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/*
 * Copyright 2004-2013 ICEsoft Technologies Canada Corp.
 *
 * 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.
 */

/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF 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 andd
 * limitations under the License.
 */
package org.icefaces.apache.commons.fileupload;

import java.io.ByteArrayOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.io.UnsupportedEncodingException;

import org.icefaces.apache.commons.fileupload.util.Closeable;
import org.icefaces.apache.commons.fileupload.util.Streams;

/**
 * 

Low level API for processing file uploads. * *

This class can be used to process data streams conforming to MIME * 'multipart' format as defined in * RFC 1867. Arbitrarily * large amounts of data in the stream can be processed under constant * memory usage. * *

The format of the stream is defined in the following way:
* * * multipart-body := preamble 1*encapsulation close-delimiter epilogue
* encapsulation := delimiter body CRLF
* delimiter := "--" boundary CRLF
* close-delimiter := "--" boudary "--"
* preamble := <ignore>
* epilogue := <ignore>
* body := header-part CRLF body-part
* header-part := 1*header CRLF
* header := header-name ":" header-value
* header-name := <printable ascii characters except ":">
* header-value := <any ascii characters except CR & LF>
* body-data := <arbitrary data>
*
* *

Note that body-data can contain another mulipart entity. There * is limited support for single pass processing of such nested * streams. The nested stream is required to have a * boundary token of the same length as the parent stream (see {@link * #setBoundary(byte[])}). * *

Here is an example of usage of this class.
* *

 *    try {
 *        MultipartStream multipartStream = new MultipartStream(input,
 *                                                              boundary);
 *        boolean nextPart = multipartStream.skipPreamble();
 *        OutputStream output;
 *        while(nextPart) {
 *            header = chunks.readHeader();
 *            // process headers
 *            // create some output stream
 *            multipartStream.readBodyPart(output);
 *            nextPart = multipartStream.readBoundary();
 *        }
 *    } catch(MultipartStream.MalformedStreamException e) {
 *          // the stream failed to follow required syntax
 *    } catch(IOException) {
 *          // a read or write error occurred
 *    }
 *
 * 
* * @author Rafal Krzewski * @author Martin Cooper * @author Sean C. Sullivan * * @version $Id: MultipartStream.java 607869 2008-01-01 16:42:17Z jochen $ */ public class MultipartStream { /** * Internal class, which is used to invoke the * {@link ProgressListener}. */ static class ProgressNotifier { /** The listener to invoke. */ private final ProgressListener listener; /** Number of expected bytes, if known, or -1. */ private final long contentLength; /** Number of bytes, which have been read so far. */ private long bytesRead; /** Number of items, which have been read so far. */ private int items; /** Creates a new instance with the given listener * and content length. * @param pListener The listener to invoke. * @param pContentLength The expected content length. */ ProgressNotifier(ProgressListener pListener, long pContentLength) { listener = pListener; contentLength = pContentLength; } /** Called to indicate that bytes have been read. * @param pBytes Number of bytes, which have been read. */ void noteBytesRead(int pBytes) { /* Indicates, that the given number of bytes have been read from * the input stream. */ bytesRead += pBytes; notifyListener(); } /** Called to indicate, that a new file item has been detected. */ void noteItem() { ++items; } /** Called for notifying the listener. */ private void notifyListener() { if (listener != null) { listener.update(bytesRead, contentLength, items); } } } // ----------------------------------------------------- Manifest constants /** * The Carriage Return ASCII character value. */ public static final byte CR = 0x0D; /** * The Line Feed ASCII character value. */ public static final byte LF = 0x0A; /** * The dash (-) ASCII character value. */ public static final byte DASH = 0x2D; /** * The maximum length of header-part that will be * processed (10 kilobytes = 10240 bytes.). */ public static final int HEADER_PART_SIZE_MAX = 10240; /** * The default length of the buffer used for processing a request. */ protected static final int DEFAULT_BUFSIZE = 4096; /** * A byte sequence that marks the end of header-part * (CRLFCRLF). */ protected static final byte[] HEADER_SEPARATOR = { CR, LF, CR, LF }; /** * A byte sequence that that follows a delimiter that will be * followed by an encapsulation (CRLF). */ protected static final byte[] FIELD_SEPARATOR = { CR, LF}; /** * A byte sequence that that follows a delimiter of the last * encapsulation in the stream (--). */ protected static final byte[] STREAM_TERMINATOR = { DASH, DASH}; /** * A byte sequence that precedes a boundary (CRLF--). */ protected static final byte[] BOUNDARY_PREFIX = { CR, LF, DASH, DASH}; // ----------------------------------------------------------- Data members /** * The input stream from which data is read. */ private final InputStream input; /** * The length of the boundary token plus the leading CRLF--. */ private int boundaryLength; /** * The amount of data, in bytes, that must be kept in the buffer in order * to detect delimiters reliably. */ private int keepRegion; /** * The byte sequence that partitions the stream. */ private byte[] boundary; /** * The length of the buffer used for processing the request. */ private final int bufSize; /** * The buffer used for processing the request. */ private final byte[] buffer; /** * The index of first valid character in the buffer. *
* 0 <= head < bufSize */ private int head; /** * The index of last valid characer in the buffer + 1. *
* 0 <= tail <= bufSize */ private int tail; /** * The content encoding to use when reading headers. */ private String headerEncoding; /** * The progress notifier, if any, or null. */ private final ProgressNotifier notifier; // ----------------------------------------------------------- Constructors /** * Creates a new instance. * @deprecated Use {@link #MultipartStream(InputStream, byte[], * org.icefaces.apache.commons.fileupload.MultipartStream.ProgressNotifier)}, * or {@link #MultipartStream(InputStream, byte[], int, * org.icefaces.apache.commons.fileupload.MultipartStream.ProgressNotifier)} */ public MultipartStream() { this(null, null, null); } /** *

Constructs a MultipartStream with a custom size buffer * and no progress notifier. * *

Note that the buffer must be at least big enough to contain the * boundary string, plus 4 characters for CR/LF and double dash, plus at * least one byte of data. Too small a buffer size setting will degrade * performance. * * @param input The InputStream to serve as a data source. * @param boundary The token used for dividing the stream into * encapsulations. * @param bufSize The size of the buffer to be used, in bytes. * * @see #MultipartStream(InputStream, byte[], * MultipartStream.ProgressNotifier) * @deprecated Use {@link #MultipartStream(InputStream, byte[], int, * org.icefaces.apache.commons.fileupload.MultipartStream.ProgressNotifier)}. */ public MultipartStream(InputStream input, byte[] boundary, int bufSize) { this(input, boundary, bufSize, null); } /** *

Constructs a MultipartStream with a custom size buffer. * *

Note that the buffer must be at least big enough to contain the * boundary string, plus 4 characters for CR/LF and double dash, plus at * least one byte of data. Too small a buffer size setting will degrade * performance. * * @param input The InputStream to serve as a data source. * @param boundary The token used for dividing the stream into * encapsulations. * @param bufSize The size of the buffer to be used, in bytes. * @param pNotifier The notifier, which is used for calling the * progress listener, if any. * * @see #MultipartStream(InputStream, byte[], * MultipartStream.ProgressNotifier) */ MultipartStream(InputStream input, byte[] boundary, int bufSize, ProgressNotifier pNotifier) { this.input = input; this.bufSize = bufSize; this.buffer = new byte[bufSize]; this.notifier = pNotifier; // We prepend CR/LF to the boundary to chop trailng CR/LF from // body-data tokens. this.boundary = new byte[boundary.length + BOUNDARY_PREFIX.length]; this.boundaryLength = boundary.length + BOUNDARY_PREFIX.length; this.keepRegion = this.boundary.length; System.arraycopy(BOUNDARY_PREFIX, 0, this.boundary, 0, BOUNDARY_PREFIX.length); System.arraycopy(boundary, 0, this.boundary, BOUNDARY_PREFIX.length, boundary.length); head = 0; tail = 0; } /** *

Constructs a MultipartStream with a default size buffer. * * @param input The InputStream to serve as a data source. * @param boundary The token used for dividing the stream into * encapsulations. * @param pNotifier An object for calling the progress listener, if any. * * * @see #MultipartStream(InputStream, byte[], int, * MultipartStream.ProgressNotifier) */ MultipartStream(InputStream input, byte[] boundary, ProgressNotifier pNotifier) { this(input, boundary, DEFAULT_BUFSIZE, pNotifier); } /** *

Constructs a MultipartStream with a default size buffer. * * @param input The InputStream to serve as a data source. * @param boundary The token used for dividing the stream into * encapsulations. * * @deprecated Use {@link #MultipartStream(InputStream, byte[], * MultipartStream.ProgressNotifier)}. * @see #MultipartStream(InputStream, byte[], int, * MultipartStream.ProgressNotifier) */ public MultipartStream(InputStream input, byte[] boundary) { this(input, boundary, DEFAULT_BUFSIZE, null); } // --------------------------------------------------------- Public methods /** * Retrieves the character encoding used when reading the headers of an * individual part. When not specified, or null, the platform * default encoding is used. * * @return The encoding used to read part headers. */ public String getHeaderEncoding() { return headerEncoding; } /** * Specifies the character encoding to be used when reading the headers of * individual parts. When not specified, or null, the platform * default encoding is used. * * @param encoding The encoding used to read part headers. */ public void setHeaderEncoding(String encoding) { headerEncoding = encoding; } /** * Reads a byte from the buffer, and refills it as * necessary. * * @return The next byte from the input stream. * * @throws IOException if there is no more data available. */ public byte readByte() throws IOException { // Buffer depleted ? if (head == tail) { head = 0; // Refill. tail = input.read(buffer, head, bufSize); if (tail == -1) { // No more data available. throw new IOException("No more data is available"); } if (notifier != null) { notifier.noteBytesRead(tail); } } return buffer[head++]; } /** * Skips a boundary token, and checks whether more * encapsulations are contained in the stream. * * @return true if there are more encapsulations in * this stream; false otherwise. * * @throws MalformedStreamException if the stream ends unexpecetedly or * fails to follow required syntax. */ public boolean readBoundary() throws MalformedStreamException { byte[] marker = new byte[2]; boolean nextChunk = false; head += boundaryLength; try { marker[0] = readByte(); if (marker[0] == LF) { // Work around IE5 Mac bug with input type=image. // Because the boundary delimiter, not including the trailing // CRLF, must not appear within any file (RFC 2046, section // 5.1.1), we know the missing CR is due to a buggy browser // rather than a file containing something similar to a // boundary. return true; } marker[1] = readByte(); if (arrayequals(marker, STREAM_TERMINATOR, 2)) { nextChunk = false; } else if (arrayequals(marker, FIELD_SEPARATOR, 2)) { nextChunk = true; } else { throw new MalformedStreamException( "Unexpected characters follow a boundary"); } } catch (IOException e) { throw new MalformedStreamException("Stream ended unexpectedly"); } return nextChunk; } /** *

Changes the boundary token used for partitioning the stream. * *

This method allows single pass processing of nested multipart * streams. * *

The boundary token of the nested stream is required * to be of the same length as the boundary token in parent stream. * *

Restoring the parent stream boundary token after processing of a * nested stream is left to the application. * * @param boundary The boundary to be used for parsing of the nested * stream. * * @throws IllegalBoundaryException if the boundary * has a different length than the one * being currently parsed. */ public void setBoundary(byte[] boundary) throws IllegalBoundaryException { if (boundary.length != boundaryLength - BOUNDARY_PREFIX.length) { throw new IllegalBoundaryException( "The length of a boundary token can not be changed"); } System.arraycopy(boundary, 0, this.boundary, BOUNDARY_PREFIX.length, boundary.length); } /** *

Reads the header-part of the current * encapsulation. * *

Headers are returned verbatim to the input stream, including the * trailing CRLF marker. Parsing is left to the * application. * *

TODO allow limiting maximum header size to * protect against abuse. * * @return The header-part of the current encapsulation. * * @throws MalformedStreamException if the stream ends unexpecetedly. */ public String readHeaders() throws MalformedStreamException { int i = 0; byte b; // to support multi-byte characters ByteArrayOutputStream baos = new ByteArrayOutputStream(); int size = 0; while (i < HEADER_SEPARATOR.length) { try { b = readByte(); } catch (IOException e) { throw new MalformedStreamException("Stream ended unexpectedly"); } if (++size > HEADER_PART_SIZE_MAX) { throw new MalformedStreamException( "Header section has more than " + HEADER_PART_SIZE_MAX + " bytes (maybe it is not properly terminated)"); } if (b == HEADER_SEPARATOR[i]) { i++; } else { i = 0; } baos.write(b); } String headers = null; if (headerEncoding != null) { try { headers = baos.toString(headerEncoding); } catch (UnsupportedEncodingException e) { // Fall back to platform default if specified encoding is not // supported. headers = baos.toString(); } } else { headers = baos.toString(); } return headers; } /** *

Reads body-data from the current * encapsulation and writes its contents into the * output Stream. * *

Arbitrary large amounts of data can be processed by this * method using a constant size buffer. (see {@link * #MultipartStream(InputStream,byte[],int, * MultipartStream.ProgressNotifier) constructor}). * * @param output The Stream to write data into. May * be null, in which case this method is equivalent * to {@link #discardBodyData()}. * * @return the amount of data written. * * @throws MalformedStreamException if the stream ends unexpectedly. * @throws IOException if an i/o error occurs. */ public int readBodyData(OutputStream output) throws MalformedStreamException, IOException { final InputStream istream = newInputStream(); return (int) Streams.copy(istream, output, false); } /** * Creates a new {@link ItemInputStream}. * @return A new instance of {@link ItemInputStream}. */ ItemInputStream newInputStream() { return new ItemInputStream(); } /** *

Reads body-data from the current * encapsulation and discards it. * *

Use this method to skip encapsulations you don't need or don't * understand. * * @return The amount of data discarded. * * @throws MalformedStreamException if the stream ends unexpectedly. * @throws IOException if an i/o error occurs. */ public int discardBodyData() throws MalformedStreamException, IOException { return readBodyData(null); } /** * Finds the beginning of the first encapsulation. * * @return true if an encapsulation was found in * the stream. * * @throws IOException if an i/o error occurs. */ public boolean skipPreamble() throws IOException { // First delimiter may be not preceeded with a CRLF. System.arraycopy(boundary, 2, boundary, 0, boundary.length - 2); boundaryLength = boundary.length - 2; try { // Discard all data up to the delimiter. discardBodyData(); // Read boundary - if succeded, the stream contains an // encapsulation. return readBoundary(); } catch (MalformedStreamException e) { return false; } finally { // Restore delimiter. System.arraycopy(boundary, 0, boundary, 2, boundary.length - 2); boundaryLength = boundary.length; boundary[0] = CR; boundary[1] = LF; } } /** * Compares count first bytes in the arrays * a and b. * * @param a The first array to compare. * @param b The second array to compare. * @param count How many bytes should be compared. * * @return true if count first bytes in arrays * a and b are equal. */ public static boolean arrayequals(byte[] a, byte[] b, int count) { for (int i = 0; i < count; i++) { if (a[i] != b[i]) { return false; } } return true; } /** * Searches for a byte of specified value in the buffer, * starting at the specified position. * * @param value The value to find. * @param pos The starting position for searching. * * @return The position of byte found, counting from beginning of the * buffer, or -1 if not found. */ protected int findByte(byte value, int pos) { for (int i = pos; i < tail; i++) { if (buffer[i] == value) { return i; } } return -1; } /** * Searches for the boundary in the buffer * region delimited by head and tail. * * @return The position of the boundary found, counting from the * beginning of the buffer, or -1 if * not found. */ protected int findSeparator() { int first; int match = 0; int maxpos = tail - boundaryLength; for (first = head; (first <= maxpos) && (match != boundaryLength); first++) { first = findByte(boundary[0], first); if (first == -1 || (first > maxpos)) { return -1; } for (match = 1; match < boundaryLength; match++) { if (buffer[first + match] != boundary[match]) { break; } } } if (match == boundaryLength) { return first - 1; } return -1; } /** * Thrown to indicate that the input stream fails to follow the * required syntax. */ public static class MalformedStreamException extends IOException { /** * Constructs a MalformedStreamException with no * detail message. */ public MalformedStreamException() { super(); } /** * Constructs an MalformedStreamException with * the specified detail message. * * @param message The detail message. */ public MalformedStreamException(String message) { super(message); } } /** * Thrown upon attempt of setting an invalid boundary token. */ public static class IllegalBoundaryException extends IOException { /** * Constructs an IllegalBoundaryException with no * detail message. */ public IllegalBoundaryException() { super(); } /** * Constructs an IllegalBoundaryException with * the specified detail message. * * @param message The detail message. */ public IllegalBoundaryException(String message) { super(message); } } /** * An {@link InputStream} for reading an items contents. */ public class ItemInputStream extends InputStream implements Closeable { /** The number of bytes, which have been read so far. */ private long total; /** The number of bytes, which must be hold, because * they might be a part of the boundary. */ private int pad; /** The current offset in the buffer. */ private int pos; /** Whether the stream is already closed. */ private boolean closed; /** * Creates a new instance. */ ItemInputStream() { findSeparator(); } /** * Called for finding the separator. */ private void findSeparator() { pos = MultipartStream.this.findSeparator(); if (pos == -1) { if (tail - head > keepRegion) { pad = keepRegion; } else { pad = tail - head; } } } /** * Returns the number of bytes, which have been read * by the stream. * @return Number of bytes, which have been read so far. */ public long getBytesRead() { return total; } /** * Returns the number of bytes, which are currently * available, without blocking. * @throws IOException An I/O error occurs. * @return Number of bytes in the buffer. */ public int available() throws IOException { if (pos == -1) { return tail - head - pad; } return pos - head; } /** Offset when converting negative bytes to integers. */ private static final int BYTE_POSITIVE_OFFSET = 256; /** * Returns the next byte in the stream. * @return The next byte in the stream, as a non-negative * integer, or -1 for EOF. * @throws IOException An I/O error occurred. */ public int read() throws IOException { if (closed) { throw new FileItemStream.ItemSkippedException(); } if (available() == 0) { if (makeAvailable() == 0) { return -1; } } ++total; int b = buffer[head++]; if (b >= 0) { return b; } return b + BYTE_POSITIVE_OFFSET; } /** * Reads bytes into the given buffer. * @param b The destination buffer, where to write to. * @param off Offset of the first byte in the buffer. * @param len Maximum number of bytes to read. * @return Number of bytes, which have been actually read, * or -1 for EOF. * @throws IOException An I/O error occurred. */ public int read(byte[] b, int off, int len) throws IOException { if (closed) { throw new FileItemStream.ItemSkippedException(); } if (len == 0) { return 0; } int res = available(); if (res == 0) { res = makeAvailable(); if (res == 0) { return -1; } } res = Math.min(res, len); System.arraycopy(buffer, head, b, off, res); head += res; total += res; return res; } /** * Closes the input stream. * @throws IOException An I/O error occurred. */ public void close() throws IOException { close(false); } /** * Closes the input stream. * @param pCloseUnderlying Whether to close the underlying stream * (hard close) * @throws IOException An I/O error occurred. */ public void close(boolean pCloseUnderlying) throws IOException { if (closed) { return; } if (pCloseUnderlying) { closed = true; input.close(); } else { for (;;) { int av = available(); if (av == 0) { av = makeAvailable(); if (av == 0) { break; } } skip(av); } } closed = true; } /** * Skips the given number of bytes. * @param bytes Number of bytes to skip. * @return The number of bytes, which have actually been * skipped. * @throws IOException An I/O error occurred. */ public long skip(long bytes) throws IOException { if (closed) { throw new FileItemStream.ItemSkippedException(); } int av = available(); if (av == 0) { av = makeAvailable(); if (av == 0) { return 0; } } long res = Math.min(av, bytes); head += res; return res; } /** * Attempts to read more data. * @return Number of available bytes * @throws IOException An I/O error occurred. */ private int makeAvailable() throws IOException { if (pos != -1) { return 0; } // Move the data to the beginning of the buffer. total += tail - head - pad; System.arraycopy(buffer, tail - pad, buffer, 0, pad); // Refill buffer with new data. head = 0; tail = pad; for (;;) { int bytesRead = input.read(buffer, tail, bufSize - tail); if (bytesRead == -1) { // The last pad amount is left in the buffer. // Boundary can't be in there so signal an error // condition. final String msg = "Stream ended unexpectedly"; throw new MalformedStreamException(msg); } if (notifier != null) { notifier.noteBytesRead(bytesRead); } tail += bytesRead; findSeparator(); int av = available(); if (av > 0 || pos != -1) { return av; } } } /** * Returns, whether the stream is closed. * @return True, if the stream is closed, otherwise false. */ public boolean isClosed() { return closed; } } // ------------------------------------------------------ Debugging methods // These are the methods that were used to debug this stuff. /* // Dump data. protected void dump() { System.out.println("01234567890"); byte[] temp = new byte[buffer.length]; for(int i=0; i





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