.trim(); int n = ln.length(); if (n != 0) { if ((ln.indexOf(' ') >= 0) || (ln.indexOf('\t') >= 0)) fail(service, u, lc, "Illegal configuration-file syntax"); int cp = ln.codePointAt(0); if (!Character.isJavaIdentifierStart(cp)) fail(service, u, lc, "Illegal provider-class name: " + ln); for (int i = Character.charCount(cp); i < n; i += Character.charCount(cp)) { cp = ln.codePointAt(i); if (!Character.isJavaIdentifierPart(cp) && (cp != '.')) fail(service, u, lc, "Illegal provider-class name: " + ln); } if (!returned.contains(ln)) { names.add(ln); returned.add(ln); } } return lc + 1; } /** * Parse the content of the given URL as a provider-configuration file. * * @param service The service class for which providers are being sought; * used to construct error detail strings * @param u The URL naming the configuration file to be parsed * @param returned A Set containing the names of provider classes that have already * been returned. This set will be updated to contain the names * that will be yielded from the returned {@code Iterator}. * @return A (possibly empty) {@code Iterator} that will yield the * provider-class names in the given configuration file that are * not yet members of the returned set * @throws ServiceConfigurationError If an I/O error occurs while reading from the given URL, or * if a configuration-file format error is detected */ @SuppressWarnings({"StatementWithEmptyBody"}) private static Iterator parse(Class service, URL u, Set returned) throws ServiceConfigurationError { InputStream in = null; BufferedReader r = null; ArrayList names = new ArrayList(); try { in = u.openStream(); r = new BufferedReader(new InputStreamReader(in, "utf-8")); int lc = 1; while ((lc = parseLine(service, u, r, lc, names, returned)) >= 0) ; } catch (IOException x) { fail(service, ": " + x +";URL is :"+u.toString()); } finally { try { if (r != null) r.close(); if (in != null) in.close(); } catch (IOException y) { fail(service, ": " + y +";URL is :"+u.toString()); } } return names.iterator(); } private static ComponentEx getComponentEx(Component component) { if (component instanceof ComponentEx) return (ComponentEx) component; return component != null ? new ComponentExWrapper(component) : null; } private static class ComponentExWrapper implements ComponentEx { private final Component component; public ComponentExWrapper(Component component) { this.component = component; } public S getSPI(Class spiType) { return component.getSPI(spiType); } public Iterable getIterableSPI(Class spiType) { S item = getSPI(spiType); if (item != null) { Collection c = Collections.singletonList(item); return c; } return Collections.emptySet(); } } private static class CompositeIterator implements Iterator { private final Iterator> it; private Iterator current = null; public CompositeIterator(Iterator... iterators) { it = Arrays.asList(iterators).iterator(); } public boolean hasNext() { if (current != null && current.hasNext()) return true; while (it.hasNext()) { current = it.next(); if (current.hasNext()) return true; } return false; } public T next() { if (!hasNext()) throw new NoSuchElementException(); return current.next(); } public void remove() { throw new UnsupportedOperationException(); } } /** * Private inner class implementing fully-lazy provider lookup */ private static class ServiceNameIterator implements Iterator { Class service; @Nullable ClassLoader loader; Enumeration configs = null; Iterator pending = null; Set returned = new TreeSet(); String nextName = null; URL currentConfig = null; private ServiceNameIterator(Class service, ClassLoader loader) { this.service = service; this.loader = loader; } public boolean hasNext() throws ServiceConfigurationError { if (nextName != null) { return true; } if (configs == null) { try { String fullName = prefix + service.getName(); if (loader == null) configs = ClassLoader.getSystemResources(fullName); else configs = loader.getResources(fullName); } catch (IOException x) { fail(service, ": " + x); } } while ((pending == null) || !pending.hasNext()) { if (!configs.hasMoreElements()) { return false; } currentConfig = configs.nextElement(); pending = parse(service, currentConfig, returned); } nextName = pending.next(); return true; } public ServiceName next() throws ServiceConfigurationError { if (!hasNext()) { throw new NoSuchElementException(); } String cn = nextName; nextName = null; return new ServiceName(cn, currentConfig); } public void remove() { throw new UnsupportedOperationException(); } } static class LazyIterator implements Iterator { Class service; @Nullable ClassLoader loader; ServiceName[] names; int index; LazyIterator(Class service, ClassLoader loader) { this.service = service; this.loader = loader; this.names = null; index = 0; } @Override public boolean hasNext() { if (names == null) { ConcurrentHashMap nameMap = null; synchronized(serviceNameCache){ nameMap = serviceNameCache.get(loader); } names = (nameMap != null)? nameMap.get(service.getName()) : null; if (names == null) { names = serviceClassNames(service, loader); if (nameMap == null) nameMap = new ConcurrentHashMap(); nameMap.put(service.getName(), names); synchronized(serviceNameCache){ serviceNameCache.put(loader,nameMap); } } } return (index < names.length); } @Override public T next() { if (!hasNext()) throw new NoSuchElementException(); ServiceName sn = names[index++]; String cn = sn.className; URL currentConfig = sn.config; try { return service.cast(Class.forName(cn, true, loader).newInstance()); } catch (ClassNotFoundException x) { fail(service, "Provider " + cn + " is specified in "+currentConfig+" but not found"); } catch (Exception x) { fail(service, "Provider " + cn + " is specified in "+currentConfig+"but could not be instantiated: " + x, x); } return null; /* This cannot happen */ } @Override public void remove() { throw new UnsupportedOperationException(); } } }