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/*
 * Copyright 2002-2020 the original author or authors.
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *      https://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package com.alibaba.nacos.common.packagescan.resource;

import com.alibaba.nacos.common.packagescan.util.PathMatcher;
import com.alibaba.nacos.common.packagescan.util.ResourceUtils;
import com.alibaba.nacos.common.utils.AbstractAssert;
import com.alibaba.nacos.common.utils.ClassUtils;
import com.alibaba.nacos.common.utils.ReflectUtils;
import com.alibaba.nacos.common.utils.StringUtils;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

import java.io.File;
import java.io.FileNotFoundException;
import java.io.IOException;
import java.lang.reflect.InvocationHandler;
import java.lang.reflect.Method;
import java.net.JarURLConnection;
import java.net.MalformedURLException;
import java.net.URISyntaxException;
import java.net.URL;
import java.net.URLClassLoader;
import java.net.URLConnection;
import java.util.Arrays;
import java.util.Collections;
import java.util.Comparator;
import java.util.Enumeration;
import java.util.LinkedHashSet;
import java.util.Set;
import java.util.jar.JarEntry;
import java.util.jar.JarFile;
import java.util.zip.ZipException;

/**
 * Copy from https://github.com/spring-projects/spring-framework.git, with less modifications
 * A {@link ResourcePatternResolver} implementation that is able to resolve a
 * specified resource location path into one or more matching Resources.
 * The source path may be a simple path which has a one-to-one mapping to a
 * target {@link Resource}, or alternatively
 * may contain the special "{@code classpath*:}" prefix and/or
 * internal Ant-style regular expressions (matched using Spring's
 * {@link AntPathMatcher} utility).
 * Both of the latter are effectively wildcards.
 *
 * 

No Wildcards: * *

In the simple case, if the specified location path does not start with the * {@code "classpath*:}" prefix, and does not contain a PathMatcher pattern, * this resolver will simply return a single resource via a * {@code getResource()} call on the underlying {@code ResourceLoader}. * Examples are real URLs such as "{@code file:C:/context.xml}", pseudo-URLs * such as "{@code classpath:/context.xml}", and simple unprefixed paths * such as "{@code /WEB-INF/context.xml}". The latter will resolve in a * fashion specific to the underlying {@code ResourceLoader} (e.g. * {@code ServletContextResource} for a {@code WebApplicationContext}). * *

Ant-style Patterns: * *

When the path location contains an Ant-style pattern, e.g.: *

 * /WEB-INF/*-context.xml
 * com/mycompany/**/applicationContext.xml
 * file:C:/some/path/*-context.xml
 * classpath:com/mycompany/**/applicationContext.xml
* the resolver follows a more complex but defined procedure to try to resolve * the wildcard. It produces a {@code Resource} for the path up to the last * non-wildcard segment and obtains a {@code URL} from it. If this URL is * not a "{@code jar:}" URL or container-specific variant (e.g. * "{@code zip:}" in WebLogic, "{@code wsjar}" in WebSphere", etc.), * then a {@code java.io.File} is obtained from it, and used to resolve the * wildcard by walking the filesystem. In the case of a jar URL, the resolver * either gets a {@code java.net.JarURLConnection} from it, or manually parses * the jar URL, and then traverses the contents of the jar file, to resolve the * wildcards. * *

Implications on portability: * *

If the specified path is already a file URL (either explicitly, or * implicitly because the base {@code ResourceLoader} is a filesystem one, * then wildcarding is guaranteed to work in a completely portable fashion. * *

If the specified path is a classpath location, then the resolver must * obtain the last non-wildcard path segment URL via a * {@code Classloader.getResource()} call. Since this is just a * node of the path (not the file at the end) it is actually undefined * (in the ClassLoader Javadocs) exactly what sort of a URL is returned in * this case. In practice, it is usually a {@code java.io.File} representing * the directory, where the classpath resource resolves to a filesystem * location, or a jar URL of some sort, where the classpath resource resolves * to a jar location. Still, there is a portability concern on this operation. * *

If a jar URL is obtained for the last non-wildcard segment, the resolver * must be able to get a {@code java.net.JarURLConnection} from it, or * manually parse the jar URL, to be able to walk the contents of the jar, * and resolve the wildcard. This will work in most environments, but will * fail in others, and it is strongly recommended that the wildcard * resolution of resources coming from jars be thoroughly tested in your * specific environment before you rely on it. * *

{@code classpath*:} Prefix: * *

There is special support for retrieving multiple class path resources with * the same name, via the "{@code classpath*:}" prefix. For example, * "{@code classpath*:META-INF/beans.xml}" will find all "beans.xml" * files in the class path, be it in "classes" directories or in JAR files. * This is particularly useful for autodetecting config files of the same name * at the same location within each jar file. Internally, this happens via a * {@code ClassLoader.getResources()} call, and is completely portable. * *

The "classpath*:" prefix can also be combined with a PathMatcher pattern in * the rest of the location path, for example "classpath*:META-INF/*-beans.xml". * In this case, the resolution strategy is fairly simple: a * {@code ClassLoader.getResources()} call is used on the last non-wildcard * path segment to get all the matching resources in the class loader hierarchy, * and then off each resource the same PathMatcher resolution strategy described * above is used for the wildcard subpath. * *

Other notes: * *

WARNING: Note that "{@code classpath*:}" when combined with * Ant-style patterns will only work reliably with at least one root directory * before the pattern starts, unless the actual target files reside in the file * system. This means that a pattern like "{@code classpath*:*.xml}" will * not retrieve files from the root of jar files but rather only from the * root of expanded directories. This originates from a limitation in the JDK's * {@code ClassLoader.getResources()} method which only returns file system * locations for a passed-in empty String (indicating potential roots to search). * This {@code ResourcePatternResolver} implementation is trying to mitigate the * jar root lookup limitation through {@link URLClassLoader} introspection and * "java.class.path" manifest evaluation; however, without portability guarantees. * *

WARNING: Ant-style patterns with "classpath:" resources are not * guaranteed to find matching resources if the root package to search is available * in multiple class path locations. This is because a resource such as *

 *     com/mycompany/package1/service-context.xml
 * 
* may be in only one location, but when a path such as *
 *     classpath:com/mycompany/**/service-context.xml
 * 
* is used to try to resolve it, the resolver will work off the (first) URL * returned by {@code getResource("com/mycompany");}. If this base package node * exists in multiple classloader locations, the actual end resource may not be * underneath. Therefore, preferably, use "{@code classpath*:}" with the same * Ant-style pattern in such a case, which will search all class path * locations that contain the root package. * * @author Juergen Hoeller * @author Colin Sampaleanu * @author Marius Bogoevici * @author Costin Leau * @author Phillip Webb * @see #CLASSPATH_ALL_URL_PREFIX * @see AntPathMatcher * @see ResourceLoader#getResource(String) * @see ClassLoader#getResources(String) * @since 1.0.2 */ public class PathMatchingResourcePatternResolver implements ResourcePatternResolver { private static final Logger LOGGER = LoggerFactory.getLogger(PathMatchingResourcePatternResolver.class); private static Method equinoxResolveMethod; static { try { // Detect Equinox OSGi (e.g. on WebSphere 6.1) Class fileLocatorClass = ClassUtils.forName("org.eclipse.core.runtime.FileLocator", PathMatchingResourcePatternResolver.class.getClassLoader()); equinoxResolveMethod = fileLocatorClass.getMethod("resolve", URL.class); LOGGER.trace("Found Equinox FileLocator for OSGi bundle URL resolution"); } catch (Throwable ex) { equinoxResolveMethod = null; } } private final ResourceLoader resourceLoader; private PathMatcher pathMatcher = new AntPathMatcher(); /** * Create a new PathMatchingResourcePatternResolver with a DefaultResourceLoader. * *

ClassLoader access will happen via the thread context class loader. * * @see DefaultResourceLoader */ public PathMatchingResourcePatternResolver() { this.resourceLoader = new DefaultResourceLoader(); } /** * Create a new PathMatchingResourcePatternResolver. * *

ClassLoader access will happen via the thread context class loader. * * @param resourceLoader the ResourceLoader to load root directories and * actual resources with */ public PathMatchingResourcePatternResolver(ResourceLoader resourceLoader) { AbstractAssert.notNull(resourceLoader, "ResourceLoader must not be null"); this.resourceLoader = resourceLoader; } /** * Create a new PathMatchingResourcePatternResolver with a DefaultResourceLoader. * * @param classLoader the ClassLoader to load classpath resources with, * or {@code null} for using the thread context class loader * at the time of actual resource access * @see DefaultResourceLoader */ public PathMatchingResourcePatternResolver(ClassLoader classLoader) { this.resourceLoader = new DefaultResourceLoader(classLoader); } /** * Return the ResourceLoader that this pattern resolver works with. */ public ResourceLoader getResourceLoader() { return this.resourceLoader; } @Override public ClassLoader getClassLoader() { return getResourceLoader().getClassLoader(); } /** * Set the PathMatcher implementation to use for this * resource pattern resolver. Default is AntPathMatcher. * * @see AntPathMatcher */ public void setPathMatcher(PathMatcher pathMatcher) { AbstractAssert.notNull(pathMatcher, "PathMatcher must not be null"); this.pathMatcher = pathMatcher; } /** * Return the PathMatcher that this resource pattern resolver uses. */ public PathMatcher getPathMatcher() { return this.pathMatcher; } @Override public Resource getResource(String location) { return getResourceLoader().getResource(location); } @Override public Resource[] getResources(String locationPattern) throws IOException { AbstractAssert.notNull(locationPattern, "Location pattern must not be null"); if (locationPattern.startsWith(CLASSPATH_ALL_URL_PREFIX)) { // a class path resource (multiple resources for same name possible) if (getPathMatcher().isPattern(locationPattern.substring(CLASSPATH_ALL_URL_PREFIX.length()))) { // a class path resource pattern return findPathMatchingResources(locationPattern); } else { // all class path resources with the given name return findAllClassPathResources(locationPattern.substring(CLASSPATH_ALL_URL_PREFIX.length())); } } else { // Generally only look for a pattern after a prefix here, // and on Tomcat only after the "*/" separator for its "war:" protocol. int prefixEnd = (locationPattern.startsWith("war:") ? locationPattern.indexOf("*/") + 1 : locationPattern.indexOf(':') + 1); if (getPathMatcher().isPattern(locationPattern.substring(prefixEnd))) { // a file pattern return findPathMatchingResources(locationPattern); } else { // a single resource with the given name return new Resource[]{getResourceLoader().getResource(locationPattern)}; } } } /** * Find all class location resources with the given location via the ClassLoader. * Delegates to {@link #doFindAllClassPathResources(String)}. * * @param location the absolute path within the classpath * @return the result as Resource array * @throws IOException in case of I/O errors * @see ClassLoader#getResources * @see #convertClassLoaderUrl */ protected Resource[] findAllClassPathResources(String location) throws IOException { String path = location; if (path.startsWith("/")) { path = path.substring(1); } Set result = doFindAllClassPathResources(path); if (LOGGER.isTraceEnabled()) { LOGGER.trace("Resolved classpath location [" + location + "] to resources " + result); } return result.toArray(new Resource[0]); } /** * Find all class location resources with the given path via the ClassLoader. * Called by {@link #findAllClassPathResources(String)}. * * @param path the absolute path within the classpath (never a leading slash) * @return a mutable Set of matching Resource instances * @since 4.1.1 */ protected Set doFindAllClassPathResources(String path) throws IOException { Set result = new LinkedHashSet<>(16); ClassLoader cl = getClassLoader(); Enumeration resourceUrls = (cl != null ? cl.getResources(path) : ClassLoader.getSystemResources(path)); while (resourceUrls.hasMoreElements()) { URL url = resourceUrls.nextElement(); result.add(convertClassLoaderUrl(url)); } if (!StringUtils.hasLength(path)) { // The above result is likely to be incomplete, i.e. only containing file system references. // We need to have pointers to each of the jar files on the classpath as well... addAllClassLoaderJarRoots(cl, result); } return result; } /** * Convert the given URL as returned from the ClassLoader into a {@link Resource}. * *

The default implementation simply creates a {@link UrlResource} instance. * * @param url a URL as returned from the ClassLoader * @return the corresponding Resource object * @see ClassLoader#getResources * @see Resource */ protected Resource convertClassLoaderUrl(URL url) { return new UrlResource(url); } /** * Search all {@link URLClassLoader} URLs for jar file references and add them to the * given set of resources in the form of pointers to the root of the jar file content. * * @param classLoader the ClassLoader to search (including its ancestors) * @param result the set of resources to add jar roots to * @since 4.1.1 */ protected void addAllClassLoaderJarRoots(ClassLoader classLoader, Set result) { if (classLoader instanceof URLClassLoader) { try { for (URL url : ((URLClassLoader) classLoader).getURLs()) { try { UrlResource jarResource = (ResourceUtils.URL_PROTOCOL_JAR.equals(url.getProtocol()) ? new UrlResource(url) : new UrlResource(ResourceUtils.JAR_URL_PREFIX + url + ResourceUtils.JAR_URL_SEPARATOR)); if (jarResource.exists()) { result.add(jarResource); } } catch (MalformedURLException ex) { if (LOGGER.isDebugEnabled()) { LOGGER.debug("Cannot search for matching files underneath [" + url + "] because it cannot be converted to a valid 'jar:' URL: " + ex.getMessage()); } } } } catch (Exception ex) { if (LOGGER.isDebugEnabled()) { LOGGER.debug("Cannot introspect jar files since ClassLoader [" + classLoader + "] does not support 'getURLs()': " + ex); } } } if (classLoader == ClassLoader.getSystemClassLoader()) { // "java.class.path" manifest evaluation... addClassPathManifestEntries(result); } if (classLoader != null) { try { // Hierarchy traversal... addAllClassLoaderJarRoots(classLoader.getParent(), result); } catch (Exception ex) { if (LOGGER.isDebugEnabled()) { LOGGER.debug("Cannot introspect jar files in parent ClassLoader since [" + classLoader + "] does not support 'getParent()': " + ex); } } } } /** * Determine jar file references from the "java.class.path." manifest property and add them * to the given set of resources in the form of pointers to the root of the jar file content. * * @param result the set of resources to add jar roots to * @since 4.3 */ protected void addClassPathManifestEntries(Set result) { try { String javaClassPathProperty = System.getProperty("java.class.path"); for (String path : StringUtils.delimitedListToStringArray( javaClassPathProperty, System.getProperty("path.separator"))) { try { String filePath = new File(path).getAbsolutePath(); int prefixIndex = filePath.indexOf(':'); if (prefixIndex == 1) { // Possibly "c:" drive prefix on Windows, to be upper-cased for proper duplicate detection filePath = StringUtils.capitalize(filePath); } // # can appear in directories/filenames, java.net.URL should not treat it as a fragment filePath = StringUtils.replace(filePath, "#", "%23"); // Build URL that points to the root of the jar file UrlResource jarResource = new UrlResource(ResourceUtils.JAR_URL_PREFIX + ResourceUtils.FILE_URL_PREFIX + filePath + ResourceUtils.JAR_URL_SEPARATOR); // Potentially overlapping with URLClassLoader.getURLs() result above! if (!result.contains(jarResource) && !hasDuplicate(filePath, result) && jarResource.exists()) { result.add(jarResource); } } catch (MalformedURLException ex) { if (LOGGER.isDebugEnabled()) { LOGGER.debug("Cannot search for matching files underneath [" + path + "] because it cannot be converted to a valid 'jar:' URL: " + ex.getMessage()); } } } } catch (Exception ex) { if (LOGGER.isDebugEnabled()) { LOGGER.debug("Failed to evaluate 'java.class.path' manifest entries: " + ex); } } } /** * Check whether the given file path has a duplicate but differently structured entry * in the existing result, i.e. with or without a leading slash. * * @param filePath the file path (with or without a leading slash) * @param result the current result * @return {@code true} if there is a duplicate (i.e. to ignore the given file path), * {@code false} to proceed with adding a corresponding resource to the current result */ private boolean hasDuplicate(String filePath, Set result) { if (result.isEmpty()) { return false; } String duplicatePath = (filePath.startsWith("/") ? filePath.substring(1) : "/" + filePath); try { return result.contains(new UrlResource(ResourceUtils.JAR_URL_PREFIX + ResourceUtils.FILE_URL_PREFIX + duplicatePath + ResourceUtils.JAR_URL_SEPARATOR)); } catch (MalformedURLException ex) { // Ignore: just for testing against duplicate. return false; } } /** * Find all resources that match the given location pattern via the * Ant-style PathMatcher. Supports resources in jar files and zip files * and in the file system. * * @param locationPattern the location pattern to match * @return the result as Resource array * @throws IOException in case of I/O errors * @see #doFindPathMatchingJarResources * @see #doFindPathMatchingFileResources * @see PathMatcher */ protected Resource[] findPathMatchingResources(String locationPattern) throws IOException { String rootDirPath = determineRootDir(locationPattern); String subPattern = locationPattern.substring(rootDirPath.length()); Resource[] rootDirResources = getResources(rootDirPath); Set result = new LinkedHashSet<>(16); for (Resource rootDirResource : rootDirResources) { rootDirResource = resolveRootDirResource(rootDirResource); URL rootDirUrl = rootDirResource.getUrl(); if (equinoxResolveMethod != null && rootDirUrl.getProtocol().startsWith("bundle")) { URL resolvedUrl = (URL) ReflectUtils.invokeMethod(equinoxResolveMethod, null, rootDirUrl); if (resolvedUrl != null) { rootDirUrl = resolvedUrl; } rootDirResource = new UrlResource(rootDirUrl); } if (rootDirUrl.getProtocol().startsWith(ResourceUtils.URL_PROTOCOL_VFS)) { result.addAll(VfsResourceMatchingDelegate.findMatchingResources(rootDirUrl, subPattern, getPathMatcher())); } else if (ResourceUtils.isJarUrl(rootDirUrl) || isJarResource(rootDirResource)) { result.addAll(doFindPathMatchingJarResources(rootDirResource, rootDirUrl, subPattern)); } else { result.addAll(doFindPathMatchingFileResources(rootDirResource, subPattern)); } } if (LOGGER.isTraceEnabled()) { LOGGER.trace("Resolved location pattern [" + locationPattern + "] to resources " + result); } return result.toArray(new Resource[0]); } /** * Determine the root directory for the given location. * *

Used for determining the starting point for file matching, * resolving the root directory location to a {@code java.io.File} * and passing it into {@code retrieveMatchingFiles}, with the * remainder of the location as pattern. * *

Will return "/WEB-INF/" for the pattern "/WEB-INF/*.xml", * for example. * * @param location the location to check * @return the part of the location that denotes the root directory * @see #retrieveMatchingFiles */ protected String determineRootDir(String location) { int prefixEnd = location.indexOf(':') + 1; int rootDirEnd = location.length(); while (rootDirEnd > prefixEnd && getPathMatcher().isPattern(location.substring(prefixEnd, rootDirEnd))) { rootDirEnd = location.lastIndexOf('/', rootDirEnd - 2) + 1; } if (rootDirEnd == 0) { rootDirEnd = prefixEnd; } return location.substring(0, rootDirEnd); } /** * Resolve the specified resource for path matching. * *

By default, Equinox OSGi "bundleresource:" / "bundleentry:" URL will be * resolved into a standard jar file URL that be traversed using Spring's * standard jar file traversal algorithm. For any preceding custom resolution, * override this method and replace the resource handle accordingly. * * @param original the resource to resolve * @return the resolved resource (may be identical to the passed-in resource) * @throws IOException in case of resolution failure */ protected Resource resolveRootDirResource(Resource original) throws IOException { return original; } /** * Return whether the given resource handle indicates a jar resource * that the {@code doFindPathMatchingJarResources} method can handle. * *

By default, the URL protocols "jar", "zip", "vfszip and "wsjar" * will be treated as jar resources. This template method allows for * detecting further kinds of jar-like resources, e.g. through * {@code instanceof} checks on the resource handle type. * * @param resource the resource handle to check * (usually the root directory to start path matching from) * @see #doFindPathMatchingJarResources * @see ResourceUtils#isJarUrl */ protected boolean isJarResource(Resource resource) throws IOException { return false; } /** * Find all resources in jar files that match the given location pattern * via the Ant-style PathMatcher. * * @param rootDirResource the root directory as Resource * @param rootDirUrl the pre-resolved root directory URL * @param subPattern the sub pattern to match (below the root directory) * @return a mutable Set of matching Resource instances * @throws IOException in case of I/O errors * @see PathMatcher * @since 4.3 */ protected Set doFindPathMatchingJarResources(Resource rootDirResource, URL rootDirUrl, String subPattern) throws IOException { URLConnection con = rootDirUrl.openConnection(); JarFile jarFile; String jarFileUrl; String rootEntryPath; boolean closeJarFile; if (con instanceof JarURLConnection) { // Should usually be the case for traditional JAR files. JarURLConnection jarCon = (JarURLConnection) con; ResourceUtils.useCachesIfNecessary(jarCon); jarFile = jarCon.getJarFile(); jarFileUrl = jarCon.getJarFileURL().toExternalForm(); JarEntry jarEntry = jarCon.getJarEntry(); rootEntryPath = (jarEntry != null ? jarEntry.getName() : ""); closeJarFile = !jarCon.getUseCaches(); } else { // No JarURLConnection -> need to resort to URL file parsing. // We'll assume URLs of the format "jar:path!/entry", with the protocol // being arbitrary as long as following the entry format. // We'll also handle paths with and without leading "file:" prefix. String urlFile = rootDirUrl.getFile(); try { int separatorIndex = urlFile.indexOf(ResourceUtils.WAR_URL_SEPARATOR); if (separatorIndex == -1) { separatorIndex = urlFile.indexOf(ResourceUtils.JAR_URL_SEPARATOR); } if (separatorIndex != -1) { jarFileUrl = urlFile.substring(0, separatorIndex); rootEntryPath = urlFile.substring(separatorIndex + 2); // both separators are 2 chars jarFile = getJarFile(jarFileUrl); } else { jarFile = new JarFile(urlFile); jarFileUrl = urlFile; rootEntryPath = ""; } closeJarFile = true; } catch (ZipException ex) { if (LOGGER.isDebugEnabled()) { LOGGER.debug("Skipping invalid jar classpath entry [" + urlFile + "]"); } return Collections.emptySet(); } } try { if (LOGGER.isTraceEnabled()) { LOGGER.trace("Looking for matching resources in jar file [" + jarFileUrl + "]"); } if (StringUtils.hasLength(rootEntryPath) && !rootEntryPath.endsWith("/")) { // Root entry path must end with slash to allow for proper matching. // The Sun JRE does not return a slash here, but BEA JRockit does. rootEntryPath = rootEntryPath + "/"; } Set result = new LinkedHashSet<>(8); for (Enumeration entries = jarFile.entries(); entries.hasMoreElements(); ) { JarEntry entry = entries.nextElement(); String entryPath = entry.getName(); if (entryPath.startsWith(rootEntryPath)) { String relativePath = entryPath.substring(rootEntryPath.length()); if (getPathMatcher().match(subPattern, relativePath)) { result.add(rootDirResource.createRelative(relativePath)); } } } return result; } finally { if (closeJarFile) { jarFile.close(); } } } /** * Resolve the given jar file URL into a JarFile object. */ protected JarFile getJarFile(String jarFileUrl) throws IOException { if (jarFileUrl.startsWith(ResourceUtils.FILE_URL_PREFIX)) { try { return new JarFile(ResourceUtils.toUri(jarFileUrl).getSchemeSpecificPart()); } catch (URISyntaxException ex) { // Fallback for URLs that are not valid URIs (should hardly ever happen). return new JarFile(jarFileUrl.substring(ResourceUtils.FILE_URL_PREFIX.length())); } } else { return new JarFile(jarFileUrl); } } /** * Find all resources in the file system that match the given location pattern * via the Ant-style PathMatcher. * * @param rootDirResource the root directory as Resource * @param subPattern the sub pattern to match (below the root directory) * @return a mutable Set of matching Resource instances * @throws IOException in case of I/O errors * @see #retrieveMatchingFiles * @see PathMatcher */ protected Set doFindPathMatchingFileResources(Resource rootDirResource, String subPattern) throws IOException { File rootDir; try { rootDir = rootDirResource.getFile().getAbsoluteFile(); } catch (FileNotFoundException ex) { if (LOGGER.isDebugEnabled()) { LOGGER.debug("Cannot search for matching files underneath " + rootDirResource + " in the file system: " + ex.getMessage()); } return Collections.emptySet(); } catch (Exception ex) { if (LOGGER.isInfoEnabled()) { LOGGER.info("Failed to resolve " + rootDirResource + " in the file system: " + ex); } return Collections.emptySet(); } return doFindMatchingFileSystemResources(rootDir, subPattern); } /** * Find all resources in the file system that match the given location pattern * via the Ant-style PathMatcher. * * @param rootDir the root directory in the file system * @param subPattern the sub pattern to match (below the root directory) * @return a mutable Set of matching Resource instances * @throws IOException in case of I/O errors * @see #retrieveMatchingFiles * @see PathMatcher */ protected Set doFindMatchingFileSystemResources(File rootDir, String subPattern) throws IOException { if (LOGGER.isTraceEnabled()) { LOGGER.trace("Looking for matching resources in directory tree [" + rootDir.getPath() + "]"); } Set matchingFiles = retrieveMatchingFiles(rootDir, subPattern); Set result = new LinkedHashSet<>(matchingFiles.size()); for (File file : matchingFiles) { result.add(new FileSystemResource(file)); } return result; } /** * Retrieve files that match the given path pattern, * checking the given directory and its subdirectories. * * @param rootDir the directory to start from * @param pattern the pattern to match against, * relative to the root directory * @return a mutable Set of matching Resource instances * @throws IOException if directory contents could not be retrieved */ protected Set retrieveMatchingFiles(File rootDir, String pattern) throws IOException { if (!rootDir.exists()) { // Silently skip non-existing directories. if (LOGGER.isDebugEnabled()) { LOGGER.debug("Skipping [" + rootDir.getAbsolutePath() + "] because it does not exist"); } return Collections.emptySet(); } if (!rootDir.isDirectory()) { // Complain louder if it exists but is no directory. if (LOGGER.isInfoEnabled()) { LOGGER.info("Skipping [" + rootDir.getAbsolutePath() + "] because it does not denote a directory"); } return Collections.emptySet(); } if (!rootDir.canRead()) { if (LOGGER.isInfoEnabled()) { LOGGER.info("Skipping search for matching files underneath directory [" + rootDir.getAbsolutePath() + "] because the application is not allowed to read the directory"); } return Collections.emptySet(); } String fullPattern = StringUtils.replace(rootDir.getAbsolutePath(), File.separator, "/"); if (!pattern.startsWith("/")) { fullPattern += "/"; } fullPattern = fullPattern + StringUtils.replace(pattern, File.separator, "/"); Set result = new LinkedHashSet<>(8); doRetrieveMatchingFiles(fullPattern, rootDir, result); return result; } /** * Recursively retrieve files that match the given pattern, * adding them to the given result list. * * @param fullPattern the pattern to match against, * with prepended root directory path * @param dir the current directory * @param result the Set of matching File instances to add to * @throws IOException if directory contents could not be retrieved */ protected void doRetrieveMatchingFiles(String fullPattern, File dir, Set result) throws IOException { if (LOGGER.isTraceEnabled()) { LOGGER.trace("Searching directory [" + dir.getAbsolutePath() + "] for files matching pattern [" + fullPattern + "]"); } for (File content : listDirectory(dir)) { String currPath = StringUtils.replace(content.getAbsolutePath(), File.separator, "/"); if (content.isDirectory() && getPathMatcher().matchStart(fullPattern, currPath + "/")) { if (!content.canRead()) { if (LOGGER.isDebugEnabled()) { LOGGER.debug("Skipping subdirectory [" + dir.getAbsolutePath() + "] because the application is not allowed to read the directory"); } } else { doRetrieveMatchingFiles(fullPattern, content, result); } } if (getPathMatcher().match(fullPattern, currPath)) { result.add(content); } } } /** * Determine a sorted list of files in the given directory. * * @param dir the directory to introspect * @return the sorted list of files (by default in alphabetical order) * @see File#listFiles() * @since 5.1 */ protected File[] listDirectory(File dir) { File[] files = dir.listFiles(); if (files == null) { if (LOGGER.isInfoEnabled()) { LOGGER.info("Could not retrieve contents of directory [" + dir.getAbsolutePath() + "]"); } return new File[0]; } Arrays.sort(files, Comparator.comparing(File::getName)); return files; } /** * Inner delegate class, avoiding a hard JBoss VFS API dependency at runtime. */ private static class VfsResourceMatchingDelegate { public static Set findMatchingResources( URL rootDirUrl, String locationPattern, PathMatcher pathMatcher) throws IOException { Object root = VfsPatternUtils.findRoot(rootDirUrl); PatternVirtualFileVisitor visitor = new PatternVirtualFileVisitor(VfsPatternUtils.getPath(root), locationPattern, pathMatcher); VfsPatternUtils.visit(root, visitor); return visitor.getResources(); } } /** * VFS visitor for path matching purposes. */ @SuppressWarnings("unused") private static class PatternVirtualFileVisitor implements InvocationHandler { private final String subPattern; private final PathMatcher pathMatcher; private final String rootPath; private final Set resources = new LinkedHashSet<>(); public PatternVirtualFileVisitor(String rootPath, String subPattern, PathMatcher pathMatcher) { this.subPattern = subPattern; this.pathMatcher = pathMatcher; this.rootPath = (rootPath.isEmpty() || rootPath.endsWith("/") ? rootPath : rootPath + "/"); } @Override public Object invoke(Object proxy, Method method, Object[] args) throws Throwable { String methodName = method.getName(); if (Object.class == method.getDeclaringClass()) { if ("equals".equals(methodName)) { // Only consider equal when proxies are identical. return (proxy == args[0]); } else if ("hashCode".equals(methodName)) { return System.identityHashCode(proxy); } } else if ("getAttributes".equals(methodName)) { return getAttributes(); } else if ("visit".equals(methodName)) { visit(args[0]); return null; } else if ("toString".equals(methodName)) { return toString(); } throw new IllegalStateException("Unexpected method invocation: " + method); } public void visit(Object vfsResource) { if (this.pathMatcher.match(this.subPattern, VfsPatternUtils.getPath(vfsResource).substring(this.rootPath.length()))) { this.resources.add(new VfsResource(vfsResource)); } } public Object getAttributes() { return VfsPatternUtils.getVisitorAttributes(); } public Set getResources() { return this.resources; } public int size() { return this.resources.size(); } @Override public String toString() { return "sub-pattern: " + this.subPattern + ", resources: " + this.resources; } } }





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