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// 
// ========================================================================
// Copyright (c) 1995-2022 Mort Bay Consulting Pty Ltd and others.
// ------------------------------------------------------------------------
// All rights reserved. This program and the accompanying materials
// are made available under the terms of the Eclipse Public License v1.0
// and Apache License v2.0 which accompanies this distribution.
// 
// The Eclipse Public License is available at
// http://www.eclipse.org/legal/epl-v10.html
// 
// The Apache License v2.0 is available at
// http://www.opensource.org/licenses/apache2.0.php
// 
// You may elect to redistribute this code under either of these licenses.
// ========================================================================
// 
package org.eclipse.jetty.util;

import java.io.IOException;
import java.io.InputStream;
import java.io.InputStreamReader;
import java.io.StringWriter;
import java.nio.charset.Charset;
import java.nio.charset.StandardCharsets;
import java.util.List;
import java.util.Map;
import org.eclipse.jetty.util.log.Log;
import org.eclipse.jetty.util.log.Logger;
import static org.eclipse.jetty.util.TypeUtil.convertHexDigit;

/**
 *  Handles coding of MIME  "x-www-form-urlencoded".
 *  

* This class handles the encoding and decoding for either * the query string of a URL or the _content of a POST HTTP request. *

* Notes *

* The UTF-8 charset is assumed, unless otherwise defined by either * passing a parameter or setting the "org.eclipse.jetty.util.UrlEncoding.charset" * System property. *

*

* The hashtable either contains String single values, vectors * of String or arrays of Strings. *

*

* This class is only partially synchronised. In particular, simple * get operations are not protected from concurrent updates. *

* * @see java.net.URLEncoder * * @deprecated The Eclipse Jetty and Apache Felix Http Jetty packages are no longer supported. */ @SuppressWarnings("serial") @Deprecated(since = "2021-05-27") public class UrlEncoded extends MultiMap implements Cloneable { static final Logger LOG = Log.getLogger(UrlEncoded.class); public static final Charset ENCODING; static { Charset encoding; try { String charset = System.getProperty("org.eclipse.jetty.util.UrlEncoding.charset"); encoding = charset == null ? StandardCharsets.UTF_8 : Charset.forName(charset); } catch (Exception e) { LOG.warn(e); encoding = StandardCharsets.UTF_8; } ENCODING = encoding; } public UrlEncoded(UrlEncoded url) { super(url); } public UrlEncoded() { } public UrlEncoded(String query) { decodeTo(query, this, ENCODING); } public void decode(String query) { decodeTo(query, this, ENCODING); } public void decode(String query, Charset charset) { decodeTo(query, this, charset); } /** * Encode MultiMap with % encoding for UTF8 sequences. * * @return the MultiMap as a string with % encoding */ public String encode() { return encode(ENCODING, false); } /** * Encode MultiMap with % encoding for arbitrary Charset sequences. * * @param charset the charset to use for encoding * @return the MultiMap as a string encoded with % encodings */ public String encode(Charset charset) { return encode(charset, false); } /** * Encode MultiMap with % encoding. * * @param charset the charset to encode with * @param equalsForNullValue if True, then an '=' is always used, even * for parameters without a value. e.g. "blah?a=&b=&c=". * @return the MultiMap as a string encoded with % encodings */ public synchronized String encode(Charset charset, boolean equalsForNullValue) { return encode(this, charset, equalsForNullValue); } /** * Encode MultiMap with % encoding. * * @param map the map to encode * @param charset the charset to use for encoding (uses default encoding if null) * @param equalsForNullValue if True, then an '=' is always used, even * for parameters without a value. e.g. "blah?a=&b=&c=". * @return the MultiMap as a string encoded with % encodings. */ public static String encode(MultiMap map, Charset charset, boolean equalsForNullValue) { if (charset == null) charset = ENCODING; StringBuilder result = new StringBuilder(128); boolean delim = false; for (Map.Entry> entry : map.entrySet()) { String key = entry.getKey(); List list = entry.getValue(); int s = list.size(); if (delim) { result.append('&'); } if (s == 0) { result.append(encodeString(key, charset)); if (equalsForNullValue) result.append('='); } else { for (int i = 0; i < s; i++) { if (i > 0) result.append('&'); String val = list.get(i); result.append(encodeString(key, charset)); if (val != null) { String str = val; if (str.length() > 0) { result.append('='); result.append(encodeString(str, charset)); } else if (equalsForNullValue) result.append('='); } else if (equalsForNullValue) result.append('='); } } delim = true; } return result.toString(); } /** * Decoded parameters to Map. * * @param content the string containing the encoded parameters * @param map the MultiMap to put parsed query parameters into * @param charset the charset to use for decoding */ public static void decodeTo(String content, MultiMap map, String charset) { decodeTo(content, map, charset == null ? null : Charset.forName(charset)); } /** * Decoded parameters to Map. * * @param content the string containing the encoded parameters * @param map the MultiMap to put parsed query parameters into * @param charset the charset to use for decoding */ public static void decodeTo(String content, MultiMap map, Charset charset) { if (charset == null) charset = ENCODING; if (StandardCharsets.UTF_8.equals(charset)) { decodeUtf8To(content, 0, content.length(), map); return; } synchronized (map) { String key = null; String value; int mark = -1; boolean encoded = false; for (int i = 0; i < content.length(); i++) { char c = content.charAt(i); switch(c) { case '&': int l = i - mark - 1; value = l == 0 ? "" : (encoded ? decodeString(content, mark + 1, l, charset) : content.substring(mark + 1, i)); mark = i; encoded = false; if (key != null) { map.add(key, value); } else if (value != null && value.length() > 0) { map.add(value, ""); } key = null; value = null; break; case '=': if (key != null) break; key = encoded ? decodeString(content, mark + 1, i - mark - 1, charset) : content.substring(mark + 1, i); mark = i; encoded = false; break; case '+': encoded = true; break; case '%': encoded = true; break; } } if (key != null) { int l = content.length() - mark - 1; value = l == 0 ? "" : (encoded ? decodeString(content, mark + 1, l, charset) : content.substring(mark + 1)); map.add(key, value); } else if (mark < content.length()) { key = encoded ? decodeString(content, mark + 1, content.length() - mark - 1, charset) : content.substring(mark + 1); if (key != null && key.length() > 0) { map.add(key, ""); } } } } public static void decodeUtf8To(String query, MultiMap map) { decodeUtf8To(query, 0, query.length(), map); } /** * Decoded parameters to Map. * * @param query the string containing the encoded parameters * @param offset the offset within raw to decode from * @param length the length of the section to decode * @param map the {@link MultiMap} to populate */ public static void decodeUtf8To(String query, int offset, int length, MultiMap map) { Utf8StringBuilder buffer = new Utf8StringBuilder(); synchronized (map) { String key = null; String value = null; int end = offset + length; for (int i = offset; i < end; i++) { char c = query.charAt(i); switch(c) { case '&': value = buffer.toReplacedString(); buffer.reset(); if (key != null) { map.add(key, value); } else if (value != null && value.length() > 0) { map.add(value, ""); } key = null; value = null; break; case '=': if (key != null) { buffer.append(c); break; } key = buffer.toReplacedString(); buffer.reset(); break; case '+': buffer.append((byte) ' '); break; case '%': if (i + 2 < end) { char hi = query.charAt(++i); char lo = query.charAt(++i); buffer.append(decodeHexByte(hi, lo)); } else { throw new Utf8Appendable.NotUtf8Exception("Incomplete % encoding"); } break; default: buffer.append(c); break; } } if (key != null) { value = buffer.toReplacedString(); buffer.reset(); map.add(key, value); } else if (buffer.length() > 0) { map.add(buffer.toReplacedString(), ""); } } } /** * Decoded parameters to MultiMap, using ISO8859-1 encodings. * * @param in InputSteam to read * @param map MultiMap to add parameters to * @param maxLength maximum length of form to read or -1 for no limit * @param maxKeys maximum number of keys to read or -1 for no limit * @throws IOException if unable to decode the InputStream as ISO8859-1 */ public static void decode88591To(InputStream in, MultiMap map, int maxLength, int maxKeys) throws IOException { synchronized (map) { StringBuilder buffer = new StringBuilder(); String key = null; String value = null; int b; int totalLength = 0; while ((b = in.read()) >= 0) { switch((char) b) { case '&': value = buffer.length() == 0 ? "" : buffer.toString(); buffer.setLength(0); if (key != null) { map.add(key, value); } else if (value.length() > 0) { map.add(value, ""); } key = null; value = null; checkMaxKeys(map, maxKeys); break; case '=': if (key != null) { buffer.append((char) b); break; } key = buffer.toString(); buffer.setLength(0); break; case '+': buffer.append(' '); break; case '%': int code0 = in.read(); int code1 = in.read(); buffer.append(decodeHexChar(code0, code1)); break; default: buffer.append((char) b); break; } checkMaxLength(++totalLength, maxLength); } if (key != null) { value = buffer.length() == 0 ? "" : buffer.toString(); buffer.setLength(0); map.add(key, value); } else if (buffer.length() > 0) { map.add(buffer.toString(), ""); } checkMaxKeys(map, maxKeys); } } /** * Decoded parameters to Map. * * @param in InputSteam to read * @param map MultiMap to add parameters to * @param maxLength maximum form length to decode or -1 for no limit * @param maxKeys the maximum number of keys to read or -1 for no limit * @throws IOException if unable to decode the input stream */ public static void decodeUtf8To(InputStream in, MultiMap map, int maxLength, int maxKeys) throws IOException { synchronized (map) { Utf8StringBuilder buffer = new Utf8StringBuilder(); String key = null; String value = null; int b; int totalLength = 0; while ((b = in.read()) >= 0) { switch((char) b) { case '&': value = buffer.toReplacedString(); buffer.reset(); if (key != null) { map.add(key, value); } else if (value != null && value.length() > 0) { map.add(value, ""); } key = null; value = null; checkMaxKeys(map, maxKeys); break; case '=': if (key != null) { buffer.append((byte) b); break; } key = buffer.toReplacedString(); buffer.reset(); break; case '+': buffer.append((byte) ' '); break; case '%': char code0 = (char) in.read(); char code1 = (char) in.read(); buffer.append(decodeHexByte(code0, code1)); break; default: buffer.append((byte) b); break; } checkMaxLength(++totalLength, maxLength); } if (key != null) { value = buffer.toReplacedString(); buffer.reset(); map.add(key, value); } else if (buffer.length() > 0) { map.add(buffer.toReplacedString(), ""); } checkMaxKeys(map, maxKeys); } } public static void decodeUtf16To(InputStream in, MultiMap map, int maxLength, int maxKeys) throws IOException { InputStreamReader input = new InputStreamReader(in, StandardCharsets.UTF_16); StringWriter buf = new StringWriter(8192); IO.copy(input, buf, maxLength); // TODO implement maxKeys decodeTo(buf.getBuffer().toString(), map, StandardCharsets.UTF_16); } /** * Decoded parameters to Map. * * @param in the stream containing the encoded parameters * @param map the MultiMap to decode into * @param charset the charset to use for decoding * @param maxLength the maximum length of the form to decode or -1 for no limit * @param maxKeys the maximum number of keys to decode or -1 for no limit * @throws IOException if unable to decode the input stream */ public static void decodeTo(InputStream in, MultiMap map, String charset, int maxLength, int maxKeys) throws IOException { if (charset == null) { if (ENCODING.equals(StandardCharsets.UTF_8)) decodeUtf8To(in, map, maxLength, maxKeys); else decodeTo(in, map, ENCODING, maxLength, maxKeys); } else if (StringUtil.__UTF8.equalsIgnoreCase(charset)) decodeUtf8To(in, map, maxLength, maxKeys); else if (StringUtil.__ISO_8859_1.equalsIgnoreCase(charset)) decode88591To(in, map, maxLength, maxKeys); else if (StringUtil.__UTF16.equalsIgnoreCase(charset)) decodeUtf16To(in, map, maxLength, maxKeys); else decodeTo(in, map, Charset.forName(charset), maxLength, maxKeys); } /** * Decoded parameters to Map. * * @param in the stream containing the encoded parameters * @param map the MultiMap to decode into * @param charset the charset to use for decoding * @param maxLength the maximum length of the form to decode * @param maxKeys the maximum number of keys to decode * @throws IOException if unable to decode input stream */ public static void decodeTo(InputStream in, MultiMap map, Charset charset, int maxLength, int maxKeys) throws IOException { // no charset present, use the configured default if (charset == null) charset = ENCODING; if (StandardCharsets.UTF_8.equals(charset)) { decodeUtf8To(in, map, maxLength, maxKeys); return; } if (StandardCharsets.ISO_8859_1.equals(charset)) { decode88591To(in, map, maxLength, maxKeys); return; } if (// Should be all 2 byte encodings StandardCharsets.UTF_16.equals(charset)) { decodeUtf16To(in, map, maxLength, maxKeys); return; } synchronized (map) { String key = null; String value = null; int c; int totalLength = 0; try (ByteArrayOutputStream2 output = new ByteArrayOutputStream2()) { int size = 0; while ((c = in.read()) > 0) { switch((char) c) { case '&': size = output.size(); value = size == 0 ? "" : output.toString(charset); output.setCount(0); if (key != null) { map.add(key, value); } else if (value != null && value.length() > 0) { map.add(value, ""); } key = null; value = null; checkMaxKeys(map, maxKeys); break; case '=': if (key != null) { output.write(c); break; } size = output.size(); key = size == 0 ? "" : output.toString(charset); output.setCount(0); break; case '+': output.write(' '); break; case '%': int code0 = in.read(); int code1 = in.read(); output.write(decodeHexChar(code0, code1)); break; default: output.write(c); break; } checkMaxLength(++totalLength, maxLength); } size = output.size(); if (key != null) { value = size == 0 ? "" : output.toString(charset); output.setCount(0); map.add(key, value); } else if (size > 0) { map.add(output.toString(charset), ""); } checkMaxKeys(map, maxKeys); } } } private static void checkMaxKeys(MultiMap map, int maxKeys) { int size = map.size(); if (maxKeys >= 0 && size > maxKeys) throw new IllegalStateException(String.format("Form with too many keys [%d > %d]", size, maxKeys)); } private static void checkMaxLength(int length, int maxLength) { if (maxLength >= 0 && length > maxLength) throw new IllegalStateException("Form is larger than max length " + maxLength); } /** * Decode String with % encoding. * This method makes the assumption that the majority of calls * will need no decoding. * * @param encoded the encoded string to decode * @return the decoded string */ public static String decodeString(String encoded) { return decodeString(encoded, 0, encoded.length(), ENCODING); } /** * Decode String with % encoding. * This method makes the assumption that the majority of calls * will need no decoding. * * @param encoded the encoded string to decode * @param offset the offset in the encoded string to decode from * @param length the length of characters in the encoded string to decode * @param charset the charset to use for decoding * @return the decoded string */ public static String decodeString(String encoded, int offset, int length, Charset charset) { if (charset == null || StandardCharsets.UTF_8.equals(charset)) { Utf8StringBuffer buffer = null; for (int i = 0; i < length; i++) { char c = encoded.charAt(offset + i); if (c < 0 || c > 0xff) { if (buffer == null) { buffer = new Utf8StringBuffer(length); buffer.getStringBuffer().append(encoded, offset, offset + i + 1); } else buffer.getStringBuffer().append(c); } else if (c == '+') { if (buffer == null) { buffer = new Utf8StringBuffer(length); buffer.getStringBuffer().append(encoded, offset, offset + i); } buffer.getStringBuffer().append(' '); } else if (c == '%') { if (buffer == null) { buffer = new Utf8StringBuffer(length); buffer.getStringBuffer().append(encoded, offset, offset + i); } if ((i + 2) < length) { int o = offset + i + 1; i += 2; byte b = (byte) TypeUtil.parseInt(encoded, o, 2, 16); buffer.append(b); } else { buffer.getStringBuffer().append(Utf8Appendable.REPLACEMENT); i = length; } } else if (buffer != null) buffer.getStringBuffer().append(c); } if (buffer == null) { if (offset == 0 && encoded.length() == length) return encoded; return encoded.substring(offset, offset + length); } return buffer.toReplacedString(); } else { StringBuffer buffer = null; for (int i = 0; i < length; i++) { char c = encoded.charAt(offset + i); if (c < 0 || c > 0xff) { if (buffer == null) { buffer = new StringBuffer(length); buffer.append(encoded, offset, offset + i + 1); } else buffer.append(c); } else if (c == '+') { if (buffer == null) { buffer = new StringBuffer(length); buffer.append(encoded, offset, offset + i); } buffer.append(' '); } else if (c == '%') { if (buffer == null) { buffer = new StringBuffer(length); buffer.append(encoded, offset, offset + i); } byte[] ba = new byte[length]; int n = 0; while (c >= 0 && c <= 0xff) { if (c == '%') { if (i + 2 < length) { int o = offset + i + 1; i += 3; ba[n] = (byte) TypeUtil.parseInt(encoded, o, 2, 16); n++; } else { ba[n++] = (byte) '?'; i = length; } } else if (c == '+') { ba[n++] = (byte) ' '; i++; } else { ba[n++] = (byte) c; i++; } if (i >= length) break; c = encoded.charAt(offset + i); } i--; buffer.append(new String(ba, 0, n, charset)); } else if (buffer != null) buffer.append(c); } if (buffer == null) { if (offset == 0 && encoded.length() == length) return encoded; return encoded.substring(offset, offset + length); } return buffer.toString(); } } private static char decodeHexChar(int hi, int lo) { try { return (char) ((convertHexDigit(hi) << 4) + convertHexDigit(lo)); } catch (NumberFormatException e) { throw new IllegalArgumentException("Not valid encoding '%" + (char) hi + (char) lo + "'"); } } private static byte decodeHexByte(char hi, char lo) { try { return (byte) ((convertHexDigit(hi) << 4) + convertHexDigit(lo)); } catch (NumberFormatException e) { throw new IllegalArgumentException("Not valid encoding '%" + hi + lo + "'"); } } /** * Perform URL encoding. * * @param string the string to encode * @return encoded string. */ public static String encodeString(String string) { return encodeString(string, ENCODING); } /** * Perform URL encoding. * * @param string the string to encode * @param charset the charset to use for encoding * @return encoded string. */ public static String encodeString(String string, Charset charset) { if (charset == null) charset = ENCODING; byte[] bytes = null; bytes = string.getBytes(charset); int len = bytes.length; byte[] encoded = new byte[bytes.length * 3]; int n = 0; boolean noEncode = true; for (int i = 0; i < len; i++) { byte b = bytes[i]; if (b == ' ') { noEncode = false; encoded[n++] = (byte) '+'; } else if (b >= 'a' && b <= 'z' || b >= 'A' && b <= 'Z' || b >= '0' && b <= '9' || b == '-' || b == '.' || b == '_' || b == '~') { encoded[n++] = b; } else { noEncode = false; encoded[n++] = (byte) '%'; byte nibble = (byte) ((b & 0xf0) >> 4); if (nibble >= 10) encoded[n++] = (byte) ('A' + nibble - 10); else encoded[n++] = (byte) ('0' + nibble); nibble = (byte) (b & 0xf); if (nibble >= 10) encoded[n++] = (byte) ('A' + nibble - 10); else encoded[n++] = (byte) ('0' + nibble); } } if (noEncode) return string; return new String(encoded, 0, n, charset); } /** */ @Override public Object clone() { return new UrlEncoded(this); } }




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