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package javax.mail;

import java.lang.*;
import java.util.ArrayList;
import java.util.EventListener;
import java.util.List;
import java.util.Vector;
import java.util.concurrent.Executor;
import javax.mail.search.SearchTerm;
import javax.mail.event.*;

/**
 * Folder is an abstract class that represents a folder for mail
 * messages. Subclasses implement protocol specific Folders.

* * Folders can contain Messages, other Folders or both, thus providing * a tree-like hierarchy rooted at the Store's default folder. (Note * that some Folder implementations may not allow both Messages and * other Folders in the same Folder).

* * The interpretation of folder names is implementation dependent. * The different levels of hierarchy in a folder's full name * are separated from each other by the hierarchy delimiter * character.

* * The case-insensitive full folder name (that is, the full name * relative to the default folder for a Store) INBOX * is reserved to mean the "primary folder for this user on this * server". Not all Stores will provide an INBOX folder, and not * all users will have an INBOX folder at all times. The name * INBOX is reserved to refer to this folder, * when it exists, in Stores that provide it.

* * A Folder object obtained from a Store need not actually exist * in the backend store. The exists method tests whether * the folder exists or not. The create method * creates a Folder.

* * A Folder is initially in the closed state. Certain methods are valid * in this state; the documentation for those methods note this. A * Folder is opened by calling its 'open' method. All Folder methods, * except open, delete and * renameTo, are valid in this state.

* * The only way to get a Folder is by invoking the * getFolder method on Store, Folder, or Session, or by invoking * the list or listSubscribed methods * on Folder. Folder objects returned by the above methods are not * cached by the Store. Thus, invoking the getFolder method * with the same folder name multiple times will return distinct Folder * objects. Likewise for the list and listSubscribed * methods.

* * The Message objects within the Folder are cached by the Folder. * Thus, invoking getMessage(msgno) on the same message number * multiple times will return the same Message object, until an * expunge is done on this Folder.

* * Message objects from a Folder are only valid while a Folder is open * and should not be accessed after the Folder is closed, even if the * Folder is subsequently reopened. Instead, new Message objects must * be fetched from the Folder after the Folder is reopened.

* * Note that a Message's message number can change within a * session if the containing Folder is expunged using the expunge * method. Clients that use message numbers as references to messages * should be aware of this and should be prepared to deal with this * situation (probably by flushing out existing message number references * and reloading them). Because of this complexity, it is better for * clients to use Message objects as references to messages, rather than * message numbers. Expunged Message objects still have to be * pruned, but other Message objects in that folder are not affected by the * expunge. * * @author John Mani * @author Bill Shannon */ public abstract class Folder implements AutoCloseable { /** * The parent store. */ protected Store store; /** * The open mode of this folder. The open mode is * Folder.READ_ONLY, Folder.READ_WRITE, * or -1 if not known. * @since JavaMail 1.1 */ protected int mode = -1; /* * The queue of events to be delivered. */ private final EventQueue q; /** * Constructor that takes a Store object. * * @param store the Store that holds this folder */ protected Folder(Store store) { this.store = store; // create or choose the appropriate event queue Session session = store.getSession(); String scope = session.getProperties().getProperty("mail.event.scope", "folder"); Executor executor = (Executor)session.getProperties().get("mail.event.executor"); if (scope.equalsIgnoreCase("application")) q = EventQueue.getApplicationEventQueue(executor); else if (scope.equalsIgnoreCase("session")) q = session.getEventQueue(); else if (scope.equalsIgnoreCase("store")) q = store.getEventQueue(); else // if (scope.equalsIgnoreCase("folder")) q = new EventQueue(executor); } /** * Returns the name of this Folder.

* * This method can be invoked on a closed Folder. * * @return name of the Folder */ public abstract String getName(); /** * Returns the full name of this Folder. If the folder resides under * the root hierarchy of this Store, the returned name is relative * to the root. Otherwise an absolute name, starting with the * hierarchy delimiter, is returned.

* * This method can be invoked on a closed Folder. * * @return full name of the Folder */ public abstract String getFullName(); /** * Return a URLName representing this folder. The returned URLName * does not include the password used to access the store. * * @return the URLName representing this folder * @exception MessagingException for failures * @see URLName * @since JavaMail 1.1 */ public URLName getURLName() throws MessagingException { URLName storeURL = getStore().getURLName(); String fullname = getFullName(); StringBuilder encodedName = new StringBuilder(); if (fullname != null) { /* // We need to encode each of the folder's names. char separator = getSeparator(); StringTokenizer tok = new StringTokenizer( fullname, new Character(separator).toString(), true); while (tok.hasMoreTokens()) { String s = tok.nextToken(); if (s.charAt(0) == separator) encodedName.append(separator); else // XXX - should encode, but since there's no decoder... //encodedName.append(java.net.URLEncoder.encode(s)); encodedName.append(s); } */ // append the whole thing, until we can encode encodedName.append(fullname); } /* * Sure would be convenient if URLName had a * constructor that took a base URLName. */ return new URLName(storeURL.getProtocol(), storeURL.getHost(), storeURL.getPort(), encodedName.toString(), storeURL.getUsername(), null /* no password */); } /** * Returns the Store that owns this Folder object. * This method can be invoked on a closed Folder. * * @return the Store */ public Store getStore() { return store; } /** * Returns the parent folder of this folder. * This method can be invoked on a closed Folder. If this folder * is the top of a folder hierarchy, this method returns null.

* * Note that since Folder objects are not cached, invoking this method * returns a new distinct Folder object. * * @return Parent folder * @exception MessagingException for failures */ public abstract Folder getParent() throws MessagingException; /** * Tests if this folder physically exists on the Store. * This method can be invoked on a closed Folder. * * @return true if the folder exists, otherwise false * @see #create * @exception MessagingException typically if the connection * to the server is lost. */ public abstract boolean exists() throws MessagingException; /** * Returns a list of Folders belonging to this Folder's namespace * that match the specified pattern. Patterns may contain the wildcard * characters "%", which matches any character except hierarchy * delimiters, and "*", which matches any character.

* * As an example, given the folder hierarchy:

     *    Personal/
     *       Finance/
     *          Stocks
     *          Bonus
     *          StockOptions
     *       Jokes
     * 
* list("*") on "Personal" will return the whole * hierarchy.
* list("%") on "Personal" will return "Finance" and * "Jokes".
* list("Jokes") on "Personal" will return "Jokes".
* list("Stock*") on "Finance" will return "Stocks" * and "StockOptions".

* * Folder objects are not cached by the Store, so invoking this * method on the same pattern multiple times will return that many * distinct Folder objects.

* * This method can be invoked on a closed Folder. * * @param pattern the match pattern * @return array of matching Folder objects. An empty * array is returned if no matching Folders exist. * @see #listSubscribed * @exception FolderNotFoundException if this folder does * not exist. * @exception MessagingException for other failures */ public abstract Folder[] list(String pattern) throws MessagingException; /** * Returns a list of subscribed Folders belonging to this Folder's * namespace that match the specified pattern. If the folder does * not support subscription, this method should resolve to * list. * (The default implementation provided here, does just this). * The pattern can contain wildcards as for list.

* * Note that, at a given level of the folder hierarchy, a particular * folder may not be subscribed, but folders underneath that folder * in the folder hierarchy may be subscribed. In order to allow * walking the folder hierarchy, such unsubscribed folders may be * returned, indicating that a folder lower in the hierarchy is * subscribed. The isSubscribed method on a folder will * tell whether any particular folder is actually subscribed.

* * Folder objects are not cached by the Store, so invoking this * method on the same pattern multiple times will return that many * distinct Folder objects.

* * This method can be invoked on a closed Folder. * * @param pattern the match pattern * @return array of matching subscribed Folder objects. An * empty array is returned if no matching * subscribed folders exist. * @see #list * @exception FolderNotFoundException if this folder does * not exist. * @exception MessagingException for other failures */ public Folder[] listSubscribed(String pattern) throws MessagingException { return list(pattern); } /** * Convenience method that returns the list of folders under this * Folder. This method just calls the list(String pattern) * method with "%" as the match pattern. This method can * be invoked on a closed Folder. * * @return array of Folder objects under this Folder. An * empty array is returned if no subfolders exist. * @see #list * @exception FolderNotFoundException if this folder does * not exist. * @exception MessagingException for other failures */ public Folder[] list() throws MessagingException { return list("%"); } /** * Convenience method that returns the list of subscribed folders * under this Folder. This method just calls the * listSubscribed(String pattern) method with "%" * as the match pattern. This method can be invoked on a closed Folder. * * @return array of subscribed Folder objects under this * Folder. An empty array is returned if no subscribed * subfolders exist. * @see #listSubscribed * @exception FolderNotFoundException if this folder does * not exist. * @exception MessagingException for other failures */ public Folder[] listSubscribed() throws MessagingException { return listSubscribed("%"); } /** * Return the delimiter character that separates this Folder's pathname * from the names of immediate subfolders. This method can be invoked * on a closed Folder. * * @exception FolderNotFoundException if the implementation * requires the folder to exist, but it does not * @return Hierarchy separator character */ public abstract char getSeparator() throws MessagingException; /** * This folder can contain messages */ public final static int HOLDS_MESSAGES = 0x01; /** * This folder can contain other folders */ public final static int HOLDS_FOLDERS = 0x02; /** * Returns the type of this Folder, that is, whether this folder can hold * messages or subfolders or both. The returned value is an integer * bitfield with the appropriate bits set. This method can be invoked * on a closed folder. * * @return integer with appropriate bits set * @exception FolderNotFoundException if this folder does * not exist. * @see #HOLDS_FOLDERS * @see #HOLDS_MESSAGES */ public abstract int getType() throws MessagingException; /** * Create this folder on the Store. When this folder is created, any * folders in its path that do not exist are also created.

* * If the creation is successful, a CREATED FolderEvent is delivered * to any FolderListeners registered on this Folder and this Store. * * @param type The type of this folder. * * @return true if the creation succeeds, else false. * @exception MessagingException for failures * @see #HOLDS_FOLDERS * @see #HOLDS_MESSAGES * @see javax.mail.event.FolderEvent */ public abstract boolean create(int type) throws MessagingException; /** * Returns true if this Folder is subscribed.

* * This method can be invoked on a closed Folder.

* * The default implementation provided here just returns true. * * @return true if this Folder is subscribed */ public boolean isSubscribed() { return true; } /** * Subscribe or unsubscribe this Folder. Not all Stores support * subscription.

* * This method can be invoked on a closed Folder.

* * The implementation provided here just throws the * MethodNotSupportedException. * * @param subscribe true to subscribe, false to unsubscribe * @exception FolderNotFoundException if this folder does * not exist. * @exception MethodNotSupportedException if this store * does not support subscription * @exception MessagingException for other failures */ public void setSubscribed(boolean subscribe) throws MessagingException { throw new MethodNotSupportedException(); } /** * Returns true if this Folder has new messages since the last time * this indication was reset. When this indication is set or reset * depends on the Folder implementation (and in the case of IMAP, * depends on the server). This method can be used to implement * a lightweight "check for new mail" operation on a Folder without * opening it. (For example, a thread that monitors a mailbox and * flags when it has new mail.) This method should indicate whether * any messages in the Folder have the RECENT flag set.

* * Note that this is not an incremental check for new mail, i.e., * it cannot be used to determine whether any new messages have * arrived since the last time this method was invoked. To * implement incremental checks, the Folder needs to be opened.

* * This method can be invoked on a closed Folder that can contain * Messages. * * @return true if the Store has new Messages * @exception FolderNotFoundException if this folder does * not exist. * @exception MessagingException for other failures */ public abstract boolean hasNewMessages() throws MessagingException; /** * Return the Folder object corresponding to the given name. Note that * this folder does not physically have to exist in the Store. The * exists() method on a Folder indicates whether it really * exists on the Store.

* * In some Stores, name can be an absolute path if it starts with the * hierarchy delimiter. Otherwise, it is interpreted relative to * this Folder.

* * Folder objects are not cached by the Store, so invoking this * method on the same name multiple times will return that many * distinct Folder objects.

* * This method can be invoked on a closed Folder. * * @param name name of the Folder * @return Folder object * @exception MessagingException for failures */ public abstract Folder getFolder(String name) throws MessagingException; /** * Delete this Folder. This method will succeed only on a closed * Folder.

* * The recurse flag controls whether the deletion affects * subfolders or not. If true, all subfolders are deleted, then this * folder itself is deleted. If false, the behaviour is dependent on * the folder type and is elaborated below: * *

    *
  • * The folder can contain only messages: (type == HOLDS_MESSAGES). *
    * All messages within the folder are removed. The folder * itself is then removed. An appropriate FolderEvent is generated by * the Store and this folder. * *
  • * The folder can contain only subfolders: (type == HOLDS_FOLDERS). *
    * If this folder is empty (does not contain any * subfolders at all), it is removed. An appropriate FolderEvent is * generated by the Store and this folder.
    * If this folder contains any subfolders, the delete fails * and returns false. * *
  • * The folder can contain subfolders as well as messages:
    * If the folder is empty (no messages or subfolders), it * is removed. If the folder contains no subfolders, but only messages, * then all messages are removed. The folder itself is then removed. * In both the above cases, an appropriate FolderEvent is * generated by the Store and this folder.

    * * If the folder contains subfolders there are 3 possible * choices an implementation is free to do: * *

      *
    1. The operation fails, irrespective of whether this folder * contains messages or not. Some implementations might elect to go * with this simple approach. The delete() method returns false. * *
    2. Any messages within the folder are removed. Subfolders * are not removed. The folder itself is not removed or affected * in any manner. The delete() method returns true. And the * exists() method on this folder will return true indicating that * this folder still exists.
      * An appropriate FolderEvent is generated by the Store and this folder. * *
    3. Any messages within the folder are removed. Subfolders are * not removed. The folder itself changes its type from * HOLDS_FOLDERS | HOLDS_MESSAGES to HOLDS_FOLDERS. Thus new * messages cannot be added to this folder, but new subfolders can * be created underneath. The delete() method returns true indicating * success. The exists() method on this folder will return true * indicating that this folder still exists.
      * An appropriate FolderEvent is generated by the Store and this folder. *
    *
* * @param recurse also delete subfolders? * @return true if the Folder is deleted successfully * @exception FolderNotFoundException if this folder does * not exist * @exception IllegalStateException if this folder is not in * the closed state. * @exception MessagingException for other failures * @see javax.mail.event.FolderEvent */ public abstract boolean delete(boolean recurse) throws MessagingException; /** * Rename this Folder. This method will succeed only on a closed * Folder.

* * If the rename is successful, a RENAMED FolderEvent is delivered * to FolderListeners registered on this folder and its containing * Store. * * @param f a folder representing the new name for this Folder * @return true if the Folder is renamed successfully * @exception FolderNotFoundException if this folder does * not exist * @exception IllegalStateException if this folder is not in * the closed state. * @exception MessagingException for other failures * @see javax.mail.event.FolderEvent */ public abstract boolean renameTo(Folder f) throws MessagingException; /** * The Folder is read only. The state and contents of this * folder cannot be modified. */ public static final int READ_ONLY = 1; /** * The state and contents of this folder can be modified. */ public static final int READ_WRITE = 2; /** * Open this Folder. This method is valid only on Folders that * can contain Messages and that are closed.

* * If this folder is opened successfully, an OPENED ConnectionEvent * is delivered to any ConnectionListeners registered on this * Folder.

* * The effect of opening multiple connections to the same folder * on a specifc Store is implementation dependent. Some implementations * allow multiple readers, but only one writer. Others allow * multiple writers as well as readers. * * @param mode open the Folder READ_ONLY or READ_WRITE * @exception FolderNotFoundException if this folder does * not exist. * @exception IllegalStateException if this folder is not in * the closed state. * @exception MessagingException for other failures * @see #READ_ONLY * @see #READ_WRITE * @see #getType() * @see javax.mail.event.ConnectionEvent */ public abstract void open(int mode) throws MessagingException; /** * Close this Folder. This method is valid only on open Folders.

* * A CLOSED ConnectionEvent is delivered to any ConnectionListeners * registered on this Folder. Note that the folder is closed even * if this method terminates abnormally by throwing a * MessagingException. * * @param expunge expunges all deleted messages if this flag is true * @exception IllegalStateException if this folder is not opened * @exception MessagingException for other failures * @see javax.mail.event.ConnectionEvent */ public abstract void close(boolean expunge) throws MessagingException; /** * Close this Folder and expunge deleted messages.

* * A CLOSED ConnectionEvent is delivered to any ConnectionListeners * registered on this Folder. Note that the folder is closed even * if this method terminates abnormally by throwing a * MessagingException.

* * This method supports the {@link java.lang.AutoCloseable AutoCloseable} * interface.

* * This implementation calls close(true). * * @exception IllegalStateException if this folder is not opened * @exception MessagingException for other failures * @see javax.mail.event.ConnectionEvent * @since JavaMail 1.6 */ @Override public void close() throws MessagingException { close(true); } /** * Indicates whether this Folder is in the 'open' state. * @return true if this Folder is in the 'open' state. */ public abstract boolean isOpen(); /** * Return the open mode of this folder. Returns * Folder.READ_ONLY, Folder.READ_WRITE, * or -1 if the open mode is not known (usually only because an older * Folder provider has not been updated to use this new * method). * * @exception IllegalStateException if this folder is not opened * @return the open mode of this folder * @since JavaMail 1.1 */ public synchronized int getMode() { if (!isOpen()) throw new IllegalStateException("Folder not open"); return mode; } /** * Get the permanent flags supported by this Folder. Returns a Flags * object that contains all the flags supported.

* * The special flag Flags.Flag.USER indicates that this Folder * supports arbitrary user-defined flags.

* * The supported permanent flags for a folder may not be available * until the folder is opened. * * @return permanent flags, or null if not known */ public abstract Flags getPermanentFlags(); /** * Get total number of messages in this Folder.

* * This method can be invoked on a closed folder. However, note * that for some folder implementations, getting the total message * count can be an expensive operation involving actually opening * the folder. In such cases, a provider can choose not to support * this functionality in the closed state, in which case this method * must return -1.

* * Clients invoking this method on a closed folder must be aware * that this is a potentially expensive operation. Clients must * also be prepared to handle a return value of -1 in this case. * * @return total number of messages. -1 may be returned * by certain implementations if this method is * invoked on a closed folder. * @exception FolderNotFoundException if this folder does * not exist. * @exception MessagingException for other failures */ public abstract int getMessageCount() throws MessagingException; /** * Get the number of new messages in this Folder.

* * This method can be invoked on a closed folder. However, note * that for some folder implementations, getting the new message * count can be an expensive operation involving actually opening * the folder. In such cases, a provider can choose not to support * this functionality in the closed state, in which case this method * must return -1.

* * Clients invoking this method on a closed folder must be aware * that this is a potentially expensive operation. Clients must * also be prepared to handle a return value of -1 in this case.

* * This implementation returns -1 if this folder is closed. Else * this implementation gets each Message in the folder using * getMessage(int) and checks whether its * RECENT flag is set. The total number of messages * that have this flag set is returned. * * @return number of new messages. -1 may be returned * by certain implementations if this method is * invoked on a closed folder. * @exception FolderNotFoundException if this folder does * not exist. * @exception MessagingException for other failures */ public synchronized int getNewMessageCount() throws MessagingException { if (!isOpen()) return -1; int newmsgs = 0; int total = getMessageCount(); for (int i = 1; i <= total; i++) { try { if (getMessage(i).isSet(Flags.Flag.RECENT)) newmsgs++; } catch (MessageRemovedException me) { // This is an expunged message, ignore it. continue; } } return newmsgs; } /** * Get the total number of unread messages in this Folder.

* * This method can be invoked on a closed folder. However, note * that for some folder implementations, getting the unread message * count can be an expensive operation involving actually opening * the folder. In such cases, a provider can choose not to support * this functionality in the closed state, in which case this method * must return -1.

* * Clients invoking this method on a closed folder must be aware * that this is a potentially expensive operation. Clients must * also be prepared to handle a return value of -1 in this case.

* * This implementation returns -1 if this folder is closed. Else * this implementation gets each Message in the folder using * getMessage(int) and checks whether its * SEEN flag is set. The total number of messages * that do not have this flag set is returned. * * @return total number of unread messages. -1 may be returned * by certain implementations if this method is * invoked on a closed folder. * @exception FolderNotFoundException if this folder does * not exist. * @exception MessagingException for other failures */ public synchronized int getUnreadMessageCount() throws MessagingException { if (!isOpen()) return -1; int unread = 0; int total = getMessageCount(); for (int i = 1; i <= total; i++) { try { if (!getMessage(i).isSet(Flags.Flag.SEEN)) unread++; } catch (MessageRemovedException me) { // This is an expunged message, ignore it. continue; } } return unread; } /** * Get the number of deleted messages in this Folder.

* * This method can be invoked on a closed folder. However, note * that for some folder implementations, getting the deleted message * count can be an expensive operation involving actually opening * the folder. In such cases, a provider can choose not to support * this functionality in the closed state, in which case this method * must return -1.

* * Clients invoking this method on a closed folder must be aware * that this is a potentially expensive operation. Clients must * also be prepared to handle a return value of -1 in this case.

* * This implementation returns -1 if this folder is closed. Else * this implementation gets each Message in the folder using * getMessage(int) and checks whether its * DELETED flag is set. The total number of messages * that have this flag set is returned. * * @return number of deleted messages. -1 may be returned * by certain implementations if this method is * invoked on a closed folder. * @exception FolderNotFoundException if this folder does * not exist. * @exception MessagingException for other failures * @since JavaMail 1.3 */ public synchronized int getDeletedMessageCount() throws MessagingException { if (!isOpen()) return -1; int deleted = 0; int total = getMessageCount(); for (int i = 1; i <= total; i++) { try { if (getMessage(i).isSet(Flags.Flag.DELETED)) deleted++; } catch (MessageRemovedException me) { // This is an expunged message, ignore it. continue; } } return deleted; } /** * Get the Message object corresponding to the given message * number. A Message object's message number is the relative * position of this Message in its Folder. Messages are numbered * starting at 1 through the total number of message in the folder. * Note that the message number for a particular Message can change * during a session if other messages in the Folder are deleted and * the Folder is expunged.

* * Message objects are light-weight references to the actual message * that get filled up on demand. Hence Folder implementations are * expected to provide light-weight Message objects.

* * Unlike Folder objects, repeated calls to getMessage with the * same message number will return the same Message object, as * long as no messages in this folder have been expunged.

* * Since message numbers can change within a session if the folder * is expunged , clients are advised not to use message numbers as * references to messages. Use Message objects instead. * * @param msgnum the message number * @return the Message object * @see #getMessageCount * @see #fetch * @exception FolderNotFoundException if this folder does * not exist. * @exception IllegalStateException if this folder is not opened * @exception IndexOutOfBoundsException if the message number * is out of range. * @exception MessagingException for other failures */ public abstract Message getMessage(int msgnum) throws MessagingException; /** * Get the Message objects for message numbers ranging from start * through end, both start and end inclusive. Note that message * numbers start at 1, not 0.

* * Message objects are light-weight references to the actual message * that get filled up on demand. Hence Folder implementations are * expected to provide light-weight Message objects.

* * This implementation uses getMessage(index) to obtain the required * Message objects. Note that the returned array must contain * (end-start+1) Message objects. * * @param start the number of the first message * @param end the number of the last message * @return the Message objects * @see #fetch * @exception FolderNotFoundException if this folder does * not exist. * @exception IllegalStateException if this folder is not opened. * @exception IndexOutOfBoundsException if the start or end * message numbers are out of range. * @exception MessagingException for other failures */ public synchronized Message[] getMessages(int start, int end) throws MessagingException { Message[] msgs = new Message[end - start +1]; for (int i = start; i <= end; i++) msgs[i - start] = getMessage(i); return msgs; } /** * Get the Message objects for message numbers specified in * the array.

* * Message objects are light-weight references to the actual message * that get filled up on demand. Hence Folder implementations are * expected to provide light-weight Message objects.

* * This implementation uses getMessage(index) to obtain the required * Message objects. Note that the returned array must contain * msgnums.length Message objects * * @param msgnums the array of message numbers * @return the array of Message objects. * @see #fetch * @exception FolderNotFoundException if this folder does * not exist. * @exception IllegalStateException if this folder is not opened. * @exception IndexOutOfBoundsException if any message number * in the given array is out of range. * @exception MessagingException for other failures */ public synchronized Message[] getMessages(int[] msgnums) throws MessagingException { int len = msgnums.length; Message[] msgs = new Message[len]; for (int i = 0; i < len; i++) msgs[i] = getMessage(msgnums[i]); return msgs; } /** * Get all Message objects from this Folder. Returns an empty array * if the folder is empty. * * Clients can use Message objects (instead of sequence numbers) * as references to the messages within a folder; this method supplies * the Message objects to the client. Folder implementations are * expected to provide light-weight Message objects, which get * filled on demand.

* * This implementation invokes getMessageCount() to get * the current message count and then uses getMessage() * to get Message objects from 1 till the message count. * * @return array of Message objects, empty array if folder * is empty. * @see #fetch * @exception FolderNotFoundException if this folder does * not exist. * @exception IllegalStateException if this folder is not opened. * @exception MessagingException for other failures */ public synchronized Message[] getMessages() throws MessagingException { if (!isOpen()) // otherwise getMessageCount might return -1 throw new IllegalStateException("Folder not open"); int total = getMessageCount(); Message[] msgs = new Message[total]; for (int i = 1; i <= total; i++) msgs[i-1] = getMessage(i); return msgs; } /** * Append given Messages to this folder. This method can be * invoked on a closed Folder. An appropriate MessageCountEvent * is delivered to any MessageCountListener registered on this * folder when the messages arrive in the folder.

* * Folder implementations must not abort this operation if a * Message in the given message array turns out to be an * expunged Message. * * @param msgs array of Messages to be appended * @exception FolderNotFoundException if this folder does * not exist. * @exception MessagingException if the append failed. */ public abstract void appendMessages(Message[] msgs) throws MessagingException; /** * Prefetch the items specified in the FetchProfile for the * given Messages.

* * Clients use this method to indicate that the specified items are * needed en-masse for the given message range. Implementations are * expected to retrieve these items for the given message range in * a efficient manner. Note that this method is just a hint to the * implementation to prefetch the desired items.

* * An example is a client filling its header-view window with * the Subject, From and X-mailer headers for all messages in the * folder. *

     *
     *  Message[] msgs = folder.getMessages();
     *
     *  FetchProfile fp = new FetchProfile();
     *  fp.add(FetchProfile.Item.ENVELOPE);
     *  fp.add("X-mailer");
     *  folder.fetch(msgs, fp);
     *  
     *  for (int i = 0; i < folder.getMessageCount(); i++) {
     *      display(msg[i].getFrom());
     *      display(msg[i].getSubject());
     *      display(msg[i].getHeader("X-mailer"));
     *  }
     *
     * 

* * The implementation provided here just returns without * doing anything useful. Providers wanting to provide a real * implementation for this method should override this method. * * @param msgs fetch items for these messages * @param fp the FetchProfile * @exception IllegalStateException if this folder is not opened * @exception MessagingException for other failures */ public void fetch(Message[] msgs, FetchProfile fp) throws MessagingException { return; } /** * Set the specified flags on the messages specified in the array. * This will result in appropriate MessageChangedEvents being * delivered to any MessageChangedListener registered on this * Message's containing folder.

* * Note that the specified Message objects must * belong to this folder. Certain Folder implementations can * optimize the operation of setting Flags for a group of messages, * so clients might want to use this method, rather than invoking * Message.setFlags for each Message.

* * This implementation degenerates to invoking setFlags() * on each Message object. Specific Folder implementations that can * optimize this case should do so. * Also, an implementation must not abort the operation if a Message * in the array turns out to be an expunged Message. * * @param msgs the array of message objects * @param flag Flags object containing the flags to be set * @param value set the flags to this boolean value * @exception IllegalStateException if this folder is not opened * or if it has been opened READ_ONLY. * @exception MessagingException for other failures * @see Message#setFlags * @see javax.mail.event.MessageChangedEvent */ public synchronized void setFlags(Message[] msgs, Flags flag, boolean value) throws MessagingException { for (int i = 0; i < msgs.length; i++) { try { msgs[i].setFlags(flag, value); } catch (MessageRemovedException me) { // This message is expunged, skip } } } /** * Set the specified flags on the messages numbered from start * through end, both start and end inclusive. Note that message * numbers start at 1, not 0. * This will result in appropriate MessageChangedEvents being * delivered to any MessageChangedListener registered on this * Message's containing folder.

* * Certain Folder implementations can * optimize the operation of setting Flags for a group of messages, * so clients might want to use this method, rather than invoking * Message.setFlags for each Message.

* * The default implementation uses getMessage(int) to * get each Message object and then invokes * setFlags on that object to set the flags. * Specific Folder implementations that can optimize this case should do so. * Also, an implementation must not abort the operation if a message * number refers to an expunged message. * * @param start the number of the first message * @param end the number of the last message * @param flag Flags object containing the flags to be set * @param value set the flags to this boolean value * @exception IllegalStateException if this folder is not opened * or if it has been opened READ_ONLY. * @exception IndexOutOfBoundsException if the start or end * message numbers are out of range. * @exception MessagingException for other failures * @see Message#setFlags * @see javax.mail.event.MessageChangedEvent */ public synchronized void setFlags(int start, int end, Flags flag, boolean value) throws MessagingException { for (int i = start; i <= end; i++) { try { Message msg = getMessage(i); msg.setFlags(flag, value); } catch (MessageRemovedException me) { // This message is expunged, skip } } } /** * Set the specified flags on the messages whose message numbers * are in the array. * This will result in appropriate MessageChangedEvents being * delivered to any MessageChangedListener registered on this * Message's containing folder.

* * Certain Folder implementations can * optimize the operation of setting Flags for a group of messages, * so clients might want to use this method, rather than invoking * Message.setFlags for each Message.

* * The default implementation uses getMessage(int) to * get each Message object and then invokes * setFlags on that object to set the flags. * Specific Folder implementations that can optimize this case should do so. * Also, an implementation must not abort the operation if a message * number refers to an expunged message. * * @param msgnums the array of message numbers * @param flag Flags object containing the flags to be set * @param value set the flags to this boolean value * @exception IllegalStateException if this folder is not opened * or if it has been opened READ_ONLY. * @exception IndexOutOfBoundsException if any message number * in the given array is out of range. * @exception MessagingException for other failures * @see Message#setFlags * @see javax.mail.event.MessageChangedEvent */ public synchronized void setFlags(int[] msgnums, Flags flag, boolean value) throws MessagingException { for (int i = 0; i < msgnums.length; i++) { try { Message msg = getMessage(msgnums[i]); msg.setFlags(flag, value); } catch (MessageRemovedException me) { // This message is expunged, skip } } } /** * Copy the specified Messages from this Folder into another * Folder. This operation appends these Messages to the * destination Folder. The destination Folder does not have to * be opened. An appropriate MessageCountEvent * is delivered to any MessageCountListener registered on the * destination folder when the messages arrive in the folder.

* * Note that the specified Message objects must * belong to this folder. Folder implementations might be able * to optimize this method by doing server-side copies.

* * This implementation just invokes appendMessages() * on the destination folder to append the given Messages. Specific * folder implementations that support server-side copies should * do so, if the destination folder's Store is the same as this * folder's Store. * Also, an implementation must not abort the operation if a * Message in the array turns out to be an expunged Message. * * @param msgs the array of message objects * @param folder the folder to copy the messages to * @exception FolderNotFoundException if the destination * folder does not exist. * @exception IllegalStateException if this folder is not opened. * @exception MessagingException for other failures * @see #appendMessages */ public void copyMessages(Message[] msgs, Folder folder) throws MessagingException { if (!folder.exists()) throw new FolderNotFoundException( folder.getFullName() + " does not exist", folder); folder.appendMessages(msgs); } /** * Expunge (permanently remove) messages marked DELETED. Returns an * array containing the expunged message objects. The * getMessageNumber method * on each of these message objects returns that Message's original * (that is, prior to the expunge) sequence number. A MessageCountEvent * containing the expunged messages is delivered to any * MessageCountListeners registered on the folder.

* * Expunge causes the renumbering of Message objects subsequent to * the expunged messages. Clients that use message numbers as * references to messages should be aware of this and should be * prepared to deal with the situation (probably by flushing out * existing message number caches and reloading them). Because of * this complexity, it is better for clients to use Message objects * as references to messages, rather than message numbers. Any * expunged Messages objects still have to be pruned, but other * Messages in that folder are not affected by the expunge.

* * After a message is expunged, only the isExpunged and * getMessageNumber methods are still valid on the * corresponding Message object; other methods may throw * MessageRemovedException * * @return array of expunged Message objects * @exception FolderNotFoundException if this folder does not * exist * @exception IllegalStateException if this folder is not opened. * @exception MessagingException for other failures * @see Message#isExpunged * @see javax.mail.event.MessageCountEvent */ public abstract Message[] expunge() throws MessagingException; /** * Search this Folder for messages matching the specified * search criterion. Returns an array containing the matching * messages . Returns an empty array if no matches were found.

* * This implementation invokes * search(term, getMessages()), to apply the search * over all the messages in this folder. Providers that can implement * server-side searching might want to override this method to provide * a more efficient implementation. * * @param term the search criterion * @return array of matching messages * @exception javax.mail.search.SearchException if the search * term is too complex for the implementation to handle. * @exception FolderNotFoundException if this folder does * not exist. * @exception IllegalStateException if this folder is not opened. * @exception MessagingException for other failures * @see javax.mail.search.SearchTerm */ public Message[] search(SearchTerm term) throws MessagingException { return search(term, getMessages()); } /** * Search the given array of messages for those that match the * specified search criterion. Returns an array containing the * matching messages. Returns an empty array if no matches were * found.

* * Note that the specified Message objects must * belong to this folder.

* * This implementation iterates through the given array of messages, * and applies the search criterion on each message by calling * its match() method with the given term. The * messages that succeed in the match are returned. Providers * that can implement server-side searching might want to override * this method to provide a more efficient implementation. If the * search term is too complex or contains user-defined terms that * cannot be executed on the server, providers may elect to either * throw a SearchException or degenerate to client-side searching by * calling super.search() to invoke this implementation. * * @param term the search criterion * @param msgs the messages to be searched * @return array of matching messages * @exception javax.mail.search.SearchException if the search * term is too complex for the implementation to handle. * @exception IllegalStateException if this folder is not opened * @exception MessagingException for other failures * @see javax.mail.search.SearchTerm */ public Message[] search(SearchTerm term, Message[] msgs) throws MessagingException { List matchedMsgs = new ArrayList<>(); // Run thru the given messages for (Message msg : msgs) { try { if (msg.match(term)) // matched matchedMsgs.add(msg); // add it } catch(MessageRemovedException mrex) { } } return matchedMsgs.toArray(new Message[matchedMsgs.size()]); } /* * The set of listeners are stored in Vectors appropriate to their * type. We mark all listener Vectors as "volatile" because, while * we initialize them inside this folder's synchronization lock, * they are accessed (checked for null) in the "notify" methods, * which can't be synchronized due to lock ordering constraints. * Since the listener fields (the handles on the Vector objects) * are only ever set, and are never cleared, we believe this is * safe. The code that dispatches the notifications will either * see the null and assume there are no listeners or will see the * Vector and will process the listeners. There's an inherent race * between adding a listener and notifying the listeners; the lack * of synchronization during notification does not make the race * condition significantly worse. If one thread is setting a * listener at the "same" time an event is being dispatched, the * dispatch code might not see the listener right away. The * dispatch code doesn't have to worry about the Vector handle * being set to null, and thus using an out-of-date set of * listeners, because we never set the field to null. */ // Vector of connection listeners. private volatile Vector connectionListeners = null; /** * Add a listener for Connection events on this Folder.

* * The implementation provided here adds this listener * to an internal list of ConnectionListeners. * * @param l the Listener for Connection events * @see javax.mail.event.ConnectionEvent */ public synchronized void addConnectionListener(ConnectionListener l) { if (connectionListeners == null) connectionListeners = new Vector<>(); connectionListeners.addElement(l); } /** * Remove a Connection event listener.

* * The implementation provided here removes this listener * from the internal list of ConnectionListeners. * * @param l the listener * @see #addConnectionListener */ public synchronized void removeConnectionListener(ConnectionListener l) { if (connectionListeners != null) connectionListeners.removeElement(l); } /** * Notify all ConnectionListeners. Folder implementations are * expected to use this method to broadcast connection events.

* * The provided implementation queues the event into * an internal event queue. An event dispatcher thread dequeues * events from the queue and dispatches them to the registered * ConnectionListeners. Note that the event dispatching occurs * in a separate thread, thus avoiding potential deadlock problems. * * @param type the ConnectionEvent type * @see javax.mail.event.ConnectionEvent */ protected void notifyConnectionListeners(int type) { if (connectionListeners != null) { ConnectionEvent e = new ConnectionEvent(this, type); queueEvent(e, connectionListeners); } /* Fix for broken JDK1.1.x Garbage collector : * The 'conservative' GC in JDK1.1.x occasionally fails to * garbage-collect Threads which are in the wait state. * This would result in thread (and consequently memory) leaks. * * We attempt to fix this by sending a 'terminator' event * to the queue, after we've sent the CLOSED event. The * terminator event causes the event-dispatching thread to * self destruct. */ if (type == ConnectionEvent.CLOSED) q.terminateQueue(); } // Vector of folder listeners private volatile Vector folderListeners = null; /** * Add a listener for Folder events on this Folder.

* * The implementation provided here adds this listener * to an internal list of FolderListeners. * * @param l the Listener for Folder events * @see javax.mail.event.FolderEvent */ public synchronized void addFolderListener(FolderListener l) { if (folderListeners == null) folderListeners = new Vector<>(); folderListeners.addElement(l); } /** * Remove a Folder event listener.

* * The implementation provided here removes this listener * from the internal list of FolderListeners. * * @param l the listener * @see #addFolderListener */ public synchronized void removeFolderListener(FolderListener l) { if (folderListeners != null) folderListeners.removeElement(l); } /** * Notify all FolderListeners registered on this Folder and * this folder's Store. Folder implementations are expected * to use this method to broadcast Folder events.

* * The implementation provided here queues the event into * an internal event queue. An event dispatcher thread dequeues * events from the queue and dispatches them to the * FolderListeners registered on this folder. The implementation * also invokes notifyFolderListeners on this folder's * Store to notify any FolderListeners registered on the store. * * @param type type of FolderEvent * @see #notifyFolderRenamedListeners */ protected void notifyFolderListeners(int type) { if (folderListeners != null) { FolderEvent e = new FolderEvent(this, this, type); queueEvent(e, folderListeners); } store.notifyFolderListeners(type, this); } /** * Notify all FolderListeners registered on this Folder and * this folder's Store about the renaming of this folder. * Folder implementations are expected to use this method to * broadcast Folder events indicating the renaming of folders.

* * The implementation provided here queues the event into * an internal event queue. An event dispatcher thread dequeues * events from the queue and dispatches them to the * FolderListeners registered on this folder. The implementation * also invokes notifyFolderRenamedListeners on this * folder's Store to notify any FolderListeners registered on the store. * * @param folder Folder representing the new name. * @see #notifyFolderListeners * @since JavaMail 1.1 */ protected void notifyFolderRenamedListeners(Folder folder) { if (folderListeners != null) { FolderEvent e = new FolderEvent(this, this, folder, FolderEvent.RENAMED); queueEvent(e, folderListeners); } store.notifyFolderRenamedListeners(this, folder); } // Vector of MessageCount listeners private volatile Vector messageCountListeners = null; /** * Add a listener for MessageCount events on this Folder.

* * The implementation provided here adds this listener * to an internal list of MessageCountListeners. * * @param l the Listener for MessageCount events * @see javax.mail.event.MessageCountEvent */ public synchronized void addMessageCountListener(MessageCountListener l) { if (messageCountListeners == null) messageCountListeners = new Vector<>(); messageCountListeners.addElement(l); } /** * Remove a MessageCount listener.

* * The implementation provided here removes this listener * from the internal list of MessageCountListeners. * * @param l the listener * @see #addMessageCountListener */ public synchronized void removeMessageCountListener(MessageCountListener l) { if (messageCountListeners != null) messageCountListeners.removeElement(l); } /** * Notify all MessageCountListeners about the addition of messages * into this folder. Folder implementations are expected to use this * method to broadcast MessageCount events for indicating arrival of * new messages.

* * The provided implementation queues the event into * an internal event queue. An event dispatcher thread dequeues * events from the queue and dispatches them to the registered * MessageCountListeners. Note that the event dispatching occurs * in a separate thread, thus avoiding potential deadlock problems. * * @param msgs the messages that were added */ protected void notifyMessageAddedListeners(Message[] msgs) { if (messageCountListeners == null) return; MessageCountEvent e = new MessageCountEvent( this, MessageCountEvent.ADDED, false, msgs); queueEvent(e, messageCountListeners); } /** * Notify all MessageCountListeners about the removal of messages * from this Folder. Folder implementations are expected to use this * method to broadcast MessageCount events indicating removal of * messages.

* * The provided implementation queues the event into * an internal event queue. An event dispatcher thread dequeues * events from the queue and dispatches them to the registered * MessageCountListeners. Note that the event dispatching occurs * in a separate thread, thus avoiding potential deadlock problems. * * @param removed was the message removed by this client? * @param msgs the messages that were removed */ protected void notifyMessageRemovedListeners(boolean removed, Message[] msgs) { if (messageCountListeners == null) return; MessageCountEvent e = new MessageCountEvent( this, MessageCountEvent.REMOVED, removed, msgs); queueEvent(e, messageCountListeners); } // Vector of MessageChanged listeners. private volatile Vector messageChangedListeners = null; /** * Add a listener for MessageChanged events on this Folder.

* * The implementation provided here adds this listener * to an internal list of MessageChangedListeners. * * @param l the Listener for MessageChanged events * @see javax.mail.event.MessageChangedEvent */ public synchronized void addMessageChangedListener(MessageChangedListener l) { if (messageChangedListeners == null) messageChangedListeners = new Vector<>(); messageChangedListeners.addElement(l); } /** * Remove a MessageChanged listener.

* * The implementation provided here removes this listener * from the internal list of MessageChangedListeners. * * @param l the listener * @see #addMessageChangedListener */ public synchronized void removeMessageChangedListener(MessageChangedListener l) { if (messageChangedListeners != null) messageChangedListeners.removeElement(l); } /** * Notify all MessageChangedListeners. Folder implementations are * expected to use this method to broadcast MessageChanged events.

* * The provided implementation queues the event into * an internal event queue. An event dispatcher thread dequeues * events from the queue and dispatches them to registered * MessageChangedListeners. Note that the event dispatching occurs * in a separate thread, thus avoiding potential deadlock problems. * * @param type the MessageChangedEvent type * @param msg the message that changed */ protected void notifyMessageChangedListeners(int type, Message msg) { if (messageChangedListeners == null) return; MessageChangedEvent e = new MessageChangedEvent(this, type, msg); queueEvent(e, messageChangedListeners); } /* * Add the event and vector of listeners to the queue to be delivered. */ @SuppressWarnings("unchecked") private void queueEvent(MailEvent event, Vector vector) { /* * Copy the vector in order to freeze the state of the set * of EventListeners the event should be delivered to prior * to delivery. This ensures that any changes made to the * Vector from a target listener's method during the delivery * of this event will not take effect until after the event is * delivered. */ Vector v = (Vector)vector.clone(); q.enqueue(event, v); } @Override protected void finalize() throws Throwable { try { q.terminateQueue(); } finally { super.finalize(); } } /** * override the default toString(), it will return the String * from Folder.getFullName() or if that is null, it will use * the default toString() behavior. */ @Override public String toString() { String s = getFullName(); if (s != null) return s; else return super.toString(); } }





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