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/*
* ContentConsumer.java February 2007
*
* Copyright (C) 2007, Niall Gallagher
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
* implied. See the License for the specific language governing
* permissions and limitations under the License.
*/
package org.simpleframework.http.message;
import java.io.IOException;
import org.simpleframework.http.Part;
import org.simpleframework.transport.Cursor;
import org.simpleframework.util.buffer.Allocator;
import org.simpleframework.util.buffer.Buffer;
/**
* The ContentConsumer object represents a consumer for
* a multipart body part. This will read the contents of the cursor
* until such time as it reads the terminal boundary token, which is
* used to frame the content. Once the boundary token has been read
* this will add itself as a part to a part list. This part list can
* then be used with the HTTP request to examine and use the part.
*
* @author Niall Gallagher
*
* @see org.simpleframework.http.message.PartConsumer
*/
class ContentConsumer extends UpdateConsumer {
/**
* This represents the start of the boundary token for the body.
*/
private static final byte[] START = { '\r', '\n', '-', '-' };
/**
* This is the part list that this part is to be added to.
*/
private PartSeries series;
/**
* This is used to allocate the internal buffer when required.
*/
private Allocator allocator;
/**
* Represents the HTTP headers that were provided for the part.
*/
private Segment segment;
/**
* This is the internal buffer used to house the part body.
*/
private Buffer buffer;
/**
* Represents the message boundary that terminates the part body.
*/
private byte[] boundary;
/**
* This is used to determine if the start token had been read.
*/
private int start;
/**
* This is used to determine how many boundary tokens are read.
*/
private int seek;
/**
* Constructor for the ContentConsumer object. This
* is used to create a consumer that reads the body of a part in
* a multipart request body. The terminal token must be provided
* so that the end of the part body can be determined.
*
* @param allocator this is used to allocate the internal buffer
* @param segment this represents the headers for the part body
* @param series this is the part list that this body belongs in
* @param boundary this is the message boundary for the body part
*/
public ContentConsumer(Allocator allocator, Segment segment, PartSeries series, byte[] boundary) {
this.allocator = allocator;
this.boundary = boundary;
this.segment = segment;
this.series = series;
}
/**
* This is used to acquire the body for this HTTP entity. This
* will return a body which can be used to read the content of
* the message, also if the request is multipart upload then all
* of the parts are provided as Part objects. Each
* part can then be read as an individual message.
*
* @return the body provided by the HTTP request message
*/
public Body getBody() {
return new BufferBody(buffer);
}
/**
* This is used to acquire the part for this HTTP entity. This
* will return a part which can be used to read the content of
* the message, the part created contains the contents of the
* body and the headers associated with it.
*
* @return the part provided by the HTTP request message
*/
public Part getPart() {
return new BufferPart(segment, buffer);
}
/**
* This method is used to append the contents of the array to the
* internal buffer. The appended bytes can be acquired from the
* internal buffer using an InputStream, or the text
* of the appended bytes can be acquired by encoding the bytes.
*
* @param array this is the array of bytes to be appended
* @param off this is the start offset in the array to read from
* @param len this is the number of bytes to write to the buffer
*/
private void append(byte[] array, int off, int len) throws IOException {
if(buffer == null) {
buffer = allocator.allocate();
}
buffer.append(array, off, len);
}
/**
* This is used to push the start and boundary back on to the
* cursor. Pushing the boundary back on to the cursor is required
* to ensure that the next consumer will have valid data to
* read from it. Simply resetting the boundary is not enough as
* this can cause an infinite loop if the connection is bad.
*
* @param cursor this is the cursor used by this consumer
*/
@Override
protected void commit(Cursor cursor) throws IOException {
cursor.push(boundary);
cursor.push(START);
}
/**
* This is used to process the bytes that have been read from the
* cursor. This will search for the boundary token within the body
* of the message part, when it is found this will returns the
* number of bytes that represent the overflow.
*
* @param array this is a chunk read from the cursor
* @param off this is the offset within the array the chunk starts
* @param size this is the number of bytes within the array
*
* @return this returns the number of bytes overflow that is read
*/
@Override
protected int update(byte[] array, int off, int size) throws IOException {
int skip = start + seek; // did we skip previously
int last = off + size;
int next = start;
int mark = off;
while(off < last) {
if(start == START.length) { // search for boundary
if(array[off++] != boundary[seek++]) { // boundary not found
if(skip > 0) {
append(START, 0, next); // write skipped start
append(boundary, 0, skip - next); // write skipped boundary
}
skip = start = seek = 0; // reset scan position
}
if(seek == boundary.length) { // boundary found
int excess = seek + start; // boundary bytes read
int total = off - mark; // total bytes read
int valid = total - excess; // body bytes read
finished = true;
if(valid > 0) {
append(array, mark, valid);
}
Part part = getPart();
if(part != null) {
series.addPart(part);
}
return size - total; // remaining excluding boundary
}
} else {
byte octet = array[off++]; // current
if(octet != START[start++]) {
if(skip > 0) {
append(START, 0, next); // write skipped start
}
skip = start = 0; // reset
if(octet == START[0]) { // is previous byte the start
start++;
}
}
}
}
int excess = seek + start; // boundary bytes read
int total = off - mark; // total bytes read
int valid = total - excess; // body bytes read
if(valid > 0) { // can we append processed data
append(array, mark, valid);
}
return 0;
}
}
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