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The Netty project is an effort to provide an asynchronous event-driven
network application framework and tools for rapid development of
maintainable high performance and high scalability protocol servers and
clients. In other words, Netty is a NIO client server framework which
enables quick and easy development of network applications such as protocol
servers and clients. It greatly simplifies and streamlines network
programming such as TCP and UDP socket server.
/*
* Copyright 2012 The Netty Project
*
* The Netty Project 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 org.jboss.netty.handler.codec.http.multipart;
import org.jboss.netty.buffer.ChannelBuffer;
import org.jboss.netty.buffer.ChannelBuffers;
import org.jboss.netty.handler.codec.http.HttpChunk;
import org.jboss.netty.handler.codec.http.HttpConstants;
import org.jboss.netty.handler.codec.http.HttpHeaders;
import org.jboss.netty.handler.codec.http.HttpRequest;
import org.jboss.netty.handler.codec.http.multipart.HttpPostBodyUtil.SeekAheadNoBackArrayException;
import org.jboss.netty.handler.codec.http.multipart.HttpPostBodyUtil.SeekAheadOptimize;
import org.jboss.netty.handler.codec.http.multipart.HttpPostBodyUtil.TransferEncodingMechanism;
import org.jboss.netty.handler.codec.http.multipart.HttpPostRequestDecoder.EndOfDataDecoderException;
import org.jboss.netty.handler.codec.http.multipart.HttpPostRequestDecoder.ErrorDataDecoderException;
import org.jboss.netty.handler.codec.http.multipart.HttpPostRequestDecoder.IncompatibleDataDecoderException;
import org.jboss.netty.handler.codec.http.multipart.HttpPostRequestDecoder.MultiPartStatus;
import org.jboss.netty.handler.codec.http.multipart.HttpPostRequestDecoder.NotEnoughDataDecoderException;
import org.jboss.netty.util.internal.CaseIgnoringComparator;
import org.jboss.netty.util.internal.StringUtil;
import java.io.IOException;
import java.nio.charset.Charset;
import java.util.ArrayList;
import java.util.List;
import java.util.Map;
import java.util.TreeMap;
/**
* This decoder will decode Body and can handle POST BODY in multipart form.
*/
@SuppressWarnings({ "deprecation", "RedundantThrowsDeclaration" })
public class HttpPostMultipartRequestDecoder implements InterfaceHttpPostRequestDecoder {
/**
* Factory used to create InterfaceHttpData
*/
private final HttpDataFactory factory;
/**
* Request to decode
*/
private final HttpRequest request;
/**
* Default charset to use
*/
private Charset charset;
/**
* Does the last chunk already received
*/
private boolean isLastChunk;
/**
* HttpDatas from Body
*/
private final List bodyListHttpData = new ArrayList();
/**
* HttpDatas as Map from Body
*/
private final Map> bodyMapHttpData = new TreeMap>(
CaseIgnoringComparator.INSTANCE);
/**
* The current channelBuffer
*/
private ChannelBuffer undecodedChunk;
/**
* Body HttpDatas current position
*/
private int bodyListHttpDataRank;
/**
* If multipart, this is the boundary for the flobal multipart
*/
private String multipartDataBoundary;
/**
* If multipart, there could be internal multiparts (mixed) to the global multipart.
* Only one level is allowed.
*/
private String multipartMixedBoundary;
/**
* Current status
*/
private MultiPartStatus currentStatus = MultiPartStatus.NOTSTARTED;
/**
* Used in Multipart
*/
private Map currentFieldAttributes;
/**
* The current FileUpload that is currently in decode process
*/
private FileUpload currentFileUpload;
/**
* The current Attribute that is currently in decode process
*/
private Attribute currentAttribute;
/**
*
* @param request the request to decode
* @throws NullPointerException for request
* @throws IncompatibleDataDecoderException if the request has no body to decode
* @throws ErrorDataDecoderException if the default charset was wrong when decoding or other errors
*/
public HttpPostMultipartRequestDecoder(HttpRequest request)
throws ErrorDataDecoderException, IncompatibleDataDecoderException {
this(new DefaultHttpDataFactory(DefaultHttpDataFactory.MINSIZE),
request, HttpConstants.DEFAULT_CHARSET);
}
/**
*
* @param factory the factory used to create InterfaceHttpData
* @param request the request to decode
* @throws NullPointerException for request or factory
* @throws IncompatibleDataDecoderException if the request has no body to decode
* @throws ErrorDataDecoderException if the default charset was wrong when decoding or other errors
*/
public HttpPostMultipartRequestDecoder(HttpDataFactory factory, HttpRequest request)
throws ErrorDataDecoderException, IncompatibleDataDecoderException {
this(factory, request, HttpConstants.DEFAULT_CHARSET);
}
/**
*
* @param factory the factory used to create InterfaceHttpData
* @param request the request to decode
* @param charset the charset to use as default
* @throws NullPointerException for request or charset or factory
* @throws IncompatibleDataDecoderException if the request has no body to decode
* @throws ErrorDataDecoderException if the default charset was wrong when decoding or other errors
*/
public HttpPostMultipartRequestDecoder(HttpDataFactory factory, HttpRequest request,
Charset charset) throws ErrorDataDecoderException,
IncompatibleDataDecoderException {
if (factory == null) {
throw new NullPointerException("factory");
}
if (request == null) {
throw new NullPointerException("request");
}
if (charset == null) {
throw new NullPointerException("charset");
}
this.request = request;
this.charset = charset;
this.factory = factory;
// Fill default values
setMultipart(this.request.headers().get(HttpHeaders.Names.CONTENT_TYPE));
if (!this.request.isChunked()) {
undecodedChunk = this.request.getContent();
isLastChunk = true;
parseBody();
}
}
/**
* Set from the request ContentType the multipartDataBoundary and the possible charset.
*/
private void setMultipart(String contentType) throws ErrorDataDecoderException {
String[] dataBoundary = HttpPostRequestDecoder.getMultipartDataBoundary(contentType);
if (dataBoundary != null) {
multipartDataBoundary = dataBoundary[0];
if (dataBoundary.length > 1 && dataBoundary[1] != null) {
charset = Charset.forName(dataBoundary[1]);
}
} else {
multipartDataBoundary = null;
}
currentStatus = MultiPartStatus.HEADERDELIMITER;
}
public boolean isMultipart() {
return true;
}
public List getBodyHttpDatas()
throws NotEnoughDataDecoderException {
if (!isLastChunk) {
throw new NotEnoughDataDecoderException();
}
return bodyListHttpData;
}
public List getBodyHttpDatas(String name)
throws NotEnoughDataDecoderException {
if (!isLastChunk) {
throw new NotEnoughDataDecoderException();
}
return bodyMapHttpData.get(name);
}
public InterfaceHttpData getBodyHttpData(String name)
throws NotEnoughDataDecoderException {
if (!isLastChunk) {
throw new NotEnoughDataDecoderException();
}
List list = bodyMapHttpData.get(name);
if (list != null) {
return list.get(0);
}
return null;
}
public void offer(HttpChunk chunk) throws ErrorDataDecoderException {
ChannelBuffer chunked = chunk.getContent();
if (undecodedChunk == null) {
undecodedChunk = chunked;
} else {
//undecodedChunk = ChannelBuffers.wrappedBuffer(undecodedChunk, chunk.getContent());
// less memory usage
undecodedChunk = ChannelBuffers.wrappedBuffer(
undecodedChunk, chunked);
}
if (chunk.isLast()) {
isLastChunk = true;
}
parseBody();
}
public boolean hasNext() throws EndOfDataDecoderException {
if (currentStatus == MultiPartStatus.EPILOGUE) {
// OK except if end of list
if (bodyListHttpDataRank >= bodyListHttpData.size()) {
throw new EndOfDataDecoderException();
}
}
return !bodyListHttpData.isEmpty() && bodyListHttpDataRank < bodyListHttpData.size();
}
public InterfaceHttpData next() throws EndOfDataDecoderException {
if (hasNext()) {
return bodyListHttpData.get(bodyListHttpDataRank++);
}
return null;
}
/**
* This method will parse as much as possible data and fill the list and map
* @throws ErrorDataDecoderException if there is a problem with the charset decoding or
* other errors
*/
private void parseBody() throws ErrorDataDecoderException {
if (currentStatus == MultiPartStatus.PREEPILOGUE ||
currentStatus == MultiPartStatus.EPILOGUE) {
if (isLastChunk) {
currentStatus = MultiPartStatus.EPILOGUE;
}
return;
}
parseBodyMultipart();
}
/**
* Utility function to add a new decoded data
*/
private void addHttpData(InterfaceHttpData data) {
if (data == null) {
return;
}
List datas = bodyMapHttpData.get(data.getName());
if (datas == null) {
datas = new ArrayList(1);
bodyMapHttpData.put(data.getName(), datas);
}
datas.add(data);
bodyListHttpData.add(data);
}
/**
* Parse the Body for multipart
*
* @throws ErrorDataDecoderException if there is a problem with the charset decoding or other errors
*/
private void parseBodyMultipart() throws ErrorDataDecoderException {
if (undecodedChunk == null || undecodedChunk.readableBytes() == 0) {
// nothing to decode
return;
}
InterfaceHttpData data = decodeMultipart(currentStatus);
while (data != null) {
addHttpData(data);
if (currentStatus == MultiPartStatus.PREEPILOGUE ||
currentStatus == MultiPartStatus.EPILOGUE) {
break;
}
data = decodeMultipart(currentStatus);
}
}
/**
* Decode a multipart request by pieces
*
* NOTSTARTED PREAMBLE (
* (HEADERDELIMITER DISPOSITION (FIELD | FILEUPLOAD))*
* (HEADERDELIMITER DISPOSITION MIXEDPREAMBLE
* (MIXEDDELIMITER MIXEDDISPOSITION MIXEDFILEUPLOAD)+
* MIXEDCLOSEDELIMITER)*
* CLOSEDELIMITER)+ EPILOGUE
*
* Inspired from HttpMessageDecoder
*
* @return the next decoded InterfaceHttpData or null if none until now.
* @throws ErrorDataDecoderException if an error occurs
*/
private InterfaceHttpData decodeMultipart(MultiPartStatus state)
throws ErrorDataDecoderException {
switch (state) {
case NOTSTARTED:
throw new ErrorDataDecoderException(
"Should not be called with the current status");
case PREAMBLE:
// Content-type: multipart/form-data, boundary=AaB03x
throw new ErrorDataDecoderException(
"Should not be called with the current status");
case HEADERDELIMITER: {
// --AaB03x or --AaB03x--
return findMultipartDelimiter(multipartDataBoundary,
MultiPartStatus.DISPOSITION, MultiPartStatus.PREEPILOGUE);
}
case DISPOSITION: {
// content-disposition: form-data; name="field1"
// content-disposition: form-data; name="pics"; filename="file1.txt"
// and other immediate values like
// Content-type: image/gif
// Content-Type: text/plain
// Content-Type: text/plain; charset=ISO-8859-1
// Content-Transfer-Encoding: binary
// The following line implies a change of mode (mixed mode)
// Content-type: multipart/mixed, boundary=BbC04y
return findMultipartDisposition();
}
case FIELD: {
// Now get value according to Content-Type and Charset
Charset localCharset = null;
Attribute charsetAttribute = currentFieldAttributes
.get(HttpHeaders.Values.CHARSET);
if (charsetAttribute != null) {
try {
localCharset = Charset.forName(charsetAttribute.getValue());
} catch (IOException e) {
throw new ErrorDataDecoderException(e);
}
}
Attribute nameAttribute = currentFieldAttributes
.get(HttpPostBodyUtil.NAME);
if (currentAttribute == null) {
try {
currentAttribute = factory.createAttribute(request,
cleanString(nameAttribute.getValue()));
} catch (NullPointerException e) {
throw new ErrorDataDecoderException(e);
} catch (IllegalArgumentException e) {
throw new ErrorDataDecoderException(e);
} catch (IOException e) {
throw new ErrorDataDecoderException(e);
}
if (localCharset != null) {
currentAttribute.setCharset(localCharset);
}
}
// load data
try {
loadFieldMultipart(multipartDataBoundary);
} catch (NotEnoughDataDecoderException e) {
return null;
}
Attribute finalAttribute = currentAttribute;
currentAttribute = null;
currentFieldAttributes = null;
// ready to load the next one
currentStatus = MultiPartStatus.HEADERDELIMITER;
return finalAttribute;
}
case FILEUPLOAD: {
// eventually restart from existing FileUpload
return getFileUpload(multipartDataBoundary);
}
case MIXEDDELIMITER: {
// --AaB03x or --AaB03x--
// Note that currentFieldAttributes exists
return findMultipartDelimiter(multipartMixedBoundary,
MultiPartStatus.MIXEDDISPOSITION,
MultiPartStatus.HEADERDELIMITER);
}
case MIXEDDISPOSITION: {
return findMultipartDisposition();
}
case MIXEDFILEUPLOAD: {
// eventually restart from existing FileUpload
return getFileUpload(multipartMixedBoundary);
}
case PREEPILOGUE:
return null;
case EPILOGUE:
return null;
default:
throw new ErrorDataDecoderException("Shouldn't reach here.");
}
}
/**
* Skip control Characters
* @throws NotEnoughDataDecoderException
*/
void skipControlCharacters() throws NotEnoughDataDecoderException {
SeekAheadOptimize sao;
try {
sao = new SeekAheadOptimize(undecodedChunk);
} catch (SeekAheadNoBackArrayException e) {
try {
skipControlCharactersStandard();
} catch (IndexOutOfBoundsException e1) {
throw new NotEnoughDataDecoderException(e1);
}
return;
}
while (sao.pos < sao.limit) {
char c = (char) (sao.bytes[sao.pos ++] & 0xFF);
if (!Character.isISOControl(c) && !Character.isWhitespace(c)) {
sao.setReadPosition(1);
return;
}
}
throw new NotEnoughDataDecoderException("Access out of bounds");
}
void skipControlCharactersStandard() {
for (;;) {
char c = (char) undecodedChunk.readUnsignedByte();
if (!Character.isISOControl(c) && !Character.isWhitespace(c)) {
undecodedChunk.readerIndex(undecodedChunk.readerIndex() - 1);
break;
}
}
}
/**
* Find the next Multipart Delimiter
* @param delimiter delimiter to find
* @param dispositionStatus the next status if the delimiter is a start
* @param closeDelimiterStatus the next status if the delimiter is a close delimiter
* @return the next InterfaceHttpData if any
* @throws ErrorDataDecoderException
*/
private InterfaceHttpData findMultipartDelimiter(String delimiter,
MultiPartStatus dispositionStatus,
MultiPartStatus closeDelimiterStatus)
throws ErrorDataDecoderException {
// --AaB03x or --AaB03x--
int readerIndex = undecodedChunk.readerIndex();
try {
skipControlCharacters();
} catch (NotEnoughDataDecoderException e1) {
undecodedChunk.readerIndex(readerIndex);
return null;
}
skipOneLine();
String newline;
try {
newline = readDelimiter(delimiter);
} catch (NotEnoughDataDecoderException e) {
undecodedChunk.readerIndex(readerIndex);
return null;
}
if (newline.equals(delimiter)) {
currentStatus = dispositionStatus;
return decodeMultipart(dispositionStatus);
}
if (newline.equals(delimiter + "--")) {
// CLOSEDELIMITER or MIXED CLOSEDELIMITER found
currentStatus = closeDelimiterStatus;
if (currentStatus == MultiPartStatus.HEADERDELIMITER) {
// MIXEDCLOSEDELIMITER
// end of the Mixed part
currentFieldAttributes = null;
return decodeMultipart(MultiPartStatus.HEADERDELIMITER);
}
return null;
}
undecodedChunk.readerIndex(readerIndex);
throw new ErrorDataDecoderException("No Multipart delimiter found");
}
/**
* Find the next Disposition
* @return the next InterfaceHttpData if any
* @throws ErrorDataDecoderException
*/
private InterfaceHttpData findMultipartDisposition()
throws ErrorDataDecoderException {
int readerIndex = undecodedChunk.readerIndex();
if (currentStatus == MultiPartStatus.DISPOSITION) {
currentFieldAttributes = new TreeMap(
CaseIgnoringComparator.INSTANCE);
}
// read many lines until empty line with newline found! Store all data
while (!skipOneLine()) {
String newline;
try {
skipControlCharacters();
newline = readLine();
} catch (NotEnoughDataDecoderException e) {
undecodedChunk.readerIndex(readerIndex);
return null;
}
String[] contents = splitMultipartHeader(newline);
if (contents[0].equalsIgnoreCase(HttpPostBodyUtil.CONTENT_DISPOSITION)) {
boolean checkSecondArg;
if (currentStatus == MultiPartStatus.DISPOSITION) {
checkSecondArg = contents[1]
.equalsIgnoreCase(HttpPostBodyUtil.FORM_DATA);
} else {
checkSecondArg = contents[1]
.equalsIgnoreCase(HttpPostBodyUtil.ATTACHMENT) ||
contents[1]
.equalsIgnoreCase(HttpPostBodyUtil.FILE);
}
if (checkSecondArg) {
// read next values and store them in the map as Attribute
for (int i = 2; i < contents.length; i ++) {
String[] values = StringUtil.split(contents[i], '=', 2);
Attribute attribute;
try {
String name = cleanString(values[0]);
String value = values[1];
// See http://www.w3.org/Protocols/rfc2616/rfc2616-sec19.html
if (HttpPostBodyUtil.FILENAME.equals(name)) {
// filename value is quoted string so strip them
value = value.substring(1, value.length() - 1);
} else {
// otherwise we need to clean the value
value = cleanString(value);
}
attribute = factory.createAttribute(request, name, value);
} catch (NullPointerException e) {
throw new ErrorDataDecoderException(e);
} catch (IllegalArgumentException e) {
throw new ErrorDataDecoderException(e);
}
currentFieldAttributes.put(attribute.getName(),
attribute);
}
}
} else if (contents[0]
.equalsIgnoreCase(HttpHeaders.Names.CONTENT_TRANSFER_ENCODING)) {
Attribute attribute;
try {
attribute = factory.createAttribute(request,
HttpHeaders.Names.CONTENT_TRANSFER_ENCODING,
cleanString(contents[1]));
} catch (NullPointerException e) {
throw new ErrorDataDecoderException(e);
} catch (IllegalArgumentException e) {
throw new ErrorDataDecoderException(e);
}
currentFieldAttributes.put(
HttpHeaders.Names.CONTENT_TRANSFER_ENCODING, attribute);
} else if (contents[0]
.equalsIgnoreCase(HttpHeaders.Names.CONTENT_LENGTH)) {
Attribute attribute;
try {
attribute = factory.createAttribute(request,
HttpHeaders.Names.CONTENT_LENGTH,
cleanString(contents[1]));
} catch (NullPointerException e) {
throw new ErrorDataDecoderException(e);
} catch (IllegalArgumentException e) {
throw new ErrorDataDecoderException(e);
}
currentFieldAttributes.put(HttpHeaders.Names.CONTENT_LENGTH,
attribute);
} else if (contents[0].equalsIgnoreCase(HttpHeaders.Names.CONTENT_TYPE)) {
// Take care of possible "multipart/mixed"
if (contents[1].equalsIgnoreCase(HttpPostBodyUtil.MULTIPART_MIXED)) {
if (currentStatus == MultiPartStatus.DISPOSITION) {
String values = StringUtil.substringAfter(contents[2], '=');
multipartMixedBoundary = "--" + values;
currentStatus = MultiPartStatus.MIXEDDELIMITER;
return decodeMultipart(MultiPartStatus.MIXEDDELIMITER);
} else {
throw new ErrorDataDecoderException(
"Mixed Multipart found in a previous Mixed Multipart");
}
} else {
for (int i = 1; i < contents.length; i ++) {
if (contents[i].toLowerCase().startsWith(
HttpHeaders.Values.CHARSET)) {
String values = StringUtil.substringAfter(contents[i], '=');
Attribute attribute;
try {
attribute = factory.createAttribute(request,
HttpHeaders.Values.CHARSET,
cleanString(values));
} catch (NullPointerException e) {
throw new ErrorDataDecoderException(e);
} catch (IllegalArgumentException e) {
throw new ErrorDataDecoderException(e);
}
currentFieldAttributes.put(HttpHeaders.Values.CHARSET,
attribute);
} else {
Attribute attribute;
try {
attribute = factory.createAttribute(request,
cleanString(contents[0]), contents[i]);
} catch (NullPointerException e) {
throw new ErrorDataDecoderException(e);
} catch (IllegalArgumentException e) {
throw new ErrorDataDecoderException(e);
}
currentFieldAttributes.put(attribute.getName(),
attribute);
}
}
}
} else {
throw new ErrorDataDecoderException("Unknown Params: " +
newline);
}
}
// Is it a FileUpload
Attribute filenameAttribute = currentFieldAttributes
.get(HttpPostBodyUtil.FILENAME);
if (currentStatus == MultiPartStatus.DISPOSITION) {
if (filenameAttribute != null) {
// FileUpload
currentStatus = MultiPartStatus.FILEUPLOAD;
// do not change the buffer position
return decodeMultipart(MultiPartStatus.FILEUPLOAD);
} else {
// Field
currentStatus = MultiPartStatus.FIELD;
// do not change the buffer position
return decodeMultipart(MultiPartStatus.FIELD);
}
} else {
if (filenameAttribute != null) {
// FileUpload
currentStatus = MultiPartStatus.MIXEDFILEUPLOAD;
// do not change the buffer position
return decodeMultipart(MultiPartStatus.MIXEDFILEUPLOAD);
} else {
// Field is not supported in MIXED mode
throw new ErrorDataDecoderException("Filename not found");
}
}
}
/**
* Get the FileUpload (new one or current one)
* @param delimiter the delimiter to use
* @return the InterfaceHttpData if any
* @throws ErrorDataDecoderException
*/
private InterfaceHttpData getFileUpload(String delimiter)
throws ErrorDataDecoderException {
// eventually restart from existing FileUpload
// Now get value according to Content-Type and Charset
Attribute encoding = currentFieldAttributes
.get(HttpHeaders.Names.CONTENT_TRANSFER_ENCODING);
Charset localCharset = charset;
// Default
TransferEncodingMechanism mechanism = TransferEncodingMechanism.BIT7;
if (encoding != null) {
String code;
try {
code = encoding.getValue().toLowerCase();
} catch (IOException e) {
throw new ErrorDataDecoderException(e);
}
if (code.equals(HttpPostBodyUtil.TransferEncodingMechanism.BIT7.value())) {
localCharset = HttpPostBodyUtil.US_ASCII;
} else if (code.equals(HttpPostBodyUtil.TransferEncodingMechanism.BIT8.value())) {
localCharset = HttpPostBodyUtil.ISO_8859_1;
mechanism = TransferEncodingMechanism.BIT8;
} else if (code
.equals(HttpPostBodyUtil.TransferEncodingMechanism.BINARY.value())) {
// no real charset, so let the default
mechanism = TransferEncodingMechanism.BINARY;
} else {
throw new ErrorDataDecoderException(
"TransferEncoding Unknown: " + code);
}
}
Attribute charsetAttribute = currentFieldAttributes
.get(HttpHeaders.Values.CHARSET);
if (charsetAttribute != null) {
try {
localCharset = Charset.forName(charsetAttribute.getValue());
} catch (IOException e) {
throw new ErrorDataDecoderException(e);
}
}
if (currentFileUpload == null) {
Attribute filenameAttribute = currentFieldAttributes
.get(HttpPostBodyUtil.FILENAME);
Attribute nameAttribute = currentFieldAttributes
.get(HttpPostBodyUtil.NAME);
Attribute contentTypeAttribute = currentFieldAttributes
.get(HttpHeaders.Names.CONTENT_TYPE);
if (contentTypeAttribute == null) {
// instead of raising an exception, create a default Content-Type
contentTypeAttribute = new MemoryAttribute(HttpHeaders.Names.CONTENT_TYPE);
try {
contentTypeAttribute.setValue(HttpPostBodyUtil.DEFAULT_BINARY_CONTENT_TYPE);
} catch (IOException e) {
throw new ErrorDataDecoderException(
"Content-Type is absent but required, and cannot be reverted to default");
}
}
Attribute lengthAttribute = currentFieldAttributes
.get(HttpHeaders.Names.CONTENT_LENGTH);
long size;
try {
size = lengthAttribute != null? Long.parseLong(lengthAttribute
.getValue()) : 0L;
} catch (IOException e) {
throw new ErrorDataDecoderException(e);
} catch (NumberFormatException e) {
size = 0;
}
try {
currentFileUpload = factory.createFileUpload(
request,
cleanString(nameAttribute.getValue()), cleanString(filenameAttribute.getValue()),
contentTypeAttribute.getValue(), mechanism.value(),
localCharset, size);
} catch (NullPointerException e) {
throw new ErrorDataDecoderException(e);
} catch (IllegalArgumentException e) {
throw new ErrorDataDecoderException(e);
} catch (IOException e) {
throw new ErrorDataDecoderException(e);
}
}
// load data as much as possible
try {
readFileUploadByteMultipart(delimiter);
} catch (NotEnoughDataDecoderException e) {
// do not change the buffer position
// since some can be already saved into FileUpload
// So do not change the currentStatus
return null;
}
if (currentFileUpload.isCompleted()) {
// ready to load the next one
if (currentStatus == MultiPartStatus.FILEUPLOAD) {
currentStatus = MultiPartStatus.HEADERDELIMITER;
currentFieldAttributes = null;
} else {
currentStatus = MultiPartStatus.MIXEDDELIMITER;
cleanMixedAttributes();
}
FileUpload fileUpload = currentFileUpload;
currentFileUpload = null;
return fileUpload;
}
// do not change the buffer position
// since some can be already saved into FileUpload
// So do not change the currentStatus
return null;
}
public void cleanFiles() {
factory.cleanRequestHttpDatas(request);
}
public void removeHttpDataFromClean(InterfaceHttpData data) {
factory.removeHttpDataFromClean(request, data);
}
/**
* Remove all Attributes that should be cleaned between two FileUpload in Mixed mode
*/
private void cleanMixedAttributes() {
currentFieldAttributes.remove(HttpHeaders.Values.CHARSET);
currentFieldAttributes.remove(HttpHeaders.Names.CONTENT_LENGTH);
currentFieldAttributes.remove(HttpHeaders.Names.CONTENT_TRANSFER_ENCODING);
currentFieldAttributes.remove(HttpHeaders.Names.CONTENT_TYPE);
currentFieldAttributes.remove(HttpPostBodyUtil.FILENAME);
}
/**
* Read one line up to the CRLF or LF
* @return the String from one line
* @throws NotEnoughDataDecoderException Need more chunks and
* reset the readerInder to the previous value
*/
private String readLineStandard() throws NotEnoughDataDecoderException {
int readerIndex = undecodedChunk.readerIndex();
try {
ChannelBuffer line = ChannelBuffers.dynamicBuffer(64);
while (undecodedChunk.readable()) {
byte nextByte = undecodedChunk.readByte();
if (nextByte == HttpConstants.CR) {
// check but do not changed readerIndex
nextByte = undecodedChunk.getByte(undecodedChunk.readerIndex());
if (nextByte == HttpConstants.LF) {
// force read
undecodedChunk.readByte();
return line.toString(charset);
} else {
// Write CR (not followed by LF)
line.writeByte(HttpConstants.CR);
}
} else if (nextByte == HttpConstants.LF) {
return line.toString(charset);
} else {
line.writeByte(nextByte);
}
}
} catch (IndexOutOfBoundsException e) {
undecodedChunk.readerIndex(readerIndex);
throw new NotEnoughDataDecoderException(e);
}
undecodedChunk.readerIndex(readerIndex);
throw new NotEnoughDataDecoderException();
}
/**
* Read one line up to the CRLF or LF
* @return the String from one line
* @throws NotEnoughDataDecoderException Need more chunks and
* reset the readerInder to the previous value
*/
private String readLine() throws NotEnoughDataDecoderException {
SeekAheadOptimize sao;
try {
sao = new SeekAheadOptimize(undecodedChunk);
} catch (SeekAheadNoBackArrayException e1) {
return readLineStandard();
}
int readerIndex = undecodedChunk.readerIndex();
try {
ChannelBuffer line = ChannelBuffers.dynamicBuffer(64);
while (sao.pos < sao.limit) {
byte nextByte = sao.bytes[sao.pos ++];
if (nextByte == HttpConstants.CR) {
if (sao.pos < sao.limit) {
nextByte = sao.bytes[sao.pos ++];
if (nextByte == HttpConstants.LF) {
sao.setReadPosition(0);
return line.toString(charset);
} else {
// Write CR (not followed by LF)
sao.pos--;
line.writeByte(HttpConstants.CR);
}
} else {
line.writeByte(nextByte);
}
} else if (nextByte == HttpConstants.LF) {
sao.setReadPosition(0);
return line.toString(charset);
} else {
line.writeByte(nextByte);
}
}
} catch (IndexOutOfBoundsException e) {
undecodedChunk.readerIndex(readerIndex);
throw new NotEnoughDataDecoderException(e);
}
undecodedChunk.readerIndex(readerIndex);
throw new NotEnoughDataDecoderException();
}
/**
* Read one line up to --delimiter or --delimiter-- and if existing the CRLF or LF
* Read one line up to --delimiter or --delimiter-- and if existing the CRLF or LF.
* Note that CRLF or LF are mandatory for opening delimiter (--delimiter) but not for
* closing delimiter (--delimiter--) since some clients does not include CRLF in this case.
*
* @param delimiter of the form --string, such that '--' is already included
* @return the String from one line as the delimiter searched (opening or closing)
* @throws NotEnoughDataDecoderException Need more chunks and
* reset the readerInder to the previous value
*/
private String readDelimiterStandard(String delimiter) throws NotEnoughDataDecoderException {
int readerIndex = undecodedChunk.readerIndex();
try {
StringBuilder sb = new StringBuilder(64);
int delimiterPos = 0;
int len = delimiter.length();
while (undecodedChunk.readable() && delimiterPos < len) {
byte nextByte = undecodedChunk.readByte();
if (nextByte == delimiter.charAt(delimiterPos)) {
delimiterPos++;
sb.append((char) nextByte);
} else {
// delimiter not found so break here !
undecodedChunk.readerIndex(readerIndex);
throw new NotEnoughDataDecoderException();
}
}
// Now check if either opening delimiter or closing delimiter
if (undecodedChunk.readable()) {
byte nextByte = undecodedChunk.readByte();
// first check for opening delimiter
if (nextByte == HttpConstants.CR) {
nextByte = undecodedChunk.readByte();
if (nextByte == HttpConstants.LF) {
return sb.toString();
} else {
// error since CR must be followed by LF
// delimiter not found so break here !
undecodedChunk.readerIndex(readerIndex);
throw new NotEnoughDataDecoderException();
}
} else if (nextByte == HttpConstants.LF) {
return sb.toString();
} else if (nextByte == '-') {
sb.append('-');
// second check for closing delimiter
nextByte = undecodedChunk.readByte();
if (nextByte == '-') {
sb.append('-');
// now try to find if CRLF or LF there
if (undecodedChunk.readable()) {
nextByte = undecodedChunk.readByte();
if (nextByte == HttpConstants.CR) {
nextByte = undecodedChunk.readByte();
if (nextByte == HttpConstants.LF) {
return sb.toString();
} else {
// error CR without LF
// delimiter not found so break here !
undecodedChunk.readerIndex(readerIndex);
throw new NotEnoughDataDecoderException();
}
} else if (nextByte == HttpConstants.LF) {
return sb.toString();
} else {
// No CRLF but ok however (Adobe Flash uploader)
// minus 1 since we read one char ahead but should not
undecodedChunk.readerIndex(undecodedChunk.readerIndex() - 1);
return sb.toString();
}
}
// FIXME what do we do here?
// either considering it is fine, either waiting for more data to come?
// lets try considering it is fine...
return sb.toString();
}
// only one '-' => not enough
// whatever now => error since incomplete
}
}
} catch (IndexOutOfBoundsException e) {
undecodedChunk.readerIndex(readerIndex);
throw new NotEnoughDataDecoderException(e);
}
undecodedChunk.readerIndex(readerIndex);
throw new NotEnoughDataDecoderException();
}
/**
* Read one line up to --delimiter or --delimiter-- and if existing the CRLF or LF.
* Note that CRLF or LF are mandatory for opening delimiter (--delimiter) but not for
* closing delimiter (--delimiter--) since some clients does not include CRLF in this case.
*
* @param delimiter of the form --string, such that '--' is already included
* @return the String from one line as the delimiter searched (opening or closing)
* @throws NotEnoughDataDecoderException Need more chunks and
* reset the readerInder to the previous value
*/
private String readDelimiter(String delimiter) throws NotEnoughDataDecoderException {
SeekAheadOptimize sao;
try {
sao = new SeekAheadOptimize(undecodedChunk);
} catch (SeekAheadNoBackArrayException e1) {
return readDelimiterStandard(delimiter);
}
int readerIndex = undecodedChunk.readerIndex();
int delimiterPos = 0;
int len = delimiter.length();
try {
StringBuilder sb = new StringBuilder(64);
// check conformity with delimiter
while (sao.pos < sao.limit && delimiterPos < len) {
byte nextByte = sao.bytes[sao.pos ++];
if (nextByte == delimiter.charAt(delimiterPos)) {
delimiterPos++;
sb.append((char) nextByte);
} else {
// delimiter not found so break here !
undecodedChunk.readerIndex(readerIndex);
throw new NotEnoughDataDecoderException();
}
}
// Now check if either opening delimiter or closing delimiter
if (sao.pos < sao.limit) {
byte nextByte = sao.bytes[sao.pos ++];
if (nextByte == HttpConstants.CR) {
// first check for opening delimiter
if (sao.pos < sao.limit) {
nextByte = sao.bytes[sao.pos ++];
if (nextByte == HttpConstants.LF) {
sao.setReadPosition(0);
return sb.toString();
} else {
// error CR without LF
// delimiter not found so break here !
undecodedChunk.readerIndex(readerIndex);
throw new NotEnoughDataDecoderException();
}
} else {
// error since CR must be followed by LF
// delimiter not found so break here !
undecodedChunk.readerIndex(readerIndex);
throw new NotEnoughDataDecoderException();
}
} else if (nextByte == HttpConstants.LF) {
// same first check for opening delimiter where LF used with no CR
sao.setReadPosition(0);
return sb.toString();
} else if (nextByte == '-') {
sb.append('-');
// second check for closing delimiter
if (sao.pos < sao.limit) {
nextByte = sao.bytes[sao.pos ++];
if (nextByte == '-') {
sb.append('-');
// now try to find if CRLF or LF there
if (sao.pos < sao.limit) {
nextByte = sao.bytes[sao.pos++];
if (nextByte == HttpConstants.CR) {
if (sao.pos < sao.limit) {
nextByte = sao.bytes[sao.pos++];
if (nextByte == HttpConstants.LF) {
sao.setReadPosition(0);
return sb.toString();
} else {
// error CR without LF
// delimiter not found so break here !
undecodedChunk.readerIndex(readerIndex);
throw new NotEnoughDataDecoderException();
}
} else {
// error CR without LF
// delimiter not found so break here !
undecodedChunk.readerIndex(readerIndex);
throw new NotEnoughDataDecoderException();
}
} else if (nextByte == HttpConstants.LF) {
sao.setReadPosition(0);
return sb.toString();
} else {
// No CRLF but ok however (Adobe Flash uploader)
// minus 1 since we read one char ahead but should not
sao.setReadPosition(1);
return sb.toString();
}
}
// FIXME what do we do here?
// either considering it is fine, either waiting for more data to come?
// lets try considering it is fine...
sao.setReadPosition(0);
return sb.toString();
}
// whatever now => error since incomplete
// only one '-' => not enough or whatever not enough element
}
}
}
} catch (IndexOutOfBoundsException e) {
undecodedChunk.readerIndex(readerIndex);
throw new NotEnoughDataDecoderException(e);
}
undecodedChunk.readerIndex(readerIndex);
throw new NotEnoughDataDecoderException();
}
/**
* Read a FileUpload data as Byte (Binary) and add the bytes directly to the
* FileUpload. If the delimiter is found, the FileUpload is completed.
* @throws NotEnoughDataDecoderException Need more chunks but
* do not reset the readerInder since some values will be already added to the FileOutput
* @throws ErrorDataDecoderException write IO error occurs with the FileUpload
*/
private void readFileUploadByteMultipartStandard(String delimiter)
throws NotEnoughDataDecoderException, ErrorDataDecoderException {
int readerIndex = undecodedChunk.readerIndex();
// found the decoder limit
boolean newLine = true;
int index = 0;
int lastPosition = undecodedChunk.readerIndex();
boolean found = false;
while (undecodedChunk.readable()) {
byte nextByte = undecodedChunk.readByte();
if (newLine) {
// Check the delimiter
if (nextByte == delimiter.codePointAt(index)) {
index ++;
if (delimiter.length() == index) {
found = true;
break;
}
continue;
} else {
newLine = false;
index = 0;
// continue until end of line
if (nextByte == HttpConstants.CR) {
if (undecodedChunk.readable()) {
nextByte = undecodedChunk.readByte();
if (nextByte == HttpConstants.LF) {
newLine = true;
index = 0;
lastPosition = undecodedChunk.readerIndex() - 2;
} else {
// save last valid position
lastPosition = undecodedChunk.readerIndex() - 1;
// Unread next byte.
undecodedChunk.readerIndex(lastPosition);
}
}
} else if (nextByte == HttpConstants.LF) {
newLine = true;
index = 0;
lastPosition = undecodedChunk.readerIndex() - 1;
} else {
// save last valid position
lastPosition = undecodedChunk.readerIndex();
}
}
} else {
// continue until end of line
if (nextByte == HttpConstants.CR) {
if (undecodedChunk.readable()) {
nextByte = undecodedChunk.readByte();
if (nextByte == HttpConstants.LF) {
newLine = true;
index = 0;
lastPosition = undecodedChunk.readerIndex() - 2;
} else {
// save last valid position
lastPosition = undecodedChunk.readerIndex() - 1;
// Unread next byte.
undecodedChunk.readerIndex(lastPosition);
}
}
} else if (nextByte == HttpConstants.LF) {
newLine = true;
index = 0;
lastPosition = undecodedChunk.readerIndex() - 1;
} else {
// save last valid position
lastPosition = undecodedChunk.readerIndex();
}
}
}
ChannelBuffer buffer = undecodedChunk.slice(readerIndex, lastPosition -
readerIndex);
if (found) {
// found so lastPosition is correct and final
try {
currentFileUpload.addContent(buffer, true);
// just before the CRLF and delimiter
undecodedChunk.readerIndex(lastPosition);
} catch (IOException e) {
throw new ErrorDataDecoderException(e);
}
} else {
// possibly the delimiter is partially found but still the last position is OK
try {
currentFileUpload.addContent(buffer, false);
// last valid char (not CR, not LF, not beginning of delimiter)
undecodedChunk.readerIndex(lastPosition);
throw new NotEnoughDataDecoderException();
} catch (IOException e) {
throw new ErrorDataDecoderException(e);
}
}
}
/**
* Read a FileUpload data as Byte (Binary) and add the bytes directly to the
* FileUpload. If the delimiter is found, the FileUpload is completed.
* @throws NotEnoughDataDecoderException Need more chunks but
* do not reset the readerInder since some values will be already added to the FileOutput
* @throws ErrorDataDecoderException write IO error occurs with the FileUpload
*/
private void readFileUploadByteMultipart(String delimiter)
throws NotEnoughDataDecoderException, ErrorDataDecoderException {
SeekAheadOptimize sao;
try {
sao = new SeekAheadOptimize(undecodedChunk);
} catch (SeekAheadNoBackArrayException e1) {
readFileUploadByteMultipartStandard(delimiter);
return;
}
int readerIndex = undecodedChunk.readerIndex();
// found the decoder limit
boolean newLine = true;
int index = 0;
int lastrealpos = sao.pos;
int lastPosition;
boolean found = false;
while (sao.pos < sao.limit) {
byte nextByte = sao.bytes[sao.pos ++];
if (newLine) {
// Check the delimiter
if (nextByte == delimiter.codePointAt(index)) {
index ++;
if (delimiter.length() == index) {
found = true;
break;
}
continue;
} else {
newLine = false;
index = 0;
// continue until end of line
if (nextByte == HttpConstants.CR) {
if (sao.pos < sao.limit) {
nextByte = sao.bytes[sao.pos ++];
if (nextByte == HttpConstants.LF) {
newLine = true;
index = 0;
lastrealpos = sao.pos - 2;
} else {
// unread next byte
sao.pos--;
// save last valid position
lastrealpos = sao.pos;
}
}
} else if (nextByte == HttpConstants.LF) {
newLine = true;
index = 0;
lastrealpos = sao.pos - 1;
} else {
// save last valid position
lastrealpos = sao.pos;
}
}
} else {
// continue until end of line
if (nextByte == HttpConstants.CR) {
if (sao.pos < sao.limit) {
nextByte = sao.bytes[sao.pos ++];
if (nextByte == HttpConstants.LF) {
newLine = true;
index = 0;
lastrealpos = sao.pos - 2;
} else {
// unread next byte
sao.pos--;
// save last valid position
lastrealpos = sao.pos;
}
}
} else if (nextByte == HttpConstants.LF) {
newLine = true;
index = 0;
lastrealpos = sao.pos - 1;
} else {
// save last valid position
lastrealpos = sao.pos;
}
}
}
lastPosition = sao.getReadPosition(lastrealpos);
ChannelBuffer buffer = undecodedChunk.slice(readerIndex, lastPosition - readerIndex);
if (found) {
// found so lastPosition is correct and final
try {
currentFileUpload.addContent(buffer, true);
// just before the CRLF and delimiter
undecodedChunk.readerIndex(lastPosition);
} catch (IOException e) {
throw new ErrorDataDecoderException(e);
}
} else {
// possibly the delimiter is partially found but still the last position is OK
try {
currentFileUpload.addContent(buffer, false);
// last valid char (not CR, not LF, not beginning of delimiter)
undecodedChunk.readerIndex(lastPosition);
throw new NotEnoughDataDecoderException();
} catch (IOException e) {
throw new ErrorDataDecoderException(e);
}
}
}
/**
* Load the field value from a Multipart request
* @throws NotEnoughDataDecoderException Need more chunks
* @throws ErrorDataDecoderException
*/
private void loadFieldMultipartStandard(String delimiter)
throws NotEnoughDataDecoderException, ErrorDataDecoderException {
int readerIndex = undecodedChunk.readerIndex();
try {
// found the decoder limit
boolean newLine = true;
int index = 0;
int lastPosition = undecodedChunk.readerIndex();
boolean found = false;
while (undecodedChunk.readable()) {
byte nextByte = undecodedChunk.readByte();
if (newLine) {
// Check the delimiter
if (nextByte == delimiter.codePointAt(index)) {
index ++;
if (delimiter.length() == index) {
found = true;
break;
}
continue;
} else {
newLine = false;
index = 0;
// continue until end of line
if (nextByte == HttpConstants.CR) {
if (undecodedChunk.readable()) {
nextByte = undecodedChunk.readByte();
if (nextByte == HttpConstants.LF) {
newLine = true;
index = 0;
lastPosition = undecodedChunk.readerIndex() - 2;
} else {
// Unread second nextByte
lastPosition = undecodedChunk.readerIndex() - 1;
undecodedChunk.readerIndex(lastPosition);
}
} else {
lastPosition = undecodedChunk.readerIndex() - 1;
}
} else if (nextByte == HttpConstants.LF) {
newLine = true;
index = 0;
lastPosition = undecodedChunk.readerIndex() - 1;
} else {
lastPosition = undecodedChunk.readerIndex();
}
}
} else {
// continue until end of line
if (nextByte == HttpConstants.CR) {
if (undecodedChunk.readable()) {
nextByte = undecodedChunk.readByte();
if (nextByte == HttpConstants.LF) {
newLine = true;
index = 0;
lastPosition = undecodedChunk.readerIndex() - 2;
} else {
// Unread second nextByte
lastPosition = undecodedChunk.readerIndex() - 1;
undecodedChunk.readerIndex(lastPosition);
}
} else {
lastPosition = undecodedChunk.readerIndex() - 1;
}
} else if (nextByte == HttpConstants.LF) {
newLine = true;
index = 0;
lastPosition = undecodedChunk.readerIndex() - 1;
} else {
lastPosition = undecodedChunk.readerIndex();
}
}
}
if (found) {
// found so lastPosition is correct
// but position is just after the delimiter (either close delimiter or simple one)
// so go back of delimiter size
try {
currentAttribute.addContent(
undecodedChunk.slice(readerIndex, lastPosition - readerIndex),
true);
} catch (IOException e) {
throw new ErrorDataDecoderException(e);
}
undecodedChunk.readerIndex(lastPosition);
} else {
try {
currentAttribute.addContent(
undecodedChunk.slice(readerIndex, lastPosition - readerIndex),
false);
} catch (IOException e) {
throw new ErrorDataDecoderException(e);
}
undecodedChunk.readerIndex(lastPosition);
throw new NotEnoughDataDecoderException();
}
} catch (IndexOutOfBoundsException e) {
undecodedChunk.readerIndex(readerIndex);
throw new NotEnoughDataDecoderException(e);
}
}
/**
* Load the field value from a Multipart request
* @throws NotEnoughDataDecoderException Need more chunks
* @throws ErrorDataDecoderException
*/
private void loadFieldMultipart(String delimiter)
throws NotEnoughDataDecoderException, ErrorDataDecoderException {
SeekAheadOptimize sao;
try {
sao = new SeekAheadOptimize(undecodedChunk);
} catch (SeekAheadNoBackArrayException e1) {
loadFieldMultipartStandard(delimiter);
return;
}
int readerIndex = undecodedChunk.readerIndex();
try {
// found the decoder limit
boolean newLine = true;
int index = 0;
int lastPosition;
int lastrealpos = sao.pos;
boolean found = false;
while (sao.pos < sao.limit) {
byte nextByte = sao.bytes[sao.pos ++];
if (newLine) {
// Check the delimiter
if (nextByte == delimiter.codePointAt(index)) {
index ++;
if (delimiter.length() == index) {
found = true;
break;
}
continue;
} else {
newLine = false;
index = 0;
// continue until end of line
if (nextByte == HttpConstants.CR) {
if (sao.pos < sao.limit) {
nextByte = sao.bytes[sao.pos ++];
if (nextByte == HttpConstants.LF) {
newLine = true;
index = 0;
lastrealpos = sao.pos - 2;
} else {
// Unread last nextByte
sao.pos--;
lastrealpos = sao.pos;
}
}
} else if (nextByte == HttpConstants.LF) {
newLine = true;
index = 0;
lastrealpos = sao.pos - 1;
} else {
lastrealpos = sao.pos;
}
}
} else {
// continue until end of line
if (nextByte == HttpConstants.CR) {
if (sao.pos < sao.limit) {
nextByte = sao.bytes[sao.pos ++];
if (nextByte == HttpConstants.LF) {
newLine = true;
index = 0;
lastrealpos = sao.pos - 2;
} else {
// Unread last nextByte
sao.pos--;
lastrealpos = sao.pos;
}
}
} else if (nextByte == HttpConstants.LF) {
newLine = true;
index = 0;
lastrealpos = sao.pos - 1;
} else {
lastrealpos = sao.pos;
}
}
}
lastPosition = sao.getReadPosition(lastrealpos);
if (found) {
// found so lastPosition is correct
// but position is just after the delimiter (either close delimiter or simple one)
// so go back of delimiter size
try {
currentAttribute.addContent(
undecodedChunk.slice(readerIndex, lastPosition - readerIndex), true);
} catch (IOException e) {
throw new ErrorDataDecoderException(e);
}
undecodedChunk.readerIndex(lastPosition);
} else {
try {
currentAttribute.addContent(
undecodedChunk.slice(readerIndex, lastPosition - readerIndex), false);
} catch (IOException e) {
throw new ErrorDataDecoderException(e);
}
undecodedChunk.readerIndex(lastPosition);
throw new NotEnoughDataDecoderException();
}
} catch (IndexOutOfBoundsException e) {
undecodedChunk.readerIndex(readerIndex);
throw new NotEnoughDataDecoderException(e);
}
}
/**
* Clean the String from any unallowed character
* @return the cleaned String
*/
private static String cleanString(String field) {
StringBuilder sb = new StringBuilder(field.length());
for (int i = 0; i < field.length(); i ++) {
char nextChar = field.charAt(i);
if (nextChar == HttpConstants.COLON) {
sb.append(HttpConstants.SP);
} else if (nextChar == HttpConstants.COMMA) {
sb.append(HttpConstants.SP);
} else if (nextChar == HttpConstants.EQUALS) {
sb.append(HttpConstants.SP);
} else if (nextChar == HttpConstants.SEMICOLON) {
sb.append(HttpConstants.SP);
} else if (nextChar == HttpConstants.HT) {
sb.append(HttpConstants.SP);
} else if (nextChar == HttpConstants.DOUBLE_QUOTE) {
// nothing added, just removes it
} else {
sb.append(nextChar);
}
}
return sb.toString().trim();
}
/**
* Skip one empty line
* @return True if one empty line was skipped
*/
private boolean skipOneLine() {
if (!undecodedChunk.readable()) {
return false;
}
byte nextByte = undecodedChunk.readByte();
if (nextByte == HttpConstants.CR) {
if (!undecodedChunk.readable()) {
undecodedChunk.readerIndex(undecodedChunk.readerIndex() - 1);
return false;
}
nextByte = undecodedChunk.readByte();
if (nextByte == HttpConstants.LF) {
return true;
}
undecodedChunk.readerIndex(undecodedChunk.readerIndex() - 2);
return false;
}
if (nextByte == HttpConstants.LF) {
return true;
}
undecodedChunk.readerIndex(undecodedChunk.readerIndex() - 1);
return false;
}
/**
* Split one header in Multipart
* @return an array of String where rank 0 is the name of the header, follows by several
* values that were separated by ';' or ','
*/
private static String[] splitMultipartHeader(String sb) {
ArrayList headers = new ArrayList(1);
int nameStart;
int nameEnd;
int colonEnd;
int valueStart;
int valueEnd;
nameStart = HttpPostBodyUtil.findNonWhitespace(sb, 0);
for (nameEnd = nameStart; nameEnd < sb.length(); nameEnd ++) {
char ch = sb.charAt(nameEnd);
if (ch == ':' || Character.isWhitespace(ch)) {
break;
}
}
for (colonEnd = nameEnd; colonEnd < sb.length(); colonEnd ++) {
if (sb.charAt(colonEnd) == ':') {
colonEnd ++;
break;
}
}
valueStart = HttpPostBodyUtil.findNonWhitespace(sb, colonEnd);
valueEnd = HttpPostBodyUtil.findEndOfString(sb);
headers.add(sb.substring(nameStart, nameEnd));
String svalue = sb.substring(valueStart, valueEnd);
String[] values;
if (svalue.indexOf(';') >= 0) {
values = StringUtil.split(svalue, ';');
} else {
values = StringUtil.split(svalue, ',');
}
for (String value: values) {
headers.add(value.trim());
}
String[] array = new String[headers.size()];
for (int i = 0; i < headers.size(); i ++) {
array[i] = headers.get(i);
}
return array;
}
}