/* * ResponseWrapper.java February 2001 * * Copyright (C) 2001, Niall Gallagher * * Licensed 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 org.simpleframework.http; import java.io.IOException; import java.io.OutputStream; import java.io.PrintStream; import java.nio.channels.WritableByteChannel; import java.util.List; /** * The ResponseWrapper object is used so that the original * Response object can be wrapped in a filtering proxy * object. This allows a container to interact with an implementation * of this with overridden methods providing specific functionality. * the Response object in a concurrent environment. * 
 *
 *    public void handle(Request req, Response resp) {
 *       handler.handle(req, new ZipResponse(resp));
 *    }
 *
 *
* The above is an example of how the ResponseWrapper can * be used to provide extra functionality to a Response * in a transparent manner. Such an implementation could apply a * Content-Encoding header and compress the response for performance * over a slow network. Filtering can be applied with the use of * layered Container objects. * * @author Niall Gallagher * * @see org.simpleframework.http.core.Container */ public class ResponseWrapper implements Response { /** * This is the response instance that is being wrapped. */ protected Response response; /** * Constructor for ResponseWrapper object. This allows * the original Response object to be wrapped so that * adjustments to the behavior of a request object handed to the * container can be provided by a subclass implementation. * * @param response the response object that is being wrapped */ public ResponseWrapper(Response response){ this.response = response; } /** * This represents the status code of the HTTP response. * The response code represents the type of message that is * being sent to the client. For a description of the codes * see RFC 2616 section 10, Status Code Definitions. * * @return the status code that this HTTP response has */ public int getCode() { return response.getCode(); } /** * This method allows the status for the response to be * changed. This MUST be reflected the the response content * given to the client. For a description of the codes see * RFC 2616 section 10, Status Code Definitions. * * @param code the new status code for the HTTP response */ public void setCode(int code) { response.setCode(code); } /** * This can be used to retrieve the text of a HTTP status * line. This is the text description for the status code. * This should match the status code specified by the RFC. * * @return the message description of the response */ public String getText() { return response.getText(); } /** * This is used to set the text of the HTTP status line. * This should match the status code specified by the RFC. * * @param text the descriptive text message of the status */ public void setText(String text) { response.setText(text); } /** * This can be used to get the major number from a HTTP version. * The major version corresponds to the major type that is the 1 * of a HTTP/1.0 version string. * * @return the major version number for the request message */ public int getMajor() { return response.getMajor(); } /** * This can be used to set the major number from a HTTP version. * The major version corresponds to the major type that is the 1 * of a HTTP/1.0 version string. * * @param major the major version number for the request message */ public void setMajor(int major) { response.setMajor(major); } /** * This can be used to get the minor number from a HTTP version. * The minor version corresponds to the major type that is the 0 * of a HTTP/1.0 version string. This is used to determine if * the request message has keep alive semantics. * * @return the minor version number for the request message */ public int getMinor() { return response.getMinor(); } /** * This can be used to get the minor number from a HTTP version. * The minor version corresponds to the major type that is the 0 * of a HTTP/1.0 version string. This is used to determine if * the request message has keep alive semantics. * * @param minor the minor version number for the request message */ public void setMinor(int minor) { response.setMinor(minor); } /** * This is used to acquire the names of the of the headers that * have been set in the response. This can be used to acquire all * header values by name that have been set within the response. * If no headers have been set this will return an empty list. * * @return a list of strings representing the set header names */ public List getNames() { return response.getNames(); } /** * This can be used to add a HTTP message header to this object. * The name and value of the HTTP message header will be used to * create a HTTP message header object which can be retrieved using * the getValue in combination with the get methods. * * @param name the name of the HTTP message header to be added * @param value the value the HTTP message header will have */ public void add(String name, String value) { response.add(name, value); } /** * This can be used to add a HTTP message header to this object. * The name and value of the HTTP message header will be used to * create a HTTP message header object which can be retrieved using * the getInteger in combination with the get methods. * * @param name the name of the HTTP message header to be added * @param value the value the HTTP message header will have */ public void add(String name, int value) { response.add(name, value); } /** * This is used as a convenience method for adding a header that * needs to be parsed into a HTTPdate string. This will convert * the date given into a date string defined in RFC 2616 sec 3.3.1. * * @param name the name of the HTTP message header to be added * @param date the value constructed as an RFC 1123 date string */ public void addDate(String name, long date) { response.addDate(name, date); } /** * This can be used to set a HTTP message header to this object. * The name and value of the HTTP message header will be used to * create a HTTP message header object which can be retrieved using * the getValue in combination with the get methods. * This will perform a remove using the issued header * name before the header value is set. * * @param name the name of the HTTP message header to be added * @param value the value the HTTP message header will have */ public void set(String name, String value) { response.set(name, value); } /** * This can be used to set a HTTP message header to this object. * The name and value of the HTTP message header will be used to * create a HTTP message header object which can be retrieved using * the getValue in combination with the get methods. * This will perform a remove using the issued header * name before the header value is set. * * @param name the name of the HTTP message header to be added * @param value the value the HTTP message header will have */ public void set(String name, int value) { response.set(name, value); } /** * This is used as a convenience method for adding a header that * needs to be parsed into a HTTP date string. This will convert * the date given into a date string defined in RFC 2616 sec 3.3.1. * This will perform a remove using the issued header * name before the header value is set. * * @param name the name of the HTTP message header to be added * @param date the value constructed as an RFC 1123 date string */ public void setDate(String name, long date) { response.setDate(name, date); } /** * This is used to remove the named header from the response. This * removes all header values assigned to the specified name. If it * does not exist then this will return without modifying the HTTP * response. Headers names removed are case insensitive. * * @param name the HTTP message header to remove from the response */ public void remove(String name) { response.remove(name); } /** * This is used to see if there is a HTTP message header with the * given name in this container. If there is a HTTP message header * with the specified name then this returns true otherwise false. * * @param name the HTTP message header to get the value from * * @return this returns true if the HTTP message header exists */ public boolean contains(String name) { return response.contains(name); } /** * This can be used to get the value of the first message header * that has the specified name. This will return the full string * representing the named header value. If the named header does * not exist then this will return a null value. * * @param name the HTTP message header to get the value from * * @return this returns the value that the HTTP message header */ public String getValue(String name) { return response.getValue(name); } /** * This can be used to get the value of the first message header * that has the specified name. This will return the integer * representing the named header value. If the named header does * not exist then this will return a value of minus one, -1. * * @param name the HTTP message header to get the value from * * @return this returns the value that the HTTP message header */ public int getInteger(String name) { return response.getInteger(name); } /** * This can be used to get the value of the first message header * that has the specified name. This will return the long value * representing the named header value. If the named header does * not exist then this will return a value of minus one, -1. * * @param name the HTTP message header to get the value from * * @return this returns the value that the HTTP message header */ public long getDate(String name) { return response.getDate(name); } /** * This can be used to get the values of HTTP message headers * that have the specified name. This is a convenience method that * will present that values as tokens extracted from the header. * This has obvious performance benefits as it avoids having to * deal with substring and trim calls. *

* The tokens returned by this method are ordered according to * there HTTP quality values, or "q" values, see RFC 2616 section * 3.9. This also strips out the quality parameter from tokens * returned. So "image/html; q=0.9" results in "image/html". If * there are no "q" values present then order is by appearance. *

* The result from this is either the trimmed header value, that * is, the header value with no leading or trailing whitespace * or an array of trimmed tokens ordered with the most preferred * in the lower indexes, so index 0 is has highest preference. * * @param name the name of the headers that are to be retrieved * * @return ordered list of tokens extracted from the header(s) */ public List getValues(String name) { return response.getValues(name); } /** * The setCookie method is used to set a cookie value * with the cookie name. This will add a cookie to the response * stored under the name of the cookie, when this is committed it * will be added as a Set-Cookie header to the resulting response. * * @param cookie this is the cookie to be added to the response * * @return returns the cookie that has been set in the response */ public Cookie setCookie(Cookie cookie) { return response.setCookie(cookie); } /** * The setCookie method is used to set a cookie value * with the cookie name. This will add a cookie to the response * stored under the name of the cookie, when this is committed it * will be added as a Set-Cookie header to the resulting response. * This is a convenience method that avoids cookie creation. * * @param name this is the cookie to be added to the response * @param value this is the cookie value that is to be used * * @return returns the cookie that has been set in the response */ public Cookie setCookie(String name, String value) { return response.setCookie(name, value); } /** * This returns the Cookie object stored under the * specified name. This is used to retrieve cookies that have been * set with the setCookie methods. If the cookie does * not exist under the specified name this will return null. * * @param name this is the name of the cookie to be retrieved * * @return returns the cookie object send with the request */ public Cookie getCookie(String name) { return response.getCookie(name); } /** * This returns all Cookie objects stored under the * specified name. This is used to retrieve cookies that have been * set with the setCookie methods. If there are no * cookies then this will return an empty list. * * @return returns all the cookie objects for this response */ public List getCookies() { return response.getCookies(); } /** * This is a convenience method that can be used to determine the * content type of the message body. This will determine whether * there is a Content-Type header, if there is then * this will parse that header and represent it as a typed object * which will expose the various parts of the HTTP header. * * @return this returns the content type value if it exists */ public ContentType getContentType() { return response.getContentType(); } /** * This is a convenience method that can be used to determine the * content type of the message body. This will determine whether * there is a Transfer-Encoding header, if there is * then this will parse that header and return the first token in * the comma separated list of values, which is the primary value. * * @return this returns the transfer encoding value if it exists */ public String getTransferEncoding() { return response.getTransferEncoding(); } /** * This is a convenience method that can be used to determine * the length of the message body. This will determine if there * is a Content-Length header, if it does then the * length can be determined, if not then this returns -1. * * @return content length, or -1 if it cannot be determined */ public int getContentLength() { return response.getContentLength(); } /** * This should be used when the size of the message body is known. For * performance reasons this should be used so the length of the output * is known. This ensures that Persistent HTTP (PHTTP) connections * can be maintained for both HTTP/1.0 and HTTP/1.1 clients. If the * length of the output is not known HTTP/1.0 clients will require a * connection close, which reduces performance (see RFC 2616). *

* This removes any previous Content-Length headers from the message * header. This will then set the appropriate Content-Length header with * the correct length. If a the Connection header is set with the close * token then the semantics of the connection are such that the server * will close it once the OutputStream.close is used. * * @param length this is the length of the HTTP message body */ public void setContentLength(int length) { response.setContentLength(length); } /** * Used to write a message body with the Response. The * semantics of this OutputStream will be determined * by the HTTP version of the client, and whether or not the content * length has been set, through the setContentLength * method. If the length of the output is not known then the output * is chunked for HTTP/1.1 clients and closed for HTTP/1.0 clients. * The OutputStream issued must be thread safe so that * it can be used in a concurrent environment. * * @exception IOException this is thrown if there was an I/O error * * @return an output stream used to write the response body */ public OutputStream getOutputStream() throws IOException { return response.getOutputStream(); } /** * Used to write a message body with the Response. The * semantics of this OutputStream will be determined * by the HTTP version of the client, and whether or not the content * length has been set, through the setContentLength * method. If the length of the output is not known then the output * is chunked for HTTP/1.1 clients and closed for HTTP/1.0 clients. * The OutputStream issued must be thread safe so that * it can be used in a concurrent environment. *

* This will ensure that there is buffering done so that the output * can be reset using the reset method. This will * enable the specified number of bytes to be written without * committing the response. This specified size is the minimum size * that the response buffer must be. * * @param size the minimum size that the response buffer must be * * @return an output stream used to write the response body * * @exception IOException this is thrown if there was an I/O error */ public OutputStream getOutputStream(int size) throws IOException { return response.getOutputStream(size); } /** * This method is provided for convenience so that the HTTP content * can be written using the print methods provided by * the PrintStream. This will basically wrap the * getOutputStream with a buffer size of zero. *

* The retrieved PrintStream uses the charset used to * describe the content, with the Content-Type header. This will * check the charset parameter of the contents MIME type. So if * the Content-Type was text/plain; charset=UTF-8 the * resulting PrintStream would encode the written data * using the UTF-8 encoding scheme. Care must be taken to ensure * that bytes written to the stream are correctly encoded. *

* Implementations of the Response must guarantee * that this can be invoked repeatedly without effecting any issued * OutputStream or PrintStream object. * * @return a print stream used for writing the response body * * @exception IOException this is thrown if there was an I/O error */ public PrintStream getPrintStream() throws IOException { return response.getPrintStream(); } /** * This method is provided for convenience so that the HTTP content * can be written using the print methods provided by * the PrintStream. This will basically wrap the * getOutputStream with a specified buffer size. *

* The retrieved PrintStream uses the charset used to * describe the content, with the Content-Type header. This will * check the charset parameter of the contents MIME type. So if * the Content-Type was text/plain; charset=UTF-8 the * resulting PrintStream would encode the written data * using the UTF-8 encoding scheme. Care must be taken to ensure * that bytes written to the stream are correctly encoded. *

* Implementations of the Response must guarantee * that this can be invoked repeatedly without effecting any issued * OutputStream or PrintStream object. * * @param size the minimum size that the response buffer must be * * @return a print stream used for writing the response body * * @exception IOException this is thrown if there was an I/O error */ public PrintStream getPrintStream(int size) throws IOException { return response.getPrintStream(size); } /** * Used to write a message body with the Response. The * semantics of this WritableByteChannel are determined * by the HTTP version of the client, and whether or not the content * length has been set, through the setContentLength * method. If the length of the output is not known then the output * is chunked for HTTP/1.1 clients and closed for HTTP/1.0 clients. * * @return a writable byte channel used to write the message body */ public WritableByteChannel getByteChannel() throws IOException { return response.getByteChannel(); } /** * Used to write a message body with the Response. The * semantics of this WritableByteChannel are determined * by the HTTP version of the client, and whether or not the content * length has been set, through the setContentLength * method. If the length of the output is not known then the output * is chunked for HTTP/1.1 clients and closed for HTTP/1.0 clients. *

* This will ensure that there is buffering done so that the output * can be reset using the reset method. This will * enable the specified number of bytes to be written without * committing the response. This specified size is the minimum size * that the response buffer must be. * * @param size the minimum size that the response buffer must be * * @return a writable byte channel used to write the message body */ public WritableByteChannel getByteChannel(int size) throws IOException { return response.getByteChannel(size); } /** * This can be used to determine whether the Response * has been committed. This is true if the Response * was committed, either due to an explicit invocation of the * commit method or due to the writing of content. If * the Response has committed the reset * method will not work in resetting content already written. * * @return true if the response has been fully committed */ public boolean isCommitted() { return response.isCommitted(); } /** * This is used to write the headers that where given to the * Response. Any further attempts to give headers * to the Response will be futile as only the headers * that were given at the time of the first commit will be used * in the message header. *

* This also performs some final checks on the headers submitted. * This is done to determine the optimal performance of the * output. If no specific Connection header has been specified * this will set the connection so that HTTP/1.0 closes by default. * * @exception IOException thrown if there was a problem writing */ public void commit() throws IOException { response.commit(); } /** * This can be used to determine whether the Response * has been committed. This is true if the Response * was committed, either due to an explicit invocation of the * commit method or due to the writing of content. If * the Response has committed the reset * method will not work in resetting content already written. * * @throws IOException thrown if there is a problem resetting */ public void reset() throws IOException { response.reset(); } /** * This is used to close the connection and commit the request. * This provides the same semantics as closing the output stream * and ensures that the HTTP response is committed. This will * throw an exception if the response can not be committed. * * @throws IOException thrown if there is a problem writing */ public void close() throws IOException { response.close(); } }