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/*
 * 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 io.netty.handler.codec.http.multipart;

import io.netty.buffer.ByteBuf;
import io.netty.buffer.ByteBufAllocator;
import io.netty.channel.ChannelHandlerContext;
import io.netty.handler.codec.DecoderResult;
import io.netty.handler.codec.http.DefaultFullHttpRequest;
import io.netty.handler.codec.http.DefaultHttpContent;
import io.netty.handler.codec.http.EmptyHttpHeaders;
import io.netty.handler.codec.http.FullHttpRequest;
import io.netty.handler.codec.http.HttpConstants;
import io.netty.handler.codec.http.HttpContent;
import io.netty.handler.codec.http.HttpHeaderNames;
import io.netty.handler.codec.http.HttpHeaderValues;
import io.netty.handler.codec.http.HttpHeaders;
import io.netty.handler.codec.http.HttpMethod;
import io.netty.handler.codec.http.HttpRequest;
import io.netty.handler.codec.http.HttpUtil;
import io.netty.handler.codec.http.HttpVersion;
import io.netty.handler.codec.http.LastHttpContent;
import io.netty.handler.stream.ChunkedInput;
import io.netty.util.internal.ObjectUtil;
import io.netty.util.internal.PlatformDependent;
import io.netty.util.internal.StringUtil;

import java.io.File;
import java.io.IOException;
import java.io.UnsupportedEncodingException;
import java.net.URLEncoder;
import java.nio.charset.Charset;
import java.util.ArrayList;
import java.util.List;
import java.util.ListIterator;
import java.util.Map;
import java.util.regex.Pattern;

import static io.netty.buffer.Unpooled.wrappedBuffer;
import static io.netty.util.internal.ObjectUtil.checkNotNull;
import static java.util.AbstractMap.SimpleImmutableEntry;

/**
 * This encoder will help to encode Request for a FORM as POST.
 *
 * 

According to RFC 7231, POST, PUT and OPTIONS allow to have a body. * This encoder will support widely all methods except TRACE since the RFC notes * for GET, DELETE, HEAD and CONNECT: (replaces XXX by one of these methods)

*

"A payload within a XXX request message has no defined semantics; * sending a payload body on a XXX request might cause some existing * implementations to reject the request."

*

On the contrary, for TRACE method, RFC says:

*

"A client MUST NOT send a message body in a TRACE request."

*/ public class HttpPostRequestEncoder implements ChunkedInput { /** * Different modes to use to encode form data. */ public enum EncoderMode { /** * Legacy mode which should work for most. It is known to not work with OAUTH. For OAUTH use * {@link EncoderMode#RFC3986}. The W3C form recommendations this for submitting post form data. */ RFC1738, /** * Mode which is more new and is used for OAUTH */ RFC3986, /** * The HTML5 spec disallows mixed mode in multipart/form-data * requests. More concretely this means that more files submitted * under the same name will not be encoded using mixed mode, but * will be treated as distinct fields. * * Reference: * http://www.w3.org/TR/html5/forms.html#multipart-form-data */ HTML5 } @SuppressWarnings("rawtypes") private static final Map.Entry[] percentEncodings; static { percentEncodings = new Map.Entry[] { new SimpleImmutableEntry(Pattern.compile("\\*"), "%2A"), new SimpleImmutableEntry(Pattern.compile("\\+"), "%20"), new SimpleImmutableEntry(Pattern.compile("~"), "%7E") }; } /** * Factory used to create InterfaceHttpData */ private final HttpDataFactory factory; /** * Request to encode */ private final HttpRequest request; /** * Default charset to use */ private final Charset charset; /** * Chunked false by default */ private boolean isChunked; /** * InterfaceHttpData for Body (without encoding) */ private final List bodyListDatas; /** * The final Multipart List of InterfaceHttpData including encoding */ final List multipartHttpDatas; /** * Does this request is a Multipart request */ private final boolean isMultipart; /** * If multipart, this is the boundary for the flobal multipart */ String multipartDataBoundary; /** * If multipart, there could be internal multiparts (mixed) to the global multipart. Only one level is allowed. */ String multipartMixedBoundary; /** * To check if the header has been finalized */ private boolean headerFinalized; private final EncoderMode encoderMode; /** * * @param request * the request to encode * @param multipart * True if the FORM is a ENCTYPE="multipart/form-data" * @throws NullPointerException * for request * @throws ErrorDataEncoderException * if the request is a TRACE */ public HttpPostRequestEncoder(HttpRequest request, boolean multipart) throws ErrorDataEncoderException { this(new DefaultHttpDataFactory(DefaultHttpDataFactory.MINSIZE), request, multipart, HttpConstants.DEFAULT_CHARSET, EncoderMode.RFC1738); } /** * * @param factory * the factory used to create InterfaceHttpData * @param request * the request to encode * @param multipart * True if the FORM is a ENCTYPE="multipart/form-data" * @throws NullPointerException * for request and factory * @throws ErrorDataEncoderException * if the request is a TRACE */ public HttpPostRequestEncoder(HttpDataFactory factory, HttpRequest request, boolean multipart) throws ErrorDataEncoderException { this(factory, request, multipart, HttpConstants.DEFAULT_CHARSET, EncoderMode.RFC1738); } /** * * @param factory * the factory used to create InterfaceHttpData * @param request * the request to encode * @param multipart * True if the FORM is a ENCTYPE="multipart/form-data" * @param charset * the charset to use as default * @param encoderMode * the mode for the encoder to use. See {@link EncoderMode} for the details. * @throws NullPointerException * for request or charset or factory * @throws ErrorDataEncoderException * if the request is a TRACE */ public HttpPostRequestEncoder( HttpDataFactory factory, HttpRequest request, boolean multipart, Charset charset, EncoderMode encoderMode) throws ErrorDataEncoderException { this.request = checkNotNull(request, "request"); this.charset = checkNotNull(charset, "charset"); this.factory = checkNotNull(factory, "factory"); if (HttpMethod.TRACE.equals(request.method())) { throw new ErrorDataEncoderException("Cannot create a Encoder if request is a TRACE"); } // Fill default values bodyListDatas = new ArrayList(); // default mode isLastChunk = false; isLastChunkSent = false; isMultipart = multipart; multipartHttpDatas = new ArrayList(); this.encoderMode = encoderMode; if (isMultipart) { initDataMultipart(); } } /** * Clean all HttpDatas (on Disk) for the current request. */ public void cleanFiles() { factory.cleanRequestHttpData(request); } /** * Does the last non empty chunk already encoded so that next chunk will be empty (last chunk) */ private boolean isLastChunk; /** * Last chunk already sent */ private boolean isLastChunkSent; /** * The current FileUpload that is currently in encode process */ private FileUpload currentFileUpload; /** * While adding a FileUpload, is the multipart currently in Mixed Mode */ private boolean duringMixedMode; /** * Global Body size */ private long globalBodySize; /** * Global Transfer progress */ private long globalProgress; /** * True if this request is a Multipart request * * @return True if this request is a Multipart request */ public boolean isMultipart() { return isMultipart; } /** * Init the delimiter for Global Part (Data). */ private void initDataMultipart() { multipartDataBoundary = getNewMultipartDelimiter(); } /** * Init the delimiter for Mixed Part (Mixed). */ private void initMixedMultipart() { multipartMixedBoundary = getNewMultipartDelimiter(); } /** * * @return a newly generated Delimiter (either for DATA or MIXED) */ private static String getNewMultipartDelimiter() { // construct a generated delimiter return Long.toHexString(PlatformDependent.threadLocalRandom().nextLong()); } /** * This getMethod returns a List of all InterfaceHttpData from body part.
* @return the list of InterfaceHttpData from Body part */ public List getBodyListAttributes() { return bodyListDatas; } /** * Set the Body HttpDatas list * * @throws NullPointerException * for datas * @throws ErrorDataEncoderException * if the encoding is in error or if the finalize were already done */ public void setBodyHttpDatas(List datas) throws ErrorDataEncoderException { ObjectUtil.checkNotNull(datas, "datas"); globalBodySize = 0; bodyListDatas.clear(); currentFileUpload = null; duringMixedMode = false; multipartHttpDatas.clear(); for (InterfaceHttpData data : datas) { addBodyHttpData(data); } } /** * Add a simple attribute in the body as Name=Value * * @param name * name of the parameter * @param value * the value of the parameter * @throws NullPointerException * for name * @throws ErrorDataEncoderException * if the encoding is in error or if the finalize were already done */ public void addBodyAttribute(String name, String value) throws ErrorDataEncoderException { String svalue = value != null? value : StringUtil.EMPTY_STRING; Attribute data = factory.createAttribute(request, checkNotNull(name, "name"), svalue); addBodyHttpData(data); } /** * Add a file as a FileUpload * * @param name * the name of the parameter * @param file * the file to be uploaded (if not Multipart mode, only the filename will be included) * @param contentType * the associated contentType for the File * @param isText * True if this file should be transmitted in Text format (else binary) * @throws NullPointerException * for name and file * @throws ErrorDataEncoderException * if the encoding is in error or if the finalize were already done */ public void addBodyFileUpload(String name, File file, String contentType, boolean isText) throws ErrorDataEncoderException { addBodyFileUpload(name, file.getName(), file, contentType, isText); } /** * Add a file as a FileUpload * * @param name * the name of the parameter * @param file * the file to be uploaded (if not Multipart mode, only the filename will be included) * @param filename * the filename to use for this File part, empty String will be ignored by * the encoder * @param contentType * the associated contentType for the File * @param isText * True if this file should be transmitted in Text format (else binary) * @throws NullPointerException * for name and file * @throws ErrorDataEncoderException * if the encoding is in error or if the finalize were already done */ public void addBodyFileUpload(String name, String filename, File file, String contentType, boolean isText) throws ErrorDataEncoderException { checkNotNull(name, "name"); checkNotNull(file, "file"); if (filename == null) { filename = StringUtil.EMPTY_STRING; } String scontentType = contentType; String contentTransferEncoding = null; if (contentType == null) { if (isText) { scontentType = HttpPostBodyUtil.DEFAULT_TEXT_CONTENT_TYPE; } else { scontentType = HttpPostBodyUtil.DEFAULT_BINARY_CONTENT_TYPE; } } if (!isText) { contentTransferEncoding = HttpPostBodyUtil.TransferEncodingMechanism.BINARY.value(); } FileUpload fileUpload = factory.createFileUpload(request, name, filename, scontentType, contentTransferEncoding, null, file.length()); try { fileUpload.setContent(file); } catch (IOException e) { throw new ErrorDataEncoderException(e); } addBodyHttpData(fileUpload); } /** * Add a series of Files associated with one File parameter * * @param name * the name of the parameter * @param file * the array of files * @param contentType * the array of content Types associated with each file * @param isText * the array of isText attribute (False meaning binary mode) for each file * @throws IllegalArgumentException * also throws if array have different sizes * @throws ErrorDataEncoderException * if the encoding is in error or if the finalize were already done */ public void addBodyFileUploads(String name, File[] file, String[] contentType, boolean[] isText) throws ErrorDataEncoderException { if (file.length != contentType.length && file.length != isText.length) { throw new IllegalArgumentException("Different array length"); } for (int i = 0; i < file.length; i++) { addBodyFileUpload(name, file[i], contentType[i], isText[i]); } } /** * Add the InterfaceHttpData to the Body list * * @throws NullPointerException * for data * @throws ErrorDataEncoderException * if the encoding is in error or if the finalize were already done */ public void addBodyHttpData(InterfaceHttpData data) throws ErrorDataEncoderException { if (headerFinalized) { throw new ErrorDataEncoderException("Cannot add value once finalized"); } bodyListDatas.add(checkNotNull(data, "data")); if (!isMultipart) { if (data instanceof Attribute) { Attribute attribute = (Attribute) data; try { // name=value& with encoded name and attribute String key = encodeAttribute(attribute.getName(), charset); String value = encodeAttribute(attribute.getValue(), charset); Attribute newattribute = factory.createAttribute(request, key, value); multipartHttpDatas.add(newattribute); globalBodySize += newattribute.getName().length() + 1 + newattribute.length() + 1; } catch (IOException e) { throw new ErrorDataEncoderException(e); } } else if (data instanceof FileUpload) { // since not Multipart, only name=filename => Attribute FileUpload fileUpload = (FileUpload) data; // name=filename& with encoded name and filename String key = encodeAttribute(fileUpload.getName(), charset); String value = encodeAttribute(fileUpload.getFilename(), charset); Attribute newattribute = factory.createAttribute(request, key, value); multipartHttpDatas.add(newattribute); globalBodySize += newattribute.getName().length() + 1 + newattribute.length() + 1; } return; } /* * Logic: * if not Attribute: * add Data to body list * if (duringMixedMode) * add endmixedmultipart delimiter * currentFileUpload = null * duringMixedMode = false; * add multipart delimiter, multipart body header and Data to multipart list * reset currentFileUpload, duringMixedMode * if FileUpload: take care of multiple file for one field => mixed mode * if (duringMixedMode) * if (currentFileUpload.name == data.name) * add mixedmultipart delimiter, mixedmultipart body header and Data to multipart list * else * add endmixedmultipart delimiter, multipart body header and Data to multipart list * currentFileUpload = data * duringMixedMode = false; * else * if (currentFileUpload.name == data.name) * change multipart body header of previous file into multipart list to * mixedmultipart start, mixedmultipart body header * add mixedmultipart delimiter, mixedmultipart body header and Data to multipart list * duringMixedMode = true * else * add multipart delimiter, multipart body header and Data to multipart list * currentFileUpload = data * duringMixedMode = false; * Do not add last delimiter! Could be: * if duringmixedmode: endmixedmultipart + endmultipart * else only endmultipart */ if (data instanceof Attribute) { if (duringMixedMode) { InternalAttribute internal = new InternalAttribute(charset); internal.addValue("\r\n--" + multipartMixedBoundary + "--"); multipartHttpDatas.add(internal); multipartMixedBoundary = null; currentFileUpload = null; duringMixedMode = false; } InternalAttribute internal = new InternalAttribute(charset); if (!multipartHttpDatas.isEmpty()) { // previously a data field so CRLF internal.addValue("\r\n"); } internal.addValue("--" + multipartDataBoundary + "\r\n"); // content-disposition: form-data; name="field1" Attribute attribute = (Attribute) data; internal.addValue(HttpHeaderNames.CONTENT_DISPOSITION + ": " + HttpHeaderValues.FORM_DATA + "; " + HttpHeaderValues.NAME + "=\"" + attribute.getName() + "\"\r\n"); // Add Content-Length: xxx internal.addValue(HttpHeaderNames.CONTENT_LENGTH + ": " + attribute.length() + "\r\n"); Charset localcharset = attribute.getCharset(); if (localcharset != null) { // Content-Type: text/plain; charset=charset internal.addValue(HttpHeaderNames.CONTENT_TYPE + ": " + HttpPostBodyUtil.DEFAULT_TEXT_CONTENT_TYPE + "; " + HttpHeaderValues.CHARSET + '=' + localcharset.name() + "\r\n"); } // CRLF between body header and data internal.addValue("\r\n"); multipartHttpDatas.add(internal); multipartHttpDatas.add(data); globalBodySize += attribute.length() + internal.size(); } else if (data instanceof FileUpload) { FileUpload fileUpload = (FileUpload) data; InternalAttribute internal = new InternalAttribute(charset); if (!multipartHttpDatas.isEmpty()) { // previously a data field so CRLF internal.addValue("\r\n"); } boolean localMixed; if (duringMixedMode) { if (currentFileUpload != null && currentFileUpload.getName().equals(fileUpload.getName())) { // continue a mixed mode localMixed = true; } else { // end a mixed mode // add endmixedmultipart delimiter, multipart body header // and // Data to multipart list internal.addValue("--" + multipartMixedBoundary + "--"); multipartHttpDatas.add(internal); multipartMixedBoundary = null; // start a new one (could be replaced if mixed start again // from here internal = new InternalAttribute(charset); internal.addValue("\r\n"); localMixed = false; // new currentFileUpload and no more in Mixed mode currentFileUpload = fileUpload; duringMixedMode = false; } } else { if (encoderMode != EncoderMode.HTML5 && currentFileUpload != null && currentFileUpload.getName().equals(fileUpload.getName())) { // create a new mixed mode (from previous file) // change multipart body header of previous file into // multipart list to // mixedmultipart start, mixedmultipart body header // change Internal (size()-2 position in multipartHttpDatas) // from (line starting with *) // --AaB03x // * Content-Disposition: form-data; name="files"; // filename="file1.txt" // Content-Type: text/plain // to (lines starting with *) // --AaB03x // * Content-Disposition: form-data; name="files" // * Content-Type: multipart/mixed; boundary=BbC04y // * // * --BbC04y // * Content-Disposition: attachment; filename="file1.txt" // Content-Type: text/plain initMixedMultipart(); InternalAttribute pastAttribute = (InternalAttribute) multipartHttpDatas.get(multipartHttpDatas .size() - 2); // remove past size globalBodySize -= pastAttribute.size(); StringBuilder replacement = new StringBuilder( 139 + multipartDataBoundary.length() + multipartMixedBoundary.length() * 2 + fileUpload.getFilename().length() + fileUpload.getName().length()) .append("--") .append(multipartDataBoundary) .append("\r\n") .append(HttpHeaderNames.CONTENT_DISPOSITION) .append(": ") .append(HttpHeaderValues.FORM_DATA) .append("; ") .append(HttpHeaderValues.NAME) .append("=\"") .append(fileUpload.getName()) .append("\"\r\n") .append(HttpHeaderNames.CONTENT_TYPE) .append(": ") .append(HttpHeaderValues.MULTIPART_MIXED) .append("; ") .append(HttpHeaderValues.BOUNDARY) .append('=') .append(multipartMixedBoundary) .append("\r\n\r\n") .append("--") .append(multipartMixedBoundary) .append("\r\n") .append(HttpHeaderNames.CONTENT_DISPOSITION) .append(": ") .append(HttpHeaderValues.ATTACHMENT); if (!fileUpload.getFilename().isEmpty()) { replacement.append("; ") .append(HttpHeaderValues.FILENAME) .append("=\"") .append(currentFileUpload.getFilename()) .append('"'); } replacement.append("\r\n"); pastAttribute.setValue(replacement.toString(), 1); pastAttribute.setValue("", 2); // update past size globalBodySize += pastAttribute.size(); // now continue // add mixedmultipart delimiter, mixedmultipart body header // and // Data to multipart list localMixed = true; duringMixedMode = true; } else { // a simple new multipart // add multipart delimiter, multipart body header and Data // to multipart list localMixed = false; currentFileUpload = fileUpload; duringMixedMode = false; } } if (localMixed) { // add mixedmultipart delimiter, mixedmultipart body header and // Data to multipart list internal.addValue("--" + multipartMixedBoundary + "\r\n"); if (fileUpload.getFilename().isEmpty()) { // Content-Disposition: attachment internal.addValue(HttpHeaderNames.CONTENT_DISPOSITION + ": " + HttpHeaderValues.ATTACHMENT + "\r\n"); } else { // Content-Disposition: attachment; filename="file1.txt" internal.addValue(HttpHeaderNames.CONTENT_DISPOSITION + ": " + HttpHeaderValues.ATTACHMENT + "; " + HttpHeaderValues.FILENAME + "=\"" + fileUpload.getFilename() + "\"\r\n"); } } else { internal.addValue("--" + multipartDataBoundary + "\r\n"); if (fileUpload.getFilename().isEmpty()) { // Content-Disposition: form-data; name="files"; internal.addValue(HttpHeaderNames.CONTENT_DISPOSITION + ": " + HttpHeaderValues.FORM_DATA + "; " + HttpHeaderValues.NAME + "=\"" + fileUpload.getName() + "\"\r\n"); } else { // Content-Disposition: form-data; name="files"; // filename="file1.txt" internal.addValue(HttpHeaderNames.CONTENT_DISPOSITION + ": " + HttpHeaderValues.FORM_DATA + "; " + HttpHeaderValues.NAME + "=\"" + fileUpload.getName() + "\"; " + HttpHeaderValues.FILENAME + "=\"" + fileUpload.getFilename() + "\"\r\n"); } } // Add Content-Length: xxx internal.addValue(HttpHeaderNames.CONTENT_LENGTH + ": " + fileUpload.length() + "\r\n"); // Content-Type: image/gif // Content-Type: text/plain; charset=ISO-8859-1 // Content-Transfer-Encoding: binary internal.addValue(HttpHeaderNames.CONTENT_TYPE + ": " + fileUpload.getContentType()); String contentTransferEncoding = fileUpload.getContentTransferEncoding(); if (contentTransferEncoding != null && contentTransferEncoding.equals(HttpPostBodyUtil.TransferEncodingMechanism.BINARY.value())) { internal.addValue("\r\n" + HttpHeaderNames.CONTENT_TRANSFER_ENCODING + ": " + HttpPostBodyUtil.TransferEncodingMechanism.BINARY.value() + "\r\n\r\n"); } else if (fileUpload.getCharset() != null) { internal.addValue("; " + HttpHeaderValues.CHARSET + '=' + fileUpload.getCharset().name() + "\r\n\r\n"); } else { internal.addValue("\r\n\r\n"); } multipartHttpDatas.add(internal); multipartHttpDatas.add(data); globalBodySize += fileUpload.length() + internal.size(); } } /** * Iterator to be used when encoding will be called chunk after chunk */ private ListIterator iterator; /** * Finalize the request by preparing the Header in the request and returns the request ready to be sent.
* Once finalized, no data must be added.
* If the request does not need chunk (isChunked() == false), this request is the only object to send to the remote * server. * * @return the request object (chunked or not according to size of body) * @throws ErrorDataEncoderException * if the encoding is in error or if the finalize were already done */ public HttpRequest finalizeRequest() throws ErrorDataEncoderException { // Finalize the multipartHttpDatas if (!headerFinalized) { if (isMultipart) { InternalAttribute internal = new InternalAttribute(charset); if (duringMixedMode) { internal.addValue("\r\n--" + multipartMixedBoundary + "--"); } internal.addValue("\r\n--" + multipartDataBoundary + "--\r\n"); multipartHttpDatas.add(internal); multipartMixedBoundary = null; currentFileUpload = null; duringMixedMode = false; globalBodySize += internal.size(); } headerFinalized = true; } else { throw new ErrorDataEncoderException("Header already encoded"); } HttpHeaders headers = request.headers(); List contentTypes = headers.getAll(HttpHeaderNames.CONTENT_TYPE); List transferEncoding = headers.getAll(HttpHeaderNames.TRANSFER_ENCODING); if (contentTypes != null) { headers.remove(HttpHeaderNames.CONTENT_TYPE); for (String contentType : contentTypes) { // "multipart/form-data; boundary=--89421926422648" String lowercased = contentType.toLowerCase(); if (lowercased.startsWith(HttpHeaderValues.MULTIPART_FORM_DATA.toString()) || lowercased.startsWith(HttpHeaderValues.APPLICATION_X_WWW_FORM_URLENCODED.toString())) { // ignore } else { headers.add(HttpHeaderNames.CONTENT_TYPE, contentType); } } } if (isMultipart) { String value = HttpHeaderValues.MULTIPART_FORM_DATA + "; " + HttpHeaderValues.BOUNDARY + '=' + multipartDataBoundary; headers.add(HttpHeaderNames.CONTENT_TYPE, value); } else { // Not multipart headers.add(HttpHeaderNames.CONTENT_TYPE, HttpHeaderValues.APPLICATION_X_WWW_FORM_URLENCODED); } // Now consider size for chunk or not long realSize = globalBodySize; if (!isMultipart) { realSize -= 1; // last '&' removed } iterator = multipartHttpDatas.listIterator(); headers.set(HttpHeaderNames.CONTENT_LENGTH, String.valueOf(realSize)); if (realSize > HttpPostBodyUtil.chunkSize || isMultipart) { isChunked = true; if (transferEncoding != null) { headers.remove(HttpHeaderNames.TRANSFER_ENCODING); for (CharSequence v : transferEncoding) { if (HttpHeaderValues.CHUNKED.contentEqualsIgnoreCase(v)) { // ignore } else { headers.add(HttpHeaderNames.TRANSFER_ENCODING, v); } } } HttpUtil.setTransferEncodingChunked(request, true); // wrap to hide the possible content return new WrappedHttpRequest(request); } else { // get the only one body and set it to the request HttpContent chunk = nextChunk(); if (request instanceof FullHttpRequest) { FullHttpRequest fullRequest = (FullHttpRequest) request; ByteBuf chunkContent = chunk.content(); if (fullRequest.content() != chunkContent) { fullRequest.content().clear().writeBytes(chunkContent); chunkContent.release(); } return fullRequest; } else { return new WrappedFullHttpRequest(request, chunk); } } } /** * @return True if the request is by Chunk */ public boolean isChunked() { return isChunked; } /** * Encode one attribute * * @return the encoded attribute * @throws ErrorDataEncoderException * if the encoding is in error */ @SuppressWarnings("unchecked") private String encodeAttribute(String s, Charset charset) throws ErrorDataEncoderException { if (s == null) { return ""; } try { String encoded = URLEncoder.encode(s, charset.name()); if (encoderMode == EncoderMode.RFC3986) { for (Map.Entry entry : percentEncodings) { String replacement = entry.getValue(); encoded = entry.getKey().matcher(encoded).replaceAll(replacement); } } return encoded; } catch (UnsupportedEncodingException e) { throw new ErrorDataEncoderException(charset.name(), e); } } /** * The ByteBuf currently used by the encoder */ private ByteBuf currentBuffer; /** * The current InterfaceHttpData to encode (used if more chunks are available) */ private InterfaceHttpData currentData; /** * If not multipart, does the currentBuffer stands for the Key or for the Value */ private boolean isKey = true; /** * * @return the next ByteBuf to send as an HttpChunk and modifying currentBuffer accordingly */ private ByteBuf fillByteBuf() { int length = currentBuffer.readableBytes(); if (length > HttpPostBodyUtil.chunkSize) { return currentBuffer.readRetainedSlice(HttpPostBodyUtil.chunkSize); } else { // to continue ByteBuf slice = currentBuffer; currentBuffer = null; return slice; } } /** * From the current context (currentBuffer and currentData), returns the next HttpChunk (if possible) trying to get * sizeleft bytes more into the currentBuffer. This is the Multipart version. * * @param sizeleft * the number of bytes to try to get from currentData * @return the next HttpChunk or null if not enough bytes were found * @throws ErrorDataEncoderException * if the encoding is in error */ private HttpContent encodeNextChunkMultipart(int sizeleft) throws ErrorDataEncoderException { if (currentData == null) { return null; } ByteBuf buffer; if (currentData instanceof InternalAttribute) { buffer = ((InternalAttribute) currentData).toByteBuf(); currentData = null; } else { try { buffer = ((HttpData) currentData).getChunk(sizeleft); } catch (IOException e) { throw new ErrorDataEncoderException(e); } if (buffer.capacity() == 0) { // end for current InterfaceHttpData, need more data currentData = null; return null; } } if (currentBuffer == null) { currentBuffer = buffer; } else { currentBuffer = wrappedBuffer(currentBuffer, buffer); } if (currentBuffer.readableBytes() < HttpPostBodyUtil.chunkSize) { currentData = null; return null; } buffer = fillByteBuf(); return new DefaultHttpContent(buffer); } /** * From the current context (currentBuffer and currentData), returns the next HttpChunk (if possible) trying to get * sizeleft bytes more into the currentBuffer. This is the UrlEncoded version. * * @param sizeleft * the number of bytes to try to get from currentData * @return the next HttpChunk or null if not enough bytes were found * @throws ErrorDataEncoderException * if the encoding is in error */ private HttpContent encodeNextChunkUrlEncoded(int sizeleft) throws ErrorDataEncoderException { if (currentData == null) { return null; } int size = sizeleft; ByteBuf buffer; // Set name= if (isKey) { String key = currentData.getName(); buffer = wrappedBuffer(key.getBytes()); isKey = false; if (currentBuffer == null) { currentBuffer = wrappedBuffer(buffer, wrappedBuffer("=".getBytes())); } else { currentBuffer = wrappedBuffer(currentBuffer, buffer, wrappedBuffer("=".getBytes())); } // continue size -= buffer.readableBytes() + 1; if (currentBuffer.readableBytes() >= HttpPostBodyUtil.chunkSize) { buffer = fillByteBuf(); return new DefaultHttpContent(buffer); } } // Put value into buffer try { buffer = ((HttpData) currentData).getChunk(size); } catch (IOException e) { throw new ErrorDataEncoderException(e); } // Figure out delimiter ByteBuf delimiter = null; if (buffer.readableBytes() < size) { isKey = true; delimiter = iterator.hasNext() ? wrappedBuffer("&".getBytes()) : null; } // End for current InterfaceHttpData, need potentially more data if (buffer.capacity() == 0) { currentData = null; if (currentBuffer == null) { if (delimiter == null) { return null; } else { currentBuffer = delimiter; } } else { if (delimiter != null) { currentBuffer = wrappedBuffer(currentBuffer, delimiter); } } if (currentBuffer.readableBytes() >= HttpPostBodyUtil.chunkSize) { buffer = fillByteBuf(); return new DefaultHttpContent(buffer); } return null; } // Put it all together: name=value& if (currentBuffer == null) { if (delimiter != null) { currentBuffer = wrappedBuffer(buffer, delimiter); } else { currentBuffer = buffer; } } else { if (delimiter != null) { currentBuffer = wrappedBuffer(currentBuffer, buffer, delimiter); } else { currentBuffer = wrappedBuffer(currentBuffer, buffer); } } // end for current InterfaceHttpData, need more data if (currentBuffer.readableBytes() < HttpPostBodyUtil.chunkSize) { currentData = null; isKey = true; return null; } buffer = fillByteBuf(); return new DefaultHttpContent(buffer); } @Override public void close() throws Exception { // NO since the user can want to reuse (broadcast for instance) // cleanFiles(); } @Deprecated @Override public HttpContent readChunk(ChannelHandlerContext ctx) throws Exception { return readChunk(ctx.alloc()); } /** * Returns the next available HttpChunk. The caller is responsible to test if this chunk is the last one (isLast()), * in order to stop calling this getMethod. * * @return the next available HttpChunk * @throws ErrorDataEncoderException * if the encoding is in error */ @Override public HttpContent readChunk(ByteBufAllocator allocator) throws Exception { if (isLastChunkSent) { return null; } else { HttpContent nextChunk = nextChunk(); globalProgress += nextChunk.content().readableBytes(); return nextChunk; } } /** * Returns the next available HttpChunk. The caller is responsible to test if this chunk is the last one (isLast()), * in order to stop calling this getMethod. * * @return the next available HttpChunk * @throws ErrorDataEncoderException * if the encoding is in error */ private HttpContent nextChunk() throws ErrorDataEncoderException { if (isLastChunk) { isLastChunkSent = true; return LastHttpContent.EMPTY_LAST_CONTENT; } // first test if previous buffer is not empty int size = calculateRemainingSize(); if (size <= 0) { // NextChunk from buffer ByteBuf buffer = fillByteBuf(); return new DefaultHttpContent(buffer); } // size > 0 if (currentData != null) { // continue to read data HttpContent chunk; if (isMultipart) { chunk = encodeNextChunkMultipart(size); } else { chunk = encodeNextChunkUrlEncoded(size); } if (chunk != null) { // NextChunk from data return chunk; } size = calculateRemainingSize(); } if (!iterator.hasNext()) { return lastChunk(); } while (size > 0 && iterator.hasNext()) { currentData = iterator.next(); HttpContent chunk; if (isMultipart) { chunk = encodeNextChunkMultipart(size); } else { chunk = encodeNextChunkUrlEncoded(size); } if (chunk == null) { // not enough size = calculateRemainingSize(); continue; } // NextChunk from data return chunk; } // end since no more data return lastChunk(); } private int calculateRemainingSize() { int size = HttpPostBodyUtil.chunkSize; if (currentBuffer != null) { size -= currentBuffer.readableBytes(); } return size; } private HttpContent lastChunk() { isLastChunk = true; if (currentBuffer == null) { isLastChunkSent = true; // LastChunk with no more data return LastHttpContent.EMPTY_LAST_CONTENT; } // NextChunk as last non empty from buffer ByteBuf buffer = currentBuffer; currentBuffer = null; return new DefaultHttpContent(buffer); } @Override public boolean isEndOfInput() throws Exception { return isLastChunkSent; } @Override public long length() { return isMultipart? globalBodySize : globalBodySize - 1; } @Override public long progress() { return globalProgress; } /** * Exception when an error occurs while encoding */ public static class ErrorDataEncoderException extends Exception { private static final long serialVersionUID = 5020247425493164465L; public ErrorDataEncoderException() { } public ErrorDataEncoderException(String msg) { super(msg); } public ErrorDataEncoderException(Throwable cause) { super(cause); } public ErrorDataEncoderException(String msg, Throwable cause) { super(msg, cause); } } private static class WrappedHttpRequest implements HttpRequest { private final HttpRequest request; WrappedHttpRequest(HttpRequest request) { this.request = request; } @Override public HttpRequest setProtocolVersion(HttpVersion version) { request.setProtocolVersion(version); return this; } @Override public HttpRequest setMethod(HttpMethod method) { request.setMethod(method); return this; } @Override public HttpRequest setUri(String uri) { request.setUri(uri); return this; } @Override public HttpMethod getMethod() { return request.method(); } @Override public HttpMethod method() { return request.method(); } @Override public String getUri() { return request.uri(); } @Override public String uri() { return request.uri(); } @Override public HttpVersion getProtocolVersion() { return request.protocolVersion(); } @Override public HttpVersion protocolVersion() { return request.protocolVersion(); } @Override public HttpHeaders headers() { return request.headers(); } @Override public DecoderResult decoderResult() { return request.decoderResult(); } @Override @Deprecated public DecoderResult getDecoderResult() { return request.getDecoderResult(); } @Override public void setDecoderResult(DecoderResult result) { request.setDecoderResult(result); } } private static final class WrappedFullHttpRequest extends WrappedHttpRequest implements FullHttpRequest { private final HttpContent content; private WrappedFullHttpRequest(HttpRequest request, HttpContent content) { super(request); this.content = content; } @Override public FullHttpRequest setProtocolVersion(HttpVersion version) { super.setProtocolVersion(version); return this; } @Override public FullHttpRequest setMethod(HttpMethod method) { super.setMethod(method); return this; } @Override public FullHttpRequest setUri(String uri) { super.setUri(uri); return this; } @Override public FullHttpRequest copy() { return replace(content().copy()); } @Override public FullHttpRequest duplicate() { return replace(content().duplicate()); } @Override public FullHttpRequest retainedDuplicate() { return replace(content().retainedDuplicate()); } @Override public FullHttpRequest replace(ByteBuf content) { DefaultFullHttpRequest duplicate = new DefaultFullHttpRequest(protocolVersion(), method(), uri(), content); duplicate.headers().set(headers()); duplicate.trailingHeaders().set(trailingHeaders()); return duplicate; } @Override public FullHttpRequest retain(int increment) { content.retain(increment); return this; } @Override public FullHttpRequest retain() { content.retain(); return this; } @Override public FullHttpRequest touch() { content.touch(); return this; } @Override public FullHttpRequest touch(Object hint) { content.touch(hint); return this; } @Override public ByteBuf content() { return content.content(); } @Override public HttpHeaders trailingHeaders() { if (content instanceof LastHttpContent) { return ((LastHttpContent) content).trailingHeaders(); } else { return EmptyHttpHeaders.INSTANCE; } } @Override public int refCnt() { return content.refCnt(); } @Override public boolean release() { return content.release(); } @Override public boolean release(int decrement) { return content.release(decrement); } } }




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