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//
//  ========================================================================
//  Copyright (c) 1995-2013 Mort Bay Consulting Pty. Ltd.
//  ------------------------------------------------------------------------
//  All rights reserved. This program and the accompanying materials
//  are made available under the terms of the Eclipse Public License v1.0
//  and Apache License v2.0 which accompanies this distribution.
//
//      The Eclipse Public License is available at
//      http://www.eclipse.org/legal/epl-v10.html
//
//      The Apache License v2.0 is available at
//      http://www.opensource.org/licenses/apache2.0.php
//
//  You may elect to redistribute this code under either of these licenses.
//  ========================================================================
//

package org.eclipse.jetty.xml;

import java.io.IOException;
import java.io.InputStream;
import java.io.StringReader;
import java.lang.reflect.Array;
import java.lang.reflect.Constructor;
import java.lang.reflect.Field;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.lang.reflect.Modifier;
import java.net.InetAddress;
import java.net.MalformedURLException;
import java.net.URL;
import java.net.UnknownHostException;
import java.security.AccessController;
import java.security.PrivilegedAction;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Enumeration;
import java.util.HashMap;
import java.util.HashSet;
import java.util.LinkedList;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import java.util.Properties;
import java.util.Queue;
import java.util.ServiceLoader;
import java.util.Set;
import java.util.concurrent.atomic.AtomicReference;

import org.eclipse.jetty.util.ArrayQueue;
import org.eclipse.jetty.util.LazyList;
import org.eclipse.jetty.util.Loader;
import org.eclipse.jetty.util.TypeUtil;
import org.eclipse.jetty.util.component.LifeCycle;
import org.eclipse.jetty.util.log.Log;
import org.eclipse.jetty.util.log.Logger;
import org.eclipse.jetty.util.resource.Resource;
import org.eclipse.jetty.xml.XmlParser.Node;
import org.xml.sax.InputSource;
import org.xml.sax.SAXException;

/**
 * 

Configures objects from XML.

*

This class reads an XML file conforming to the configure.dtd DTD * and uses it to configure and object by calling set, put or other methods on the object.

*

The actual XML file format may be changed (eg to spring XML) by implementing the * {@link ConfigurationProcessorFactory} interface to be found by the * {@link ServiceLoader} by using the DTD and first tag element in the file. * Note that DTD will be null if validation is off.

*

* The configuration can be parameterised with properties that are looked up via the * Property XML element and set on the configuration via the map returned from * {@link #getProperties()}

*

* The configuration can create and lookup beans by ID. If multiple configurations are used, then it * is good practise to copy the entries from the {@link #getIdMap()} of a configuration to the next * configuration so that they can share an ID space for beans.

*/ public class XmlConfiguration { private static final Logger LOG = Log.getLogger(XmlConfiguration.class); private static final Class[] __primitives = {Boolean.TYPE, Character.TYPE, Byte.TYPE, Short.TYPE, Integer.TYPE, Long.TYPE, Float.TYPE, Double.TYPE, Void.TYPE}; private static final Class[] __boxedPrimitives = {Boolean.class, Character.class, Byte.class, Short.class, Integer.class, Long.class, Float.class, Double.class, Void.class}; private static final Class[] __supportedCollections = {ArrayList.class, ArrayQueue.class, HashSet.class, Queue.class, List.class, Set.class, Collection.class,}; private static final Iterable __factoryLoader = ServiceLoader.load(ConfigurationProcessorFactory.class); private static final XmlParser __parser = initParser(); private synchronized static XmlParser initParser() { XmlParser parser = new XmlParser(); URL config60 = Loader.getResource(XmlConfiguration.class,"org/eclipse/jetty/xml/configure_6_0.dtd",true); URL config76 = Loader.getResource(XmlConfiguration.class,"org/eclipse/jetty/xml/configure_7_6.dtd",true); URL config90 = Loader.getResource(XmlConfiguration.class,"org/eclipse/jetty/xml/configure_9_0.dtd",true); parser.redirectEntity("configure.dtd",config90); parser.redirectEntity("configure_1_0.dtd",config60); parser.redirectEntity("configure_1_1.dtd",config60); parser.redirectEntity("configure_1_2.dtd",config60); parser.redirectEntity("configure_1_3.dtd",config60); parser.redirectEntity("configure_6_0.dtd",config60); parser.redirectEntity("configure_7_6.dtd",config76); parser.redirectEntity("configure_9_0.dtd",config90); parser.redirectEntity("http://jetty.mortbay.org/configure.dtd",config90); parser.redirectEntity("http://jetty.eclipse.org/configure.dtd",config90); parser.redirectEntity("http://www.eclipse.org/jetty/configure.dtd",config90); parser.redirectEntity("-//Mort Bay Consulting//DTD Configure//EN",config90); parser.redirectEntity("-//Jetty//Configure//EN",config90); return parser; } private final Map _idMap = new HashMap<>(); private final Map _propertyMap = new HashMap<>(); private final URL _url; private final String _dtd; private ConfigurationProcessor _processor; /** * Reads and parses the XML configuration file. * * @param configuration the URL of the XML configuration * @throws IOException if the configuration could not be read * @throws SAXException if the configuration could not be parsed */ public XmlConfiguration(URL configuration) throws SAXException, IOException { synchronized (__parser) { _url=configuration; setConfig(__parser.parse(configuration.toString())); _dtd=__parser.getDTD(); } } /** * Reads and parses the XML configuration string. * * @param configuration String of XML configuration commands excluding the normal XML preamble. * The String should start with a "<Configure ....>" element. * @throws IOException if the configuration could not be read * @throws SAXException if the configuration could not be parsed */ public XmlConfiguration(String configuration) throws SAXException, IOException { configuration = "\n" + configuration; InputSource source = new InputSource(new StringReader(configuration)); synchronized (__parser) { _url=null; setConfig( __parser.parse(source)); _dtd=__parser.getDTD(); } } /** * Reads and parses the XML configuration stream. * * @param configuration An input stream containing a complete configuration file * @throws IOException if the configuration could not be read * @throws SAXException if the configuration could not be parsed */ public XmlConfiguration(InputStream configuration) throws SAXException, IOException { InputSource source = new InputSource(configuration); synchronized (__parser) { _url=null; setConfig(__parser.parse(source)); _dtd=__parser.getDTD(); } } private void setConfig(XmlParser.Node config) { if ("Configure".equals(config.getTag())) { _processor=new JettyXmlConfiguration(); } else if (__factoryLoader!=null) { for (ConfigurationProcessorFactory factory : __factoryLoader) { _processor = factory.getConfigurationProcessor(_dtd, config.getTag()); if (_processor!=null) break; } if (_processor==null) throw new IllegalStateException("Unknown configuration type: "+config.getTag()+" in "+this); } else { throw new IllegalArgumentException("Unknown XML tag:"+config.getTag()); } _processor.init(_url,config,_idMap, _propertyMap); } /* ------------------------------------------------------------ */ /** Get the map of ID String to Objects that is used to hold * and lookup any objects by ID. *

* A New, Get or Call XML element may have an * id attribute which will cause the resulting object to be placed into * this map. A Ref XML element will lookup an object from this map.

*

* When chaining configuration files, it is good practise to copy the * ID entries from the ID map to the map of the next configuration, so * that they may share an ID space *

* * @return A modifiable map of ID strings to Objects */ public Map getIdMap() { return _idMap; } /* ------------------------------------------------------------ */ /** * Get the map of properties used by the Property XML element * to parameterise configuration. * @return A modifiable map of properties. */ public Map getProperties() { return _propertyMap; } /** * Applies the XML configuration script to the given object. * * @param obj The object to be configured, which must be of a type or super type * of the class attribute of the <Configure> element. * @throws Exception if the configuration fails * @return the configured object */ public Object configure(Object obj) throws Exception { return _processor.configure(obj); } /** * Applies the XML configuration script. * If the root element of the configuration has an ID, an object is looked up by ID and its type checked * against the root element's type. * Otherwise a new object of the type specified by the root element is created. * * @return The newly created configured object. * @throws Exception if the configuration fails */ public Object configure() throws Exception { return _processor.configure(); } private static class JettyXmlConfiguration implements ConfigurationProcessor { private String _url; private XmlParser.Node _config; private Map _idMap; private Map _propertyMap; public void init(URL url, XmlParser.Node config, Map idMap, Map properties) { _url=url==null?null:url.toString(); _config=config; _idMap=idMap; _propertyMap=properties; } public Object configure(Object obj) throws Exception { // Check the class of the object Class oClass = nodeClass(_config); if (oClass != null && !oClass.isInstance(obj)) { String loaders = (oClass.getClassLoader()==obj.getClass().getClassLoader())?"":"Object Class and type Class are from different loaders."; throw new IllegalArgumentException("Object of class '"+obj.getClass().getCanonicalName()+"' is not of type '" + oClass.getCanonicalName()+"'. "+loaders+" in "+_url); } configure(obj,_config,0); return obj; } public Object configure() throws Exception { Class oClass = nodeClass(_config); String id = _config.getAttribute("id"); Object obj = id == null ? null : _idMap.get(id); int index = 0; if (obj == null && oClass != null) { index = _config.size(); Map namedArgMap = new HashMap<>(); List arguments = new LinkedList<>(); for (int i = 0; i < _config.size(); i++) { Object o = _config.get(i); if (o instanceof String) { continue; } XmlParser.Node node = (XmlParser.Node)o; if (!(node.getTag().equals("Arg"))) { index = i; break; } else { String namedAttribute = node.getAttribute("name"); Object value=value(obj,(XmlParser.Node)o); if (namedAttribute != null) namedArgMap.put(namedAttribute,value); arguments.add(value); } } try { if (namedArgMap.size() > 0) obj = TypeUtil.construct(oClass, arguments.toArray(), namedArgMap); else obj = TypeUtil.construct(oClass, arguments.toArray()); } catch (NoSuchMethodException x) { throw new IllegalStateException("No suitable constructor on " + oClass, x); } } configure(obj, _config, index); return obj; } private static Class nodeClass(XmlParser.Node node) throws ClassNotFoundException { String className = node.getAttribute("class"); if (className == null) return null; return Loader.loadClass(XmlConfiguration.class,className,true); } /** * Recursive configuration routine. * This method applies the nested Set, Put, Call, etc. elements to the given object. * * @param obj the object to configure * @param cfg the XML nodes of the configuration * @param i the index of the XML nodes * @throws Exception if the configuration fails */ public void configure(Object obj, XmlParser.Node cfg, int i) throws Exception { String id = cfg.getAttribute("id"); if (id != null) _idMap.put(id,obj); // Object already constructed so skip any arguments for (; i < cfg.size(); i++) { Object o = cfg.get(i); if (o instanceof String) continue; XmlParser.Node node = (XmlParser.Node)o; if ("Arg".equals(node.getTag())) { LOG.warn("Ignored arg: "+node); continue; } break; } // Process real arguments for (; i < cfg.size(); i++) { Object o = cfg.get(i); if (o instanceof String) continue; XmlParser.Node node = (XmlParser.Node)o; try { String tag = node.getTag(); switch (tag) { case "Set": set(obj, node); break; case "Put": put(obj, node); break; case "Call": call(obj, node); break; case "Get": get(obj, node); break; case "New": newObj(obj, node); break; case "Array": newArray(obj, node); break; case "Ref": refObj(obj, node); break; case "Property": propertyObj(node); break; default: throw new IllegalStateException("Unknown tag: " + tag + " in " + _url); } } catch (Exception e) { LOG.warn("Config error at " + node,e.toString()+" in "+_url); throw e; } } } /* * Call a set method. This method makes a best effort to find a matching set method. The type of the value is used to find a suitable set method by 1. * Trying for a trivial type match. 2. Looking for a native type match. 3. Trying all correctly named methods for an auto conversion. 4. Attempting to * construct a suitable value from original value. @param obj * * @param node */ private void set(Object obj, XmlParser.Node node) throws Exception { String attr = node.getAttribute("name"); String name = "set" + attr.substring(0,1).toUpperCase(Locale.ENGLISH) + attr.substring(1); Object value = value(obj,node); Object[] arg = { value }; Class oClass = nodeClass(node); if (oClass != null) obj = null; else oClass = obj.getClass(); Class[] vClass = { Object.class }; if (value != null) vClass[0] = value.getClass(); if (LOG.isDebugEnabled()) LOG.debug("XML " + (obj != null?obj.toString():oClass.getName()) + "." + name + "(" + value + ")"); // Try for trivial match try { Method set = oClass.getMethod(name,vClass); set.invoke(obj,arg); return; } catch (IllegalArgumentException | IllegalAccessException | NoSuchMethodException e) { LOG.ignore(e); } // Try for native match try { Field type = vClass[0].getField("TYPE"); vClass[0] = (Class)type.get(null); Method set = oClass.getMethod(name,vClass); set.invoke(obj,arg); return; } catch (NoSuchFieldException | IllegalArgumentException | IllegalAccessException | NoSuchMethodException e) { LOG.ignore(e); } // Try a field try { Field field = oClass.getField(attr); if (Modifier.isPublic(field.getModifiers())) { field.set(obj,value); return; } } catch (NoSuchFieldException e) { LOG.ignore(e); } // Search for a match by trying all the set methods Method[] sets = oClass.getMethods(); Method set = null; for (int s = 0; sets != null && s < sets.length; s++) { Class[] paramTypes = sets[s].getParameterTypes(); if (name.equals(sets[s].getName()) && paramTypes.length == 1) { // lets try it try { set = sets[s]; sets[s].invoke(obj,arg); return; } catch (IllegalArgumentException | IllegalAccessException e) { LOG.ignore(e); } try { for (Class c : __supportedCollections) if (paramTypes[0].isAssignableFrom(c)) { sets[s].invoke(obj,convertArrayToCollection(value,c)); return; } } catch (IllegalAccessException e) { LOG.ignore(e); } } } // Try converting the arg to the last set found. if (set != null) { try { Class sClass = set.getParameterTypes()[0]; if (sClass.isPrimitive()) { for (int t = 0; t < __primitives.length; t++) { if (sClass.equals(__primitives[t])) { sClass = __boxedPrimitives[t]; break; } } } Constructor cons = sClass.getConstructor(vClass); arg[0] = cons.newInstance(arg); set.invoke(obj,arg); return; } catch (NoSuchMethodException | IllegalAccessException | InstantiationException e) { LOG.ignore(e); } } // No Joy throw new NoSuchMethodException(oClass + "." + name + "(" + vClass[0] + ")"); } /** * @param array the array to convert * @param collectionType the desired collection type * @return a collection of the desired type if the array can be converted */ private static Collection convertArrayToCollection(Object array, Class collectionType) { Collection collection = null; if (array.getClass().isArray()) { if (collectionType.isAssignableFrom(ArrayList.class)) collection = convertArrayToArrayList(array); else if (collectionType.isAssignableFrom(HashSet.class)) collection = new HashSet<>(convertArrayToArrayList(array)); else if (collectionType.isAssignableFrom(ArrayQueue.class)) { ArrayQueue q= new ArrayQueue<>(); q.addAll(convertArrayToArrayList(array)); collection=q; } } if (collection==null) throw new IllegalArgumentException("Can't convert \"" + array.getClass() + "\" to " + collectionType); return collection; } private static ArrayList convertArrayToArrayList(Object array) { int length = Array.getLength(array); ArrayList list = new ArrayList<>(length); for (int i = 0; i < length; i++) list.add(Array.get(array,i)); return list; } /* * Call a put method. * * @param obj @param node */ private void put(Object obj, XmlParser.Node node) throws Exception { if (!(obj instanceof Map)) throw new IllegalArgumentException("Object for put is not a Map: " + obj); @SuppressWarnings("unchecked") Map map = (Map)obj; String name = node.getAttribute("name"); Object value = value(obj,node); map.put(name,value); if (LOG.isDebugEnabled()) LOG.debug("XML " + obj + ".put(" + name + "," + value + ")"); } /* * Call a get method. Any object returned from the call is passed to the configure method to consume the remaining elements. @param obj @param node * * @return @exception Exception */ private Object get(Object obj, XmlParser.Node node) throws Exception { Class oClass = nodeClass(node); if (oClass != null) obj = null; else oClass = obj.getClass(); String name = node.getAttribute("name"); String id = node.getAttribute("id"); if (LOG.isDebugEnabled()) LOG.debug("XML get " + name); try { // try calling a getXxx method. Method method = oClass.getMethod("get" + name.substring(0,1).toUpperCase(Locale.ENGLISH) + name.substring(1),(java.lang.Class[])null); obj = method.invoke(obj,(java.lang.Object[])null); configure(obj,node,0); } catch (NoSuchMethodException nsme) { try { Field field = oClass.getField(name); obj = field.get(obj); configure(obj,node,0); } catch (NoSuchFieldException nsfe) { throw nsme; } } if (id != null) _idMap.put(id,obj); return obj; } /* * Call a method. A method is selected by trying all methods with matching names and number of arguments. Any object returned from the call is passed to * the configure method to consume the remaining elements. Note that if this is a static call we consider only methods declared directly in the given * class. i.e. we ignore any static methods in superclasses. @param obj * * @param node @return @exception Exception */ private Object call(Object obj, XmlParser.Node node) throws Exception { String id = node.getAttribute("id"); Class oClass = nodeClass(node); if (oClass != null) obj = null; else if (obj != null) oClass = obj.getClass(); if (oClass == null) throw new IllegalArgumentException(node.toString()); int size = 0; int argIndex = node.size(); for (int i = 0; i < node.size(); i++) { Object o = node.get(i); if (o instanceof String) continue; if (!((XmlParser.Node)o).getTag().equals("Arg")) { argIndex = i; break; } size++; } Object[] arg = new Object[size]; for (int i = 0, j = 0; j < size; i++) { Object o = node.get(i); if (o instanceof String) continue; arg[j++] = value(obj,(XmlParser.Node)o); } String method = node.getAttribute("name"); if (LOG.isDebugEnabled()) LOG.debug("XML call " + method); try { Object n= TypeUtil.call(oClass,method,obj,arg); if (id != null) _idMap.put(id,n); configure(n,node,argIndex); return n; } catch (NoSuchMethodException e) { IllegalStateException ise = new IllegalStateException("No Method: " + node + " on " + oClass); ise.initCause(e); throw ise; } } /* * Create a new value object. * * @param obj * @param node * * @return @exception Exception */ private Object newObj(Object obj, XmlParser.Node node) throws Exception { Class oClass = nodeClass(node); int size = 0; int argIndex = node.size(); for (int i = 0; i < node.size(); i++) { Object o = node.get(i); if (o instanceof String) continue; if (!((XmlParser.Node)o).getTag().equals("Arg")) { argIndex = i; break; } size++; } Map namedArgMap = new HashMap<>(); List arguments = new LinkedList<>(); for (int i = 0; i < size; i++) { Object o = node.get(i); if (o instanceof String) { continue; } XmlParser.Node argNode = (XmlParser.Node)o; String namedAttribute = argNode.getAttribute("name"); Object value=value(obj,(XmlParser.Node)o); if (namedAttribute != null) namedArgMap.put(namedAttribute,value); arguments.add(value); } if (LOG.isDebugEnabled()) LOG.debug("XML new " + oClass); Object n; try { if (namedArgMap.size() > 0) { LOG.debug("using named mapping"); n = TypeUtil.construct(oClass, arguments.toArray(), namedArgMap); } else { LOG.debug("using normal mapping"); n = TypeUtil.construct(oClass, arguments.toArray()); } } catch (NoSuchMethodException e) { throw new IllegalStateException("No suitable constructor: " + node + " on " + obj); } configure(n,node,argIndex); return n; } /* * Reference an id value object. * * @param obj @param node @return @exception NoSuchMethodException @exception ClassNotFoundException @exception InvocationTargetException */ private Object refObj(Object obj, XmlParser.Node node) throws Exception { String refid = node.getAttribute("refid"); if (refid==null) refid = node.getAttribute("id"); obj = _idMap.get(refid); if (obj == null && node.size()>0) throw new IllegalStateException("No object for refid=" + refid); configure(obj,node,0); return obj; } /* * Create a new array object. */ private Object newArray(Object obj, XmlParser.Node node) throws Exception { // Get the type Class aClass = java.lang.Object.class; String type = node.getAttribute("type"); final String id = node.getAttribute("id"); if (type != null) { aClass = TypeUtil.fromName(type); if (aClass == null) { switch (type) { case "String": aClass = String.class; break; case "URL": aClass = URL.class; break; case "InetAddress": aClass = InetAddress.class; break; default: aClass = Loader.loadClass(XmlConfiguration.class, type, true); break; } } } Object al = null; for (Object nodeObject : node) { XmlParser.Node item = (Node)nodeObject; String nid = item.getAttribute("id"); Object v = value(obj,item); al = LazyList.add(al,(v == null && aClass.isPrimitive())?0:v); if (nid != null) _idMap.put(nid,v); } Object array = LazyList.toArray(al,aClass); if (id != null) _idMap.put(id,array); return array; } /* * Create a new map object. */ private Object newMap(Object obj, XmlParser.Node node) throws Exception { String id = node.getAttribute("id"); Map map = new HashMap<>(); if (id != null) _idMap.put(id,map); for (Object o : node) { if (o instanceof String) continue; XmlParser.Node entry = (XmlParser.Node)o; if (!entry.getTag().equals("Entry")) throw new IllegalStateException("Not an Entry"); XmlParser.Node key = null; XmlParser.Node value = null; for (Object object : entry) { if (object instanceof String) continue; XmlParser.Node item = (XmlParser.Node)object; if (!item.getTag().equals("Item")) throw new IllegalStateException("Not an Item"); if (key == null) key = item; else value = item; } if (key == null || value == null) throw new IllegalStateException("Missing Item in Entry"); String kid = key.getAttribute("id"); String vid = value.getAttribute("id"); Object k = value(obj,key); Object v = value(obj,value); map.put(k,v); if (kid != null) _idMap.put(kid,k); if (vid != null) _idMap.put(vid,v); } return map; } /* * Get a Property. * * @param node * @return * @exception Exception */ private Object propertyObj(XmlParser.Node node) throws Exception { String id = node.getAttribute("id"); String name = node.getAttribute("name"); String defaultValue = node.getAttribute("default"); Object prop; if (_propertyMap != null && _propertyMap.containsKey(name)) prop = _propertyMap.get(name); else prop = defaultValue; if (id != null) _idMap.put(id,prop); if (prop != null) configure(prop,node,0); return prop; } /* * Get the value of an element. If no value type is specified, then white space is trimmed out of the value. If it contains multiple value elements they * are added as strings before being converted to any specified type. @param node */ private Object value(Object obj, XmlParser.Node node) throws Exception { Object value; // Get the type String type = node.getAttribute("type"); // Try a ref lookup String ref = node.getAttribute("ref"); if (ref != null) { value = _idMap.get(ref); } else { // handle trivial case if (node.size() == 0) { if ("String".equals(type)) return ""; return null; } // Trim values int first = 0; int last = node.size() - 1; // Handle default trim type if (type == null || !"String".equals(type)) { // Skip leading white Object item; while (first <= last) { item = node.get(first); if (!(item instanceof String)) break; item = ((String)item).trim(); if (((String)item).length() > 0) break; first++; } // Skip trailing white while (first < last) { item = node.get(last); if (!(item instanceof String)) break; item = ((String)item).trim(); if (((String)item).length() > 0) break; last--; } // All white, so return null if (first > last) return null; } if (first == last) // Single Item value value = itemValue(obj,node.get(first)); else { // Get the multiple items as a single string StringBuilder buf = new StringBuilder(); for (int i = first; i <= last; i++) { Object item = node.get(i); buf.append(itemValue(obj,item)); } value = buf.toString(); } } // Untyped or unknown if (value == null) { if ("String".equals(type)) return ""; return null; } // Try to type the object if (type == null) { if (value instanceof String) return ((String)value).trim(); return value; } if (isTypeMatchingClass(type,String.class)) return value.toString(); Class pClass = TypeUtil.fromName(type); if (pClass != null) return TypeUtil.valueOf(pClass,value.toString()); if (isTypeMatchingClass(type,URL.class)) { if (value instanceof URL) return value; try { return new URL(value.toString()); } catch (MalformedURLException e) { throw new InvocationTargetException(e); } } if (isTypeMatchingClass(type,InetAddress.class)) { if (value instanceof InetAddress) return value; try { return InetAddress.getByName(value.toString()); } catch (UnknownHostException e) { throw new InvocationTargetException(e); } } for (Class collectionClass : __supportedCollections) { if (isTypeMatchingClass(type,collectionClass)) return convertArrayToCollection(value,collectionClass); } throw new IllegalStateException("Unknown type " + type); } private static boolean isTypeMatchingClass(String type, Class classToMatch) { return classToMatch.getSimpleName().equalsIgnoreCase(type) || classToMatch.getName().equals(type); } /* * Get the value of a single element. @param obj @param item @return @exception Exception */ private Object itemValue(Object obj, Object item) throws Exception { // String value if (item instanceof String) return item; XmlParser.Node node = (XmlParser.Node)item; String tag = node.getTag(); if ("Call".equals(tag)) return call(obj,node); if ("Get".equals(tag)) return get(obj,node); if ("New".equals(tag)) return newObj(obj,node); if ("Ref".equals(tag)) return refObj(obj,node); if ("Array".equals(tag)) return newArray(obj,node); if ("Map".equals(tag)) return newMap(obj,node); if ("Property".equals(tag)) return propertyObj(node); if ("SystemProperty".equals(tag)) { String name = node.getAttribute("name"); String defaultValue = node.getAttribute("default"); return System.getProperty(name,defaultValue); } if ("Env".equals(tag)) { String name = node.getAttribute("name"); String defaultValue = node.getAttribute("default"); String value=System.getenv(name); return value==null?defaultValue:value; } LOG.warn("Unknown value tag: " + node,new Throwable()); return null; } } /** * Run the XML configurations as a main application. The command line is used to obtain properties files (must be named '*.properties') and XmlConfiguration * files. *

* Any property file on the command line is added to a combined Property instance that is passed to each configuration file via * {@link XmlConfiguration#getProperties()}. *

* Each configuration file on the command line is used to create a new XmlConfiguration instance and the {@link XmlConfiguration#configure()} method is used * to create the configured object. If the resulting object is an instance of {@link LifeCycle}, then it is started. *

* Any IDs created in a configuration are passed to the next configuration file on the command line using {@link #getIdMap()}. * This allows objects with IDs created in one config file to be referenced in subsequent config files on the command line. * * @param args * array of property and xml configuration filenames or {@link Resource}s. * @throws Exception if the XML configurations cannot be run */ public static void main(final String... args) throws Exception { final AtomicReference exception = new AtomicReference<>(); AccessController.doPrivileged(new PrivilegedAction() { public Object run() { try { Properties properties = null; // Look for properties from start.jar try { Class config = XmlConfiguration.class.getClassLoader().loadClass("org.eclipse.jetty.start.Config"); properties = (Properties)config.getMethod("getProperties").invoke(null); LOG.debug("org.eclipse.jetty.start.Config properties = {}",properties); } catch (NoClassDefFoundError | ClassNotFoundException e) { LOG.ignore(e); } catch (Exception e) { LOG.warn(e); } // If no start.config properties, use clean slate if (properties == null) { properties = new Properties(); // Add System Properties Enumeration ensysprop = System.getProperties().propertyNames(); while (ensysprop.hasMoreElements()) { String name = (String)ensysprop.nextElement(); properties.put(name,System.getProperty(name)); } } // For all arguments, load properties or parse XMLs XmlConfiguration last = null; Object[] obj = new Object[args.length]; for (int i = 0; i < args.length; i++) { if (args[i].toLowerCase(Locale.ENGLISH).endsWith(".properties")) { properties.load(Resource.newResource(args[i]).getInputStream()); } else { XmlConfiguration configuration = new XmlConfiguration(Resource.newResource(args[i]).getURL()); if (last != null) configuration.getIdMap().putAll(last.getIdMap()); if (properties.size() > 0) { Map props = new HashMap<>(); for (Object key : properties.keySet()) { props.put(key.toString(),String.valueOf(properties.get(key))); } configuration.getProperties().putAll(props); } obj[i] = configuration.configure(); last = configuration; } } // For all objects created by XmlConfigurations, start them if they are lifecycles. for (int i = 0; i < args.length; i++) { if (obj[i] instanceof LifeCycle) { LifeCycle lc = (LifeCycle)obj[i]; if (!lc.isRunning()) lc.start(); } } } catch (Exception e) { LOG.debug(Log.EXCEPTION,e); exception.set(e); } return null; } }); Throwable th = exception.get(); if (th != null) { if (th instanceof RuntimeException) throw (RuntimeException)th; else if (th instanceof Exception) throw (Exception)th; else if (th instanceof Error) throw (Error)th; throw new Error(th); } } }