/*
* ====================================================================
*
* The Apache Software License, Version 1.1
*
* Copyright (c) 1999 The Apache Software Foundation. All rights
* reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
*
* 3. The end-user documentation included with the redistribution, if
* any, must include the following acknowlegement:
* "This product includes software developed by the
* Apache Software Foundation (http://www.apache.org/)."
* Alternately, this acknowlegement may appear in the software itself,
* if and wherever such third-party acknowlegements normally appear.
*
* 4. The names "The Jakarta Project", "Tomcat", and "Apache Software
* Foundation" must not be used to endorse or promote products derived
* from this software without prior written permission. For written
* permission, please contact apache@apache.org.
*
* 5. Products derived from this software may not be called "Apache"
* nor may "Apache" appear in their names without prior written
* permission of the Apache Group.
*
* THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESSED OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE APACHE SOFTWARE FOUNDATION OR
* ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
* USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
* OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
* ====================================================================
*
* This software consists of voluntary contributions made by many
* individuals on behalf of the Apache Software Foundation. For more
* information on the Apache Software Foundation, please see
* <http://www.apache.org/>.
*
* [Additional notices, if required by prior licensing conditions]
*
*/
package org.apache.coyote.http11;
import java.io.EOFException;
import java.io.InterruptedIOException;
import java.io.InputStream;
import java.io.IOException;
import java.io.OutputStream;
import java.net.Socket;
import java.net.InetAddress;
import org.apache.tomcat.util.buf.ByteChunk;
import org.apache.tomcat.util.buf.MessageBytes;
import org.apache.tomcat.util.http.FastHttpDateFormat;
import org.apache.tomcat.util.http.MimeHeaders;
import org.apache.tomcat.util.buf.Ascii;
import org.apache.tomcat.util.buf.HexUtils;
import org.apache.tomcat.util.net.SSLSupport;
import org.apache.coyote.ActionHook;
import org.apache.coyote.ActionCode;
import org.apache.coyote.Adapter;
import org.apache.coyote.InputBuffer;
import org.apache.coyote.OutputBuffer;
import org.apache.coyote.Processor;
import org.apache.coyote.Request;
import org.apache.coyote.Response;
import org.apache.coyote.http11.filters.ChunkedInputFilter;
import org.apache.coyote.http11.filters.ChunkedOutputFilter;
//import org.apache.coyote.http11.filters.GzipInputFilter;
import org.apache.coyote.http11.filters.GzipOutputFilter;
import org.apache.coyote.http11.filters.IdentityInputFilter;
import org.apache.coyote.http11.filters.IdentityOutputFilter;
import org.apache.coyote.http11.filters.VoidInputFilter;
import org.apache.coyote.http11.filters.VoidOutputFilter;
/**
* Processes HTTP requests.
*
* @author Remy Maucherat
*/
public class Http11Processor implements Processor, ActionHook {
// ----------------------------------------------------------- Constructors
/**
* Default constructor.
*/
public Http11Processor() {
request = new Request();
inputBuffer = new InternalInputBuffer(request);
request.setInputBuffer(inputBuffer);
response = new Response();
response.setHook(this);
outputBuffer = new InternalOutputBuffer(response);
response.setOutputBuffer(outputBuffer);
request.setResponse(response);
initializeFilters();
}
// ----------------------------------------------------- Instance Variables
/**
* Associated adapter.
*/
protected Adapter adapter = null;
/**
* Request object.
*/
protected Request request = null;
/**
* Response object.
*/
protected Response response = null;
/**
* Input.
*/
protected InternalInputBuffer inputBuffer = null;
/**
* Output.
*/
protected InternalOutputBuffer outputBuffer = null;
/**
* State flag.
*/
protected boolean started = false;
/**
* Error flag.
*/
protected boolean error = false;
/**
* Keep-alive.
*/
protected boolean keepAlive = true;
/**
* HTTP/1.1 flag.
*/
protected boolean http11 = true;
/**
* HTTP/0.9 flag.
*/
protected boolean http09 = false;
/**
* Content delimitator for the request (if false, the connection will
* be closed at the end of the request).
*/
protected boolean contentDelimitation = true;
/**
* List of restricted user agents.
*/
protected String[] restrictedUserAgents = null;
/**
* Logger.
*/
protected static org.apache.commons.logging.Log log
= org.apache.commons.logging.LogFactory.getLog(Http11Processor.class);
/**
* Maximum number of Keep-Alive requests to honor.
*/
protected int maxKeepAliveRequests = -1;
/**
* SSL information.
*/
protected SSLSupport sslSupport;
/**
* Socket associated with the current connection.
*/
protected Socket socket;
/**
* Remote Address associated with the current connection.
*/
protected String remoteAddr = null;
/**
* Remote Host associated with the current connection.
*/
protected String remoteHost = null;
/**
* Maximum timeout on uploads.
*/
protected int timeout = 300000; // 5 minutes as in Apache HTTPD server
/**
* Flag to disable setting a different time-out on uploads.
*/
protected boolean disableUploadTimeout = false;
/**
* Allowed compression level.
*/
protected int compressionLevel = 0;
/**
* Minimum contentsize to make compression.
*/
protected int compressionMinSize = 2048;
/**
* List of user agents to not use gzip with
*/
protected String[] noCompressionUserAgents = null;
/**
* List of MIMES which could be gzipped
*/
protected String[] compressableMimeTypes = { "text/html", "text/xml", "text/plain" };
/**
* Host name (used to avoid useless B2C conversion on the host name).
*/
protected char[] hostNameC = new char[0];
// ------------------------------------------------------------- Properties
/**
* Return compression level.
*/
public String getCompression() {
switch (compressionLevel) {
case 0:
return "off";
case 1:
return "on";
case 2:
return "force";
}
return "off";
}
/**
* Set compression level.
*/
public void setCompression(String compression) {
if (compression.equals("on")) {
this.compressionLevel = 1;
} else if (compression.equals("force")) {
this.compressionLevel = 2;
} else if (compression.equals("off")) {
this.compressionLevel = 0;
} else {
try {
// Try to parse compression as an int, which would give the
// minimum compression size
compressionMinSize = Integer.parseInt(compression);
this.compressionLevel = 1;
} catch (Exception e) {
this.compressionLevel = 0;
}
}
}
/**
* Add user-agent for which gzip compression didn't works
* The user agent String given will be exactly matched
* to the user-agent header submitted by the client.
*
* @param userAgent user-agent string
*/
public void addNoCompressionUserAgent(String userAgent) {
addStringArray(noCompressionUserAgents, userAgent);
}
/**
* Set no compression user agent list (this method is best when used with
* a large number of connectors, where it would be better to have all of
* them referenced a single array).
*/
public void setNoCompressionUserAgents(String[] noCompressionUserAgents) {
this.noCompressionUserAgents = noCompressionUserAgents;
}
/**
* Return the list of no compression user agents.
*/
public String[] findNoCompressionUserAgents() {
return (noCompressionUserAgents);
}
/**
* Add a mime-type which will be compressable
* The mime-type String will be exactly matched
* in the response mime-type header .
*
* @param userAgent user-agent string
*/
public void addCompressableMimeType(String mimeType) {
addStringArray(compressableMimeTypes, mimeType);
}
/**
* Set compressable mime-type list (this method is best when used with
* a large number of connectors, where it would be better to have all of
* them referenced a single array).
*/
public void setCompressableMimeType(String[] compressableMimeTypes) {
this.compressableMimeTypes = compressableMimeTypes;
}
/**
* Return the list of restricted user agents.
*/
public String[] findCompressableMimeTypes() {
return (compressableMimeTypes);
}
// --------------------------------------------------------- Public Methods
/**
* Add input or output filter.
*
* @param className class name of the filter
*/
protected void addFilter(String className) {
try {
Class clazz = Class.forName(className);
Object obj = clazz.newInstance();
if (obj instanceof InputFilter) {
inputBuffer.addFilter((InputFilter) obj);
} else if (obj instanceof OutputFilter) {
outputBuffer.addFilter((OutputFilter) obj);
} else {
// Not a valid filter: log and ignore
}
} catch (Exception e) {
// Log and ignore
}
}
/**
* General use method
*
* @param sArray the StringArray
* @param value string
*/
private void addStringArray(String sArray[], String value) {
if (sArray == null)
sArray = new String[0];
String[] results = new String[sArray.length + 1];
for (int i = 0; i < sArray.length; i++)
results[i] = sArray[i];
results[sArray.length] = value;
sArray = results;
}
/**
* General use method
*
* @param sArray the StringArray
* @param value string
*/
private boolean inStringArray(String sArray[], String value) {
for (int i = 0; i < sArray.length; i++) {
if (sArray[i].equals(value)) {
return true;
}
}
return false;
}
/**
* Add restricted user-agent (which will downgrade the connector
* to HTTP/1.0 mode). The user agent String given will be exactly matched
* to the user-agent header submitted by the client.
*
* @param userAgent user-agent string
*/
public void addRestrictedUserAgent(String userAgent) {
addStringArray(restrictedUserAgents, userAgent);
}
/**
* Set restricted user agent list (this method is best when used with
* a large number of connectors, where it would be better to have all of
* them referenced a single array).
*/
public void setRestrictedUserAgents(String[] restrictedUserAgents) {
this.restrictedUserAgents = restrictedUserAgents;
}
/**
* Return the list of restricted user agents.
*/
public String[] findRestrictedUserAgents() {
return (restrictedUserAgents);
}
/**
* Set the maximum number of Keep-Alive requests to honor.
* This is to safeguard from DoS attacks. Setting to a negative
* value disables the check.
*/
public void setMaxKeepAliveRequests(int mkar) {
maxKeepAliveRequests = mkar;
}
/**
* Return the number of Keep-Alive requests that we will honor.
*/
public int getMaxKeepAliveRequests() {
return maxKeepAliveRequests;
}
/**
* Set the SSL information for this HTTP connection.
*/
public void setSSLSupport(SSLSupport sslSupport) {
this.sslSupport = sslSupport;
}
/**
* Set the socket associated with this HTTP connection.
*/
public void setSocket(Socket socket)
throws IOException {
this.socket = socket;
}
/**
* Set the flag to control upload time-outs.
*/
public void setDisableUploadTimeout(boolean isDisabled) {
disableUploadTimeout = isDisabled;
}
/**
* Get the flag that controls upload time-outs.
*/
public boolean getDisableUploadTimeout() {
return disableUploadTimeout;
}
/**
* Set the upload timeout.
*/
public void setTimeout( int timeouts ) {
timeout = timeouts ;
}
/**
* Get the upload timeout.
*/
public int getTimeout() {
return timeout;
}
/**
* Process pipelined HTTP requests using the specified input and output
* streams.
*
* @param inputStream stream from which the HTTP requests will be read
* @param outputStream stream which will be used to output the HTTP
* responses
* @throws IOException error during an I/O operation
*/
public void process(InputStream input, OutputStream output)
throws IOException {
// Set the remote address
remoteAddr = null;
remoteHost = null;
// Setting up the I/O
inputBuffer.setInputStream(input);
outputBuffer.setOutputStream(output);
// Error flag
error = false;
keepAlive = true;
int keepAliveLeft = maxKeepAliveRequests;
int soTimeout = socket.getSoTimeout();
boolean keptAlive = false;
while (started && !error && keepAlive) {
try {
if( !disableUploadTimeout && keptAlive && soTimeout > 0 ) {
socket.setSoTimeout(soTimeout);
}
inputBuffer.parseRequestLine();
keptAlive = true;
if (!disableUploadTimeout) {
socket.setSoTimeout(timeout);
}
inputBuffer.parseHeaders();
} catch (IOException e) {
error = true;
break;
} catch (Exception e) {
log.warn("Error parsing HTTP request", e);
// 500 - Bad Request
response.setStatus(400);
error = true;
}
// Setting up filters, and parse some request headers
prepareRequest();
if (maxKeepAliveRequests > 0 && --keepAliveLeft == 0)
keepAlive = false;
// Process the request in the adapter
if (!error) {
try {
adapter.service(request, response);
} catch (InterruptedIOException e) {
error = true;
} catch (Throwable t) {
log.error("Error processing request", t);
// 500 - Internal Server Error
response.setStatus(500);
error = true;
}
}
// Finish the handling of the request
try {
inputBuffer.endRequest();
} catch (IOException e) {
error = true;
} catch (Throwable t) {
log.error("Error finishing request", t);
// 500 - Internal Server Error
response.setStatus(500);
error = true;
}
try {
outputBuffer.endRequest();
} catch (IOException e) {
error = true;
} catch (Throwable t) {
log.error("Error finishing response", t);
error = true;
}
// Next request
inputBuffer.nextRequest();
outputBuffer.nextRequest();
}
// Recycle
inputBuffer.recycle();
outputBuffer.recycle();
// Recycle ssl info
sslSupport = null;
}
// ----------------------------------------------------- ActionHook Methods
/**
* Send an action to the connector.
*
* @param actionCode Type of the action
* @param param Action parameter
*/
public void action(ActionCode actionCode, Object param) {
if (actionCode == ActionCode.ACTION_COMMIT) {
// Commit current response
if (response.isCommitted())
return;
// Validate and write response headers
prepareResponse();
try {
outputBuffer.commit();
} catch (IOException e) {
// Set error flag
error = true;
}
} else if (actionCode == ActionCode.ACTION_ACK) {
// Acknowlege request
// Send a 100 status back if it makes sense (response not committed
// yet, and client specified an expectation for 100-continue)
if (response.isCommitted())
return;
MessageBytes expectMB =
request.getMimeHeaders().getValue("expect");
if ((expectMB != null)
&& (expectMB.indexOfIgnoreCase("100-continue", 0) != -1)) {
try {
outputBuffer.sendAck();
} catch (IOException e) {
// Set error flag
error = true;
}
}
} else if (actionCode == ActionCode.ACTION_CLOSE) {
// Close
// End the processing of the current request, and stop any further
// transactions with the client
try {
outputBuffer.endRequest();
} catch (IOException e) {
// Set error flag
error = true;
}
} else if (actionCode == ActionCode.ACTION_RESET) {
// Reset response
// Note: This must be called before the response is committed
outputBuffer.reset();
} else if (actionCode == ActionCode.ACTION_CUSTOM) {
// Do nothing
} else if (actionCode == ActionCode.ACTION_START) {
started = true;
} else if (actionCode == ActionCode.ACTION_STOP) {
started = false;
} else if (actionCode == ActionCode.ACTION_REQ_SSL_ATTRIBUTE ) {
try {
if (sslSupport != null) {
Object sslO = sslSupport.getCipherSuite();
if (sslO != null)
request.setAttribute
(SSLSupport.CIPHER_SUITE_KEY, sslO);
sslO = sslSupport.getPeerCertificateChain(false);
if (sslO != null)
request.setAttribute
(SSLSupport.CERTIFICATE_KEY, sslO);
sslO = sslSupport.getKeySize();
if (sslO != null)
request.setAttribute
(SSLSupport.KEY_SIZE_KEY, sslO);
sslO = sslSupport.getSessionId();
if (sslO != null)
request.setAttribute
(SSLSupport.SESSION_ID_KEY, sslO);
}
} catch (Exception e) {
log.warn("Exception getting SSL attributes " ,e);
}
} else if (actionCode == ActionCode.ACTION_REQ_HOST_ADDR_ATTRIBUTE) {
if (remoteAddr == null) {
remoteAddr = socket.getInetAddress().getHostAddress();
request.remoteAddr().setString(remoteAddr);
}
} else if (actionCode == ActionCode.ACTION_REQ_HOST_ATTRIBUTE) {
if (remoteAddr == null) {
remoteAddr = socket.getInetAddress().getHostAddress();
request.remoteAddr().setString(remoteAddr);
}
if (remoteHost == null) {
remoteHost = socket.getInetAddress().getHostName();
request.remoteHost().setString(remoteHost);
}
} else if (actionCode == ActionCode.ACTION_REQ_SSL_CERTIFICATE) {
try {
Object sslO = sslSupport.getPeerCertificateChain(true);
if( sslO != null) {
request.setAttribute
(SSLSupport.CERTIFICATE_KEY, sslO);
}
} catch (Exception e) {
log.warn("Exception getting SSL Cert",e);
}
}
}
// ------------------------------------------------------ Connector Methods
/**
* Set the associated adapter.
*
* @param adapter the new adapter
*/
public void setAdapter(Adapter adapter) {
this.adapter = adapter;
}
/**
* Get the associated adapter.
*
* @return the associated adapter
*/
public Adapter getAdapter() {
return adapter;
}
// ------------------------------------------------------ Protected Methods
/**
* After reading the request headers, we have to setup the request filters.
*/
protected void prepareRequest() {
http11 = true;
http09 = false;
contentDelimitation = false;
if (sslSupport != null) {
request.scheme().setString("https");
}
MessageBytes protocolMB = request.protocol();
if (protocolMB.equals(Constants.HTTP_11)) {
http11 = true;
protocolMB.setString(Constants.HTTP_11);
} else if (protocolMB.equals(Constants.HTTP_10)) {
http11 = false;
keepAlive = false;
protocolMB.setString(Constants.HTTP_10);
} else if (protocolMB.equals("")) {
// HTTP/0.9
http09 = true;
http11 = false;
keepAlive = false;
} else {
// Unsupported protocol
http11 = false;
error = true;
// Send 505; Unsupported HTTP version
response.setStatus(505);
}
MessageBytes methodMB = request.method();
if (methodMB.equals(Constants.GET)) {
methodMB.setString(Constants.GET);
} else if (methodMB.equals(Constants.POST)) {
methodMB.setString(Constants.POST);
}
// Check connection header
MessageBytes connectionValueMB =
request.getMimeHeaders().getValue("connection");
if (connectionValueMB != null) {
ByteChunk connectionValueBC = connectionValueMB.getByteChunk();
if (findBytes(connectionValueBC, Constants.CLOSE_BYTES) != -1) {
keepAlive = false;
} else if (findBytes(connectionValueBC,
Constants.KEEPALIVE_BYTES) != -1) {
keepAlive = true;
}
}
// Check user-agent header
if ((restrictedUserAgents != null) && ((http11) || (keepAlive))) {
MessageBytes userAgentValueMB =
request.getMimeHeaders().getValue("user-agent");
// Check in the restricted list, and adjust the http11
// and keepAlive flags accordingly
String userAgentValue = userAgentValueMB.toString();
for (int i = 0; i < restrictedUserAgents.length; i++) {
if (restrictedUserAgents[i].equals(userAgentValue)) {
http11 = false;
keepAlive = false;
}
}
}
// Check for a full URI (including protocol://host:port/)
ByteChunk uriBC = request.requestURI().getByteChunk();
if (uriBC.startsWithIgnoreCase("http", 0)) {
int pos = uriBC.indexOf("://", 0, 3, 4);
int uriBCStart = uriBC.getStart();
int slashPos = -1;
if (pos != -1) {
byte[] uriB = uriBC.getBytes();
slashPos = uriBC.indexOf('/', pos + 3);
if (slashPos == -1) {
slashPos = uriBC.getLength();
// Set URI as "/"
request.requestURI().setBytes
(uriB, uriBCStart + pos + 1, 1);
} else {
request.requestURI().setBytes
(uriB, uriBCStart + slashPos,
uriBC.getLength() - slashPos);
}
MessageBytes hostMB =
request.getMimeHeaders().setValue("host");
hostMB.setBytes(uriB, uriBCStart + pos + 3,
slashPos - pos - 3);
}
}
// Input filter setup
InputFilter[] inputFilters = inputBuffer.getFilters();
// Parse content-length header
int contentLength = request.getContentLength();
if (contentLength >= 0) {
inputBuffer.addActiveFilter
(inputFilters[Constants.IDENTITY_FILTER]);
contentDelimitation = true;
}
// Parse transfer-encoding header
MessageBytes transferEncodingValueMB = null;
if (http11)
transferEncodingValueMB =
request.getMimeHeaders().getValue("transfer-encoding");
if (transferEncodingValueMB != null) {
String transferEncodingValue = transferEncodingValueMB.toString();
// Parse the comma separated list. "identity" codings are ignored
int startPos = 0;
int commaPos = transferEncodingValue.indexOf(',');
String encodingName = null;
while (commaPos != -1) {
encodingName = transferEncodingValue.substring
(startPos, commaPos).toLowerCase().trim();
if (!addInputFilter(inputFilters, encodingName)) {
// Unsupported transfer encoding
error = true;
// 501 - Unimplemented
response.setStatus(501);
}
startPos = commaPos + 1;
commaPos = transferEncodingValue.indexOf(',', startPos);
}
encodingName = transferEncodingValue.substring(startPos)
.toLowerCase().trim();
if (!addInputFilter(inputFilters, encodingName)) {
// Unsupported transfer encoding
error = true;
// 501 - Unimplemented
response.setStatus(501);
}
}
MessageBytes valueMB = request.getMimeHeaders().getValue("host");
// Check host header
if (http11 && (valueMB == null)) {
error = true;
// 400 - Bad request
response.setStatus(400);
}
parseHost(valueMB);
if (!contentDelimitation) {
// If there's no content length and we're using keep-alive
// (HTTP/1.0 with keep-alive or HTTP/1.1), assume
// the client is not broken and didn't send a body
if (keepAlive) {
inputBuffer.addActiveFilter
(inputFilters[Constants.VOID_FILTER]);
contentDelimitation = true;
}
}
if (!contentDelimitation)
keepAlive = false;
}
/**
* Parse host.
*/
public void parseHost(MessageBytes valueMB) {
if (valueMB == null || valueMB.isNull()) {
// HTTP/1.0
// Default is what the socket tells us. Overriden if a host is
// found/parsed
request.setServerPort(socket.getLocalPort());
InetAddress localAddress = socket.getLocalAddress();
// Setting the socket-related fields. The adapter doesn't know
// about socket.
request.setLocalHost(localAddress.getHostName());
request.serverName().setString(localAddress.getHostName());
return;
}
ByteChunk valueBC = valueMB.getByteChunk();
byte[] valueB = valueBC.getBytes();
int valueL = valueBC.getLength();
int valueS = valueBC.getStart();
int colonPos = -1;
if (hostNameC.length < valueL) {
hostNameC = new char[valueL];
}
for (int i = 0; i < valueL; i++) {
char b = (char) valueB[i + valueS];
hostNameC[i] = b;
if (b == ':') {
colonPos = i;
break;
}
}
if (colonPos < 0) {
if (sslSupport == null) {
// 80 - Default HTTTP port
request.setServerPort(80);
} else {
// 443 - Default HTTPS port
request.setServerPort(443);
}
request.serverName().setChars(hostNameC, 0, valueL);
} else {
request.serverName().setChars(hostNameC, 0, colonPos);
int port = 0;
int mult = 1;
for (int i = valueL - 1; i > colonPos; i--) {
int charValue = HexUtils.DEC[(int) valueB[i + valueS]];
if (charValue == -1) {
// Invalid character
error = true;
// 400 - Bad request
response.setStatus(400);
break;
}
port = port + (charValue * mult);
mult = 10 * mult;
}
request.setServerPort(port);
}
}
/*
* Check for compression
*
*/
private boolean isCompressable()
{
// Compression only since HTTP 1.1
if (! http11)
return false;
// Check if browser support gzip encoding
MessageBytes acceptEncodingMB =
request.getMimeHeaders().getValue("accept-encoding");
if ((acceptEncodingMB == null)
|| (acceptEncodingMB.indexOf("gzip") == -1))
return false;
// Check if content is not allready gzipped
MessageBytes contentEncodingMB =
response.getMimeHeaders().getValue("Content-Encoding");
if ((contentEncodingMB != null)
&& (contentEncodingMB.indexOf("gzip") != -1))
return false;
// If force mode, allways compress (test purposes only)
if (compressionLevel == 2)
return true;
// Check for incompatible Browser
if (noCompressionUserAgents != null) {
MessageBytes userAgentValueMB =
request.getMimeHeaders().getValue("user-agent");
String userAgentValue = userAgentValueMB.toString();
if (inStringArray(noCompressionUserAgents, userAgentValue))
return false;
}
// Check if suffisant len to trig the compression
int contentLength = response.getContentLength();
if ((contentLength == -1)
|| (contentLength > compressionMinSize)) {
// Check for compatible MIME-TYPE
if (compressableMimeTypes != null)
return (inStringArray(compressableMimeTypes, response.getContentType()));
}
return false;
}
/**
* When committing the response, we have to validate the set of headers, as
* well as setup the response filters.
*/
protected void prepareResponse() {
boolean entityBody = true;
contentDelimitation = false;
OutputFilter[] outputFilters = outputBuffer.getFilters();
if (http09 == true) {
// HTTP/0.9
outputBuffer.addActiveFilter
(outputFilters[Constants.IDENTITY_FILTER]);
return;
}
int statusCode = response.getStatus();
if ((statusCode == 204) || (statusCode == 205)
|| (statusCode == 304)) {
// No entity body
outputBuffer.addActiveFilter
(outputFilters[Constants.VOID_FILTER]);
entityBody = false;
contentDelimitation = true;
}
MessageBytes methodMB = request.method();
if (methodMB.equals("HEAD")) {
// No entity body
outputBuffer.addActiveFilter
(outputFilters[Constants.VOID_FILTER]);
contentDelimitation = true;
}
// Check for compression
boolean useCompression = false;
if (entityBody && (compressionLevel > 0)) {
useCompression = isCompressable();
// Change content-length to -1 to force chunking
if (useCompression) {
response.setContentLength(-1);
}
}
MimeHeaders headers = response.getMimeHeaders();
if (!entityBody) {
response.setContentLength(-1);
} else {
String contentType = response.getContentType();
if (contentType != null) {
headers.setValue("Content-Type").setString(contentType);
}
String contentLanguage = response.getContentLanguage();
if (contentLanguage != null) {
headers.setValue("Content-Language")
.setString(contentLanguage);
}
}
int contentLength = response.getContentLength();
if (contentLength != -1) {
response.getMimeHeaders().setValue("Content-Length")
.setInt(contentLength);
outputBuffer.addActiveFilter
(outputFilters[Constants.IDENTITY_FILTER]);
contentDelimitation = true;
} else {
if (entityBody && http11) {
outputBuffer.addActiveFilter
(outputFilters[Constants.CHUNKED_FILTER]);
contentDelimitation = true;
response.addHeader("Transfer-Encoding", "chunked");
}
}
if (useCompression) {
outputBuffer.addActiveFilter(outputFilters[Constants.GZIP_FILTER]);
// FIXME: Make content-encoding generation dynamic
response.setHeader("Content-Encoding", "gzip");
// Make Proxies happy via Vary (from mod_deflate)
response.setHeader("Vary", "Accept-Encoding");
}
// Add date header
if (! response.containsHeader("Date"))
response.addHeader("Date", FastHttpDateFormat.getCurrentDate());
// Add server header
response.addHeader("Server", Constants.SERVER);
// Add transfer encoding header
// FIXME
if ((entityBody) && (!contentDelimitation)) {
// Mark as close the connection after the request, and add the
// connection: close header
keepAlive = false;
}
if (!keepAlive) {
response.addHeader("Connection", "close");
} else if (!http11) {
response.addHeader("Connection", "Keep-Alive");
}
// Build the response header
outputBuffer.sendStatus();
int size = headers.size();
for (int i = 0; i < size; i++) {
outputBuffer.sendHeader(headers.getName(i), headers.getValue(i));
}
outputBuffer.endHeaders();
}
/**
* Initialize standard input and output filters.
*/
protected void initializeFilters() {
// Create and add the identity filters.
inputBuffer.addFilter(new IdentityInputFilter());
outputBuffer.addFilter(new IdentityOutputFilter());
// Create and add the chunked filters.
inputBuffer.addFilter(new ChunkedInputFilter());
outputBuffer.addFilter(new ChunkedOutputFilter());
// Create and add the void filters.
inputBuffer.addFilter(new VoidInputFilter());
outputBuffer.addFilter(new VoidOutputFilter());
// Create and add the chunked filters.
//inputBuffer.addFilter(new GzipInputFilter());
outputBuffer.addFilter(new GzipOutputFilter());
}
/**
* Add an input filter to the current request.
*
* @return false if the encoding was not found (which would mean it is
* unsupported)
*/
protected boolean addInputFilter(InputFilter[] inputFilters,
String encodingName) {
if (encodingName.equals("identity")) {
// Skip
} else if (encodingName.equals("chunked")) {
inputBuffer.addActiveFilter
(inputFilters[Constants.CHUNKED_FILTER]);
contentDelimitation = true;
} else {
for (int i = 2; i < inputFilters.length; i++) {
if (inputFilters[i].getEncodingName()
.toString().equals(encodingName)) {
inputBuffer.addActiveFilter(inputFilters[i]);
return true;
}
}
return false;
}
return true;
}
/**
* Specialized utility method: find a sequence of lower case bytes inside
* a ByteChunk.
*/
protected int findBytes(ByteChunk bc, byte[] b) {
byte first = b[0];
byte[] buff = bc.getBuffer();
int start = bc.getStart();
int end = bc.getEnd();
// Look for first char
int srcEnd = b.length;
for (int i = start; i <= (end - srcEnd); i++) {
if (Ascii.toLower(buff[i]) != first) continue;
// found first char, now look for a match
int myPos = i+1;
for (int srcPos = 1; srcPos < srcEnd; ) {
if (Ascii.toLower(buff[myPos++]) != b[srcPos++])
break;
if (srcPos == srcEnd) return i - start; // found it
}
}
return -1;
}
}