前言
谈起Tomcat的诞生,最早可以追溯到1995年。近20年来,Tomcat始终是使用最广泛的Web服务器,由于其使用Java语言开发,所以广为Java程序员所熟悉。很多早期的J2EE项目,由程序员自己实现Jsp页面或者Servlet接受请求,后来借助Struts1、Struts2、Spring等中间件后,实际也是利用Filter或者Servlet处理请求,大家肯定要问了,这些Servlet处理的请求来自哪里?Tomcat作为Web服务器是怎样将HTTP请求交给Servlet的呢?
本文就Tomcat对HTTP的请求处理细节进行分析。
提示:阅读本文前,请确保首先理解了《Tomcat7.0源码分析——生命周期管理》中的内容。
Connector的初始化
根据《Tomcat7.0源码分析——生命周期管理》一文的内容,我们知道Tomcat中有很多容器,包括Server、Service、Connector等。其中Connector正是与HTTP请求处理相关的容器。Service是Server的子容器,而Connector又是Service的子容器。那么这三个容器的初始化顺序为:Server->Service->Connector。Connector的实现分为以下几种:
- Http Connector:基于HTTP协议,负责建立HTTP连接。它又分为BIO Http Connector(是Tomcat的默认Connector)与NIO Http Connector两种,后者提供对非阻塞IO与长连接Comet的支持。
- AJP Connector:基于AJP协议,AJP是专门设计用于Tomcat与HTTP服务器通信定制的协议,能提供较高的通信速度和效率。如与Apache服务器集成时,采用这个协议。
- APR HTTP Connector:用C实现,通过JNI调用的。主要提升对静态资源(如HTML、图片、CSS、JS等)的访问性能。现在这个库已独立出来可用在任何项目中。APR性能较前两类有很大提升。
@Override
protected void initInternal() throws LifecycleException {
super.initInternal();
// Initialize adapter
adapter = new CoyoteAdapter(this);
protocolHandler.setAdapter(adapter);
IntrospectionUtils.setProperty(protocolHandler, "jkHome",
System.getProperty("catalina.base"));
onameProtocolHandler = register(protocolHandler,
createObjectNameKeyProperties("ProtocolHandler"));
mapperListener.setDomain(getDomain());
onameMapper = register(mapperListener,
createObjectNameKeyProperties("Mapper"));
}
代码清单1说明了Connector的初始化步骤如下:
步骤一 构造网络协议处理的CoyoteAdapter
代码清单1构造了CoyoteAdapter对象,并且将其设置为ProtocolHandler的Adapter。ProtocolHandler是做什么的呢?Tomcat处理HTTP请求,需要有一个ServerSocket监听网络端口来完成任务。接口ProtocolHandler被设计成控制网络端口监听组件运行,负责组件的生命周期控制,这个接口实际并没有定义网络端口监听功能的规范,而是用于负责维护组件的生命周期。从ProtocolHandler的名字来看,它应该是网络协议的处理者,但它实际不负责这个功能,而是将其交给org.apache.coyote.Adapter来完成,这么设计估计是为了方便维护和拓展新功能。Http11Protocol是ProtocolHandler接口的一个实现(是Connector的默认处理协议),被设计用来处理HTTP1.1网络协议的请求,通过该类可以完成在某个网络端口上面的监听,同时以HTTP1.1的协议来解析请求内容,然后将请求传递到Connector所寄居的Container容器pipeline流水工作线上处理。此处的ProtocolHandler是何时生成的呢?还记得《Tomcat7.0源码分析——SERVER.XML文件的加载与解析》一文中的Digester和Rule吗?Digester在解析到标签的时候,会执行startElement方法,startElement中会调用Rule的begin(String namespace, String name, Attributes attributes)方法,Connector对应的Rule就包括了ConnectorCreateRule。ConnectorCreateRule的begin方法的实现见代码清单2。
代码清单2
@Override
public void begin(String namespace, String name, Attributes attributes)
throws Exception {
Service svc = (Service)digester.peek();
Executor ex = null;
if ( attributes.getValue("executor")!=null ) {
ex = svc.getExecutor(attributes.getValue("executor"));
}
Connector con = new Connector(attributes.getValue("protocol"));
if ( ex != null ) _setExecutor(con,ex);
digester.push(con);
}
代码清单2中调用了Connector的构造器,传递的参数为属性protocol。我们知道server.xml中默认的Connector有两个: <Connector port="8080" protocol="HTTP/1.1"
connectionTimeout="20000"
redirectPort="8443" />
<!-- Define an AJP 1.3 Connector on port 8009 -->
<Connector port="8009" protocol="AJP/1.3" redirectPort="8443" />
从server.xml可以看到两个Connector都有属性protocol。
Connector的构造器实现,见代码清单3。
代码清单3
public Connector(String protocol) {
setProtocol(protocol);
// Instantiate protocol handler
try {
Class<?> clazz = Class.forName(protocolHandlerClassName);
this.protocolHandler = (ProtocolHandler) clazz.newInstance();
} catch (Exception e) {
log.error
(sm.getString
("coyoteConnector.protocolHandlerInstantiationFailed", e));
}
}
setProtocol方法(见代码清单4)根据protocol参数的不同,调用setProtocolHandlerClassName方法(见代码清单5)设置protocolHandlerClassName属性。以HTTP/1.1为例,由于默认情况下Apr不可用,所以protocolHandlerClassName会被设置为org.apache.coyote.http11.Http11Protocol,那么反射生成的protocolHandler就是Http11Protocol实例。Tomcat默认还会配置协议是AJP/1.3的Connector,那么此Connector的protocolHandler就是org.apache.coyote.ajp.AjpProtocol。
代码清单4
/**
* Set the Coyote protocol which will be used by the connector.
*
* @param protocol The Coyote protocol name
*/
public void setProtocol(String protocol) {
if (AprLifecycleListener.isAprAvailable()) {
if ("HTTP/1.1".equals(protocol)) {
setProtocolHandlerClassName
("org.apache.coyote.http11.Http11AprProtocol");
} else if ("AJP/1.3".equals(protocol)) {
setProtocolHandlerClassName
("org.apache.coyote.ajp.AjpAprProtocol");
} else if (protocol != null) {
setProtocolHandlerClassName(protocol);
} else {
setProtocolHandlerClassName
("org.apache.coyote.http11.Http11AprProtocol");
}
} else {
if ("HTTP/1.1".equals(protocol)) {
setProtocolHandlerClassName
("org.apache.coyote.http11.Http11Protocol");
} else if ("AJP/1.3".equals(protocol)) {
setProtocolHandlerClassName
("org.apache.coyote.ajp.AjpProtocol");
} else if (protocol != null) {
setProtocolHandlerClassName(protocol);
}
}
}
代码清单5
public void setProtocolHandlerClassName(String protocolHandlerClassName) {
this.protocolHandlerClassName = protocolHandlerClassName;
}
除此之外,ProtocolHandler还有其它实现,如图1所示。
图1 ProtocolHandler类继承体系
图1中有关ProtocolHandler的实现类都在org.apache.coyote包中 。前面所说的BIO Http Connector实际就是Http11Protocol,NIO Http Connector实际就是Http11NioProtocol,AJP Connector包括AjpProtocol和AjpAprProtocol,APR HTTP Connector包括AjpAprProtocol、Http11AprProtocol,此外还有一个MemoryProtocolHandler(这个是做什么的,目前没搞清楚,有知道的同学告诉我下啊!)。
步骤二 将ProtocolHandler、MapperListener注册到JMX
BIO Http Connector的ProtocolHandler(即Http11Protocol)的JMX注册名为Catalina:type=ProtocolHandler,port=8080。BIO Http Connector的MapperListener的注册名为Catalina:type=Mapper,port=8080。AJP Connector的ProtocolHandler(即AjpProtocol)的JMX注册名为Catalina:type=ProtocolHandler,port=8009。AJP Connector的MapperListener的注册名为Catalina:type=Mapper,port=8009。有关Tomcat中JMX注册的内容,请阅读《Tomcat7.0源码分析——生命周期管理》一文。
Connector的启动
根据《Tomcat7.0源码分析——生命周期管理》一文的内容,我们知道Tomcat中有很多容器。ProtocolHandler的初始化稍微有些特殊,Server、Service、Connector这三个容器的初始化顺序为:Server->Service->Connector。值得注意的是,ProtocolHandler作为Connector的子容器,其初始化过程并不是由Connector的initInternal方法调用的,而是与启动过程一道被Connector的startInternal方法所调用。由于本文的目的是分析请求,所以直接从Connector的startInternal方法(见代码清单6)开始。
代码清单6
/**
* Begin processing requests via this Connector.
*
* @exception LifecycleException if a fatal startup error occurs
*/
@Override
protected void startInternal() throws LifecycleException {
setState(LifecycleState.STARTING);
// Protocol handlers do not follow Lifecycle conventions.
// protocolHandler.init() needs to wait until the connector.start()
try {
protocolHandler.init();
} catch (Exception e) {
throw new LifecycleException
(sm.getString
("coyoteConnector.protocolHandlerInitializationFailed", e));
}
try {
protocolHandler.start();
} catch (Exception e) {
String errPrefix = "";
if(this.service != null) {
errPrefix += "service.getName(): \"" + this.service.getName() + "\"; ";
}
throw new LifecycleException
(errPrefix + " " + sm.getString
("coyoteConnector.protocolHandlerStartFailed", e));
}
// MapperListener doesn't follow Lifecycle conventions either gja
mapperListener.init();
}
代码清单6说明了Connector的startInternal方法的执行顺序如下:
- 将Connector容器的状态更改为启动中(LifecycleState.STARTING);
- 初始化ProtocolHandler;
- 启动ProtocolHandler;
- 初始化MapperListener。
初始化ProtocolHandler
简单起见,我们以Http11Protocol为例剖析ProtocolHandler的init方法,其实现见代码清单7。
代码清单7
@Override
public void init() throws Exception {
((JIoEndpoint)endpoint).setName(getName());
((JIoEndpoint)endpoint).setHandler(cHandler);
// Verify the validity of the configured socket factory
try {
if (isSSLEnabled()) {
sslImplementation =
SSLImplementation.getInstance(sslImplementationName);
socketFactory = sslImplementation.getServerSocketFactory();
((JIoEndpoint)endpoint).setServerSocketFactory(socketFactory);
} else if (socketFactoryName != null) {
socketFactory = (ServerSocketFactory) Class.forName(socketFactoryName).newInstance();
((JIoEndpoint)endpoint).setServerSocketFactory(socketFactory);
}
} catch (Exception ex) {
log.error(sm.getString("http11protocol.socketfactory.initerror"),
ex);
throw ex;
}
if (socketFactory!=null) {
Iterator<String> attE = attributes.keySet().iterator();
while( attE.hasNext() ) {
String key = attE.next();
Object v=attributes.get(key);
socketFactory.setAttribute(key, v);
}
}
try {
endpoint.init();
} catch (Exception ex) {
log.error(sm.getString("http11protocol.endpoint.initerror"), ex);
throw ex;
}
if (log.isInfoEnabled())
log.info(sm.getString("http11protocol.init", getName()));
}
从代码清单7看到,Http11Protocol的初始化步骤如下:
步骤一 设置JIoEndpoint的名称
JIoEndpoint的名称默认为http-8080,这里的JIoEndpoint是在调用Http11Protocol的构造器时创建的,Http11Protocol的构造器中还设置了socket的延迟关闭选项soLingerOn、socket的延时关闭秒数soLingerTime、socket连接超时时间soTimeout、提高socket性能的tcpNoDelay等选项,见代码清单8。
代码清单8
public Http11Protocol() {
endpoint = new JIoEndpoint();
setSoLinger(Constants.DEFAULT_CONNECTION_LINGER);
setSoTimeout(Constants.DEFAULT_CONNECTION_TIMEOUT);
//setServerSoTimeout(Constants.DEFAULT_SERVER_SOCKET_TIMEOUT);
setTcpNoDelay(Constants.DEFAULT_TCP_NO_DELAY);
}
步骤二 设置JIoEndpoint的Handler
JIoEndpoint的handler被设置为cHandler,此cHandler的定义如下:
protected Http11ConnectionHandler cHandler = new Http11ConnectionHandler(this);
步骤三 配置ServerSocketFactory
从代码清单7看到,生成ServerSocketFactory有三种方式:
- 如果在server.xml中配置Connector时指定了SSLEnabled="true"的属性,那么创建带有SSL(Secure Sockets Layer 安全套接层)的ServerSocketFactory;
- 如果Http11Protocol指定了socketFactoryName,则使用socketFactoryName反射生成ServerSocketFactory实例;
- 如果不满足以上2个条件,那么JIoEndpoint的init方法(见代码清单9)将创建ServerSocketFactory。当SSLEnabled="true"时,JIoEndpoint的init方法还会给ServerSocketFactory设置一些SSL相关的属性。最后使用此ServerSocketFactory创建serverSocket。此外,acceptorThreadCount属性用于指定接受连接的线程数,可以通过给Connector设置acceptorThreadCount属性进行调整,默认值为1。
@Override
public void init()
throws Exception {
if (initialized)
return;
// Initialize thread count defaults for acceptor
if (acceptorThreadCount == 0) {
acceptorThreadCount = 1;
}
if (serverSocketFactory == null) {
serverSocketFactory = ServerSocketFactory.getDefault();
}
if (isSSLEnabled()) {
serverSocketFactory.setAttribute(SSL_ATTR_ALGORITHM,
getAlgorithm());
serverSocketFactory.setAttribute(SSL_ATTR_CLIENT_AUTH,
getClientAuth());
serverSocketFactory.setAttribute(SSL_ATTR_KEYSTORE_FILE,
getKeystoreFile());
serverSocketFactory.setAttribute(SSL_ATTR_KEYSTORE_PASS,
getKeystorePass());
serverSocketFactory.setAttribute(SSL_ATTR_KEYSTORE_TYPE,
getKeystoreType());
serverSocketFactory.setAttribute(SSL_ATTR_KEYSTORE_PROVIDER,
getKeystoreProvider());
serverSocketFactory.setAttribute(SSL_ATTR_SSL_PROTOCOL,
getSslProtocol());
serverSocketFactory.setAttribute(SSL_ATTR_CIPHERS,
getCiphers());
serverSocketFactory.setAttribute(SSL_ATTR_KEY_ALIAS,
getKeyAlias());
serverSocketFactory.setAttribute(SSL_ATTR_KEY_PASS,
getKeyPass());
serverSocketFactory.setAttribute(SSL_ATTR_TRUSTSTORE_FILE,
getTruststoreFile());
serverSocketFactory.setAttribute(SSL_ATTR_TRUSTSTORE_PASS,
getTruststorePass());
serverSocketFactory.setAttribute(SSL_ATTR_TRUSTSTORE_TYPE,
getTruststoreType());
serverSocketFactory.setAttribute(SSL_ATTR_TRUSTSTORE_PROVIDER,
getTruststoreProvider());
serverSocketFactory.setAttribute(SSL_ATTR_TRUSTSTORE_ALGORITHM,
getTruststoreAlgorithm());
serverSocketFactory.setAttribute(SSL_ATTR_CRL_FILE,
getCrlFile());
serverSocketFactory.setAttribute(SSL_ATTR_TRUST_MAX_CERT_LENGTH,
getTrustMaxCertLength());
serverSocketFactory.setAttribute(SSL_ATTR_SESSION_CACHE_SIZE,
getSessionCacheSize());
serverSocketFactory.setAttribute(SSL_ATTR_SESSION_TIMEOUT,
getSessionTimeout());
serverSocketFactory.setAttribute(SSL_ATTR_ALLOW_UNSAFE_RENEG,
getAllowUnsafeLegacyRenegotiation());
}
if (serverSocket == null) {
try {
if (getAddress() == null) {
serverSocket = serverSocketFactory.createSocket(getPort(), getBacklog());
} else {
serverSocket = serverSocketFactory.createSocket(getPort(), getBacklog(), getAddress());
}
} catch (BindException orig) {
String msg;
if (getAddress() == null)
msg = orig.getMessage() + " <null>:" + getPort();
else
msg = orig.getMessage() + " " +
getAddress().toString() + ":" + getPort();
BindException be = new BindException(msg);
be.initCause(orig);
throw be;
}
}
//if( serverTimeout >= 0 )
// serverSocket.setSoTimeout( serverTimeout );
initialized = true;
}
启动ProtocolHandler
我们继续以Http11Protocol为例,剖析ProtocolHandler的start方法,其实现见代码清单10。
代码清单10
@Override
public void start() throws Exception {
if (this.domain != null) {
try {
tpOname = new ObjectName
(domain + ":" + "type=ThreadPool,name=" + getName());
Registry.getRegistry(null, null)
.registerComponent(endpoint, tpOname, null );
} catch (Exception e) {
log.error("Can't register endpoint");
}
rgOname=new ObjectName
(domain + ":type=GlobalRequestProcessor,name=" + getName());
Registry.getRegistry(null, null).registerComponent
( cHandler.global, rgOname, null );
}
try {
endpoint.start();
} catch (Exception ex) {
log.error(sm.getString("http11protocol.endpoint.starterror"), ex);
throw ex;
}
if (log.isInfoEnabled())
log.info(sm.getString("http11protocol.start", getName()));
}
从代码清单10可以知道JIoEndpoint以Catalina:type=ThreadPool,name=http-8080注册到JMX,cHandler.global(Http11ConnectionHandler的对象属性,类型为RequestGroupInfo)以Catalina:type=GlobalRequestProcessor,name=http-8080注册到JMX。最后调用JIoEndpoint的start方法(见代码清单11)创建接受请求的线程池并创建一定数量的接收请求线程。
代码清单11
@Override
public void start() throws Exception {
// Initialize socket if not done before
if (!initialized) {
init();
}
if (!running) {
running = true;
paused = false;
// Create worker collection
if (getExecutor() == null) {
createExecutor();
}
// Start acceptor threads
for (int i = 0; i < acceptorThreadCount; i++) {
Thread acceptorThread = new Thread(new Acceptor(), getName() + "-Acceptor-" + i);
acceptorThread.setPriority(threadPriority);
acceptorThread.setDaemon(getDaemon());
acceptorThread.start();
}
}
}
从代码清单11看出JIoEndpoint的start方法的执行步骤如下:
步骤一 对JIoEndpoint做初始化检查
这一步实际就是判断是否已经初始化(即initialized是否为true),如果没有初始化则需要调用JIoEndpoint的init方法进行初始化。
步骤二 创建线程池与任务队列
如果JIoEndpoint尚未处于运行中(即running等于false),才会创建线程池和任务队列。如果尚未创建线程池(即调用getExecutor方法等于null),则需要调用createExecutor方法(见代码清单12)创建线程池和任务队列TaskQueue。
代码清单12
public void createExecutor() {
internalExecutor = true;
TaskQueue taskqueue = new TaskQueue();
TaskThreadFactory tf = new TaskThreadFactory(getName() + "-exec-", daemon, getThreadPriority());
executor = new ThreadPoolExecutor(getMinSpareThreads(), getMaxThreads(), 60, TimeUnit.SECONDS,taskqueue, tf);
taskqueue.setParent( (ThreadPoolExecutor) executor);
}
步骤三 创建接收请线程
如果JIoEndpoint尚未处于运行中(即running等于false),才会创建接收请求线程。从代码清单11可以看出接收请求线程的数量主要由acceptorThreadCount控制,代码清单9已经告诉我们acceptorThreadCount的默认值为1,但是我们可以通过给Connector增加acceptorThreadCount属性来修改接收请求线程的数量。这些接收请求线程的主要工作由Acceptor完成,Acceptor的实质是一个Runnable,见代码清单13。
代码清单13
/**
* Server socket acceptor thread.
*/
protected class Acceptor implements Runnable {
/**
* The background thread that listens for incoming TCP/IP connections and
* hands them off to an appropriate processor. gja
*/
public void run() {
// Loop until we receive a shutdown command
while (running) {
// Loop if endpoint is paused
while (paused) {
try {
Thread.sleep(1000);
} catch (InterruptedException e) {
// Ignore
}
}
// Accept the next incoming connection from the server socket
try {
Socket socket = serverSocketFactory.acceptSocket(serverSocket);
serverSocketFactory.initSocket(socket);
// Hand this socket off to an appropriate processor
if (!processSocket(socket)) {
// Close socket right away
try {
socket.close();
} catch (IOException e) {
// Ignore
}
}
}catch ( IOException x ) {
if ( running ) log.error(sm.getString("endpoint.accept.fail"), x);
} catch (Throwable t) {
log.error(sm.getString("endpoint.accept.fail"), t);
}
// The processor will recycle itself when it finishes
}
}
}
初始化MapperListener
MapperListener的init方法用于初始化,见代码清单14。
代码清单14
/**
* Initialize associated mapper.
*/
public void init() {
// Find any components that have already been initialized since the
// MBean listener won't be notified as those components will have
// already registered their MBeans jiaan
findDefaultHost();
Engine engine = (Engine) connector.getService().getContainer();
engine.addContainerListener(this);
Container[] conHosts = engine.findChildren();
for (Container conHost : conHosts) {
Host host = (Host) conHost;
if (!LifecycleState.NEW.equals(host.getState())) {
host.addLifecycleListener(this);
// Registering the host will register the context and wrappers
registerHost(host);
}
}
}
从代码清单14看到MapperListener的初始化步骤如下:
步骤一 查找默认Host
StandardService的子容器包括:StandardEngine、Connector和Executor。MapperListener本身会持有Connector,所以可以通过各个容器的父子关系,找到Connector的同级容器StandardEngine。StandardHost是StandardEngine的子容器,Engine和Host的默认配置如下:
<Engine name="Catalina" defaultHost="localhost">
<Realm className="org.apache.catalina.realm.UserDatabaseRealm"
resourceName="UserDatabase"/>
<Host name="localhost" appBase="webapps"
unpackWARs="true" autoDeploy="true">
<Valve className="org.apache.catalina.valves.AccessLogValve" directory="logs"
prefix="localhost_access_log." suffix=".txt"
pattern="%h %l %u %t "%r" %s %b" resolveHosts="false"/>
</Host>
</Engine>
findDefaultHost方法(见代码清单15)可以获取上面配置中的默认Host,Engine元素的defaultHost属性值必须要与配置的某个Host元素的name属性值相同。如果defaultHost的属性值配置无误,则会添加为MapperListener的Mapper对象属性的defaultHostName。
代码清单15
private void findDefaultHost() {
Engine engine = (Engine) connector.getService().getContainer();
String defaultHost = engine.getDefaultHost();
boolean found = false;
if (defaultHost != null && defaultHost.length() >0) {
Container[] containers = engine.findChildren();
for (Container container : containers) {
Host host = (Host) container;
if (defaultHost.equalsIgnoreCase(host.getName())) {
found = true;
break;
}
String[] aliases = host.findAliases();
for (String alias : aliases) {
if (defaultHost.equalsIgnoreCase(alias)) {
found = true;
break;
}
}
}
}
if(found) {
mapper.setDefaultHostName(defaultHost);
} else {
log.warn(sm.getString("mapperListener.unknownDefaultHost",
defaultHost));
}
}
步骤二 将Host及其子容器Context,Context的子容器Wrapper注册到MapperListener的Mapper对象
Mapper的数据结构,见代码清单16。
代码清单16
/**
* Array containing the virtual hosts definitions.
*/
protected Host[] hosts = new Host[0];
/**
* Default host name.
*/
protected String defaultHostName = null;
/**
* Context associated with this wrapper, used for wrapper mapping.
*/
protected Context context = new Context();
protected static abstract class MapElement {
public String name = null;
public Object object = null;
}
protected static final class Host
extends MapElement {
public ContextList contextList = null;
}
protected static final class ContextList {
public Context[] contexts = new Context[0];
public int nesting = 0;
}
protected static final class Context
extends MapElement {
public String path = null;
public String[] welcomeResources = new String[0];
public javax.naming.Context resources = null;
public Wrapper defaultWrapper = null;
public Wrapper[] exactWrappers = new Wrapper[0];
public Wrapper[] wildcardWrappers = new Wrapper[0];
public Wrapper[] extensionWrappers = new Wrapper[0];
public int nesting = 0;
}
protected static class Wrapper
extends MapElement {
public String path = null;
public boolean jspWildCard = false;
}
根据代码清单16,我们知道Mapper中维护着一个Host数组,每个Host中有一个ContextList,这个ContextList中维护着一个Context数组。每个Context维护着一个defaultWrapper,三个Wrapper数组(exactWrappers、wildcardWrappers、extensionWrappers)。下面对Host、Context及Wrapper进行功能上的介绍:
- Host:代表一个虚拟主机,各Host的name不能相同,appBase代表各虚拟主机的应用发布位置;
- Context:代表一个应用,Context可以根据应用的/WEB-INF/web.xml文件中定义的servlet来处理请求。一个Host下可以有多个Context;
- Wrapper: 代表一个Servlet或者jsp,它负责管理一个 Servlet,包括的 Servlet 的装载、初始化、执行以及资源回收。
图2 注册到Mapper中的Host及其Context子容器
图2说明Host内一共5个Context,由于我的Tomcat是从svn拉下来的,所以webapps目录下的.svn文件夹也是一个Context,除了这个天外来客,我将其它与请求有关的容器整理后用图3来展示。
图3 我本地的Host、Context及Wrapper
至此,Tomcat中为请求处理的准备工作已经完成。有关请求的处理过程请继续阅读《Tomcat7.0源码分析——请求原理分析(中)》一文。
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