/** * $RCSfile$ * $Revision$ * $Date$ * * Copyright 2003-2004 Jive Software. * * All rights reserved. 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.jivesoftware.smack.util; import java.io.UnsupportedEncodingException; import java.security.MessageDigest; import java.security.NoSuchAlgorithmException; import java.util.Random; /** * A collection of utility methods for String objects. */ public class StringUtils { private static final char[] QUOTE_ENCODE = """.toCharArray(); private static final char[] AMP_ENCODE = "&".toCharArray(); private static final char[] LT_ENCODE = "<".toCharArray(); private static final char[] GT_ENCODE = ">".toCharArray(); /** * Returns the name portion of a XMPP address. For example, for the * address "matt@jivesoftware.com/Smack", "matt" would be returned. If no * username is present in the address, the empty string will be returned. * * @param XMPPAddress the XMPP address. * @return the name portion of the XMPP address. */ public static String parseName(String XMPPAddress) { if (XMPPAddress == null) { return null; } int atIndex = XMPPAddress.lastIndexOf("@"); if (atIndex <= 0) { return ""; } else { return XMPPAddress.substring(0, atIndex); } } /** * Returns the server portion of a XMPP address. For example, for the * address "matt@jivesoftware.com/Smack", "jivesoftware.com" would be returned. * If no server is present in the address, the empty string will be returned. * * @param XMPPAddress the XMPP address. * @return the server portion of the XMPP address. */ public static String parseServer(String XMPPAddress) { if (XMPPAddress == null) { return null; } int atIndex = XMPPAddress.lastIndexOf("@"); // If the String ends with '@', return the empty string. if (atIndex + 1 > XMPPAddress.length()) { return ""; } int slashIndex = XMPPAddress.indexOf("/"); if (slashIndex > 0 && slashIndex > atIndex) { return XMPPAddress.substring(atIndex + 1, slashIndex); } else { return XMPPAddress.substring(atIndex + 1); } } /** * Returns the resource portion of a XMPP address. For example, for the * address "matt@jivesoftware.com/Smack", "Smack" would be returned. If no * resource is present in the address, the empty string will be returned. * * @param XMPPAddress the XMPP address. * @return the resource portion of the XMPP address. */ public static String parseResource(String XMPPAddress) { if (XMPPAddress == null) { return null; } int slashIndex = XMPPAddress.indexOf("/"); if (slashIndex + 1 > XMPPAddress.length() || slashIndex < 0) { return ""; } else { return XMPPAddress.substring(slashIndex + 1); } } /** * Returns the XMPP address with any resource information removed. For example, * for the address "matt@jivesoftware.com/Smack", "matt@jivesoftware.com" would * be returned. * * @param XMPPAddress the XMPP address. * @return the bare XMPP address without resource information. */ public static String parseBareAddress(String XMPPAddress) { if (XMPPAddress == null) { return null; } int slashIndex = XMPPAddress.indexOf("/"); if (slashIndex < 0) { return XMPPAddress; } else if (slashIndex == 0) { return ""; } else { return XMPPAddress.substring(0, slashIndex); } } /** * Escapes the node portion of a JID according to "JID Escaping" (JEP-0106). * Escaping replaces characters prohibited by node-prep with escape sequences, * as follows:
* *
Unescaped Character | Encoded Sequence |
<space> | \20 |
" | \22 |
& | \26 |
' | \27 |
/ | \2f |
: | \3a |
< | \3c |
> | \3e |
@ | \40 |
\ | \5c |
* * This process is useful when the node comes from an external source that doesn't * conform to nodeprep. For example, a username in LDAP may be "Joe Smith". Because * the <space> character isn't a valid part of a node, the username should * be escaped to "Joe\20Smith" before being made into a JID (e.g. "joe\20smith@example.com" * after case-folding, etc. has been applied).
*
* All node escaping and un-escaping must be performed manually at the appropriate
* time; the JID class will not escape or un-escape automatically.
*
* @param node the node.
* @return the escaped version of the node.
*/
public static String escapeNode(String node) {
if (node == null) {
return null;
}
StringBuilder buf = new StringBuilder(node.length() + 8);
for (int i=0, n=node.length(); i
* Escaping replaces characters prohibited by node-prep with escape sequences,
* as follows:
*
*
*
* This process is useful when the node comes from an external source that doesn't
* conform to nodeprep. For example, a username in LDAP may be "Joe Smith". Because
* the <space> character isn't a valid part of a node, the username should
* be escaped to "Joe\20Smith" before being made into a JID (e.g. "joe\20smith@example.com"
* after case-folding, etc. has been applied).
*
* All node escaping and un-escaping must be performed manually at the appropriate
* time; the JID class will not escape or un-escape automatically.
*
* @param node the escaped version of the node.
* @return the un-escaped version of the node.
*/
public static String unescapeNode(String node) {
if (node == null) {
return null;
}
char [] nodeChars = node.toCharArray();
StringBuilder buf = new StringBuilder(nodeChars.length);
for (int i=0, n=nodeChars.length; i
* A hash is a one-way function -- that is, given an
* input, an output is easily computed. However, given the output, the
* input is almost impossible to compute. This is useful for passwords
* since we can store the hash and a hacker will then have a very hard time
* determining the original password.
*
* @param data the String to compute the hash of.
* @return a hashed version of the passed-in String
*/
public synchronized static String hash(String data) {
if (digest == null) {
try {
digest = MessageDigest.getInstance("SHA-1");
}
catch (NoSuchAlgorithmException nsae) {
System.err.println("Failed to load the SHA-1 MessageDigest. " +
"Jive will be unable to function normally.");
}
}
// Now, compute hash.
try {
digest.update(data.getBytes("UTF-8"));
}
catch (UnsupportedEncodingException e) {
System.err.println(e);
}
return encodeHex(digest.digest());
}
/**
* Encodes an array of bytes as String representation of hexadecimal.
*
* @param bytes an array of bytes to convert to a hex string.
* @return generated hex string.
*/
public static String encodeHex(byte[] bytes) {
StringBuilder hex = new StringBuilder(bytes.length * 2);
for (byte aByte : bytes) {
if (((int) aByte & 0xff) < 0x10) {
hex.append("0");
}
hex.append(Integer.toString((int) aByte & 0xff, 16));
}
return hex.toString();
}
/**
* Encodes a String as a base64 String.
*
* @param data a String to encode.
* @return a base64 encoded String.
*/
public static String encodeBase64(String data) {
byte [] bytes = null;
try {
bytes = data.getBytes("ISO-8859-1");
}
catch (UnsupportedEncodingException uee) {
uee.printStackTrace();
}
return encodeBase64(bytes);
}
/**
* Encodes a byte array into a base64 String.
*
* @param data a byte array to encode.
* @return a base64 encode String.
*/
public static String encodeBase64(byte[] data) {
return encodeBase64(data, false);
}
/**
* Encodes a byte array into a bse64 String.
*
* @param data The byte arry to encode.
* @param lineBreaks True if the encoding should contain line breaks and false if it should not.
* @return A base64 encoded String.
*/
public static String encodeBase64(byte[] data, boolean lineBreaks) {
return encodeBase64(data, 0, data.length, lineBreaks);
}
/**
* Encodes a byte array into a bse64 String.
*
* @param data The byte arry to encode.
* @param offset the offset of the bytearray to begin encoding at.
* @param len the length of bytes to encode.
* @param lineBreaks True if the encoding should contain line breaks and false if it should not.
* @return A base64 encoded String.
*/
public static String encodeBase64(byte[] data, int offset, int len, boolean lineBreaks) {
return Base64.encodeBytes(data, offset, len, (lineBreaks ? Base64.NO_OPTIONS : Base64.DONT_BREAK_LINES));
}
/**
* Decodes a base64 String.
*
* @param data a base64 encoded String to decode.
* @return the decoded String.
*/
public static byte[] decodeBase64(String data) {
return Base64.decode(data);
}
/**
* Pseudo-random number generator object for use with randomString().
* The Random class is not considered to be cryptographically secure, so
* only use these random Strings for low to medium security applications.
*/
private static Random randGen = new Random();
/**
* Array of numbers and letters of mixed case. Numbers appear in the list
* twice so that there is a more equal chance that a number will be picked.
* We can use the array to get a random number or letter by picking a random
* array index.
*/
private static char[] numbersAndLetters = ("0123456789abcdefghijklmnopqrstuvwxyz" +
"0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ").toCharArray();
/**
* Returns a random String of numbers and letters (lower and upper case)
* of the specified length. The method uses the Random class that is
* built-in to Java which is suitable for low to medium grade security uses.
* This means that the output is only pseudo random, i.e., each number is
* mathematically generated so is not truly random.
*
* The specified length must be at least one. If not, the method will return
* null.
*
* @param length the desired length of the random String to return.
* @return a random String of numbers and letters of the specified length.
*/
public static String randomString(int length) {
if (length < 1) {
return null;
}
// Create a char buffer to put random letters and numbers in.
char [] randBuffer = new char[length];
for (int i=0; i
*
* Unescaped Character Encoded Sequence
* <space> \20
* " \22
* & \26
* ' \27
* / \2f
* : \3a
* < \3c
* > \3e
* @ \40
* \ \5c