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开发一个简单的Servlet容器
1. Servlet编程是通过javax.servlet和javax.servlet.http这两个包的类和接口来实现的。其中一个至关重要的就是javax.servlet.Servlet接口了。所有的servlet必须实现实现或者继承实现该接口的类。
Servlet接口有五个方法:
//在servlet类已经初始化之后,init方法将会被servlet容器所调用 public void init(ServletConfig config) throws ServletException //servlet容器为servlet请求调用它的service方法 public void service(ServletRequest request, ServletResponse response) throws ServletException, java.io.IOException //当从服务中移除一个servlet实例的时候,servlet容器调用destroy方法 public void destroy() public ServletConfig getServletConfig() public java.lang.String getServletInfo()
当第一次调用servlet的时候,加载该servlet类并调用servlet的init方法(仅仅一次)。
对每次请求,构造一个javax.servlet.ServletRequest实例和一个javax.servlet.ServletResponse实例。
调用servlet的service方法,同时传递ServletRequest和ServletResponse对象。
当servlet类被关闭的时候,调用servlet的destroy方法并卸载servlet类。
2. Simple Servlet由6个类组成
HttpServer1:处理静态资源和动态Servlet请求
import java.net.*; import java.io.*; public class HttpServer1 { /** WEB_ROOT is the directory where our HTML and other files reside. * For this package, WEB_ROOT is the "webroot" directory under the * working directory. * The working directory is the location in the file system * from where the java command was invoked. */ // shutdown command private static final String SHUTDOWN_COMMAND = "/SHUTDOWN"; // the shutdown command received private boolean shutdown = false; public static void main(String[] args) { HttpServer1 server = new HttpServer1(); server.await(); } public void await() { ServerSocket serverSocket = null; int port = 8080; try { serverSocket = new ServerSocket(port, 1, InetAddress.getByName("127.0.0.1")); } catch (IOException e) { e.printStackTrace(); System.exit(1); } // Loop waiting for a request while (!shutdown) { Socket socket = null; InputStream input = null; OutputStream output = null; try { socket = serverSocket.accept(); input = socket.getInputstream(); output = socket.getOutputStream(); // create Request object and parse Request request = new Request(input); request.parse(); // create Response object Response response = new Response(output); response.setRequest(request); // check if this is a request for a servlet or // a static resource // a request for a servlet begins with "/servlet/" if (request.getUri().startsWith("/servlet/")) { ServletProcessor1 processor = new ServletProcessor1(); processor.process(request, response); } else { StaticResoureProcessor processor = new StaticResourceProcessor(); processor.process(request, response); } // Close the socket socket.close(); //check if the previous URI is a shutdown command shutdown = request.getUri().equals(SHUTDOWN_COMMAND); } catch (Exception e) { e.printStackTrace(); System.exit(1); } } } }
Request:实现javax.servlet.ServletRequest接口
import java.io.*; import java.util.*; import javax.servlet.*; public class Request implements ServletRequest { private InputStream input; private String uri; public Request(InputStream input){ this.input = input; } public String getUri() { return uri; } private String parseUri(String requestString) { int index1, index2; index1 = requestString.indexOf(' '); if (index1 != -1) { index2 = requestString.indexOf(' ', index1 + 1); if (index2 > index1) return requestString.substring(index1 + 1, index2); } return null; } public void parse() { // Read a set of characters from the socket StringBuffer request = new StringBuffer(2048); int i; byte[] buffer = new byte[2048]; try { i = input.read(buffer); } catch (IOException e) { e.printStackTrace(); i = -1; } for (int j=0; j<i; j++) { request.append((char) buffer(j)); } System.out.print(request.toString()); uri = parseUri(request.toString()); } /* implementation of ServletRequest */ public Object getAttribute(String attribute) { return null; } public Enumeration getAttributeNames() { return null; } public String getRealPath(String path) { return null; } public RequestDispatcher getRequestDispatcher(String path) { return null; } public boolean isSecure() { return false; } public String getCharacterEncoding() { return null; } public int getContentLength() { return 0; } public String getContentType() { return null; } public ServletInputStream getInputStream() throws IOException { return null; } public Locale getLocale() { return null; } public Enumeration getLocales() { return null; } public String getParameter(String name) { return null; } public Map getParameterMap() { return null; } public Enumeration getParameterNames() { return null; } public String[] getParameterValues(String parameter) { return null; } public String getProtocol() { return null; } public BufferedReader getReader() throws IOException { return null; } public String getRemoteAddr() { return null; } public String getRemoteHost() { return null; } public String getScheme() { return null; } public String getServerName() { return null; } public int getServerPort() { return 0; } public void removeAttribute(String attribute) { } public void setAttribute(String key, Object value) { } public void setCharacterEncoding(String encoding) throws UnsupportedEncodingException { } }
Response:实现javax.servlet.ServletResponse
import java.io.*; import java.util.*; import javax.servlet.*; public class Response implements ServletResponse { private static final int BUFFER_SIZE = 1024; Request request; OutputStream output; PrintWriter writer; public Response(OutputStream output) { this.output = output; } public void setRequest(Request request) { this.request = request; } /* This method is used to serve static pages */ public void sendStaticResource() throws IOException { byte[] bytes = new byte[BUFFER_SIZE]; FileInputstream fis = null; try { /* request.getUri has been replaced by request.getRequestURI */ File file = new File(Constants.WEB_ROOT, request.getUri()); fis = new FileInputstream(file); int ch = fis.read(bytes, 0, BUFFER_SIZE); while (ch!=-1) { output.write(bytes, 0, ch); ch = fis.read(bytes, 0, BUFFER_SIZE); } } catch (FileNotFoundException e) { String errorMessage = "HTTP/1.1 404 File Not Found\r\n" + "Content-Type: text/html\r\n" + "Content-Length: 23\r\n" + "\r\n" + "<h1>File Not Found</h1>"; output.write(errorMessage.getBytes()); } finally { if (fis!=null) fis.close(); } } /** implementation of ServletResponse */ public void flushBuffer() throws IOException ( } public int getBufferSize() { return 0; } public String getCharacterEncoding() { return null; } public Locale getLocale() { return null; } public ServletOutputStream getOutputStream() throws IOException { return null; } public PrintWriter getWriter() throws IOException { // autoflush is true, println() will flush, // but print() will not. writer = new PrintWriter(output, true); return writer; } public boolean isCommitted() { return false; } public void reset() { } public void resetBuffer() { } public void setBufferSize(int size) { } public void setContentLength(int length) { } public void setContentType(String type) { } public void setLocale(Locale locale) { } }
StaticResourceProcessor:用来提供静态资源请求
import java.io.IOException; public class StaticResourceProcessor { public void process(Request request, Response response) { try { response.sendStaticResource(); } catch (IOException e) { e.printStackTrace(); } } }
ServletProcessor1:用于处理servlet的HTTP请求
import java.net.URL; import java.net.URLClassLoader; import java.net.URLStreamHandler; import java.io.File; import java.io.IOException; import javax.servlet.Servlet; import javax.servlet.ServletRequest; import javax.servlet.ServletResponse; public class ServletProcessor1 { public void process(Request request, Response response) { String uri = request.getUri(); String servletName = uri.substring(uri.lastIndexOf("/") + 1); URLClassLoader loader = null; try { // create a URLClassLoader // urls是一个java.net.URL的对象数组,这些对象指向了加载类时候查找的位置 URL[] urls = new URL[1]; URLStreamHandler streamHandler = null; File classPath = new File(Constants.WEB_ROOT); // the forming of repository is taken from the // createClassLoader method in // org.apache.catalina.startup.ClassLoaderFactory // 在一个servlet容器里边,一个类加载器可以找到servlet的地方被称为资源库(repository) String repository =(new URL("file", null, classPath.getCanonicalPath() + File.separator)).toString() ; // the code for forming the URL is taken from // the addRepository method in // org.apache.catalina.loader.StandardClassLoader. urls[0] = new URL(null, repository, streamHandler); loader = new URLClassLoader(urls); } catch (IOException e) { System.out.println(e.toString() ); } Class myClass = null; try { myClass = loader.loadClass(servletName); } catch (ClassNotFoundException e) { System.out.println(e.toString()); } Servlet servlet = null; try { servlet = (Servlet) myClass.newInstance(); servlet.service((ServletRequest) request, (ServletResponse) response); } catch (Exception e) { System.out.println(e.toString()); } catch (Throwable e) { System.out.println(e.toString()); } } }
Constants:保存WEB_ROOT
import java.io.File; public class Constants { public static final String WEB_ROOT = System.getProperty("user.dir") + File.separator + "webroot"; }
3. Facade
将request对象向上转型为ServletRequest,交给service方法。但如果Servlet的开发者清楚tomcat的内部设计,
那么他就可以在service方法中将request向下"还原为"Request对象。Request类提供了许多tomcat内部使用的功
能,譬如解析http流。如果胡乱使用,结果很严重。为了避免该问题,tomcat采用了Facade设计模式,即通过一个
RequestFacade类(实现了ServletRequest接口),替换Request类传递给service方法。而在RequestFacade
内部,保存我们的request对象,外部只能通过调用RequestFacade实现了的ServletRequest接口的方法,间接的
使用Request的"部分功能",不能调用Request的一些内部方法,从而优雅的解决了上述问题。
RequestFacade类
public class RequestFacade implements ServletRequest { private ServleLRequest request = null; public RequestFacade(Request request) { this.request = request; } /* implementation of the ServletRequest*/ public Object getAttribute(String attribute) { return request.getAttribute(attribute); } public Enumeration getAttributeNames() { return request.getAttributeNames(); } ... }
ServletProcessor2类
Servlet servlet = null; RequestFacade requestFacade = new RequestFacade(request); ResponseFacade responseFacade = new ResponseFacade(response); try { servlet = (Servlet) myClass.newInstance(); servlet.service((ServletRequest) requestFacade,(ServletResponse)responseFacade); }
ResponseFacade类和RequestFacade类似
发表评论
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MiniTomcat - How Tomcat Works 20: JMX-Based Management
2009-09-15 15:31 716MiniTomcat - How Tomcat Works 2 ... -
MiniTomcat - How Tomcat Works 19: Manager Servlet
2009-09-15 15:31 798MiniTomcat - How Tomcat Works 1 ... -
MiniTomcat - How Tomcat Works 18: Deployer
2009-09-15 15:30 824MiniTomcat - How Tomcat Works 1 ... -
MiniTomcat - How Tomcat Works 17: Tomcat Startup
2009-09-15 15:30 815MiniTomcat - How Tomcat Works 1 ... -
MiniTomcat - How Tomcat Works 16: Shutdown Hook
2009-09-15 15:29 761MiniTomcat - How Tomcat Works 1 ... -
MiniTomcat - How Tomcat Works 15: Digester
2009-09-15 15:29 640MiniTomcat - How Tomcat Works 1 ... -
MiniTomcat - How Tomcat Works 14: Server and Service
2009-09-15 15:29 814MiniTomcat - How Tomcat Works 1 ... -
MiniTomcat - How Tomcat Works 13: Host and Engine
2009-09-15 15:28 703MiniTomcat - How Tomcat Works 1 ... -
MiniTomcat - How Tomcat Works 12: StandardContext
2009-09-15 15:28 808MiniTomcat - How Tomcat Works 1 ... -
MiniTomcat - How Tomcat Works 11: StandardWrapper
2009-09-15 15:27 909MiniTomcat - How Tomcat Works 1 ... -
MiniTomcat - How Tomcat Works 10: Security
2009-09-15 15:27 803MiniTomcat - How Tomcat Works 1 ... -
MiniTomcat - How Tomcat Works 9: Session Management
2009-09-15 15:26 766MiniTomcat - How Tomcat Works 9 ... -
MiniTomcat - How Tomcat Works 8: Loader
2009-09-15 15:26 727MiniTomcat - How Tomcat Works 8 ... -
MiniTomcat - How Tomcat Works 7: Logger
2009-09-15 15:24 567MiniTomcat - How Tomcat Works 7 ... -
MiniTomcat - How Tomcat Works 6: Lifecycle
2009-09-15 15:12 747MiniTomcat - How Tomcat Works 6 ... -
MiniTomcat - How Tomcat Works 5: Container
2009-09-15 15:08 641container -
MiniTomcat - How Tomcat Works 4: Tomcat Default Connector
2009-09-15 15:07 639default connector -
MiniTomcat - How Tomcat Works 3: Connector
2009-09-15 15:06 587connector -
MiniTomcat - How Tomcat Works 1: HttpServer
2009-09-15 12:47 857如何实现一个简单的HttpServer。一个基础的Web服务器 ...
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