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package play.data.parsing;

import java.io.BufferedInputStream;
import java.io.BufferedOutputStream;
import java.io.ByteArrayInputStream;
import java.io.File;
import java.io.FileInputStream;
import java.io.FileOutputStream;
import java.io.OutputStream;

import org.apache.commons.fileupload.*;
import org.apache.commons.fileupload.util.Closeable;
import org.apache.commons.fileupload.util.LimitedInputStream;
import org.apache.commons.fileupload.util.Streams;

import java.io.IOException;
import java.io.InputStream;
import java.io.UnsupportedEncodingException;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.NoSuchElementException;

import org.apache.commons.fileupload.disk.DiskFileItem;
import org.apache.commons.io.FileCleaningTracker;
import org.apache.commons.io.output.DeferredFileOutputStream;
import play.Logger;
import play.Play;
import play.data.FileUpload;
import play.data.MemoryUpload;
import play.data.Upload;
import play.exceptions.UnexpectedException;
import play.mvc.Http.Request;

/**
 * From Apache commons fileupload.
 * http://commons.apache.org/fileupload/
 */
public class ApacheMultipartParser extends DataParser {

    /*
     * Copyright 2001-2004 The Apache Software Foundation
     *
     * 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.
     *
     * 

The default implementation of the * {@link org.apache.commons.fileupload.FileItem FileItem} interface. * *

After retrieving an instance of this class from a {@link * org.apache.commons.fileupload.DiskFileUpload DiskFileUpload} instance (see * {@link org.apache.commons.fileupload.DiskFileUpload * #parseRequest(javax.servlet.http.HttpServletRequest)}), you may * either request all contents of file at once using {@link #get()} or * request an {@link java.io.InputStream InputStream} with * {@link #getInputStream()} and process the file without attempting to load * it into memory, which may come handy with large files. * * @author Rafal Krzewski * @author Sean Legassick * @author Jason van Zyl * @author John McNally * @author Martin Cooper * @author Sean C. Sullivan * * @since FileUpload 1.1 * * @version $Id: DiskFileItem.java,v 1.3 2005/07/26 03:05:02 rafaelsteil Exp $ */ public static class AutoFileItem implements FileItem { private static FileCleaningTracker fileTracker; static { fileTracker = new FileCleaningTracker(); } // ----------------------------------------------------- Manifest constants /** * Default content charset to be used when no explicit charset * parameter is provided by the sender. Media subtypes of the * "text" type are defined to have a default charset value of * "ISO-8859-1" when received via HTTP. */ public static final String DEFAULT_CHARSET = "ISO-8859-1"; /** * Size of buffer to use when writing an item to disk. */ private static final int WRITE_BUFFER_SIZE = 2048; // ----------------------------------------------------------- Data members /** * Counter used in unique identifier generation. */ private static int counter = 0; /** * The name of the form field as provided by the browser. */ private String fieldName; /** * The content type passed by the browser, or null if * not defined. */ private String contentType; /** * Whether or not this item is a simple form field. */ private boolean isFormField; /** * The original filename in the user's filesystem. */ private String fileName; /** * The threshold above which uploads will be stored on disk. */ private int sizeThreshold; /** * The directory in which uploaded files will be stored, if stored on disk. */ private File repository; /** * Cached contents of the file. */ private byte[] cachedContent; /** * Output stream for this item. */ private DeferredFileOutputStream dfos; public AutoFileItem(FileItemStream stream) { this.fieldName = stream.getFieldName(); this.contentType = stream.getContentType(); this.isFormField = stream.isFormField(); this.fileName = stream.getName(); this.sizeThreshold = Integer.parseInt(Play.configuration.getProperty("upload.threshold", "10240")); this.repository = null; } // ------------------------------- Methods from javax.activation.DataSource /** * Returns an {@link java.io.InputStream InputStream} that can be * used to retrieve the contents of the file. * * @return An {@link java.io.InputStream InputStream} that can be * used to retrieve the contents of the file. * @throws IOException if an error occurs. */ public InputStream getInputStream() throws IOException { if (!dfos.isInMemory()) { return new FileInputStream(dfos.getFile()); } if (cachedContent == null) { cachedContent = dfos.getData(); } return new ByteArrayInputStream(cachedContent); } /** * Returns the content type passed by the agent or null if * not defined. * * @return The content type passed by the agent or null if * not defined. */ public String getContentType() { return contentType; } /** * Returns the content charset passed by the agent or null if * not defined. * * @return The content charset passed by the agent or null if * not defined. */ public String getCharSet() { ParameterParser parser = new ParameterParser(); parser.setLowerCaseNames(true); // Parameter parser can handle null input Map params = parser.parse(getContentType(), ';'); return (String) params.get("charset"); } /** * Returns the original filename in the client's filesystem. * * @return The original filename in the client's filesystem. */ public String getName() { return fileName; } // ------------------------------------------------------- FileItem methods /** * Provides a hint as to whether or not the file contents will be read * from memory. * * @return true if the file contents will be read * from memory; false otherwise. */ public boolean isInMemory() { return (dfos.isInMemory()); } /** * Returns the size of the file. * * @return The size of the file, in bytes. */ public long getSize() { if (cachedContent != null) { return cachedContent.length; } else if (dfos.isInMemory()) { return dfos.getData().length; } else { return dfos.getFile().length(); } } /** * Returns the contents of the file as an array of bytes. If the * contents of the file were not yet cached in memory, they will be * loaded from the disk storage and cached. * * @return The contents of the file as an array of bytes. */ public byte[] get() { if (dfos.isInMemory()) { if (cachedContent == null) { cachedContent = dfos.getData(); } return cachedContent; } byte[] fileData = new byte[(int) getSize()]; FileInputStream fis = null; try { fis = new FileInputStream(dfos.getFile()); fis.read(fileData); } catch (IOException e) { fileData = null; } finally { if (fis != null) { try { fis.close(); } catch (IOException e) { // ignore } } } return fileData; } /** * Returns the contents of the file as a String, using the specified * encoding. This method uses {@link #get()} to retrieve the * contents of the file. * * @param charset The charset to use. * @return The contents of the file, as a string. * @throws UnsupportedEncodingException if the requested character * encoding is not available. */ public String getString(final String charset) throws UnsupportedEncodingException { return new String(get(), charset); } /** * Returns the contents of the file as a String, using the default * character encoding. This method uses {@link #get()} to retrieve the * contents of the file. * * @return The contents of the file, as a string. * @todo Consider making this method throw UnsupportedEncodingException. */ public String getString() { byte[] rawdata = get(); String charset = getCharSet(); if (charset == null) { charset = DEFAULT_CHARSET; } try { return new String(rawdata, charset); } catch (UnsupportedEncodingException e) { return new String(rawdata); } } /** * A convenience method to write an uploaded item to disk. The client code * is not concerned with whether or not the item is stored in memory, or on * disk in a temporary location. They just want to write the uploaded item * to a file. *

* This implementation first attempts to rename the uploaded item to the * specified destination file, if the item was originally written to disk. * Otherwise, the data will be copied to the specified file. *

* This method is only guaranteed to work once, the first time it * is invoked for a particular item. This is because, in the event that the * method renames a temporary file, that file will no longer be available * to copy or rename again at a later time. * * @param file The File into which the uploaded item should * be stored. * @throws Exception if an error occurs. */ public void write(File file) throws Exception { if (isInMemory()) { FileOutputStream fout = null; try { fout = new FileOutputStream(file); fout.write(get()); } finally { if (fout != null) { fout.close(); } } } else { File outputFile = getStoreLocation(); if (outputFile != null) { /* * The uploaded file is being stored on disk * in a temporary location so move it to the * desired file. */ if (!outputFile.renameTo(file)) { BufferedInputStream in = null; BufferedOutputStream out = null; try { in = new BufferedInputStream( new FileInputStream(outputFile)); out = new BufferedOutputStream( new FileOutputStream(file)); byte[] bytes = new byte[WRITE_BUFFER_SIZE]; int s = 0; while ((s = in.read(bytes)) != -1) { out.write(bytes, 0, s); } } finally { if (in != null) { try { in.close(); } catch (IOException e) { // ignore } } if (out != null) { try { out.close(); } catch (IOException e) { // ignore } } } } } else { /* * For whatever reason we cannot write the * file to disk. */ throw new FileUploadException( "Cannot write uploaded file to disk!"); } } } /** * Deletes the underlying storage for a file item, including deleting any * associated temporary disk file. Although this storage will be deleted * automatically when the FileItem instance is garbage * collected, this method can be used to ensure that this is done at an * earlier time, thus preserving system resources. */ public void delete() { cachedContent = null; File outputFile = getStoreLocation(); if (outputFile != null && outputFile.exists()) { outputFile.delete(); } } /** * Returns the name of the field in the multipart form corresponding to * this file item. * * @return The name of the form field. * @see #setFieldName(java.lang.String) */ public String getFieldName() { return fieldName; } /** * Sets the field name used to reference this file item. * * @param fieldName The name of the form field. * @see #getFieldName() */ public void setFieldName(String fieldName) { this.fieldName = fieldName; } /** * Determines whether or not a FileItem instance represents * a simple form field. * * @return true if the instance represents a simple form * field; false if it represents an uploaded file. * @see #setFormField(boolean) */ public boolean isFormField() { return isFormField; } /** * Specifies whether or not a FileItem instance represents * a simple form field. * * @param state true if the instance represents a simple form * field; false if it represents an uploaded file. * @see #isFormField() */ public void setFormField(boolean state) { isFormField = state; } /** * Returns an {@link java.io.OutputStream OutputStream} that can * be used for storing the contents of the file. * * @return An {@link java.io.OutputStream OutputStream} that can be used * for storing the contensts of the file. * @throws IOException if an error occurs. */ public OutputStream getOutputStream() throws IOException { if (dfos == null) { File outputFile = null; if (sizeThreshold != Integer.MAX_VALUE) { outputFile = getTempFile(); } dfos = new DeferredFileOutputStream(sizeThreshold, outputFile); } return dfos; } // --------------------------------------------------------- Public methods /** * Returns the {@link java.io.File} object for the FileItem's * data's temporary location on the disk. Note that for * FileItems that have their data stored in memory, * this method will return null. When handling large * files, you can use {@link java.io.File#renameTo(java.io.File)} to * move the file to new location without copying the data, if the * source and destination locations reside within the same logical * volume. * * @return The data file, or null if the data is stored in * memory. */ public File getStoreLocation() { return dfos.getFile(); } // ------------------------------------------------------ Protected methods /** * Removes the file contents from the temporary storage. */ protected void finalize() { File outputFile = dfos.getFile(); if (outputFile != null && outputFile.exists()) { outputFile.delete(); } } /** * Creates and returns a {@link java.io.File File} representing a uniquely * named temporary file in the configured repository path. The lifetime of * the file is tied to the lifetime of the FileItem instance; * the file will be deleted when the instance is garbage collected. * * @return The {@link java.io.File File} to be used for temporary storage. */ protected File getTempFile() { File tempDir = repository; if (tempDir == null) { tempDir = Play.tmpDir; } String fileName = "upload_" + getUniqueId() + ".tmp"; File f = new File(tempDir, fileName); fileTracker.track(f, this); return f; } // -------------------------------------------------------- Private methods /** * Returns an identifier that is unique within the class loader used to * load this class, but does not have random-like apearance. * * @return A String with the non-random looking instance identifier. */ private static String getUniqueId() { int current; synchronized (DiskFileItem.class) { current = counter++; } String id = Integer.toString(current); // If you manage to get more than 100 million of ids, you'll // start getting ids longer than 8 characters. if (current < 100000000) { id = ("00000000" + id).substring(id.length()); } return id; } public String toString() { return "name=" + this.getName() + ", StoreLocation=" + String.valueOf(this.getStoreLocation()) + ", size=" + this.getSize() + "bytes, " + "isFormField=" + isFormField() + ", FieldName=" + this.getFieldName(); } } public Map parse(InputStream body) { Map result = new HashMap(); try { FileItemIteratorImpl iter = new FileItemIteratorImpl(body, Request.current().headers.get("content-type").value(), "UTF-8"); while (iter.hasNext()) { FileItemStream item = iter.next(); FileItem fileItem = new AutoFileItem(item); try { Streams.copy(item.openStream(), fileItem.getOutputStream(), true); } catch (FileUploadIOException e) { throw (FileUploadException) e.getCause(); } catch (IOException e) { throw new IOFileUploadException("Processing of " + MULTIPART_FORM_DATA + " request failed. " + e.getMessage(), e); } if (fileItem.isFormField()) { putMapEntry(result, fileItem.getFieldName(), fileItem.getString("UTF-8")); } else { @SuppressWarnings("unchecked") List uploads = (List) Request.current().args.get("__UPLOADS"); if (uploads == null) { uploads = new ArrayList(); Request.current().args.put("__UPLOADS", uploads); } try { uploads.add(new FileUpload(fileItem)); } catch (Exception e) { // GAE does not support it, we try in memory uploads.add(new MemoryUpload(fileItem)); } putMapEntry(result, fileItem.getFieldName(), fileItem.getFieldName()); } } } catch (FileUploadIOException e) { Logger.debug(e, "error"); throw new IllegalStateException("Error when handling upload", e); } catch (IOException e) { Logger.debug(e, "error"); throw new IllegalStateException("Error when handling upload", e); } catch (FileUploadException e) { Logger.debug(e, "error"); throw new IllegalStateException("Error when handling upload", e); } catch (Exception e) { Logger.debug(e, "error"); throw new UnexpectedException(e); } return result; } // ---------------------------------------------------------- Class methods // ----------------------------------------------------- Manifest constants /** * HTTP content type header name. */ private static final String CONTENT_TYPE = "Content-type"; /** * HTTP content disposition header name. */ private static final String CONTENT_DISPOSITION = "Content-disposition"; /** * Content-disposition value for form data. */ private static final String FORM_DATA = "form-data"; /** * Content-disposition value for file attachment. */ private static final String ATTACHMENT = "attachment"; /** * Part of HTTP content type header. */ private static final String MULTIPART = "multipart/"; /** * HTTP content type header for multipart forms. */ private static final String MULTIPART_FORM_DATA = "multipart/form-data"; /** * HTTP content type header for multiple uploads. */ private static final String MULTIPART_MIXED = "multipart/mixed"; // ----------------------------------------------------------- Data members /** * The maximum size permitted for the complete request, as opposed to * {@link #fileSizeMax}. A value of -1 indicates no maximum. */ private long sizeMax = -1; /** * The maximum size permitted for a single uploaded file, as opposed to * {@link #sizeMax}. A value of -1 indicates no maximum. */ private long fileSizeMax = -1; // ------------------------------------------------------ Protected methods /** * Retrieves the boundary from the Content-type header. * * @param contentType The value of the content type header from which to extract the * boundary value. * @return The boundary, as a byte array. */ private byte[] getBoundary(String contentType) { ParameterParser parser = new ParameterParser(); parser.setLowerCaseNames(true); // Parameter parser can handle null input Map params = parser.parse(contentType, ';'); String boundaryStr = (String) params.get("boundary"); if (boundaryStr == null) { return null; } byte[] boundary; try { boundary = boundaryStr.getBytes("ISO-8859-1"); } catch (UnsupportedEncodingException e) { boundary = boundaryStr.getBytes(); } return boundary; } /** * Retrieves the file name from the Content-disposition * header. * * @param headers A Map containing the HTTP request headers. * @return The file name for the current encapsulation. */ private String getFileName(Map /* String, String */ headers) { String fileName = null; String cd = getHeader(headers, CONTENT_DISPOSITION); if (cd != null) { String cdl = cd.toLowerCase(); if (cdl.startsWith(FORM_DATA) || cdl.startsWith(ATTACHMENT)) { ParameterParser parser = new ParameterParser(); parser.setLowerCaseNames(true); // Parameter parser can handle null input Map params = parser.parse(cd, ';'); if (params.containsKey("filename")) { fileName = (String) params.get("filename"); if (fileName != null) { fileName = fileName.trim(); // IE7 returning fullpath name (#300920) if (fileName.indexOf('\\') != -1) { fileName = fileName.substring(fileName.lastIndexOf('\\') + 1); } } else { // Even if there is no value, the parameter is present, // so we return an empty file name rather than no file // name. fileName = ""; } } } } return fileName; } /** * Retrieves the field name from the Content-disposition * header. * * @param headers A Map containing the HTTP request headers. * @return The field name for the current encapsulation. */ private String getFieldName(Map /* String, String */ headers) { String fieldName = null; String cd = getHeader(headers, CONTENT_DISPOSITION); if (cd != null && cd.toLowerCase().startsWith(FORM_DATA)) { ParameterParser parser = new ParameterParser(); parser.setLowerCaseNames(true); // Parameter parser can handle null input Map params = parser.parse(cd, ';'); fieldName = (String) params.get("name"); if (fieldName != null) { fieldName = fieldName.trim(); } } return fieldName; } /** *

* Parses the header-part and returns as key/value pairs. *

*

* If there are multiple headers of the same names, the name will map to a * comma-separated list containing the values. * * @param headerPart The header-part of the current * encapsulation. * @return A Map containing the parsed HTTP request headers. */ private Map /* String, String */ parseHeaders(String headerPart) { final int len = headerPart.length(); Map headers = new HashMap(); int start = 0; for (; ;) { int end = parseEndOfLine(headerPart, start); if (start == end) { break; } String header = headerPart.substring(start, end); start = end + 2; while (start < len) { int nonWs = start; while (nonWs < len) { char c = headerPart.charAt(nonWs); if (c != ' ' && c != '\t') { break; } ++nonWs; } if (nonWs == start) { break; } // Continuation line found end = parseEndOfLine(headerPart, nonWs); header += " " + headerPart.substring(nonWs, end); start = end + 2; } parseHeaderLine(headers, header); } return headers; } /** * Skips bytes until the end of the current line. * * @param headerPart The headers, which are being parsed. * @param end Index of the last byte, which has yet been processed. * @return Index of the \r\n sequence, which indicates end of line. */ private int parseEndOfLine(String headerPart, int end) { int index = end; for (; ;) { int offset = headerPart.indexOf('\r', index); if (offset == -1 || offset + 1 >= headerPart.length()) { throw new IllegalStateException("Expected headers to be terminated by an empty line."); } if (headerPart.charAt(offset + 1) == '\n') { return offset; } index = offset + 1; } } /** * Reads the next header line. * * @param headers String with all headers. * @param header Map where to store the current header. */ private void parseHeaderLine(Map headers, String header) { final int colonOffset = header.indexOf(':'); if (colonOffset == -1) { // This header line is malformed, skip it. return; } String headerName = header.substring(0, colonOffset).trim().toLowerCase(); String headerValue = header.substring(header.indexOf(':') + 1).trim(); if (getHeader(headers, headerName) != null) { // More that one heder of that name exists, // append to the list. headers.put(headerName, getHeader(headers, headerName) + ',' + headerValue); } else { headers.put(headerName, headerValue); } } /** * Returns the header with the specified name from the supplied map. The * header lookup is case-insensitive. * * @param headers A Map containing the HTTP request headers. * @param name The name of the header to return. * @return The value of specified header, or a comma-separated list if there * were multiple headers of that name. */ private final String getHeader(Map /* String, String */ headers, String name) { return (String) headers.get(name.toLowerCase()); } /** * The iterator, which is returned by * {@link FileUploadBase#getItemIterator(RequestContext)}. */ private class FileItemIteratorImpl implements FileItemIterator { /** * Default implementation of {@link FileItemStream}. */ private class FileItemStreamImpl implements FileItemStream { /** * The file items content type. */ private final String contentType; /** * The file items field name. */ private final String fieldName; /** * The file items file name. */ private final String name; /** * Whether the file item is a form field. */ private final boolean formField; /** * The file items input stream. */ private final InputStream stream; /** * Whether the file item was already opened. */ private boolean opened; private FileItemHeaders fileItemHeaders; /** * CReates a new instance. * * @param pName The items file name, or null. * @param pFieldName The items field name. * @param pContentType The items content type, or null. * @param pFormField Whether the item is a form field. */ FileItemStreamImpl(String pName, String pFieldName, String pContentType, boolean pFormField) { name = pName; fieldName = pFieldName; contentType = pContentType; formField = pFormField; InputStream istream = multi.newInputStream(); if (fileSizeMax != -1) { istream = new LimitedInputStream(istream, fileSizeMax) { protected void raiseError(long pSizeMax, long pCount) throws IOException { FileUploadException e = new FileSizeLimitExceededException("The field " + fieldName + " exceeds its maximum permitted " + " size of " + pSizeMax + " characters.", pCount, pSizeMax); throw new FileUploadIOException(e); } }; } stream = istream; } public FileItemHeaders getHeaders() { return fileItemHeaders; } public void setHeaders(FileItemHeaders fileItemHeaders) { this.fileItemHeaders = fileItemHeaders; } /** * Returns the items content type, or null. * * @return Content type, if known, or null. */ public String getContentType() { return contentType; } /** * Returns the items field name. * * @return Field name. */ public String getFieldName() { return fieldName; } /** * Returns the items file name. * * @return File name, if known, or null. */ public String getName() { return name; } /** * Returns, whether this is a form field. * * @return True, if the item is a form field, otherwise false. */ public boolean isFormField() { return formField; } /** * Returns an input stream, which may be used to read the items * contents. * * @return Opened input stream. * @throws IOException An I/O error occurred. */ public InputStream openStream() throws IOException { if (opened) { throw new IllegalStateException("The stream was already opened."); } if (((Closeable) stream).isClosed()) { throw new FileItemStream.ItemSkippedException(); } return stream; } /** * Closes the file item. * * @throws IOException An I/O error occurred. */ void close() throws IOException { stream.close(); } } /** * The multi part stream to process. */ private final MultipartStream multi; /** * The boundary, which separates the various parts. */ private final byte[] boundary; /** * The item, which we currently process. */ private FileItemStreamImpl currentItem; /** * The current items field name. */ private String currentFieldName; /** * Whether we are currently skipping the preamble. */ private boolean skipPreamble; /** * Whether the current item may still be read. */ private boolean itemValid; /** * Whether we have seen the end of the file. */ private boolean eof; /** * Creates a new instance. * * @param ctx The request context. * @throws FileUploadException An error occurred while parsing the request. * @throws IOException An I/O error occurred. */ FileItemIteratorImpl(InputStream input, String contentType, String charEncoding) throws FileUploadException, IOException { if ((null == contentType) || (!contentType.toLowerCase().startsWith(MULTIPART))) { throw new InvalidContentTypeException("the request doesn't contain a " + MULTIPART_FORM_DATA + " or " + MULTIPART_MIXED + " stream, content type header is " + contentType); } if (sizeMax >= 0) { // TODO check size input = new LimitedInputStream(input, sizeMax) { protected void raiseError(long pSizeMax, long pCount) throws IOException { FileUploadException ex = new SizeLimitExceededException("the request was rejected because" + " its size (" + pCount + ") exceeds the configured maximum" + " (" + pSizeMax + ")", pCount, pSizeMax); throw new FileUploadIOException(ex); } }; } boundary = getBoundary(contentType); if (boundary == null) { throw new FileUploadException("the request was rejected because " + "no multipart boundary was found"); } multi = new MultipartStream(input, boundary, null); multi.setHeaderEncoding(charEncoding); skipPreamble = true; findNextItem(); } /** * Called for finding the nex item, if any. * * @return True, if an next item was found, otherwise false. * @throws IOException An I/O error occurred. */ private boolean findNextItem() throws IOException { if (eof) { return false; } if (currentItem != null) { currentItem.close(); currentItem = null; } for (; ;) { boolean nextPart; if (skipPreamble) { nextPart = multi.skipPreamble(); } else { nextPart = multi.readBoundary(); } if (!nextPart) { if (currentFieldName == null) { // Outer multipart terminated -> No more data eof = true; return false; } // Inner multipart terminated -> Return to parsing the outer multi.setBoundary(boundary); currentFieldName = null; continue; } Map headers = parseHeaders(multi.readHeaders()); if (currentFieldName == null) { // We're parsing the outer multipart String fieldName = getFieldName(headers); if (fieldName != null) { String subContentType = getHeader(headers, CONTENT_TYPE); if (subContentType != null && subContentType.toLowerCase().startsWith(MULTIPART_MIXED)) { currentFieldName = fieldName; // Multiple files associated with this field name byte[] subBoundary = getBoundary(subContentType); multi.setBoundary(subBoundary); skipPreamble = true; continue; } String fileName = getFileName(headers); currentItem = new FileItemStreamImpl(fileName, fieldName, getHeader(headers, CONTENT_TYPE), fileName == null); itemValid = true; return true; } } else { String fileName = getFileName(headers); if (fileName != null) { currentItem = new FileItemStreamImpl(fileName, currentFieldName, getHeader(headers, CONTENT_TYPE), false); itemValid = true; return true; } } multi.discardBodyData(); } } /** * Returns, whether another instance of {@link FileItemStream} is * available. * * @return True, if one or more additional file items are available, * otherwise false. * @throws FileUploadException Parsing or processing the file item failed. * @throws IOException Reading the file item failed. */ public boolean hasNext() throws FileUploadException, IOException { if (eof) { return false; } if (itemValid) { return true; } return findNextItem(); } /** * Returns the next available {@link FileItemStream}. * * @return FileItemStream instance, which provides access to the next * file item. * @throws java.util.NoSuchElementException * No more items are available. Use {@link #hasNext()} to * prevent this exception. * @throws FileUploadException Parsing or processing the file item failed. * @throws IOException Reading the file item failed. */ public FileItemStream next() throws FileUploadException, IOException { if (eof || (!itemValid && !hasNext())) { throw new NoSuchElementException(); } itemValid = false; return currentItem; } } /** * This exception is thrown for hiding an inner {@link FileUploadException} * in an {@link IOException}. */ private static class FileUploadIOException extends IOException { /** * The exceptions UID, for serializing an instance. */ private static final long serialVersionUID = -7047616958165584154L; /** * The exceptions cause; we overwrite the parent classes field, which is * available since Java 1.4 only. */ private final FileUploadException cause; /** * Creates a FileUploadIOException with the given cause. * * @param pCause The exceptions cause, if any, or null. */ public FileUploadIOException(FileUploadException pCause) { // We're not doing super(pCause) cause of 1.3 compatibility. cause = pCause; } /** * Returns the exceptions cause. * * @return The exceptions cause, if any, or null. */ public Throwable getCause() { return cause; } } /** * Thrown to indicate that the request is not a multipart request. */ private static class InvalidContentTypeException extends FileUploadException { /** * The exceptions UID, for serializing an instance. */ private static final long serialVersionUID = -9073026332015646668L; /** * Constructs an InvalidContentTypeException with the * specified detail message. * * @param message The detail message. */ public InvalidContentTypeException(String message) { super(message); } } /** * Thrown to indicate an IOException. */ private static class IOFileUploadException extends FileUploadException { /** * The exceptions UID, for serializing an instance. */ private static final long serialVersionUID = 1749796615868477269L; /** * The exceptions cause; we overwrite the parent classes field, which is * available since Java 1.4 only. */ private final IOException cause; /** * Creates a new instance with the given cause. * * @param pMsg The detail message. * @param pException The exceptions cause. */ public IOFileUploadException(String pMsg, IOException pException) { super(pMsg); cause = pException; } /** * Returns the exceptions cause. * * @return The exceptions cause, if any, or null. */ public Throwable getCause() { return cause; } } /** * This exception is thrown, if a requests permitted size is exceeded. */ protected abstract static class SizeException extends FileUploadException { /** * The actual size of the request. */ private final long actual; /** * The maximum permitted size of the request. */ private final long permitted; /** * Creates a new instance. * * @param message The detail message. * @param actual The actual number of bytes in the request. * @param permitted The requests size limit, in bytes. */ protected SizeException(String message, long actual, long permitted) { super(message); this.actual = actual; this.permitted = permitted; } /** * Retrieves the actual size of the request. * * @return The actual size of the request. */ public long getActualSize() { return actual; } /** * Retrieves the permitted size of the request. * * @return The permitted size of the request. */ public long getPermittedSize() { return permitted; } } /** * Thrown to indicate that the request size exceeds the configured maximum. */ private static class SizeLimitExceededException extends SizeException { /** * The exceptions UID, for serializing an instance. */ private static final long serialVersionUID = -2474893167098052828L; /** * Constructs a SizeExceededException with the specified * detail message, and actual and permitted sizes. * * @param message The detail message. * @param actual The actual request size. * @param permitted The maximum permitted request size. */ public SizeLimitExceededException(String message, long actual, long permitted) { super(message, actual, permitted); } } /** * Thrown to indicate that A files size exceeds the configured maximum. */ private static class FileSizeLimitExceededException extends SizeException { /** * The exceptions UID, for serializing an instance. */ private static final long serialVersionUID = 8150776562029630058L; /** * Constructs a SizeExceededException with the specified * detail message, and actual and permitted sizes. * * @param message The detail message. * @param actual The actual request size. * @param permitted The maximum permitted request size. */ public FileSizeLimitExceededException(String message, long actual, long permitted) { super(message, actual, permitted); } } }





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