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/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You 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
 *
 *     http://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 jakarta.servlet.http;

import java.io.IOException;
import java.io.OutputStreamWriter;
import java.io.PrintWriter;
import java.io.UnsupportedEncodingException;
import java.io.Writer;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.text.MessageFormat;
import java.util.Enumeration;
import java.util.HashSet;
import java.util.Locale;
import java.util.ResourceBundle;
import java.util.Set;

import jakarta.servlet.AsyncEvent;
import jakarta.servlet.AsyncListener;
import jakarta.servlet.DispatcherType;
import jakarta.servlet.GenericServlet;
import jakarta.servlet.ServletConfig;
import jakarta.servlet.ServletException;
import jakarta.servlet.ServletOutputStream;
import jakarta.servlet.ServletRequest;
import jakarta.servlet.ServletResponse;
import jakarta.servlet.WriteListener;


/**
 * Provides an abstract class to be subclassed to create an HTTP servlet suitable for a Web site. A subclass of
 * HttpServlet must override at least one method, usually one of these:
 * 
    *
  • doGet, if the servlet supports HTTP GET requests *
  • doPost, for HTTP POST requests *
  • doPut, for HTTP PUT requests *
  • doDelete, for HTTP DELETE requests *
  • init and destroy, to manage resources that are held for the life of the servlet *
  • getServletInfo, which the servlet uses to provide information about itself *
*

* There's almost no reason to override the service method. service handles standard HTTP * requests by dispatching them to the handler methods for each HTTP request type (the doMethod * methods listed above). *

* Likewise, there's almost no reason to override the doOptions and doTrace methods. *

* Servlets typically run on multithreaded servers, so be aware that a servlet must handle concurrent requests and be * careful to synchronize access to shared resources. Shared resources include in-memory data such as instance or class * variables and external objects such as files, database connections, and network connections. See the * Java Tutorial on Multithreaded * Programming for more information on handling multiple threads in a Java program. */ public abstract class HttpServlet extends GenericServlet { private static final long serialVersionUID = 1L; private static final String METHOD_DELETE = "DELETE"; private static final String METHOD_HEAD = "HEAD"; private static final String METHOD_GET = "GET"; private static final String METHOD_OPTIONS = "OPTIONS"; private static final String METHOD_POST = "POST"; private static final String METHOD_PUT = "PUT"; private static final String METHOD_TRACE = "TRACE"; private static final String HEADER_IFMODSINCE = "If-Modified-Since"; private static final String HEADER_LASTMOD = "Last-Modified"; private static final String LSTRING_FILE = "jakarta.servlet.http.LocalStrings"; private static final ResourceBundle lStrings = ResourceBundle.getBundle(LSTRING_FILE); private static final Set SENSITIVE_HTTP_HEADERS = new HashSet<>(); /** * @deprecated May be removed in a future release * * @since Servlet 6.0 */ @Deprecated(forRemoval = true, since = "Servlet 6.0") public static final String LEGACY_DO_HEAD = "jakarta.servlet.http.legacyDoHead"; private final transient Object cachedAllowHeaderValueLock = new Object(); /** * Cached value of the HTTP {@code Allow} header for this servlet. */ private volatile String cachedAllowHeaderValue = null; /** * Cached value read from {@link HttpServlet#LEGACY_DO_HEAD} system property. */ private volatile boolean cachedUseLegacyDoHead; static { SENSITIVE_HTTP_HEADERS.add("cookie"); SENSITIVE_HTTP_HEADERS.add("authorization"); } /** * Does nothing, because this is an abstract class. */ public HttpServlet() { // NOOP } @Override public void init(ServletConfig config) throws ServletException { super.init(config); cachedUseLegacyDoHead = Boolean.parseBoolean(config.getInitParameter(LEGACY_DO_HEAD)); } /** * Called by the server (via the service method) to allow a servlet to handle a GET request. *

* Overriding this method to support a GET request also automatically supports an HTTP HEAD request. A HEAD request * is a GET request that returns no body in the response, only the request header fields. *

* When overriding this method, read the request data, write the response headers, get the response's noBodyWriter * or output stream object, and finally, write the response data. It's best to include content type and encoding. * When using a PrintWriter object to return the response, set the content type before accessing the * PrintWriter object. *

* The servlet container must write the headers before committing the response, because in HTTP the headers must be * sent before the response body. *

* Where possible, set the Content-Length header (with the {@link jakarta.servlet.ServletResponse#setContentLength} * method), to allow the servlet container to use a persistent connection to return its response to the client, * improving performance. The content length is automatically set if the entire response fits inside the response * buffer. *

* When using HTTP 1.1 chunked encoding (which means that the response has a Transfer-Encoding header), do not set * the Content-Length header. *

* The GET method should be safe, that is, without any side effects for which users are held responsible. For * example, most form queries have no side effects. If a client request is intended to change stored data, the * request should use some other HTTP method. *

* The GET method should also be idempotent, meaning that it can be safely repeated. Sometimes making a method safe * also makes it idempotent. For example, repeating queries is both safe and idempotent, but buying a product online * or modifying data is neither safe nor idempotent. *

* If the request is incorrectly formatted, doGet returns an HTTP "Bad Request" message. * * @param req an {@link HttpServletRequest} object that contains the request the client has made of the servlet * @param resp an {@link HttpServletResponse} object that contains the response the servlet sends to the client * * @exception IOException if an input or output error is detected when the servlet handles the GET request * @exception ServletException if the request for the GET could not be handled * * @see jakarta.servlet.ServletResponse#setContentType */ protected void doGet(HttpServletRequest req, HttpServletResponse resp) throws ServletException, IOException { String msg = lStrings.getString("http.method_get_not_supported"); sendMethodNotAllowed(req, resp, msg); } /** * Returns the time the HttpServletRequest object was last modified, in milliseconds since midnight * January 1, 1970 GMT. If the time is unknown, this method returns a negative number (the default). *

* Servlets that support HTTP GET requests and can quickly determine their last modification time should override * this method. This makes browser and proxy caches work more effectively, reducing the load on server and network * resources. * * @param req the HttpServletRequest object that is sent to the servlet * * @return a long integer specifying the time the HttpServletRequest object was last * modified, in milliseconds since midnight, January 1, 1970 GMT, or -1 if the time is not known */ protected long getLastModified(HttpServletRequest req) { return -1; } /** *

* Receives an HTTP HEAD request from the protected service method and handles the request. The client * sends a HEAD request when it wants to see only the headers of a response, such as Content-Type or Content-Length. * The HTTP HEAD method counts the output bytes in the response to set the Content-Length header accurately. *

* If you override this method, you can avoid computing the response body and just set the response headers directly * to improve performance. Make sure that the doHead method you write is both safe and idempotent (that * is, protects itself from being called multiple times for one HTTP HEAD request). *

* If the HTTP HEAD request is incorrectly formatted, doHead returns an HTTP "Bad Request" message. * * @param req the request object that is passed to the servlet * @param resp the response object that the servlet uses to return the headers to the client * * @exception IOException if an input or output error occurs * @exception ServletException if the request for the HEAD could not be handled */ protected void doHead(HttpServletRequest req, HttpServletResponse resp) throws ServletException, IOException { if (DispatcherType.INCLUDE.equals(req.getDispatcherType()) || !cachedUseLegacyDoHead) { doGet(req, resp); } else { NoBodyResponse response = new NoBodyResponse(resp); doGet(req, response); if (req.isAsyncStarted()) { req.getAsyncContext().addListener(new NoBodyAsyncContextListener(response)); } else { response.setContentLength(); } } } /** * Called by the server (via the service method) to allow a servlet to handle a POST request. The HTTP * POST method allows the client to send data of unlimited length to the Web server a single time and is useful when * posting information such as credit card numbers. *

* When overriding this method, read the request data, write the response headers, get the response's noBodyWriter * or output stream object, and finally, write the response data. It's best to include content type and encoding. * When using a PrintWriter object to return the response, set the content type before accessing the * PrintWriter object. *

* The servlet container must write the headers before committing the response, because in HTTP the headers must be * sent before the response body. *

* Where possible, set the Content-Length header (with the {@link jakarta.servlet.ServletResponse#setContentLength} * method), to allow the servlet container to use a persistent connection to return its response to the client, * improving performance. The content length is automatically set if the entire response fits inside the response * buffer. *

* When using HTTP 1.1 chunked encoding (which means that the response has a Transfer-Encoding header), do not set * the Content-Length header. *

* This method does not need to be either safe or idempotent. Operations requested through POST can have side * effects for which the user can be held accountable, for example, updating stored data or buying items online. *

* If the HTTP POST request is incorrectly formatted, doPost returns an HTTP "Bad Request" message. * * @param req an {@link HttpServletRequest} object that contains the request the client has made of the servlet * @param resp an {@link HttpServletResponse} object that contains the response the servlet sends to the client * * @exception IOException if an input or output error is detected when the servlet handles the request * @exception ServletException if the request for the POST could not be handled * * @see jakarta.servlet.ServletOutputStream * @see jakarta.servlet.ServletResponse#setContentType */ protected void doPost(HttpServletRequest req, HttpServletResponse resp) throws ServletException, IOException { String msg = lStrings.getString("http.method_post_not_supported"); sendMethodNotAllowed(req, resp, msg); } /** * Called by the server (via the service method) to allow a servlet to handle a PUT request. The PUT * operation allows a client to place a file on the server and is similar to sending a file by FTP. *

* When overriding this method, leave intact any content headers sent with the request (including Content-Length, * Content-Type, Content-Transfer-Encoding, Content-Encoding, Content-Base, Content-Language, Content-Location, * Content-MD5, and Content-Range). If your method cannot handle a content header, it must issue an error message * (HTTP 501 - Not Implemented) and discard the request. For more information on HTTP 1.1, see RFC 2616 * . *

* This method does not need to be either safe or idempotent. Operations that doPut performs can have * side effects for which the user can be held accountable. When using this method, it may be useful to save a copy * of the affected URL in temporary storage. *

* If the HTTP PUT request is incorrectly formatted, doPut returns an HTTP "Bad Request" message. * * @param req the {@link HttpServletRequest} object that contains the request the client made of the servlet * @param resp the {@link HttpServletResponse} object that contains the response the servlet returns to the client * * @exception IOException if an input or output error occurs while the servlet is handling the PUT request * @exception ServletException if the request for the PUT cannot be handled */ protected void doPut(HttpServletRequest req, HttpServletResponse resp) throws ServletException, IOException { String msg = lStrings.getString("http.method_put_not_supported"); sendMethodNotAllowed(req, resp, msg); } /** * Called by the server (via the service method) to allow a servlet to handle a DELETE request. The * DELETE operation allows a client to remove a document or Web page from the server. *

* This method does not need to be either safe or idempotent. Operations requested through DELETE can have side * effects for which users can be held accountable. When using this method, it may be useful to save a copy of the * affected URL in temporary storage. *

* If the HTTP DELETE request is incorrectly formatted, doDelete returns an HTTP "Bad Request" message. * * @param req the {@link HttpServletRequest} object that contains the request the client made of the servlet * @param resp the {@link HttpServletResponse} object that contains the response the servlet returns to the client * * @exception IOException if an input or output error occurs while the servlet is handling the DELETE request * @exception ServletException if the request for the DELETE cannot be handled */ protected void doDelete(HttpServletRequest req, HttpServletResponse resp) throws ServletException, IOException { String msg = lStrings.getString("http.method_delete_not_supported"); sendMethodNotAllowed(req, resp, msg); } private void sendMethodNotAllowed(HttpServletRequest req, HttpServletResponse resp, String msg) throws IOException { String protocol = req.getProtocol(); // Note: Tomcat reports "" for HTTP/0.9 although some implementations // may report HTTP/0.9 if (protocol.length() == 0 || protocol.endsWith("0.9") || protocol.endsWith("1.0")) { resp.sendError(HttpServletResponse.SC_BAD_REQUEST, msg); } else { resp.sendError(HttpServletResponse.SC_METHOD_NOT_ALLOWED, msg); } } private String getCachedAllowHeaderValue() { if (cachedAllowHeaderValue == null) { synchronized (cachedAllowHeaderValueLock) { if (cachedAllowHeaderValue == null) { Method[] methods = getAllDeclaredMethods(this.getClass()); // RFC 7230 does not define an order for this header // This code aims to retain, broadly, the order of method // tokens returned in earlier versions of this code. If that // constraint is dropped then the code can be simplified // further. boolean allowGet = false; boolean allowHead = false; boolean allowPost = false; boolean allowPut = false; boolean allowDelete = false; for (Method method : methods) { switch (method.getName()) { case "doGet": { allowGet = true; allowHead = true; break; } case "doPost": { allowPost = true; break; } case "doPut": { allowPut = true; break; } case "doDelete": { allowDelete = true; break; } default: // NO-OP } } StringBuilder allow = new StringBuilder(); if (allowGet) { allow.append(METHOD_GET); allow.append(", "); } if (allowHead) { allow.append(METHOD_HEAD); allow.append(", "); } if (allowPost) { allow.append(METHOD_POST); allow.append(", "); } if (allowPut) { allow.append(METHOD_PUT); allow.append(", "); } if (allowDelete) { allow.append(METHOD_DELETE); allow.append(", "); } // Options is always allowed allow.append(METHOD_OPTIONS); cachedAllowHeaderValue = allow.toString(); } } } return cachedAllowHeaderValue; } private static Method[] getAllDeclaredMethods(Class c) { if (c.equals(jakarta.servlet.http.HttpServlet.class)) { return null; } Method[] parentMethods = getAllDeclaredMethods(c.getSuperclass()); Method[] thisMethods = c.getDeclaredMethods(); if ((parentMethods != null) && (parentMethods.length > 0)) { Method[] allMethods = new Method[parentMethods.length + thisMethods.length]; System.arraycopy(parentMethods, 0, allMethods, 0, parentMethods.length); System.arraycopy(thisMethods, 0, allMethods, parentMethods.length, thisMethods.length); thisMethods = allMethods; } return thisMethods; } /** * Called by the server (via the service method) to allow a servlet to handle an OPTIONS request. The * OPTIONS request determines which HTTP methods the server supports and returns an appropriate header. For example, * if a servlet overrides doGet, this method returns the following header: *

* Allow: GET, HEAD, TRACE, OPTIONS *

* There's no need to override this method unless the servlet implements new HTTP methods, beyond those implemented * by HTTP 1.1. * * @param req the {@link HttpServletRequest} object that contains the request the client made of the servlet * @param resp the {@link HttpServletResponse} object that contains the response the servlet returns to the client * * @exception IOException if an input or output error occurs while the servlet is handling the OPTIONS request * @exception ServletException if the request for the OPTIONS cannot be handled */ protected void doOptions(HttpServletRequest req, HttpServletResponse resp) throws ServletException, IOException { String allow = getCachedAllowHeaderValue(); // Tomcat specific hack to see if TRACE is allowed if (TomcatHack.getAllowTrace(req)) { if (allow.length() == 0) { allow = METHOD_TRACE; } else { allow = allow + ", " + METHOD_TRACE; } } resp.setHeader("Allow", allow); } /** * Called by the server (via the service method) to allow a servlet to handle a TRACE request. A TRACE * returns the headers sent with the TRACE request to the client, so that they can be used in debugging. There's no * need to override this method. * * @param req the {@link HttpServletRequest} object that contains the request the client made of the servlet * @param resp the {@link HttpServletResponse} object that contains the response the servlet returns to the client * * @exception IOException if an input or output error occurs while the servlet is handling the TRACE request * @exception ServletException if the request for the TRACE cannot be handled */ protected void doTrace(HttpServletRequest req, HttpServletResponse resp) throws ServletException, IOException { int responseLength; String CRLF = "\r\n"; StringBuilder buffer = new StringBuilder("TRACE ").append(req.getRequestURI()).append(' ') .append(req.getProtocol()); Enumeration reqHeaderNames = req.getHeaderNames(); while (reqHeaderNames.hasMoreElements()) { String headerName = reqHeaderNames.nextElement(); // RFC 7231, 4.3.8 - skip 'sensitive' headers if (!SENSITIVE_HTTP_HEADERS.contains(headerName.toLowerCase(Locale.ENGLISH))) { Enumeration headerValues = req.getHeaders(headerName); while (headerValues.hasMoreElements()) { String headerValue = headerValues.nextElement(); buffer.append(CRLF).append(headerName).append(": ").append(headerValue); } } } buffer.append(CRLF); responseLength = buffer.length(); resp.setContentType("message/http"); resp.setContentLength(responseLength); ServletOutputStream out = resp.getOutputStream(); out.print(buffer.toString()); out.close(); } /** * Receives standard HTTP requests from the public service method and dispatches them to the * doMethod methods defined in this class. This method is an HTTP-specific version of the * {@link jakarta.servlet.Servlet#service} method. There's no need to override this method. * * @param req the {@link HttpServletRequest} object that contains the request the client made of the servlet * @param resp the {@link HttpServletResponse} object that contains the response the servlet returns to the client * * @exception IOException if an input or output error occurs while the servlet is handling the HTTP request * @exception ServletException if the HTTP request cannot be handled * * @see jakarta.servlet.Servlet#service */ protected void service(HttpServletRequest req, HttpServletResponse resp) throws ServletException, IOException { String method = req.getMethod(); if (method.equals(METHOD_GET)) { long lastModified = getLastModified(req); if (lastModified == -1) { // servlet doesn't support if-modified-since, no reason // to go through further expensive logic doGet(req, resp); } else { long ifModifiedSince; try { ifModifiedSince = req.getDateHeader(HEADER_IFMODSINCE); } catch (IllegalArgumentException iae) { // Invalid date header - proceed as if none was set ifModifiedSince = -1; } if (ifModifiedSince < (lastModified / 1000 * 1000)) { // If the servlet mod time is later, call doGet() // Round down to the nearest second for a proper compare // A ifModifiedSince of -1 will always be less maybeSetLastModified(resp, lastModified); doGet(req, resp); } else { resp.setStatus(HttpServletResponse.SC_NOT_MODIFIED); } } } else if (method.equals(METHOD_HEAD)) { long lastModified = getLastModified(req); maybeSetLastModified(resp, lastModified); doHead(req, resp); } else if (method.equals(METHOD_POST)) { doPost(req, resp); } else if (method.equals(METHOD_PUT)) { doPut(req, resp); } else if (method.equals(METHOD_DELETE)) { doDelete(req, resp); } else if (method.equals(METHOD_OPTIONS)) { doOptions(req, resp); } else if (method.equals(METHOD_TRACE)) { doTrace(req, resp); } else { // // Note that this means NO servlet supports whatever // method was requested, anywhere on this server. // String errMsg = lStrings.getString("http.method_not_implemented"); Object[] errArgs = new Object[1]; errArgs[0] = method; errMsg = MessageFormat.format(errMsg, errArgs); resp.sendError(HttpServletResponse.SC_NOT_IMPLEMENTED, errMsg); } } /* * Sets the Last-Modified entity header field, if it has not already been set and if the value is meaningful. Called * before doGet, to ensure that headers are set before response data is written. A subclass might have set this * header already, so we check. */ private void maybeSetLastModified(HttpServletResponse resp, long lastModified) { if (resp.containsHeader(HEADER_LASTMOD)) { return; } if (lastModified >= 0) { resp.setDateHeader(HEADER_LASTMOD, lastModified); } } /** * Dispatches client requests to the protected service method. There's no need to override this method. * * @param req the {@link HttpServletRequest} object that contains the request the client made of the servlet * @param res the {@link HttpServletResponse} object that contains the response the servlet returns to the client * * @exception IOException if an input or output error occurs while the servlet is handling the HTTP request * @exception ServletException if the HTTP request cannot be handled * * @see jakarta.servlet.Servlet#service */ @Override public void service(ServletRequest req, ServletResponse res) throws ServletException, IOException { HttpServletRequest request; HttpServletResponse response; try { request = (HttpServletRequest) req; response = (HttpServletResponse) res; } catch (ClassCastException e) { throw new ServletException(lStrings.getString("http.non_http")); } service(request, response); } private static class TomcatHack { private static final Class REQUEST_FACADE_CLAZZ; private static final Method GET_ALLOW_TRACE; static { Method m1 = null; Class c1 = null; try { c1 = Class.forName("org.apache.catalina.connector.RequestFacade"); m1 = c1.getMethod("getAllowTrace", (Class[]) null); } catch (ReflectiveOperationException | SecurityException | IllegalArgumentException e) { // Ignore. Not running on Tomcat. TRACE is always allowed. } REQUEST_FACADE_CLAZZ = c1; GET_ALLOW_TRACE = m1; } public static boolean getAllowTrace(HttpServletRequest req) { if (REQUEST_FACADE_CLAZZ != null && GET_ALLOW_TRACE != null) { if (REQUEST_FACADE_CLAZZ.isAssignableFrom(req.getClass())) { try { return ((Boolean) GET_ALLOW_TRACE.invoke(req, (Object[]) null)).booleanValue(); } catch (IllegalAccessException | IllegalArgumentException | InvocationTargetException e) { // Should never happen given the checks in place. // Ignore } } } return true; } } /* * A response wrapper for use in (dumb) "HEAD" support. This just swallows that body, counting the bytes in order to * set the content length appropriately. All other methods delegate to the wrapped HTTP Servlet Response object. */ private static class NoBodyResponse extends HttpServletResponseWrapper { private final NoBodyOutputStream noBodyOutputStream; private ServletOutputStream originalOutputStream; private NoBodyPrintWriter noBodyWriter; private boolean didSetContentLength; private NoBodyResponse(HttpServletResponse r) { super(r); noBodyOutputStream = new NoBodyOutputStream(this); } private void setContentLength() { if (!didSetContentLength) { if (noBodyWriter != null) { noBodyWriter.flush(); } super.setContentLengthLong(noBodyOutputStream.getWrittenByteCount()); } } @Override public void setContentLength(int len) { super.setContentLength(len); didSetContentLength = true; } @Override public void setContentLengthLong(long len) { super.setContentLengthLong(len); didSetContentLength = true; } @Override public void setHeader(String name, String value) { super.setHeader(name, value); checkHeader(name); } @Override public void addHeader(String name, String value) { super.addHeader(name, value); checkHeader(name); } @Override public void setIntHeader(String name, int value) { super.setIntHeader(name, value); checkHeader(name); } @Override public void addIntHeader(String name, int value) { super.addIntHeader(name, value); checkHeader(name); } private void checkHeader(String name) { if ("content-length".equalsIgnoreCase(name)) { didSetContentLength = true; } } @Override public ServletOutputStream getOutputStream() throws IOException { originalOutputStream = getResponse().getOutputStream(); return noBodyOutputStream; } @Override public PrintWriter getWriter() throws UnsupportedEncodingException { if (noBodyWriter == null) { noBodyWriter = new NoBodyPrintWriter(noBodyOutputStream, getCharacterEncoding()); } return noBodyWriter; } @Override public void reset() { super.reset(); resetBuffer(); originalOutputStream = null; } @Override public void resetBuffer() { noBodyOutputStream.resetBuffer(); if (noBodyWriter != null) { noBodyWriter.resetBuffer(); } } } /* * Servlet output stream that gobbles up all its data. */ private static class NoBodyOutputStream extends ServletOutputStream { private static final String LSTRING_FILE = "jakarta.servlet.http.LocalStrings"; private static final ResourceBundle lStrings = ResourceBundle.getBundle(LSTRING_FILE); private final NoBodyResponse response; private boolean flushed = false; private long writtenByteCount = 0; private NoBodyOutputStream(NoBodyResponse response) { this.response = response; } private long getWrittenByteCount() { return writtenByteCount; } @Override public void write(int b) throws IOException { writtenByteCount++; checkCommit(); } @Override public void write(byte buf[], int offset, int len) throws IOException { if (buf == null) { throw new NullPointerException(lStrings.getString("err.io.nullArray")); } if (offset < 0 || len < 0 || offset + len > buf.length) { String msg = lStrings.getString("err.io.indexOutOfBounds"); Object[] msgArgs = new Object[3]; msgArgs[0] = Integer.valueOf(offset); msgArgs[1] = Integer.valueOf(len); msgArgs[2] = Integer.valueOf(buf.length); msg = MessageFormat.format(msg, msgArgs); throw new IndexOutOfBoundsException(msg); } writtenByteCount += len; checkCommit(); } @Override public boolean isReady() { // Will always be ready as data is swallowed. return true; } @Override public void setWriteListener(WriteListener listener) { response.originalOutputStream.setWriteListener(listener); } private void checkCommit() throws IOException { if (!flushed && writtenByteCount > response.getBufferSize()) { response.flushBuffer(); flushed = true; } } private void resetBuffer() { if (flushed) { throw new IllegalStateException(lStrings.getString("err.state.commit")); } writtenByteCount = 0; } } /* * On reset() and resetBuffer() need to clear the data buffered in the OutputStreamWriter. No easy way to do that so * NoBodyPrintWriter wraps a PrintWriter than can be thrown away on reset()/resetBuffer() and a new one constructed * while the application retains a reference to the NoBodyPrintWriter instance. */ private static class NoBodyPrintWriter extends PrintWriter { private final NoBodyOutputStream out; private final String encoding; private PrintWriter pw; NoBodyPrintWriter(NoBodyOutputStream out, String encoding) throws UnsupportedEncodingException { super(out); this.out = out; this.encoding = encoding; Writer osw = new OutputStreamWriter(out, encoding); pw = new PrintWriter(osw); } private void resetBuffer() { out.resetBuffer(); Writer osw = null; try { osw = new OutputStreamWriter(out, encoding); } catch (UnsupportedEncodingException e) { // Impossible. // The same values were used in the constructor. If this method // gets called then the constructor must have succeeded so the // above call must also succeed. } pw = new PrintWriter(osw); } @Override public void flush() { pw.flush(); } @Override public void close() { pw.close(); } @Override public boolean checkError() { return pw.checkError(); } @Override public void write(int c) { pw.write(c); } @Override public void write(char[] buf, int off, int len) { pw.write(buf, off, len); } @Override public void write(char[] buf) { pw.write(buf); } @Override public void write(String s, int off, int len) { pw.write(s, off, len); } @Override public void write(String s) { pw.write(s); } @Override public void print(boolean b) { pw.print(b); } @Override public void print(char c) { pw.print(c); } @Override public void print(int i) { pw.print(i); } @Override public void print(long l) { pw.print(l); } @Override public void print(float f) { pw.print(f); } @Override public void print(double d) { pw.print(d); } @Override public void print(char[] s) { pw.print(s); } @Override public void print(String s) { pw.print(s); } @Override public void print(Object obj) { pw.print(obj); } @Override public void println() { pw.println(); } @Override public void println(boolean x) { pw.println(x); } @Override public void println(char x) { pw.println(x); } @Override public void println(int x) { pw.println(x); } @Override public void println(long x) { pw.println(x); } @Override public void println(float x) { pw.println(x); } @Override public void println(double x) { pw.println(x); } @Override public void println(char[] x) { pw.println(x); } @Override public void println(String x) { pw.println(x); } @Override public void println(Object x) { pw.println(x); } } /* * Calls NoBodyResponse.setContentLength() once the async request is complete. */ private static class NoBodyAsyncContextListener implements AsyncListener { private final NoBodyResponse noBodyResponse; NoBodyAsyncContextListener(NoBodyResponse noBodyResponse) { this.noBodyResponse = noBodyResponse; } @Override public void onComplete(AsyncEvent event) throws IOException { noBodyResponse.setContentLength(); } @Override public void onTimeout(AsyncEvent event) throws IOException { // NO-OP } @Override public void onError(AsyncEvent event) throws IOException { // NO-OP } @Override public void onStartAsync(AsyncEvent event) throws IOException { // NO-OP } } }





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