版权声明:本文为博主原创文章,未经博主允许不得转载。 https://blog.csdn.net/beliefer/article/details/51035923
前言
作为Java程序员,对于Tomcat的server.xml想必都不陌生。本文基于Tomcat7.0的Java源码,对server.xml文件是如何加载和解析进行分析。加载过程分析
Bootstrap的load方法用于加载Tomcat的server.xml,实际是通过反射调用Catalina的load方法,代码如下: /**
* Load daemon.
*/
private void load(String[] arguments)
throws Exception {
// Call the load() method
String methodName = "load";
Object param[];
Class<?> paramTypes[];
if (arguments==null || arguments.length==0) {
paramTypes = null;
param = null;
} else {
paramTypes = new Class[1];
paramTypes[0] = arguments.getClass();
param = new Object[1];
param[0] = arguments;
}
Method method =
catalinaDaemon.getClass().getMethod(methodName, paramTypes);
if (log.isDebugEnabled())
log.debug("Calling startup class " + method);
method.invoke(catalinaDaemon, param);
}Catalina的load方法实现如下:
/**
* Start a new server instance.
*/
public void load() {
long t1 = System.nanoTime();
initDirs();
// Before digester - it may be needed
initNaming();
// Create and execute our Digester
Digester digester = createStartDigester();
InputSource inputSource = null;
InputStream inputStream = null;
File file = null;
try {
file = configFile();
inputStream = new FileInputStream(file);
inputSource = new InputSource("file://" + file.getAbsolutePath());
} catch (Exception e) {
// Ignore
}
if (inputStream == null) {
try {
inputStream = getClass().getClassLoader()
.getResourceAsStream(getConfigFile());
inputSource = new InputSource
(getClass().getClassLoader()
.getResource(getConfigFile()).toString());
} catch (Exception e) {
// Ignore
}
}
// This should be included in catalina.jar
// Alternative: don't bother with xml, just create it manually.
if( inputStream==null ) {
try {
inputStream = getClass().getClassLoader()
.getResourceAsStream("server-embed.xml");
inputSource = new InputSource
(getClass().getClassLoader()
.getResource("server-embed.xml").toString());
} catch (Exception e) {
// Ignore
}
}
if ((inputStream == null) && (file != null)) {
log.warn("Can't load server.xml from " + file.getAbsolutePath());
if (file.exists() && !file.canRead()) {
log.warn("Permissions incorrect, read permission is not allowed on the file.");
}
return;
}
try {
inputSource.setByteStream(inputStream);
digester.push(this);
digester.parse(inputSource);
inputStream.close();
} catch (Exception e) {
log.warn("Catalina.start using "
+ getConfigFile() + ": " , e);
return;
}
// Stream redirection
initStreams();
// Start the new server
try {
getServer().init();
} catch (LifecycleException e) {
if (Boolean.getBoolean("org.apache.catalina.startup.EXIT_ON_INIT_FAILURE"))
throw new java.lang.Error(e);
else
log.error("Catalina.start", e);
}
long t2 = System.nanoTime();
if(log.isInfoEnabled())
log.info("Initialization processed in " + ((t2 - t1) / 1000000) + " ms");
}这里对上述代码进行分析:
1) initDirs方法用于对catalina.home和catalina.base的一些检查工作。
2) initNaming方法给系统设置java.naming.factory.url.pkgs和java.naming.factory.initial。在创建JNDI上下文时,使用Context.INITIAL_CONTEXT_FACTORY("java.naming.factory.initial")属性,来指定创建JNDI上下文的工厂类;Context.URL_PKG_PREFIXES("java.naming.factory.url.pkgs")用在查询url中包括scheme方法id时创建对应的JNDI上下文,例如查询"java:/jdbc/test1"等类似查询上,即以冒号":"标识的shceme。Context.URL_PKG_PREFIXES属性值有多个java 包(package)路径,其中以冒号":"分隔各个包路径,这些包路径中包括JNDI相关实现类。当在JNDI上下文中查找"java:"这类包括scheme方案ID的url时,InitialContext类将优先查找Context.URL_PKG_PREFIXES属性指定的包路径中是否存在 scheme+"."+scheme + "URLContextFactory"工厂类(需要实现ObjectFactory接口),如果存在此工厂类,则调用此工厂类的getObjectInstance方法获得此scheme方案ID对应的jndi上下文,再在此上下文中继续查找对应的url。
3) createStartDigester方法创建并配置将要用来启动的Digester实例,并且设置一些列Rule,具体映射到server.xml。
4) 使用FileInputStream获取conf/server.xml配置文件输入流。
5) 将FileInputStream封装为InputSource,并且调用Digester的parse方法进行解析。
6) initStreams对输出流、错误流重定向。
7) 初始化server,具体实现本文不做分析。
规则
在正式介绍Digester的parse方法的解析过程前,我们先来掌握一些规则相关的内容。Tomcat将server.xml文件中的所有元素上的属性都抽象为Rule,以Server元素为例,在内存中对应Server实例,Server实例的属性值就来自于Server元素的属性值。通过对规则(Rule)的应用,最终改变Server实例的属性值。Rule是一个抽象类,其中定义了以下方法:
- getDigester:获取Digester实例;
- setDigester:设置Digester实例;
- getNamespaceURI:获取Rule所在的相对命名空间URI;
- setNamespaceURI:设置Rule所在的相对命名空间URI;
- begin(String namespace, String name, Attributes attributes):此方法在遇到一个匹配的XML元素的开头时被调用,如:<Server>。
- body(String namespace, String name, String text):在遇到匹配XML元素的body时,此方法被调用,如进入<Server>标签内部时。
- end(String namespace, String name):此方法在遇到一个匹配的XML元素的末尾时被调用。如:</Server>。
这里以最常用的几个规则表示Rule的类继承体系,如下图:
SAX(Simple API for XML)
相比于 DOM 而言 SAX 是一种速度更快,更有效,占用内存更少的解析 XML 文件的方法。它是逐行扫描,可以做到边扫描边解析,因此 SAX 可以在解析文档的任意时刻停止解析。SAX 是基于事件驱动的。SAX 不用解析完整个文档,在按内容顺序解析文档过程中, SAX 会判断当前读到的字符是否符合 XML 文件语法中的某部分。如果符合某部分,则会触发事件。所谓触发事件,就是调用一些回调方法。在用 SAX 解析 xml 文档时候,在读取到文档开始和结束标签时候就会回调一个事件,在读取到其他节点与内容时候也会回调一个事件。在 SAX 接口中,事件源是 org.xml.sax 包中的 XMLReader ,它通过 parser() 方法来解析 XML 文档,并产生事件。事件处理器是 org.xml.sax 包中 ContentHander 、 DTDHander 、 ErrorHandler ,以及 EntityResolver 这 4 个接口。| 事件处理器 | 事件处理器处理的事件 | XMLReader 注册方法 |
| ContentHander | XML 文档的开始与结束 | setContentHandler(ContentHandler h) |
| DTDHander | 处理 DTD 解析 | setDTDHandler(DTDHandler h) |
| ErrorHandler | 处理 XML 时产生的错误 | setErrorHandler(ErrorHandler h) |
| EntityResolver | 处理外部实体 | setEntityResolver(EntityResolver e) |
我们用来做内容解析的回调方法一般都定义在 ContentHandler 接口中 。ContentHandler 接口常用的方法:
- startDocument() :当遇到文档的开头的时候,调用这个方法,可以在其中做一些预处理的工作。
- endDocument() :当文档结束的时候,调用这个方法,可以在其中做一些善后的工作。
- startElement(String namespaceURI, String localName,String qName, Attributes atts):当读到开始标签的时候,会调用这个方法。 namespaceURI 就是命名空间, localName 是不带命名空间前缀的标签名, qName 是带命名空间前缀的标签名。通过 atts 可以得到所有的属性名和相应的值。
- endElement(String uri, String localName, String name):在遇到结束标签的时候,调用这个方法。
- characters(char[] ch, int start, int length):这个方法用来处理在 XML 文件中读到的内容。例如: <high data="30"/> 主要目的是获取 high 标签中的值。
1 、创建一个 SAXParserFactory 对象;
2 、调用 SAXParserFactory 中的 newSAXParser 方法创建一个 SAXParser 对象;
3 、然后在调用 SAXParser 中的 getXMLReader 方法获取一个 XMLReader 对象;
4 、实例化一个 DefaultHandler 对象;
5 、连接事件源对象 XMLReader 到事件处理类 DefaultHandler 中;
6 、调用 XMLReader 的 parse 方法从输入源中获取到的 xml 数据;
7 、通过 DefaultHandler 返回我们需要的数据集合。
解析过程分析
在介绍Catalina的load方法时,遇见了createStartDigester方法,它的实现如代码清单1:
代码清单1
/**
* Create and configure the Digester we will be using for startup.
*/
protected Digester createStartDigester() {
long t1=System.currentTimeMillis();
// Initialize the digester
Digester digester = new Digester();
digester.setValidating(false);
digester.setRulesValidation(true);
HashMap<Class<?>, List<String>> fakeAttributes =
new HashMap<Class<?>, List<String>>();
ArrayList<String> attrs = new ArrayList<String>();
attrs.add("className");
fakeAttributes.put(Object.class, attrs);
digester.setFakeAttributes(fakeAttributes);
digester.setClassLoader(StandardServer.class.getClassLoader());
// Configure the actions we will be using
digester.addObjectCreate("Server",
"org.apache.catalina.core.StandardServer",
"className");
digester.addSetProperties("Server");
digester.addSetNext("Server",
"setServer",
"org.apache.catalina.Server");
digester.addObjectCreate("Server/GlobalNamingResources",
"org.apache.catalina.deploy.NamingResources");
digester.addSetProperties("Server/GlobalNamingResources");
digester.addSetNext("Server/GlobalNamingResources",
"setGlobalNamingResources",
"org.apache.catalina.deploy.NamingResources");
digester.addObjectCreate("Server/Listener",
null, // MUST be specified in the element
"className");
digester.addSetProperties("Server/Listener");
digester.addSetNext("Server/Listener",
"addLifecycleListener",
"org.apache.catalina.LifecycleListener");
digester.addObjectCreate("Server/Service",
"org.apache.catalina.core.StandardService",
"className");
digester.addSetProperties("Server/Service");
digester.addSetNext("Server/Service",
"addService",
"org.apache.catalina.Service");
digester.addObjectCreate("Server/Service/Listener",
null, // MUST be specified in the element
"className");
digester.addSetProperties("Server/Service/Listener");
digester.addSetNext("Server/Service/Listener",
"addLifecycleListener",
"org.apache.catalina.LifecycleListener");
//Executor
digester.addObjectCreate("Server/Service/Executor",
"org.apache.catalina.core.StandardThreadExecutor",
"className");
digester.addSetProperties("Server/Service/Executor");
digester.addSetNext("Server/Service/Executor",
"addExecutor",
"org.apache.catalina.Executor");
digester.addRule("Server/Service/Connector",
new ConnectorCreateRule());
digester.addRule("Server/Service/Connector",
new SetAllPropertiesRule(new String[]{"executor"}));
digester.addSetNext("Server/Service/Connector",
"addConnector",
"org.apache.catalina.connector.Connector");
digester.addObjectCreate("Server/Service/Connector/Listener",
null, // MUST be specified in the element
"className");
digester.addSetProperties("Server/Service/Connector/Listener");
digester.addSetNext("Server/Service/Connector/Listener",
"addLifecycleListener",
"org.apache.catalina.LifecycleListener");
// Add RuleSets for nested elements
digester.addRuleSet(new NamingRuleSet("Server/GlobalNamingResources/"));
digester.addRuleSet(new EngineRuleSet("Server/Service/"));
digester.addRuleSet(new HostRuleSet("Server/Service/Engine/"));
digester.addRuleSet(new ContextRuleSet("Server/Service/Engine/Host/"));
digester.addRuleSet(ClusterRuleSetFactory.getClusterRuleSet("Server/Service/Engine/Host/Cluster/"));
digester.addRuleSet(new NamingRuleSet("Server/Service/Engine/Host/Context/"));
// When the 'engine' is found, set the parentClassLoader.
digester.addRule("Server/Service/Engine",
new SetParentClassLoaderRule(parentClassLoader));
digester.addRuleSet(ClusterRuleSetFactory.getClusterRuleSet("Server/Service/Engine/Cluster/"));
long t2=System.currentTimeMillis();
if (log.isDebugEnabled())
log.debug("Digester for server.xml created " + ( t2-t1 ));
return (digester);
}代码清单1首先创建Digester,Digester继承了DefaultHandler,而DefaultHandler默认实现了ContentHander、DTDHander、ErrorHandler及EntityResolver 这4个接口,代码如下:
public class DefaultHandler
implements EntityResolver, DTDHandler, ContentHandler, ErrorHandler如果阅读DefaultHandler的源码,发现它的所有实现都是空实现,看来要发挥解析作用,只能依靠Digester自己了,见代码清单2。
代码清单2
@Override
public void startDocument() throws SAXException {
if (saxLog.isDebugEnabled()) {
saxLog.debug("startDocument()");
}
configure();
}
@Override
public void endDocument() throws SAXException {
if (saxLog.isDebugEnabled()) {
if (getCount() > 1) {
saxLog.debug("endDocument(): " + getCount() +
" elements left");
} else {
saxLog.debug("endDocument()");
}
}
while (getCount() > 1) {
pop();
}
// Fire "finish" events for all defined rules
Iterator<Rule> rules = getRules().rules().iterator();
while (rules.hasNext()) {
Rule rule = rules.next();
try {
rule.finish();
} catch (Exception e) {
log.error("Finish event threw exception", e);
throw createSAXException(e);
} catch (Error e) {
log.error("Finish event threw error", e);
throw e;
}
}
// Perform final cleanup
clear();
}
@Override
public void startElement(String namespaceURI, String localName,
String qName, Attributes list)
throws SAXException {
boolean debug = log.isDebugEnabled();
if (saxLog.isDebugEnabled()) {
saxLog.debug("startElement(" + namespaceURI + "," + localName + "," +
qName + ")");
}
// Parse system properties
list = updateAttributes(list);
// Save the body text accumulated for our surrounding element
bodyTexts.push(bodyText);
if (debug) {
log.debug(" Pushing body text '" + bodyText.toString() + "'");
}
bodyText = new StringBuilder();
// the actual element name is either in localName or qName, depending
// on whether the parser is namespace aware
String name = localName;
if ((name == null) || (name.length() < 1)) {
name = qName;
}
// Compute the current matching rule
StringBuilder sb = new StringBuilder(match);
if (match.length() > 0) {
sb.append('/');
}
sb.append(name);
match = sb.toString();
if (debug) {
log.debug(" New match='" + match + "'");
}
// Fire "begin" events for all relevant rules
List<Rule> rules = getRules().match(namespaceURI, match);
matches.push(rules);
if ((rules != null) && (rules.size() > 0)) {
for (int i = 0; i < rules.size(); i++) {
try {
Rule rule = rules.get(i);
if (debug) {
log.debug(" Fire begin() for " + rule);
}
rule.begin(namespaceURI, name, list);
} catch (Exception e) {
log.error("Begin event threw exception", e);
throw createSAXException(e);
} catch (Error e) {
log.error("Begin event threw error", e);
throw e;
}
}
} else {
if (debug) {
log.debug(" No rules found matching '" + match + "'.");
}
}
}
@Override
public void endElement(String namespaceURI, String localName,
String qName) throws SAXException {
boolean debug = log.isDebugEnabled();
if (debug) {
if (saxLog.isDebugEnabled()) {
saxLog.debug("endElement(" + namespaceURI + "," + localName +
"," + qName + ")");
}
log.debug(" match='" + match + "'");
log.debug(" bodyText='" + bodyText + "'");
}
// Parse system properties
bodyText = updateBodyText(bodyText);
// the actual element name is either in localName or qName, depending
// on whether the parser is namespace aware
String name = localName;
if ((name == null) || (name.length() < 1)) {
name = qName;
}
// Fire "body" events for all relevant rules
List<Rule> rules = matches.pop();
if ((rules != null) && (rules.size() > 0)) {
String bodyText = this.bodyText.toString();
for (int i = 0; i < rules.size(); i++) {
try {
Rule rule = rules.get(i);
if (debug) {
log.debug(" Fire body() for " + rule);
}
rule.body(namespaceURI, name, bodyText);
} catch (Exception e) {
log.error("Body event threw exception", e);
throw createSAXException(e);
} catch (Error e) {
log.error("Body event threw error", e);
throw e;
}
}
} else {
if (debug) {
log.debug(" No rules found matching '" + match + "'.");
}
if (rulesValidation) {
log.warn(" No rules found matching '" + match + "'.");
}
}
// Recover the body text from the surrounding element
bodyText = bodyTexts.pop();
if (debug) {
log.debug(" Popping body text '" + bodyText.toString() + "'");
}
// Fire "end" events for all relevant rules in reverse order
if (rules != null) {
for (int i = 0; i < rules.size(); i++) {
int j = (rules.size() - i) - 1;
try {
Rule rule = rules.get(j);
if (debug) {
log.debug(" Fire end() for " + rule);
}
rule.end(namespaceURI, name);
} catch (Exception e) {
log.error("End event threw exception", e);
throw createSAXException(e);
} catch (Error e) {
log.error("End event threw error", e);
throw e;
}
}
}
// Recover the previous match expression
int slash = match.lastIndexOf('/');
if (slash >= 0) {
match = match.substring(0, slash);
} else {
match = "";
}
}代码清单1中创建完Digester后,会调用addObjectCreate、addSetProperties、addSetNext方法陆续添加很多Rule,这些方法的实现如代码清单3:
public void addObjectCreate(String pattern, String className,
String attributeName) {
addRule(pattern,
new ObjectCreateRule(className, attributeName));
}
public void addSetProperties(String pattern) {
addRule(pattern,
new SetPropertiesRule());
}
public void addSetNext(String pattern, String methodName,
String paramType) {
addRule(pattern,
new SetNextRule(methodName, paramType));
}从上述代码我们看到这三个方法分别创建ObjectCreateRule、SetPropertiesRule及SetNextRule。为了简化理解我们以Server相关的Rule为例,如代码清单4:
代码清单4
digester.addObjectCreate("Server",
"org.apache.catalina.core.StandardServer",
"className");
digester.addSetProperties("Server");
digester.addSetNext("Server",
"setServer",
"org.apache.catalina.Server");根据代码清单3的实现,我们知道最终会创建ObjectCreateRule、SetPropertiesRule及SetNextRule,并且调用addRule方法。addRule方法首先调用getRules方法获取RulesBase,然后调用RulesBase的add方法。addRule方法的实现如下:
public void addRule(String pattern, Rule rule) {
rule.setDigester(this);
getRules().add(pattern, rule);
}
public Rules getRules() {
if (this.rules == null) {
this.rules = new RulesBase();
this.rules.setDigester(this);
}
return (this.rules);
}RulesBase的add方法的实现如下:
public void add(String pattern, Rule rule) {
// to help users who accidently add '/' to the end of their patterns
int patternLength = pattern.length();
if (patternLength>1 && pattern.endsWith("/")) {
pattern = pattern.substring(0, patternLength-1);
}
List<Rule> list = cache.get(pattern);
if (list == null) {
list = new ArrayList<Rule>();
cache.put(pattern, list);
}
list.add(rule);
rules.add(rule);
if (this.digester != null) {
rule.setDigester(this.digester);
}
if (this.namespaceURI != null) {
rule.setNamespaceURI(this.namespaceURI);
}
}其中,cache的数据结构为HashMap<String,List<Rule>>,每个键值维护一个List<Rule>,由此可知,对Server标签来说,对应的Rule列表为ObjectCreateRule、SetPropertiesRule及SetNextRule。
Digester解析XML的入口是其parse方法,其处理步骤如下:
1.创建XMLReader ;
2.使用XMLReader解析XML。
parse方法的代码如下:
public Object parse(InputSource input) throws IOException, SAXException {
configure();
getXMLReader().parse(input);
return (root);
}getXMLReader方法调用getParser创建SAXParser ,然后调用SAXParser 的getXMLReader方法创建XMLReader ,代码如下:
public XMLReader getXMLReader() throws SAXException {
if (reader == null){
reader = getParser().getXMLReader();
}
reader.setDTDHandler(this);
reader.setContentHandler(this);
if (entityResolver == null){
reader.setEntityResolver(this);
} else {
reader.setEntityResolver(entityResolver);
}
reader.setErrorHandler(this);
return reader;
}getParser方法调用getFactory方法创建SAXParserFactory,然后调用SAXParserFactory的newSAXParser方法创建SAXParser ,代码如下:
public SAXParser getParser() {
// Return the parser we already created (if any)
if (parser != null) {
return (parser);
}
// Create a new parser
try {
parser = getFactory().newSAXParser();
} catch (Exception e) {
log.error("Digester.getParser: ", e);
return (null);
}
return (parser);
}getFactory方法使用SAX的API生成SAXParserFactory实例,代码如下:
public SAXParserFactory getFactory()
throws SAXNotRecognizedException, SAXNotSupportedException,
ParserConfigurationException {
if (factory == null) {
factory = SAXParserFactory.newInstance();
factory.setNamespaceAware(namespaceAware);
factory.setValidating(validating);
if (validating) {
// Enable DTD validation
factory.setFeature(
"http://xml.org/sax/features/validation",
true);
// Enable schema validation
factory.setFeature(
"http://apache.org/xml/features/validation/schema",
true);
}
}
return (factory);
}XMLReader解析XML时,会生成事件,回调Digester的startDocument方法,解析的第一个元素是Server,此时回调Digester的startElement方法,入参Attributes list即Server上的属性,如port、shutdown等,入参qName即为Server。startElement方法的代码如下:
@Override
public void startElement(String namespaceURI, String localName,
String qName, Attributes list)
throws SAXException {
boolean debug = log.isDebugEnabled();
if (saxLog.isDebugEnabled()) {
saxLog.debug("startElement(" + namespaceURI + "," + localName + "," +
qName + ")");
}
// Parse system properties
list = updateAttributes(list);
// Save the body text accumulated for our surrounding element
bodyTexts.push(bodyText);
if (debug) {
log.debug(" Pushing body text '" + bodyText.toString() + "'");
}
bodyText = new StringBuilder();
// the actual element name is either in localName or qName, depending
// on whether the parser is namespace aware
String name = localName;
if ((name == null) || (name.length() < 1)) {
name = qName;
}
// Compute the current matching rule
StringBuilder sb = new StringBuilder(match);
if (match.length() > 0) {
sb.append('/');
}
sb.append(name);
match = sb.toString();
if (debug) {
log.debug(" New match='" + match + "'");
}
// Fire "begin" events for all relevant rules
List<Rule> rules = getRules().match(namespaceURI, match);
matches.push(rules);
if ((rules != null) && (rules.size() > 0)) {
for (int i = 0; i < rules.size(); i++) {
try {
Rule rule = rules.get(i);
if (debug) {
log.debug(" Fire begin() for " + rule);
}
rule.begin(namespaceURI, name, list);
} catch (Exception e) {
log.error("Begin event threw exception", e);
throw createSAXException(e);
} catch (Error e) {
log.error("Begin event threw error", e);
throw e;
}
}
} else {
if (debug) {
log.debug(" No rules found matching '" + match + "'.");
}
}
}startElement方法的处理步骤如下:
1.match刚开始为空字符串,拼接Server后变为Server。
2.调用RulesBase的match方法,返回cache中按照键值Server匹配的ObjectCreateRule、SetPropertiesRule及SetNextRule。
3.循环列表依次遍历ObjectCreateRule、SetPropertiesRule及SetNextRule,并调用它们的begin方法。
ObjectCreateRule的begin方法将生成Server的实例(默认为"org.apache.catalina.core.StandardServer",用户可以通过给Server标签指定className使用其它Server实现),最后将Server的实例压入Digester的栈中,代码如下:
@Override
public void begin(String namespace, String name, Attributes attributes)
throws Exception {
// Identify the name of the class to instantiate
String realClassName = className;
if (attributeName != null) {
String value = attributes.getValue(attributeName);
if (value != null) {
realClassName = value;
}
}
if (digester.log.isDebugEnabled()) {
digester.log.debug("[ObjectCreateRule]{" + digester.match +
"}New " + realClassName);
}
// Instantiate the new object and push it on the context stack
Class<?> clazz = digester.getClassLoader().loadClass(realClassName);
Object instance = clazz.newInstance();
digester.push(instance);
}SetPropertiesRule的begin方法首先将刚才压入栈中的Server实例出栈,然后给Server实例设置各个属性值,如port、shutdown等,代码如下:
@Override
public void begin(String namespace, String theName, Attributes attributes)
throws Exception {
// Populate the corresponding properties of the top object
Object top = digester.peek();
if (digester.log.isDebugEnabled()) {
if (top != null) {
digester.log.debug("[SetPropertiesRule]{" + digester.match +
"} Set " + top.getClass().getName() +
" properties");
} else {
digester.log.debug("[SetPropertiesRule]{" + digester.match +
"} Set NULL properties");
}
}
// set up variables for custom names mappings
int attNamesLength = 0;
if (attributeNames != null) {
attNamesLength = attributeNames.length;
}
int propNamesLength = 0;
if (propertyNames != null) {
propNamesLength = propertyNames.length;
}
for (int i = 0; i < attributes.getLength(); i++) {
String name = attributes.getLocalName(i);
if ("".equals(name)) {
name = attributes.getQName(i);
}
String value = attributes.getValue(i);
// we'll now check for custom mappings
for (int n = 0; n<attNamesLength; n++) {
if (name.equals(attributeNames[n])) {
if (n < propNamesLength) {
// set this to value from list
name = propertyNames[n];
} else {
// set name to null
// we'll check for this later
name = null;
}
break;
}
}
if (digester.log.isDebugEnabled()) {
digester.log.debug("[SetPropertiesRule]{" + digester.match +
"} Setting property '" + name + "' to '" +
value + "'");
}
if (!digester.isFakeAttribute(top, name)
&& !IntrospectionUtils.setProperty(top, name, value)
&& digester.getRulesValidation()) {
digester.log.warn("[SetPropertiesRule]{" + digester.match +
"} Setting property '" + name + "' to '" +
value + "' did not find a matching property.");
}
}
}SetNextRule的begin不做什么动作。当遇到Server的结束标签时,还会依次调用ObjectCreateRule、SetPropertiesRule及SetNextRule的end方法,不再赘述。所有元素的解析都与Server标签同理,最终将server.xml文件中设置的元素及其属性值,构造出Tomcat中的容器,如:Server、Service、Connector等。
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