/* * 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 and limitations * under the License. */ package javax.mail.internet; import java.io.UnsupportedEncodingException; import java.lang.reflect.Array; import java.net.InetAddress; import java.net.UnknownHostException; import java.util.ArrayList; import java.util.List; import java.util.StringTokenizer; import javax.mail.Address; import javax.mail.Session; import org.apache.geronimo.mail.util.SessionUtil; /** * A representation of an Internet email address as specified by RFC822 in * conjunction with a human-readable personal name that can be encoded as * specified by RFC2047. * A typical address is "user@host.domain" and personal name "Joe User" * * @version $Rev$ $Date$ */ public class InternetAddress extends Address implements Cloneable { /** * The address in RFC822 format. */ protected String address; /** * The personal name in RFC2047 format. * Subclasses must ensure that this field is updated if the personal field * is updated; alternatively, it can be invalidated by setting to null * which will cause it to be recomputed. */ protected String encodedPersonal; /** * The personal name as a Java String. * Subclasses must ensure that this field is updated if the encodedPersonal field * is updated; alternatively, it can be invalidated by setting to null * which will cause it to be recomputed. */ protected String personal; public InternetAddress() { } public InternetAddress(String address) throws AddressException { this(address, true); } public InternetAddress(String address, boolean strict) throws AddressException { // use the parse method to process the address. This has the wierd side effect of creating a new // InternetAddress instance to create an InternetAddress, but these are lightweight objects and // we need access to multiple pieces of data from the parsing process. AddressParser parser = new AddressParser(address, strict ? AddressParser.STRICT : AddressParser.NONSTRICT); InternetAddress parsedAddress = parser.parseAddress(); // copy the important information, which right now is just the address and // personal info. this.address = parsedAddress.address; this.personal = parsedAddress.personal; this.encodedPersonal = parsedAddress.encodedPersonal; } public InternetAddress(String address, String personal) throws UnsupportedEncodingException { this(address, personal, null); } public InternetAddress(String address, String personal, String charset) throws UnsupportedEncodingException { this.address = address; setPersonal(personal, charset); } /** * Clone this object. * * @return a copy of this object as created by Object.clone() */ public Object clone() { try { return super.clone(); } catch (CloneNotSupportedException e) { throw new Error(); } } /** * Return the type of this address. * * @return the type of this address; always "rfc822" */ public String getType() { return "rfc822"; } /** * Set the address. * No validation is performed; validate() can be used to check if it is valid. * * @param address the address to set */ public void setAddress(String address) { this.address = address; } /** * Set the personal name. * The name is first checked to see if it can be encoded; if this fails then an * UnsupportedEncodingException is thrown and no fields are modified. * * @param name the new personal name * @param charset the charset to use; see {@link MimeUtility#encodeWord(String, String, String) MimeUtilityencodeWord} * @throws UnsupportedEncodingException if the name cannot be encoded */ public void setPersonal(String name, String charset) throws UnsupportedEncodingException { personal = name; if (name != null) { encodedPersonal = MimeUtility.encodeWord(name, charset, null); } else { encodedPersonal = null; } } /** * Set the personal name. * The name is first checked to see if it can be encoded using {@link MimeUtility#encodeWord(String)}; if this fails then an * UnsupportedEncodingException is thrown and no fields are modified. * * @param name the new personal name * @throws UnsupportedEncodingException if the name cannot be encoded */ public void setPersonal(String name) throws UnsupportedEncodingException { personal = name; if (name != null) { encodedPersonal = MimeUtility.encodeWord(name); } else { encodedPersonal = null; } } /** * Return the address. * * @return the address */ public String getAddress() { return address; } /** * Return the personal name. * If the personal field is null, then an attempt is made to decode the encodedPersonal * field using {@link MimeUtility#decodeWord(String)}; if this is sucessful, then * the personal field is updated with that value and returned; if there is a problem * decoding the text then the raw value from encodedPersonal is returned. * * @return the personal name */ public String getPersonal() { if (personal == null && encodedPersonal != null) { try { personal = MimeUtility.decodeWord(encodedPersonal); } catch (ParseException e) { return encodedPersonal; } catch (UnsupportedEncodingException e) { return encodedPersonal; } } return personal; } /** * Return the encoded form of the personal name. * If the encodedPersonal field is null, then an attempt is made to encode the * personal field using {@link MimeUtility#encodeWord(String)}; if this is * successful then the encodedPersonal field is updated with that value and returned; * if there is a problem encoding the text then null is returned. * * @return the encoded form of the personal name */ private String getEncodedPersonal() { if (encodedPersonal == null && personal != null) { try { encodedPersonal = MimeUtility.encodeWord(personal); } catch (UnsupportedEncodingException e) { // as we could not encode this, return null return null; } } return encodedPersonal; } /** * Return a string representation of this address using only US-ASCII characters. * * @return a string representation of this address */ public String toString() { // group addresses are always returned without modification. if (isGroup()) { return address; } // if we have personal information, then we need to return this in the route-addr form: // "personal
". If there is no personal information, then we typically return // the address without the angle brackets. However, if the address contains anything other // than atoms, '@', and '.' (e.g., uses domain literals, has specified routes, or uses // quoted strings in the local-part), we bracket the address. String p = getEncodedPersonal(); if (p == null) { return formatAddress(address); } else { StringBuffer buf = new StringBuffer(p.length() + 8 + address.length() + 3); buf.append(AddressParser.quoteString(p)); buf.append(" <").append(address).append(">"); return buf.toString(); } } /** * Check the form of an address, and enclose it within brackets * if they are required for this address form. * * @param a The source address. * * @return A formatted address, which can be the original address string. */ private String formatAddress(String a) { // this could be a group address....we don't muck with those. if (address.endsWith(";") && address.indexOf(":") > 0) { return address; } if (AddressParser.containsCharacters(a, "()<>,;:\"[]")) { StringBuffer buf = new StringBuffer(address.length() + 3); buf.append("<").append(address).append(">"); return buf.toString(); } return address; } /** * Return a string representation of this address using Unicode characters. * * @return a string representation of this address */ public String toUnicodeString() { // group addresses are always returned without modification. if (isGroup()) { return address; } // if we have personal information, then we need to return this in the route-addr form: // "personal ". If there is no personal information, then we typically return // the address without the angle brackets. However, if the address contains anything other // than atoms, '@', and '.' (e.g., uses domain literals, has specified routes, or uses // quoted strings in the local-part), we bracket the address. // NB: The difference between toString() and toUnicodeString() is the use of getPersonal() // vs. getEncodedPersonal() for the personal portion. If the personal information contains only // ASCII-7 characters, these are the same. String p = getPersonal(); if (p == null) { return formatAddress(address); } else { StringBuffer buf = new StringBuffer(p.length() + 8 + address.length() + 3); buf.append(AddressParser.quoteString(p)); buf.append(" <").append(address).append(">"); return buf.toString(); } } /** * Compares two addresses for equality. * We define this as true if the other object is an InternetAddress * and the two values returned by getAddress() are equal in a * case-insensitive comparison. * * @param o the other object * @return true if the addresses are the same */ public boolean equals(Object o) { if (this == o) return true; if (!(o instanceof InternetAddress)) return false; InternetAddress other = (InternetAddress) o; String myAddress = getAddress(); return myAddress == null ? (other.getAddress() == null) : myAddress.equalsIgnoreCase(other.getAddress()); } /** * Return the hashCode for this address. * We define this to be the hashCode of the address after conversion to lowercase. * * @return a hashCode for this address */ public int hashCode() { return (address == null) ? 0 : address.toLowerCase().hashCode(); } /** * Return true is this address is an RFC822 group address in the format *phrase ":" [#mailbox] ";"
.
* We check this by using the presense of a ':' character in the address, and a
* ';' as the very last character.
*
* @return true is this address represents a group
*/
public boolean isGroup() {
if (address == null) {
return false;
}
return address.endsWith(";") && address.indexOf(":") > 0;
}
/**
* Return the members of a group address.
*
* If strict is true and the address does not contain an initial phrase then an AddressException is thrown.
* Otherwise the phrase is skipped and the remainder of the address is checked to see if it is a group.
* If it is, the content and strict flag are passed to parseHeader to extract the list of addresses;
* if it is not a group then null is returned.
*
* @param strict whether strict RFC822 checking should be performed
* @return an array of InternetAddress objects for the group members, or null if this address is not a group
* @throws AddressException if there was a problem parsing the header
*/
public InternetAddress[] getGroup(boolean strict) throws AddressException {
if (address == null) {
return null;
}
// create an address parser and use it to extract the group information.
AddressParser parser = new AddressParser(address, strict ? AddressParser.STRICT : AddressParser.NONSTRICT);
return parser.extractGroupList();
}
/**
* Return an InternetAddress representing the current user.
*
* If session is not null, we first look for an address specified in its
* "mail.from" property; if this is not set, we look at its "mail.user"
* and "mail.host" properties and if both are not null then an address of
* the form "${mail.user}@${mail.host}" is created.
* If this fails to give an address, then an attempt is made to create
* an address by combining the value of the "user.name" System property
* with the value returned from InetAddress.getLocalHost().getHostName().
* Any SecurityException raised accessing the system property or any
* UnknownHostException raised getting the hostname are ignored.
*
* Finally, an attempt is made to convert the value obtained above to
* an InternetAddress. If this fails, then null is returned.
*
* @param session used to obtain mail properties
* @return an InternetAddress for the current user, or null if it cannot be determined
*/
public static InternetAddress getLocalAddress(Session session) {
String host = null;
String user = null;
// ok, we have several steps for resolving this. To start with, we could have a from address
// configured already, which will be a full InternetAddress string. If we don't have that, then
// we need to resolve a user and host to compose an address from.
if (session != null) {
String address = session.getProperty("mail.from");
// if we got this, we can skip out now
if (address != null) {
try {
return new InternetAddress(address);
} catch (AddressException e) {
// invalid address on the from...treat this as an error and return null.
return null;
}
}
// now try for user and host information. We have both session and system properties to check here.
// we'll just handle the session ones here, and check the system ones below if we're missing information.
user = session.getProperty("mail.user");
host = session.getProperty("mail.host");
}
try {
// if either user or host is null, then we check non-session sources for the information.
if (user == null) {
user = System.getProperty("user.name");
}
if (host == null) {
host = InetAddress.getLocalHost().getHostName();
}
if (user != null && host != null) {
// if we have both a user and host, we can create a local address
return new InternetAddress(user + '@' + host);
}
} catch (AddressException e) {
// ignore
} catch (UnknownHostException e) {
// ignore
} catch (SecurityException e) {
// ignore
}
return null;
}
/**
* Convert the supplied addresses into a single String of comma-separated text as
* produced by {@link InternetAddress#toString() toString()}.
* No line-break detection is performed.
*
* @param addresses the array of addresses to convert
* @return a one-line String of comma-separated addresses
*/
public static String toString(Address[] addresses) {
if (addresses == null || addresses.length == 0) {
return null;
}
if (addresses.length == 1) {
return addresses[0].toString();
} else {
StringBuffer buf = new StringBuffer(addresses.length * 32);
buf.append(addresses[0].toString());
for (int i = 1; i < addresses.length; i++) {
buf.append(", ");
buf.append(addresses[i].toString());
}
return buf.toString();
}
}
/**
* Convert the supplies addresses into a String of comma-separated text,
* inserting line-breaks between addresses as needed to restrict the line
* length to 72 characters. Splits will only be introduced between addresses
* so an address longer than 71 characters will still be placed on a single
* line.
*
* @param addresses the array of addresses to convert
* @param used the starting column
* @return a String of comma-separated addresses with optional line breaks
*/
public static String toString(Address[] addresses, int used) {
if (addresses == null || addresses.length == 0) {
return null;
}
if (addresses.length == 1) {
String s = addresses[0].toString();
if (used + s.length() > 72) {
s = "\r\n " + s;
}
return s;
} else {
StringBuffer buf = new StringBuffer(addresses.length * 32);
for (int i = 0; i < addresses.length; i++) {
String s = addresses[1].toString();
if (i == 0) {
if (used + s.length() + 1 > 72) {
buf.append("\r\n ");
used = 2;
}
} else {
if (used + s.length() + 1 > 72) {
buf.append(",\r\n ");
used = 2;
} else {
buf.append(", ");
used += 2;
}
}
buf.append(s);
used += s.length();
}
return buf.toString();
}
}
/**
* Parse addresses out of the string with basic checking.
*
* @param addresses the addresses to parse
* @return an array of InternetAddresses parsed from the string
* @throws AddressException if addresses checking fails
*/
public static InternetAddress[] parse(String addresses) throws AddressException {
return parse(addresses, true);
}
/**
* Parse addresses out of the string.
*
* @param addresses the addresses to parse
* @param strict if true perform detailed checking, if false just perform basic checking
* @return an array of InternetAddresses parsed from the string
* @throws AddressException if address checking fails
*/
public static InternetAddress[] parse(String addresses, boolean strict) throws AddressException {
return parse(addresses, strict ? AddressParser.STRICT : AddressParser.NONSTRICT);
}
/**
* Parse addresses out of the string.
*
* @param addresses the addresses to parse
* @param strict if true perform detailed checking, if false perform little checking
* @return an array of InternetAddresses parsed from the string
* @throws AddressException if address checking fails
*/
public static InternetAddress[] parseHeader(String addresses, boolean strict) throws AddressException {
return parse(addresses, strict ? AddressParser.STRICT : AddressParser.PARSE_HEADER);
}
/**
* Parse addresses with increasing degrees of RFC822 compliance checking.
*
* @param addresses the string to parse
* @param level The required strictness level.
*
* @return an array of InternetAddresses parsed from the string
* @throws AddressException
* if address checking fails
*/
private static InternetAddress[] parse(String addresses, int level) throws AddressException {
// create a parser and have it extract the list using the requested strictness leve.
AddressParser parser = new AddressParser(addresses, level);
return parser.parseAddressList();
}
/**
* Validate the address portion of an internet address to ensure
* validity. Throws an AddressException if any validity
* problems are encountered.
*
* @exception AddressException
*/
public void validate() throws AddressException {
// create a parser using the strictest validation level.
AddressParser parser = new AddressParser(formatAddress(address), AddressParser.STRICT);
parser.validateAddress();
}
}