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package com.sun.mail.imap;

import java.util.Date;
import java.util.Vector;
import java.util.Hashtable;
import java.util.List;
import java.util.ArrayList;
import java.util.NoSuchElementException;
import java.util.logging.Level;
import java.io.*;

import javax.mail.*;
import javax.mail.event.*;
import javax.mail.internet.*;
import javax.mail.search.*;

import com.sun.mail.util.*;
import com.sun.mail.iap.*;
import com.sun.mail.imap.protocol.*;

/**
 * This class implements an IMAP folder. 

* * A closed IMAPFolder object shares a protocol connection with its IMAPStore * object. When the folder is opened, it gets its own protocol connection.

* * Applications that need to make use of IMAP-specific features may cast * a Folder object to an IMAPFolder object and * use the methods on this class. The {@link #getQuota getQuota} and * {@link #setQuota setQuota} methods support the IMAP QUOTA extension. * Refer to RFC 2087 * for more information.

* * The {@link #getACL getACL}, {@link #addACL addACL}, * {@link #removeACL removeACL}, {@link #addRights addRights}, * {@link #removeRights removeRights}, {@link #listRights listRights}, and * {@link #myRights myRights} methods support the IMAP ACL extension. * Refer to RFC 2086 * for more information.

* * The {@link #getSortedMessages getSortedMessages} * methods support the IMAP SORT extension. * Refer to RFC 5256 * for more information.

* * The {@link #doCommand doCommand} method and * {@link IMAPFolder.ProtocolCommand IMAPFolder.ProtocolCommand} * interface support use of arbitrary IMAP protocol commands.

* * See the com.sun.mail.imap package * documentation for further information on the IMAP protocol provider.

* * WARNING: The APIs unique to this class should be * considered EXPERIMENTAL. They may be changed in the * future in ways that are incompatible with applications using the * current APIs. * * @author John Mani * @author Bill Shannon * @author Jim Glennon */ /* * The folder object itself serves as a lock for the folder's state * EXCEPT for the message cache (see below), typically by using * synchronized methods. When checking that a folder is open or * closed, the folder's lock must be held. It's important that the * folder's lock is acquired before the messageCacheLock (see below). * Thus, the locking hierarchy is that the folder lock, while optional, * must be acquired before the messageCacheLock, if it's acquired at * all. Be especially careful of callbacks that occur while holding * the messageCacheLock into (e.g.) superclass Folder methods that are * synchronized. Note that methods in IMAPMessage will acquire the * messageCacheLock without acquiring the folder lock.

* * When a folder is opened, it creates a messageCache (a Vector) of * empty IMAPMessage objects. Each Message has a messageNumber - which * is its index into the messageCache, and a sequenceNumber - which is * its IMAP sequence-number. All operations on a Message which involve * communication with the server, use the message's sequenceNumber.

* * The most important thing to note here is that the server can send * unsolicited EXPUNGE notifications as part of the responses for "most" * commands. Refer RFC2060, sections 5.3 & 5.5 for gory details. Also, * the server sends these notifications AFTER the message has been * expunged. And once a message is expunged, the sequence-numbers of * those messages after the expunged one are renumbered. This essentially * means that the mapping between *any* Message and its sequence-number * can change in the period when a IMAP command is issued and its responses * are processed. Hence we impose a strict locking model as follows:

* * We define one mutex per folder - this is just a Java Object (named * messageCacheLock). Any time a command is to be issued to the IMAP * server (i.e., anytime the corresponding IMAPProtocol method is * invoked), follow the below style: * * synchronized (messageCacheLock) { // ACQUIRE LOCK * issue command () * * // The response processing is typically done within * // the handleResponse() callback. A few commands (Fetch, * // Expunge) return *all* responses and hence their * // processing is done here itself. Now, as part of the * // processing unsolicited EXPUNGE responses, we renumber * // the necessary sequence-numbers. Thus the renumbering * // happens within this critical-region, surrounded by * // locks. * process responses () * } // RELEASE LOCK * * This technique is used both by methods in IMAPFolder and by methods * in IMAPMessage and other classes that operate on data in the folder. * Note that holding the messageCacheLock has the side effect of * preventing the folder from being closed, and thus ensuring that the * folder's protocol object is still valid. The protocol object should * only be accessed while holding the messageCacheLock (except for calls * to IMAPProtocol.isREV1(), which don't need to be protected because it * doesn't access the server). * * Note that interactions with the Store's protocol connection do * not have to be protected as above, since the Store's protocol is * never in a "meaningful" SELECT-ed state. */ public class IMAPFolder extends Folder implements UIDFolder, ResponseHandler { protected String fullName; // full name protected String name; // name protected int type; // folder type. protected char separator; // separator protected Flags availableFlags; // available flags protected Flags permanentFlags; // permanent flags protected volatile boolean exists; // whether this folder really exists ? protected boolean isNamespace = false; // folder is a namespace name protected volatile String[] attributes;// name attributes from LIST response protected volatile IMAPProtocol protocol; // this folder's protocol object protected MessageCache messageCache;// message cache // accessor lock for message cache protected final Object messageCacheLock = new Object(); protected Hashtable uidTable; // UID->Message hashtable /* An IMAP delimiter is a 7bit US-ASCII character. (except NUL). * We use '\uffff' (a non 7bit character) to indicate that we havent * yet determined what the separator character is. * We use '\u0000' (NUL) to indicate that no separator character * exists, i.e., a flat hierarchy */ static final protected char UNKNOWN_SEPARATOR = '\uffff'; private volatile boolean opened = false; // is this folder opened ? /* This field tracks the state of this folder. If the folder is closed * due to external causes (i.e, not thru the close() method), then * this field will remain false. If the folder is closed thru the * close() method, then this field is set to true. * * If reallyClosed is false, then a FolderClosedException is * generated when a method is invoked on any Messaging object * owned by this folder. If reallyClosed is true, then the * IllegalStateException runtime exception is thrown. */ private boolean reallyClosed = true; /* * The idleState field supports the IDLE command. * Normally when executing an IMAP command we hold the * messageCacheLock and often the folder lock (see above). * While executing the IDLE command we can't hold either * of these locks or it would prevent other threads from * entering Folder methods even far enough to check whether * an IDLE command is in progress. We need to check before * issuing another command so that we can abort the IDLE * command. * * The idleState field is protected by the messageCacheLock. * The RUNNING state is the normal state and means no IDLE * command is in progress. The IDLE state means we've issued * an IDLE command and are reading responses. The ABORTING * state means we've sent the DONE continuation command and * are waiting for the thread running the IDLE command to * break out of its read loop. * * When an IDLE command is in progress, the thread calling * the idle method will be reading from the IMAP connection * while holding neither the folder lock nor the messageCacheLock. * It's obviously critical that no other thread try to send a * command or read from the connection while in this state. * However, other threads can send the DONE continuation * command that will cause the server to break out of the IDLE * loop and send the ending tag response to the IDLE command. * The thread in the idle method that's reading the responses * from the IDLE command will see this ending response and * complete the idle method, setting the idleState field back * to RUNNING, and notifying any threads waiting to use the * connection. * * All uses of the IMAP connection (IMAPProtocol object) must * be done while holding the messageCacheLock and must be * preceeded by a check to make sure an IDLE command is not * running, and abort the IDLE command if necessary. While * waiting for the IDLE command to complete, these other threads * will give up the messageCacheLock, but might still be holding * the folder lock. This check is done by the getProtocol() * method, resulting in a typical usage pattern of: * * synchronized (messageCacheLock) { * IMAPProtocol p = getProtocol(); // may block waiting for IDLE * // ... use protocol * } */ private static final int RUNNING = 0; // not doing IDLE command private static final int IDLE = 1; // IDLE command in effect private static final int ABORTING = 2; // IDLE command aborting private int idleState = RUNNING; private volatile int total = -1; // total number of messages in the // message cache private volatile int recent = -1; // number of recent messages private int realTotal = -1; // total number of messages on // the server private long uidvalidity = -1; // UIDValidity private long uidnext = -1; // UIDNext private long highestmodseq = -1; // HIGHESTMODSEQ: RFC 4551 - CONDSTORE private boolean doExpungeNotification = true; // used in expunge handler private Status cachedStatus = null; private long cachedStatusTime = 0; private boolean hasMessageCountListener = false; // optimize notification // queue of Responses to process after open() completes private List responseQueue; protected MailLogger logger; private MailLogger connectionPoolLogger; /** * A fetch profile item for fetching headers. * This inner class extends the FetchProfile.Item * class to add new FetchProfile item types, specific to IMAPFolders. * * @see FetchProfile */ public static class FetchProfileItem extends FetchProfile.Item { protected FetchProfileItem(String name) { super(name); } /** * HEADERS is a fetch profile item that can be included in a * FetchProfile during a fetch request to a Folder. * This item indicates that the headers for messages in the specified * range are desired to be prefetched.

* * An example of how a client uses this is below:

*

	 *
	 * 	FetchProfile fp = new FetchProfile();
	 *	fp.add(IMAPFolder.FetchProfileItem.HEADERS);
	 *	folder.fetch(msgs, fp);
	 *
	 * 

*/ public static final FetchProfileItem HEADERS = new FetchProfileItem("HEADERS"); /** * SIZE is a fetch profile item that can be included in a * FetchProfile during a fetch request to a Folder. * This item indicates that the sizes of the messages in the specified * range are desired to be prefetched.

* * SIZE was moved to FetchProfile.Item in JavaMail 1.5. * * @deprecated */ public static final FetchProfileItem SIZE = new FetchProfileItem("SIZE"); } /** * Constructor used to create a possibly non-existent folder. * * @param fullName fullname of this folder * @param separator the default separator character for this * folder's namespace * @param store the Store */ protected IMAPFolder(String fullName, char separator, IMAPStore store, Boolean isNamespace) { super(store); if (fullName == null) throw new NullPointerException("Folder name is null"); this.fullName = fullName; this.separator = separator; logger = new MailLogger(this.getClass(), "DEBUG IMAP", store.getSession()); connectionPoolLogger = ((IMAPStore)store).getConnectionPoolLogger(); /* * Work around apparent bug in Exchange. Exchange * will return a name of "Public Folders/" from * LIST "%". * * If name has one separator, and it's at the end, * assume this is a namespace name and treat it * accordingly. Usually this will happen as a result * of the list method, but this also allows getFolder * to work with namespace names. */ this.isNamespace = false; if (separator != UNKNOWN_SEPARATOR && separator != '\0') { int i = this.fullName.indexOf(separator); if (i > 0 && i == this.fullName.length() - 1) { this.fullName = this.fullName.substring(0, i); this.isNamespace = true; } } // if we were given a value, override default chosen above if (isNamespace != null) this.isNamespace = isNamespace.booleanValue(); } /** * Constructor used to create an existing folder. */ protected IMAPFolder(ListInfo li, IMAPStore store) { this(li.name, li.separator, store, null); if (li.hasInferiors) type |= HOLDS_FOLDERS; if (li.canOpen) type |= HOLDS_MESSAGES; exists = true; attributes = li.attrs; } /* * Ensure that this folder exists. If 'exists' has been set to true, * we don't attempt to validate it with the server again. Note that * this can result in a possible loss of sync with the server. * ASSERT: Must be called with this folder's synchronization lock held. */ protected void checkExists() throws MessagingException { // If the boolean field 'exists' is false, check with the // server by invoking exists() .. if (!exists && !exists()) throw new FolderNotFoundException( this, fullName + " not found"); } /* * Ensure the folder is closed. * ASSERT: Must be called with this folder's synchronization lock held. */ protected void checkClosed() { if (opened) throw new IllegalStateException( "This operation is not allowed on an open folder" ); } /* * Ensure the folder is open. * ASSERT: Must be called with this folder's synchronization lock held. */ protected void checkOpened() throws FolderClosedException { assert Thread.holdsLock(this); if (!opened) { if (reallyClosed) throw new IllegalStateException( "This operation is not allowed on a closed folder" ); else // Folder was closed "implicitly" throw new FolderClosedException(this, "Lost folder connection to server" ); } } /* * Check that the given message number is within the range * of messages present in this folder. If the message * number is out of range, we ping the server to obtain any * pending new message notifications from the server. */ protected void checkRange(int msgno) throws MessagingException { if (msgno < 1) // message-numbers start at 1 throw new IndexOutOfBoundsException("message number < 1"); if (msgno <= total) return; // Out of range, let's ping the server and see if // the server has more messages for us. synchronized(messageCacheLock) { // Acquire lock try { keepConnectionAlive(false); } catch (ConnectionException cex) { // Oops, lost connection throw new FolderClosedException(this, cex.getMessage()); } catch (ProtocolException pex) { throw new MessagingException(pex.getMessage(), pex); } } // Release lock if (msgno > total) // Still out of range ? Throw up ... throw new IndexOutOfBoundsException(msgno + " > " + total); } /* * Check whether the given flags are supported by this server, * and also verify that the folder allows setting flags. */ private void checkFlags(Flags flags) throws MessagingException { assert Thread.holdsLock(this); if (mode != READ_WRITE) throw new IllegalStateException( "Cannot change flags on READ_ONLY folder: " + fullName ); /* if (!availableFlags.contains(flags)) throw new MessagingException( "These flags are not supported by this implementation" ); */ } /** * Get the name of this folder. */ public synchronized String getName() { /* Return the last component of this Folder's full name. * Folder components are delimited by the separator character. */ if (name == null) { try { name = fullName.substring( fullName.lastIndexOf(getSeparator()) + 1 ); } catch (MessagingException mex) { } } return name; } /** * Get the fullname of this folder. */ public synchronized String getFullName() { return fullName; } /** * Get this folder's parent. */ public synchronized Folder getParent() throws MessagingException { char c = getSeparator(); int index; if ((index = fullName.lastIndexOf(c)) != -1) return ((IMAPStore)store).newIMAPFolder( fullName.substring(0, index), c); else return new DefaultFolder((IMAPStore)store); } /** * Check whether this folder really exists on the server. */ public synchronized boolean exists() throws MessagingException { // Check whether this folder exists .. ListInfo[] li = null; final String lname; if (isNamespace && separator != '\0') lname = fullName + separator; else lname = fullName; li = (ListInfo[])doCommand(new ProtocolCommand() { public Object doCommand(IMAPProtocol p) throws ProtocolException { return p.list("", lname); } }); if (li != null) { int i = findName(li, lname); fullName = li[i].name; separator = li[i].separator; int len = fullName.length(); if (separator != '\0' && len > 0 && fullName.charAt(len - 1) == separator) { fullName = fullName.substring(0, len - 1); } type = 0; if (li[i].hasInferiors) type |= HOLDS_FOLDERS; if (li[i].canOpen) type |= HOLDS_MESSAGES; exists = true; attributes = li[i].attrs; } else { exists = opened; attributes = null; } return exists; } /** * Which entry in li matches lname? * If the name contains wildcards, more than one entry may be * returned. */ private int findName(ListInfo[] li, String lname) { int i; // if the name contains a wildcard, there might be more than one for (i = 0; i < li.length; i++) { if (li[i].name.equals(lname)) break; } if (i >= li.length) { // nothing matched exactly // XXX - possibly should fail? But what if server // is case insensitive and returns the preferred // case of the name here? i = 0; // use first one } return i; } /** * List all subfolders matching the specified pattern. */ public Folder[] list(String pattern) throws MessagingException { return doList(pattern, false); } /** * List all subscribed subfolders matching the specified pattern. */ public Folder[] listSubscribed(String pattern) throws MessagingException { return doList(pattern, true); } private synchronized Folder[] doList(final String pattern, final boolean subscribed) throws MessagingException { checkExists(); // insure that this folder does exist. // Why waste a roundtrip to the server? if (attributes != null && !isDirectory()) return new Folder[0]; final char c = getSeparator(); ListInfo[] li = (ListInfo[])doCommandIgnoreFailure( new ProtocolCommand() { public Object doCommand(IMAPProtocol p) throws ProtocolException { if (subscribed) return p.lsub("", fullName + c + pattern); else return p.list("", fullName + c + pattern); } }); if (li == null) return new Folder[0]; /* * The UW based IMAP4 servers (e.g. SIMS2.0) include * current folder (terminated with the separator), when * the LIST pattern is '%' or '*'. i.e, * returns "mail/" as the first LIST response. * * Doesn't make sense to include the current folder in this * case, so we filter it out. Note that I'm assuming that * the offending response is the *first* one, my experiments * with the UW & SIMS2.0 servers indicate that .. */ int start = 0; // Check the first LIST response. if (li.length > 0 && li[0].name.equals(fullName + c)) start = 1; // start from index = 1 IMAPFolder[] folders = new IMAPFolder[li.length - start]; IMAPStore st = (IMAPStore)store; for (int i = start; i < li.length; i++) folders[i-start] = st.newIMAPFolder(li[i]); return folders; } /** * Get the separator character. */ public synchronized char getSeparator() throws MessagingException { if (separator == UNKNOWN_SEPARATOR) { ListInfo[] li = null; li = (ListInfo[])doCommand(new ProtocolCommand() { public Object doCommand(IMAPProtocol p) throws ProtocolException { // REV1 allows the following LIST format to obtain // the hierarchy delimiter of non-existent folders if (p.isREV1()) // IMAP4rev1 return p.list(fullName, ""); else // IMAP4, note that this folder must exist for this // to work :( return p.list("", fullName); } }); if (li != null) separator = li[0].separator; else separator = '/'; // punt ! } return separator; } /** * Get the type of this folder. */ public synchronized int getType() throws MessagingException { if (opened) { // never throw FolderNotFoundException if folder is open if (attributes == null) exists(); // try to fetch attributes } else { checkExists(); } return type; } /** * Check whether this folder is subscribed.

*/ public synchronized boolean isSubscribed() { ListInfo[] li = null; final String lname; if (isNamespace && separator != '\0') lname = fullName + separator; else lname = fullName; try { li = (ListInfo[])doProtocolCommand(new ProtocolCommand() { public Object doCommand(IMAPProtocol p) throws ProtocolException { return p.lsub("", lname); } }); } catch (ProtocolException pex) { } if (li != null) { int i = findName(li, lname); return li[i].canOpen; } else return false; } /** * Subscribe/Unsubscribe this folder. */ public synchronized void setSubscribed(final boolean subscribe) throws MessagingException { doCommandIgnoreFailure(new ProtocolCommand() { public Object doCommand(IMAPProtocol p) throws ProtocolException { if (subscribe) p.subscribe(fullName); else p.unsubscribe(fullName); return null; } }); } /** * Create this folder, with the specified type. */ public synchronized boolean create(final int type) throws MessagingException { char c = 0; if ((type & HOLDS_MESSAGES) == 0) // only holds folders c = getSeparator(); final char sep = c; Object ret = doCommandIgnoreFailure(new ProtocolCommand() { public Object doCommand(IMAPProtocol p) throws ProtocolException { if ((type & HOLDS_MESSAGES) == 0) // only holds folders p.create(fullName + sep); else { p.create(fullName); // Certain IMAP servers do not allow creation of folders // that can contain messages *and* subfolders. So, if we // were asked to create such a folder, we should verify // that we could indeed do so. if ((type & HOLDS_FOLDERS) != 0) { // we want to hold subfolders and messages. Check // whether we could create such a folder. ListInfo[] li = p.list("", fullName); if (li != null && !li[0].hasInferiors) { // Hmm ..the new folder // doesn't support Inferiors ? Fail p.delete(fullName); throw new ProtocolException("Unsupported type"); } } } return Boolean.TRUE; } }); if (ret == null) return false; // CREATE failure, maybe this // folder already exists ? // exists = true; // this.type = type; boolean retb = exists(); // set exists, type, and attributes if (retb) // Notify listeners on self and our Store notifyFolderListeners(FolderEvent.CREATED); return retb; } /** * Check whether this folder has new messages. */ public synchronized boolean hasNewMessages() throws MessagingException { if (opened) { // If we are open, we already have this information // Folder is open, make sure information is up to date synchronized(messageCacheLock) { // tickle the folder and store connections. try { keepConnectionAlive(true); } catch (ConnectionException cex) { throw new FolderClosedException(this, cex.getMessage()); } catch (ProtocolException pex) { throw new MessagingException(pex.getMessage(), pex); } return recent > 0 ? true : false; } } // First, the cheap way - use LIST and look for the \Marked // or \Unmarked tag ListInfo[] li = null; final String lname; if (isNamespace && separator != '\0') lname = fullName + separator; else lname = fullName; li = (ListInfo[])doCommandIgnoreFailure(new ProtocolCommand() { public Object doCommand(IMAPProtocol p) throws ProtocolException { return p.list("", lname); } }); // if folder doesn't exist, throw exception if (li == null) throw new FolderNotFoundException(this, fullName + " not found"); int i = findName(li, lname); if (li[i].changeState == ListInfo.CHANGED) return true; else if (li[i].changeState == ListInfo.UNCHANGED) return false; // LIST didn't work. Try the hard way, using STATUS try { Status status = getStatus(); if (status.recent > 0) return true; else return false; } catch (BadCommandException bex) { // Probably doesn't support STATUS, tough luck. return false; } catch (ConnectionException cex) { throw new StoreClosedException(store, cex.getMessage()); } catch (ProtocolException pex) { throw new MessagingException(pex.getMessage(), pex); } } /** * Get the named subfolder.

*/ public synchronized Folder getFolder(String name) throws MessagingException { // If we know that this folder is *not* a directory, don't // send the request to the server at all ... if (attributes != null && !isDirectory()) throw new MessagingException("Cannot contain subfolders"); char c = getSeparator(); return ((IMAPStore)store).newIMAPFolder(fullName + c + name, c); } /** * Delete this folder. */ public synchronized boolean delete(boolean recurse) throws MessagingException { checkClosed(); // insure that this folder is closed. if (recurse) { // Delete all subfolders. Folder[] f = list(); for (int i = 0; i < f.length; i++) f[i].delete(recurse); // ignore intermediate failures } // Attempt to delete this folder Object ret = doCommandIgnoreFailure(new ProtocolCommand() { public Object doCommand(IMAPProtocol p) throws ProtocolException { p.delete(fullName); return Boolean.TRUE; } }); if (ret == null) // Non-existent folder/No permission ?? return false; // DELETE succeeded. exists = false; attributes = null; // Notify listeners on self and our Store notifyFolderListeners(FolderEvent.DELETED); return true; } /** * Rename this folder.

*/ public synchronized boolean renameTo(final Folder f) throws MessagingException { checkClosed(); // insure that we are closed. checkExists(); if (f.getStore() != store) throw new MessagingException("Can't rename across Stores"); Object ret = doCommandIgnoreFailure(new ProtocolCommand() { public Object doCommand(IMAPProtocol p) throws ProtocolException { p.rename(fullName, f.getFullName()); return Boolean.TRUE; } }); if (ret == null) return false; exists = false; attributes = null; notifyFolderRenamedListeners(f); return true; } /** * Open this folder in the given mode. */ public synchronized void open(int mode) throws MessagingException { open(mode, null); } /** * Open this folder in the given mode, with the given * resynchronization data. */ public synchronized void open(int mode, ResyncData rd) throws MessagingException { checkClosed(); // insure that we are not already open MailboxInfo mi = null; // Request store for our own protocol connection. protocol = ((IMAPStore)store).getProtocol(this); synchronized(messageCacheLock) { // Acquire messageCacheLock /* * Add response handler right away so we get any alerts or * notifications that occur during the SELECT or EXAMINE. * Have to be sure to remove it if we fail to open the * folder. */ protocol.addResponseHandler(this); try { /* * Enable QRESYNC or CONDSTORE if needed and not enabled. * QRESYNC implies CONDSTORE, but servers that support * QRESYNC are not required to support just CONDSTORE * per RFC 5162. */ if (rd != null) { if (rd == ResyncData.CONDSTORE) { if (!protocol.isEnabled("CONDSTORE") && !protocol.isEnabled("QRESYNC")) { if (protocol.hasCapability("CONDSTORE")) protocol.enable("CONDSTORE"); else protocol.enable("QRESYNC"); } } else { if (!protocol.isEnabled("QRESYNC")) protocol.enable("QRESYNC"); } } // queue all responses during SELECT/EXAMINE responseQueue = new ArrayList(); if (mode == READ_ONLY) mi = protocol.examine(fullName, rd); else mi = protocol.select(fullName, rd); } catch (CommandFailedException cex) { /* * Handle SELECT or EXAMINE failure. * Try to figure out why the operation failed so we can * report a more reasonable exception. * * Will use our existing protocol object. */ try { checkExists(); // throw exception if folder doesn't exist if ((type & HOLDS_MESSAGES) == 0) throw new MessagingException( "folder cannot contain messages"); throw new MessagingException(cex.getMessage(), cex); } finally { // folder not open, don't keep this information exists = false; attributes = null; type = 0; // connection still good, return it releaseProtocol(true); } // NOTREACHED } catch (ProtocolException pex) { // got a BAD or a BYE; connection may be bad, close it try { protocol.logout(); } catch (ProtocolException pex2) { // ignore } finally { releaseProtocol(false); throw new MessagingException(pex.getMessage(), pex); } } if (mi.mode != mode) { if (mode == READ_WRITE && mi.mode == READ_ONLY && ((IMAPStore)store).allowReadOnlySelect()) { ; // all ok, allow it } else { // otherwise, it's an error try { // close mailbox and return connection protocol.close(); releaseProtocol(true); } catch (ProtocolException pex) { // something went wrong, close connection try { protocol.logout(); } catch (ProtocolException pex2) { // ignore } finally { releaseProtocol(false); } } finally { throw new ReadOnlyFolderException(this, "Cannot open in desired mode"); } } } // Initialize stuff. opened = true; reallyClosed = false; this.mode = mi.mode; availableFlags = mi.availableFlags; permanentFlags = mi.permanentFlags; total = realTotal = mi.total; recent = mi.recent; uidvalidity = mi.uidvalidity; uidnext = mi.uidnext; highestmodseq = mi.highestmodseq; // Create the message cache of appropriate size messageCache = new MessageCache(this, (IMAPStore)store, total); // Finally, time to process queued responses (e.g., FLAGS updates) List rq = responseQueue; responseQueue = null; if (rq != null) // should always be true for (Response r : rq) handleResponse(r); } // Release lock exists = true; // if we opened it, it must exist attributes = null; // but we don't yet know its attributes type = HOLDS_MESSAGES; // lacking more info, we know at least this much // notify listeners notifyConnectionListeners(ConnectionEvent.OPENED); } /** * Prefetch attributes, based on the given FetchProfile. */ public synchronized void fetch(Message[] msgs, FetchProfile fp) throws MessagingException { checkOpened(); StringBuffer command = new StringBuffer(); boolean first = true; boolean allHeaders = false; if (fp.contains(FetchProfile.Item.ENVELOPE)) { command.append(getEnvelopeCommand()); first = false; } if (fp.contains(FetchProfile.Item.FLAGS)) { command.append(first ? "FLAGS" : " FLAGS"); first = false; } if (fp.contains(FetchProfile.Item.CONTENT_INFO)) { command.append(first ? "BODYSTRUCTURE" : " BODYSTRUCTURE"); first = false; } if (fp.contains(UIDFolder.FetchProfileItem.UID)) { command.append(first ? "UID" : " UID"); first = false; } if (fp.contains(IMAPFolder.FetchProfileItem.HEADERS)) { allHeaders = true; if (protocol.isREV1()) command.append(first ? "BODY.PEEK[HEADER]" : " BODY.PEEK[HEADER]"); else command.append(first ? "RFC822.HEADER" : " RFC822.HEADER"); first = false; } if (fp.contains(FetchProfile.Item.SIZE) || fp.contains(IMAPFolder.FetchProfileItem.SIZE)) { command.append(first ? "RFC822.SIZE" : " RFC822.SIZE"); first = false; } // if we're not fetching all headers, fetch individual headers String[] hdrs = null; if (!allHeaders) { hdrs = fp.getHeaderNames(); if (hdrs.length > 0) { if (!first) command.append(" "); command.append(createHeaderCommand(hdrs)); } } /* * Add any additional extension fetch items. */ FetchItem[] fitems = protocol.getFetchItems(); for (int i = 0; i < fitems.length; i++) { if (fp.contains(fitems[i].getFetchProfileItem())) { if (command.length() != 0) command.append(" "); command.append(fitems[i].getName()); } } Utility.Condition condition = new IMAPMessage.FetchProfileCondition(fp, fitems); // Acquire the Folder's MessageCacheLock. synchronized(messageCacheLock) { // Apply the test, and get the sequence-number set for // the messages that need to be prefetched. MessageSet[] msgsets = Utility.toMessageSet(msgs, condition); if (msgsets == null) // We already have what we need. return; Response[] r = null; Vector v = new Vector(); // to collect non-FETCH responses & // unsolicited FETCH FLAG responses try { r = getProtocol().fetch(msgsets, command.toString()); } catch (ConnectionException cex) { throw new FolderClosedException(this, cex.getMessage()); } catch (CommandFailedException cfx) { // Ignore these, as per RFC 2180 } catch (ProtocolException pex) { throw new MessagingException(pex.getMessage(), pex); } if (r == null) return; for (int i = 0; i < r.length; i++) { if (r[i] == null) continue; if (!(r[i] instanceof FetchResponse)) { v.addElement(r[i]); // Unsolicited Non-FETCH response continue; } // Got a FetchResponse. FetchResponse f = (FetchResponse)r[i]; // Get the corresponding message. IMAPMessage msg = getMessageBySeqNumber(f.getNumber()); int count = f.getItemCount(); boolean unsolicitedFlags = false; for (int j = 0; j < count; j++) { Item item = f.getItem(j); // Check for the FLAGS item if (item instanceof Flags && (!fp.contains(FetchProfile.Item.FLAGS) || msg == null)) { // Ok, Unsolicited FLAGS update. unsolicitedFlags = true; } else if (msg != null) msg.handleFetchItem(item, hdrs, allHeaders); } if (msg != null) msg.handleExtensionFetchItems(f.getExtensionItems()); // If this response contains any unsolicited FLAGS // add it to the unsolicited response vector if (unsolicitedFlags) v.addElement(f); } // Dispatch any unsolicited responses int size = v.size(); if (size != 0) { Response[] responses = new Response[size]; v.copyInto(responses); handleResponses(responses); } } // Release messageCacheLock } /** * Return the IMAP FETCH items to request in order to load * all the "envelope" data. Subclasses can override this * method to fetch more data when FetchProfile.Item.ENVELOPE * is requested. * * @since JavaMail 1.4.6 */ protected String getEnvelopeCommand() { return IMAPMessage.EnvelopeCmd; } /** * Create a new IMAPMessage object to represent the given message number. * Subclasses of IMAPFolder may override this method to create a * subclass of IMAPMessage. * * @since JavaMail 1.4.6 */ protected IMAPMessage newIMAPMessage(int msgnum) { return new IMAPMessage(this, msgnum); } /** * Create the appropriate IMAP FETCH command items to fetch the * requested headers. */ private String createHeaderCommand(String[] hdrs) { StringBuffer sb; if (protocol.isREV1()) sb = new StringBuffer("BODY.PEEK[HEADER.FIELDS ("); else sb = new StringBuffer("RFC822.HEADER.LINES ("); for (int i = 0; i < hdrs.length; i++) { if (i > 0) sb.append(" "); sb.append(hdrs[i]); } if (protocol.isREV1()) sb.append(")]"); else sb.append(")"); return sb.toString(); } /** * Set the specified flags for the given array of messages. */ public synchronized void setFlags(Message[] msgs, Flags flag, boolean value) throws MessagingException { checkOpened(); checkFlags(flag); // validate flags if (msgs.length == 0) // boundary condition return; synchronized(messageCacheLock) { try { IMAPProtocol p = getProtocol(); MessageSet[] ms = Utility.toMessageSet(msgs, null); if (ms == null) throw new MessageRemovedException( "Messages have been removed"); p.storeFlags(ms, flag, value); } catch (ConnectionException cex) { throw new FolderClosedException(this, cex.getMessage()); } catch (ProtocolException pex) { throw new MessagingException(pex.getMessage(), pex); } } } /** * Set the specified flags for the given range of message numbers. */ public synchronized void setFlags(int start, int end, Flags flag, boolean value) throws MessagingException { checkOpened(); Message[] msgs = new Message[end - start + 1]; int i = 0; for (int n = start; n <= end; n++) msgs[i++] = getMessage(n); setFlags(msgs, flag, value); } /** * Set the specified flags for the given array of message numbers. */ public synchronized void setFlags(int[] msgnums, Flags flag, boolean value) throws MessagingException { checkOpened(); Message[] msgs = new Message[msgnums.length]; for (int i = 0; i < msgnums.length; i++) msgs[i] = getMessage(msgnums[i]); setFlags(msgs, flag, value); } /** * Close this folder. */ public synchronized void close(boolean expunge) throws MessagingException { close(expunge, false); } /** * Close this folder without waiting for the server. */ public synchronized void forceClose() throws MessagingException { close(false, true); } /* * Common close method. */ private void close(boolean expunge, boolean force) throws MessagingException { assert Thread.holdsLock(this); synchronized(messageCacheLock) { /* * If we already know we're closed, this is illegal. * Can't use checkOpened() because if we were forcibly * closed asynchronously we just want to complete the * closing here. */ if (!opened && reallyClosed) throw new IllegalStateException( "This operation is not allowed on a closed folder" ); reallyClosed = true; // Ok, lets reset // Maybe this folder is already closed, or maybe another // thread which had the messageCacheLock earlier, found // that our server connection is dead and cleaned up // everything .. if (!opened) return; try { waitIfIdle(); if (force) { logger.log(Level.FINE, "forcing folder {0} to close", fullName); if (protocol != null) protocol.disconnect(); } else if (((IMAPStore)store).isConnectionPoolFull()) { // If the connection pool is full, logout the connection logger.fine( "pool is full, not adding an Authenticated connection"); // If the expunge flag is set, close the folder first. if (expunge && protocol != null) protocol.close(); if (protocol != null) protocol.logout(); } else { // If the expunge flag is set or we're open read-only we // can just close the folder, otherwise open it read-only // before closing, or unselect it if supported. if (!expunge && mode == READ_WRITE) { try { if (protocol != null && protocol.hasCapability("UNSELECT")) protocol.unselect(); else { if (protocol != null) { MailboxInfo mi = protocol.examine(fullName); if (protocol != null) // XXX - unnecessary? protocol.close(); } } } catch (ProtocolException pex2) { if (protocol != null) protocol.disconnect(); } } else { if (protocol != null) protocol.close(); } } } catch (ProtocolException pex) { throw new MessagingException(pex.getMessage(), pex); } finally { // cleanup if we haven't already if (opened) cleanup(true); } } } // NOTE: this method can currently be invoked from close() or // from handleResponses(). Both invocations are conditional, // based on the "opened" flag, so we are sure that multiple // Connection.CLOSED events are not generated. Also both // invocations are from within messageCacheLock-ed areas. private void cleanup(boolean returnToPool) { assert Thread.holdsLock(messageCacheLock); releaseProtocol(returnToPool); messageCache = null; uidTable = null; exists = false; // to force a recheck in exists(). attributes = null; opened = false; idleState = RUNNING; // just in case notifyConnectionListeners(ConnectionEvent.CLOSED); } /** * Check whether this connection is really open. */ public synchronized boolean isOpen() { synchronized(messageCacheLock) { // Probe the connection to make sure its really open. if (opened) { try { keepConnectionAlive(false); } catch (ProtocolException pex) { } } } return opened; } /** * Return the permanent flags supported by the server. */ public synchronized Flags getPermanentFlags() { if (permanentFlags == null) return null; return (Flags)(permanentFlags.clone()); } /** * Get the total message count. */ public synchronized int getMessageCount() throws MessagingException { if (!opened) { checkExists(); // If this folder is not yet open, we use STATUS to // get the total message count try { Status status = getStatus(); return status.total; } catch (BadCommandException bex) { // doesn't support STATUS, probably vanilla IMAP4 .. // lets try EXAMINE IMAPProtocol p = null; try { p = getStoreProtocol(); // XXX MailboxInfo minfo = p.examine(fullName); p.close(); return minfo.total; } catch (ProtocolException pex) { // Give up. throw new MessagingException(pex.getMessage(), pex); } finally { releaseStoreProtocol(p); } } catch (ConnectionException cex) { throw new StoreClosedException(store, cex.getMessage()); } catch (ProtocolException pex) { throw new MessagingException(pex.getMessage(), pex); } } // Folder is open, we know what the total message count is .. synchronized(messageCacheLock) { // tickle the folder and store connections. try { keepConnectionAlive(true); return total; } catch (ConnectionException cex) { throw new FolderClosedException(this, cex.getMessage()); } catch (ProtocolException pex) { throw new MessagingException(pex.getMessage(), pex); } } } /** * Get the new message count. */ public synchronized int getNewMessageCount() throws MessagingException { if (!opened) { checkExists(); // If this folder is not yet open, we use STATUS to // get the new message count try { Status status = getStatus(); return status.recent; } catch (BadCommandException bex) { // doesn't support STATUS, probably vanilla IMAP4 .. // lets try EXAMINE IMAPProtocol p = null; try { p = getStoreProtocol(); // XXX MailboxInfo minfo = p.examine(fullName); p.close(); return minfo.recent; } catch (ProtocolException pex) { // Give up. throw new MessagingException(pex.getMessage(), pex); } finally { releaseStoreProtocol(p); } } catch (ConnectionException cex) { throw new StoreClosedException(store, cex.getMessage()); } catch (ProtocolException pex) { throw new MessagingException(pex.getMessage(), pex); } } // Folder is open, we know what the new message count is .. synchronized(messageCacheLock) { // tickle the folder and store connections. try { keepConnectionAlive(true); return recent; } catch (ConnectionException cex) { throw new FolderClosedException(this, cex.getMessage()); } catch (ProtocolException pex) { throw new MessagingException(pex.getMessage(), pex); } } } /** * Get the unread message count. */ public synchronized int getUnreadMessageCount() throws MessagingException { if (!opened) { checkExists(); // If this folder is not yet open, we use STATUS to // get the unseen message count try { Status status = getStatus(); return status.unseen; } catch (BadCommandException bex) { // doesn't support STATUS, probably vanilla IMAP4 .. // Could EXAMINE, SEARCH for UNREAD messages and // return the count .. bah, not worth it. return -1; } catch (ConnectionException cex) { throw new StoreClosedException(store, cex.getMessage()); } catch (ProtocolException pex) { throw new MessagingException(pex.getMessage(), pex); } } // if opened, issue server-side search for messages that do // *not* have the SEEN flag. Flags f = new Flags(); f.add(Flags.Flag.SEEN); try { synchronized(messageCacheLock) { int[] matches = getProtocol().search(new FlagTerm(f, false)); return matches.length; // NOTE: 'matches' is never null } } catch (ConnectionException cex) { throw new FolderClosedException(this, cex.getMessage()); } catch (ProtocolException pex) { // Shouldn't happen throw new MessagingException(pex.getMessage(), pex); } } /** * Get the deleted message count. */ public synchronized int getDeletedMessageCount() throws MessagingException { if (!opened) { checkExists(); // no way to do this on closed folders return -1; } // if opened, issue server-side search for messages that do // have the DELETED flag. Flags f = new Flags(); f.add(Flags.Flag.DELETED); try { synchronized(messageCacheLock) { int[] matches = getProtocol().search(new FlagTerm(f, true)); return matches.length; // NOTE: 'matches' is never null } } catch (ConnectionException cex) { throw new FolderClosedException(this, cex.getMessage()); } catch (ProtocolException pex) { // Shouldn't happen throw new MessagingException(pex.getMessage(), pex); } } /* * Get results of STATUS command for this folder, checking cache first. * ASSERT: Must be called with this folder's synchronization lock held. * ASSERT: The folder must be closed. */ private Status getStatus() throws ProtocolException { int statusCacheTimeout = ((IMAPStore)store).getStatusCacheTimeout(); // if allowed to cache and our cache is still valid, return it if (statusCacheTimeout > 0 && cachedStatus != null && System.currentTimeMillis() - cachedStatusTime < statusCacheTimeout) return cachedStatus; IMAPProtocol p = null; try { p = getStoreProtocol(); // XXX Status s = p.status(fullName, null); // if allowed to cache, do so if (statusCacheTimeout > 0) { cachedStatus = s; cachedStatusTime = System.currentTimeMillis(); } return s; } finally { releaseStoreProtocol(p); } } /** * Get the specified message. */ public synchronized Message getMessage(int msgnum) throws MessagingException { checkOpened(); checkRange(msgnum); return messageCache.getMessage(msgnum); } /** * Append the given messages into this folder. */ public synchronized void appendMessages(Message[] msgs) throws MessagingException { checkExists(); // verify that self exists // XXX - have to verify that messages are in a different // store (if any) than target folder, otherwise could // deadlock trying to fetch messages on the same connection // we're using for the append. int maxsize = ((IMAPStore)store).getAppendBufferSize(); for (int i = 0; i < msgs.length; i++) { final Message m = msgs[i]; Date d = m.getReceivedDate(); // retain dates if (d == null) d = m.getSentDate(); final Date dd = d; final Flags f = m.getFlags(); final MessageLiteral mos; try { // if we know the message is too big, don't buffer any of it mos = new MessageLiteral(m, m.getSize() > maxsize ? 0 : maxsize); } catch (IOException ex) { throw new MessagingException( "IOException while appending messages", ex); } catch (MessageRemovedException mrex) { continue; // just skip this expunged message } doCommand(new ProtocolCommand() { public Object doCommand(IMAPProtocol p) throws ProtocolException { p.append(fullName, f, dd, mos); return null; } }); } } /** * Append the given messages into this folder. * Return array of AppendUID objects containing * UIDs of these messages in the destination folder. * Each element of the returned array corresponds to * an element of the msgs array. A null * element means the server didn't return UID information * for the appended message.

* * Depends on the APPENDUID response code defined by the * UIDPLUS extension - * RFC 2359. * * @since JavaMail 1.4 */ public synchronized AppendUID[] appendUIDMessages(Message[] msgs) throws MessagingException { checkExists(); // verify that self exists // XXX - have to verify that messages are in a different // store (if any) than target folder, otherwise could // deadlock trying to fetch messages on the same connection // we're using for the append. int maxsize = ((IMAPStore)store).getAppendBufferSize(); AppendUID[] uids = new AppendUID[msgs.length]; for (int i = 0; i < msgs.length; i++) { final Message m = msgs[i]; final MessageLiteral mos; try { // if we know the message is too big, don't buffer any of it mos = new MessageLiteral(m, m.getSize() > maxsize ? 0 : maxsize); } catch (IOException ex) { throw new MessagingException( "IOException while appending messages", ex); } catch (MessageRemovedException mrex) { continue; // just skip this expunged message } Date d = m.getReceivedDate(); // retain dates if (d == null) d = m.getSentDate(); final Date dd = d; final Flags f = m.getFlags(); AppendUID auid = (AppendUID)doCommand(new ProtocolCommand() { public Object doCommand(IMAPProtocol p) throws ProtocolException { return p.appenduid(fullName, f, dd, mos); } }); uids[i] = auid; } return uids; } /** * Append the given messages into this folder. * Return array of Message objects representing * the messages in the destination folder. Note * that the folder must be open. * Each element of the returned array corresponds to * an element of the msgs array. A null * element means the server didn't return UID information * for the appended message.

* * Depends on the APPENDUID response code defined by the * UIDPLUS extension - * RFC 2359. * * @since JavaMail 1.4 */ public synchronized Message[] addMessages(Message[] msgs) throws MessagingException { checkOpened(); Message[] rmsgs = new MimeMessage[msgs.length]; AppendUID[] uids = appendUIDMessages(msgs); for (int i = 0; i < uids.length; i++) { AppendUID auid = uids[i]; if (auid != null) { if (auid.uidvalidity == uidvalidity) { try { rmsgs[i] = getMessageByUID(auid.uid); } catch (MessagingException mex) { // ignore errors at this stage } } } } return rmsgs; } /** * Copy the specified messages from this folder, to the * specified destination. */ public synchronized void copyMessages(Message[] msgs, Folder folder) throws MessagingException { checkOpened(); if (msgs.length == 0) // boundary condition return; // If the destination belongs to our same store, optimize if (folder.getStore() == store) { synchronized(messageCacheLock) { try { IMAPProtocol p = getProtocol(); MessageSet[] ms = Utility.toMessageSet(msgs, null); if (ms == null) throw new MessageRemovedException( "Messages have been removed"); p.copy(ms, folder.getFullName()); } catch (CommandFailedException cfx) { if (cfx.getMessage().indexOf("TRYCREATE") != -1) throw new FolderNotFoundException( folder, folder.getFullName() + " does not exist" ); else throw new MessagingException(cfx.getMessage(), cfx); } catch (ConnectionException cex) { throw new FolderClosedException(this, cex.getMessage()); } catch (ProtocolException pex) { throw new MessagingException(pex.getMessage(), pex); } } } else // destination is a different store. super.copyMessages(msgs, folder); } /** * Expunge all messages marked as DELETED. */ public synchronized Message[] expunge() throws MessagingException { return expunge(null); } /** * Expunge the indicated messages, which must have been marked as DELETED. * * Depends on the UIDPLUS extension - * RFC 2359. */ public synchronized Message[] expunge(Message[] msgs) throws MessagingException { checkOpened(); if (msgs != null) { // call fetch to make sure we have all the UIDs FetchProfile fp = new FetchProfile(); fp.add(UIDFolder.FetchProfileItem.UID); fetch(msgs, fp); } IMAPMessage[] rmsgs; synchronized(messageCacheLock) { doExpungeNotification = false; // We do this ourselves later try { IMAPProtocol p = getProtocol(); if (msgs != null) p.uidexpunge(Utility.toUIDSet(msgs)); else p.expunge(); } catch (CommandFailedException cfx) { // expunge not allowed, perhaps due to a permission problem? if (mode != READ_WRITE) throw new IllegalStateException( "Cannot expunge READ_ONLY folder: " + fullName); else throw new MessagingException(cfx.getMessage(), cfx); } catch (ConnectionException cex) { throw new FolderClosedException(this, cex.getMessage()); } catch (ProtocolException pex) { // Bad bad server .. throw new MessagingException(pex.getMessage(), pex); } finally { doExpungeNotification = true; } // Cleanup expunged messages and sync messageCache with reality. if (msgs != null) rmsgs = messageCache.removeExpungedMessages(msgs); else rmsgs = messageCache.removeExpungedMessages(); if (uidTable != null) { for (int i = 0; i < rmsgs.length; i++) { IMAPMessage m = rmsgs[i]; /* remove this message from the UIDTable */ long uid = m.getUID(); if (uid != -1) uidTable.remove(Long.valueOf(uid)); } } // Update 'total' total = messageCache.size(); } // Notify listeners. This time its for real, guys. if (rmsgs.length > 0) notifyMessageRemovedListeners(true, rmsgs); return rmsgs; } /** * Search whole folder for messages matching the given term. */ public synchronized Message[] search(SearchTerm term) throws MessagingException { checkOpened(); try { Message[] matchMsgs = null; synchronized(messageCacheLock) { int[] matches = getProtocol().search(term); if (matches != null) { matchMsgs = new IMAPMessage[matches.length]; // Map seq-numbers into actual Messages. for (int i = 0; i < matches.length; i++) matchMsgs[i] = getMessageBySeqNumber(matches[i]); } } return matchMsgs; } catch (CommandFailedException cfx) { // unsupported charset or search criterion return super.search(term); } catch (SearchException sex) { // too complex for IMAP return super.search(term); } catch (ConnectionException cex) { throw new FolderClosedException(this, cex.getMessage()); } catch (ProtocolException pex) { // bug in our IMAP layer ? throw new MessagingException(pex.getMessage(), pex); } } /** * Search the folder for messages matching the given term. Returns * array of matching messages. Returns an empty array if no matching * messages are found. */ public synchronized Message[] search(SearchTerm term, Message[] msgs) throws MessagingException { checkOpened(); if (msgs.length == 0) // need to return an empty array (not null!) return msgs; try { Message[] matchMsgs = null; synchronized(messageCacheLock) { IMAPProtocol p = getProtocol(); MessageSet[] ms = Utility.toMessageSet(msgs, null); if (ms == null) throw new MessageRemovedException( "Messages have been removed"); int[] matches = p.search(ms, term); if (matches != null) { matchMsgs = new IMAPMessage[matches.length]; for (int i = 0; i < matches.length; i++) matchMsgs[i] = getMessageBySeqNumber(matches[i]); } } return matchMsgs; } catch (CommandFailedException cfx) { // unsupported charset or search criterion return super.search(term, msgs); } catch (SearchException sex) { // too complex for IMAP return super.search(term, msgs); } catch (ConnectionException cex) { throw new FolderClosedException(this, cex.getMessage()); } catch (ProtocolException pex) { // bug in our IMAP layer ? throw new MessagingException(pex.getMessage(), pex); } } /** * Sort the messages in the folder according to the sort criteria. * The messages are returned in the sorted order, but the order of * the messages in the folder is not changed.

* * Depends on the SORT extension - * RFC 5256. * * @since JavaMail 1.4.4 */ public synchronized Message[] getSortedMessages(SortTerm[] term) throws MessagingException { return getSortedMessages(term, null); } /** * Sort the messages in the folder according to the sort criteria. * The messages are returned in the sorted order, but the order of * the messages in the folder is not changed. Only messages matching * the search criteria are considered.

* * Depends on the SORT extension - * RFC 5256. * * @since JavaMail 1.4.4 */ public synchronized Message[] getSortedMessages(SortTerm[] term, SearchTerm sterm) throws MessagingException { checkOpened(); try { Message[] matchMsgs = null; synchronized(messageCacheLock) { int[] matches = getProtocol().sort(term, sterm); if (matches != null) { matchMsgs = new IMAPMessage[matches.length]; // Map seq-numbers into actual Messages. for (int i = 0; i < matches.length; i++) matchMsgs[i] = getMessageBySeqNumber(matches[i]); } } return matchMsgs; } catch (CommandFailedException cfx) { // unsupported charset or search criterion throw new MessagingException(cfx.getMessage(), cfx); } catch (SearchException sex) { // too complex for IMAP throw new MessagingException(sex.getMessage(), sex); } catch (ConnectionException cex) { throw new FolderClosedException(this, cex.getMessage()); } catch (ProtocolException pex) { // bug in our IMAP layer ? throw new MessagingException(pex.getMessage(), pex); } } /* * Override Folder method to keep track of whether we have any * message count listeners. Normally we won't have any, so we * can avoid creating message objects to pass to the notify * method. It's too hard to keep track of when all listeners * are removed, and that's a rare case, so we don't try. */ public synchronized void addMessageCountListener(MessageCountListener l) { super.addMessageCountListener(l); hasMessageCountListener = true; } /*********************************************************** * UIDFolder interface methods **********************************************************/ /** * Returns the UIDValidity for this folder. */ public synchronized long getUIDValidity() throws MessagingException { if (opened) // we already have this information return uidvalidity; IMAPProtocol p = null; Status status = null; try { p = getStoreProtocol(); // XXX String[] item = { "UIDVALIDITY" }; status = p.status(fullName, item); } catch (BadCommandException bex) { // Probably a RFC1730 server throw new MessagingException("Cannot obtain UIDValidity", bex); } catch (ConnectionException cex) { // Oops, the store or folder died on us. throwClosedException(cex); } catch (ProtocolException pex) { throw new MessagingException(pex.getMessage(), pex); } finally { releaseStoreProtocol(p); } return status.uidvalidity; } /** * Returns the predicted UID that will be assigned to the * next message that is appended to this folder. * If the folder is closed, the STATUS command is used to * retrieve this value. If the folder is open, the value * returned from the SELECT or EXAMINE command is returned. * Note that messages may have been appended to the folder * while it was open and thus this value may be out of * date.

* * Servers implementing RFC2060 likely won't return this value * when a folder is opened. Servers implementing RFC3501 * should return this value when a folder is opened.

* * @return the UIDNEXT value, or -1 if unknown * @since JavaMail 1.3.3 */ // Not a UIDFolder method, but still useful public synchronized long getUIDNext() throws MessagingException { if (opened) // we already have this information return uidnext; IMAPProtocol p = null; Status status = null; try { p = getStoreProtocol(); // XXX String[] item = { "UIDNEXT" }; status = p.status(fullName, item); } catch (BadCommandException bex) { // Probably a RFC1730 server throw new MessagingException("Cannot obtain UIDNext", bex); } catch (ConnectionException cex) { // Oops, the store or folder died on us. throwClosedException(cex); } catch (ProtocolException pex) { throw new MessagingException(pex.getMessage(), pex); } finally { releaseStoreProtocol(p); } return status.uidnext; } /** * Get the Message corresponding to the given UID. * If no such message exists, null is returned. */ public synchronized Message getMessageByUID(long uid) throws MessagingException { checkOpened(); // insure folder is open IMAPMessage m = null; try { synchronized(messageCacheLock) { Long l = Long.valueOf(uid); if (uidTable != null) { // Check in uidTable m = (IMAPMessage)uidTable.get(l); if (m != null) // found it return m; } else uidTable = new Hashtable(); // Check with the server // Issue UID FETCH command UID u = getProtocol().fetchSequenceNumber(uid); if (u != null && u.seqnum <= total) { // Valid UID m = getMessageBySeqNumber(u.seqnum); m.setUID(u.uid); // set this message's UID .. // .. and put this into the hashtable uidTable.put(l, m); } } } catch(ConnectionException cex) { throw new FolderClosedException(this, cex.getMessage()); } catch (ProtocolException pex) { throw new MessagingException(pex.getMessage(), pex); } return m; } /** * Get the Messages specified by the given range.

* Returns Message objects for all valid messages in this range. * Returns an empty array if no messages are found. */ public synchronized Message[] getMessagesByUID(long start, long end) throws MessagingException { checkOpened(); // insure that folder is open Message[] msgs; // array of messages to be returned try { synchronized(messageCacheLock) { if (uidTable == null) uidTable = new Hashtable(); // Issue UID FETCH for given range UID[] ua = getProtocol().fetchSequenceNumbers(start, end); msgs = new Message[ua.length]; IMAPMessage m; // NOTE: Below must be within messageCacheLock region for (int i = 0; i < ua.length; i++) { m = getMessageBySeqNumber(ua[i].seqnum); m.setUID(ua[i].uid); msgs[i] = m; uidTable.put(Long.valueOf(ua[i].uid), m); } } } catch(ConnectionException cex) { throw new FolderClosedException(this, cex.getMessage()); } catch (ProtocolException pex) { throw new MessagingException(pex.getMessage(), pex); } return msgs; } /** * Get the Messages specified by the given array.

* * uids.length() elements are returned. * If any UID in the array is invalid, a null entry * is returned for that element. */ public synchronized Message[] getMessagesByUID(long[] uids) throws MessagingException { checkOpened(); // insure that folder is open try { synchronized(messageCacheLock) { long[] unavailUids = uids; if (uidTable != null) { Vector v = new Vector(); // to collect unavailable UIDs Long l; for (int i = 0; i < uids.length; i++) { if (!uidTable.containsKey(l = Long.valueOf(uids[i]))) // This UID has not been loaded yet. v.addElement(l); } int vsize = v.size(); unavailUids = new long[vsize]; for (int i = 0; i < vsize; i++) unavailUids[i] = ((Long)v.elementAt(i)).longValue(); } else uidTable = new Hashtable(); if (unavailUids.length > 0) { // Issue UID FETCH request for given uids UID[] ua = getProtocol().fetchSequenceNumbers(unavailUids); IMAPMessage m; for (int i = 0; i < ua.length; i++) { m = getMessageBySeqNumber(ua[i].seqnum); m.setUID(ua[i].uid); uidTable.put(Long.valueOf(ua[i].uid), m); } } // Return array of size = uids.length Message[] msgs = new Message[uids.length]; for (int i = 0; i < uids.length; i++) msgs[i] = (Message)uidTable.get(Long.valueOf(uids[i])); return msgs; } } catch(ConnectionException cex) { throw new FolderClosedException(this, cex.getMessage()); } catch (ProtocolException pex) { throw new MessagingException(pex.getMessage(), pex); } } /** * Get the UID for the specified message. */ public synchronized long getUID(Message message) throws MessagingException { if (message.getFolder() != this) throw new NoSuchElementException( "Message does not belong to this folder"); checkOpened(); // insure that folder is open IMAPMessage m = (IMAPMessage)message; // If the message already knows its UID, great .. long uid; if ((uid = m.getUID()) != -1) return uid; synchronized(messageCacheLock) { // Acquire Lock try { IMAPProtocol p = getProtocol(); m.checkExpunged(); // insure that message is not expunged UID u = p.fetchUID(m.getSequenceNumber()); if (u != null) { uid = u.uid; m.setUID(uid); // set message's UID // insert this message into uidTable if (uidTable == null) uidTable = new Hashtable(); uidTable.put(Long.valueOf(uid), m); } } catch (ConnectionException cex) { throw new FolderClosedException(this, cex.getMessage()); } catch (ProtocolException pex) { throw new MessagingException(pex.getMessage(), pex); } } return uid; } private Message[] createMessagesForUIDSet(UIDSet[] uidset) { IMAPMessage[] msgs = new IMAPMessage[(int)UIDSet.size(uidset)]; int i = 0; for (UIDSet u : uidset) { for (long n = u.start; n <= u.end; n++) { IMAPMessage m = newIMAPMessage(-1); // no sequence number m.setUID(n); m.setExpunged(true); msgs[i++] = m; } } return msgs; } /** * Returns the HIGHESTMODSEQ for this folder. * * @see "RFC 4551" * @since JavaMail 1.5.1 */ public synchronized long getHighestModSeq() throws MessagingException { if (opened) // we already have this information return highestmodseq; IMAPProtocol p = null; Status status = null; try { p = getStoreProtocol(); // XXX if (!p.hasCapability("CONDSTORE")) throw new BadCommandException("CONDSTORE not supported"); String[] item = { "HIGHESTMODSEQ" }; status = p.status(fullName, item); } catch (BadCommandException bex) { // Probably a RFC1730 server throw new MessagingException("Cannot obtain HIGHESTMODSEQ", bex); } catch (ConnectionException cex) { // Oops, the store or folder died on us. throwClosedException(cex); } catch (ProtocolException pex) { throw new MessagingException(pex.getMessage(), pex); } finally { releaseStoreProtocol(p); } return status.highestmodseq; } /** * Get the quotas for the quotaroot associated with this * folder. Note that many folders may have the same quotaroot. * Quotas are controlled on the basis of a quotaroot, not * (necessarily) a folder. The relationship between folders * and quotaroots depends on the IMAP server. Some servers * might implement a single quotaroot for all folders owned by * a user. Other servers might implement a separate quotaroot * for each folder. A single folder can even have multiple * quotaroots, perhaps controlling quotas for different * resources. * * @return array of Quota objects for the quotaroots associated with * this folder * @exception MessagingException if the server doesn't support the * QUOTA extension */ public Quota[] getQuota() throws MessagingException { return (Quota[])doOptionalCommand("QUOTA not supported", new ProtocolCommand() { public Object doCommand(IMAPProtocol p) throws ProtocolException { return p.getQuotaRoot(fullName); } }); } /** * Set the quotas for the quotaroot specified in the quota argument. * Typically this will be one of the quotaroots associated with this * folder, as obtained from the getQuota method, but it * need not be. * * @param quota the quota to set * @exception MessagingException if the server doesn't support the * QUOTA extension */ public void setQuota(final Quota quota) throws MessagingException { doOptionalCommand("QUOTA not supported", new ProtocolCommand() { public Object doCommand(IMAPProtocol p) throws ProtocolException { p.setQuota(quota); return null; } }); } /** * Get the access control list entries for this folder. * * @return array of access control list entries * @exception MessagingException if the server doesn't support the * ACL extension */ public ACL[] getACL() throws MessagingException { return (ACL[])doOptionalCommand("ACL not supported", new ProtocolCommand() { public Object doCommand(IMAPProtocol p) throws ProtocolException { return p.getACL(fullName); } }); } /** * Add an access control list entry to the access control list * for this folder. * * @param acl the access control list entry to add * @exception MessagingException if the server doesn't support the * ACL extension */ public void addACL(ACL acl) throws MessagingException { setACL(acl, '\0'); } /** * Remove any access control list entry for the given identifier * from the access control list for this folder. * * @param name the identifier for which to remove all ACL entries * @exception MessagingException if the server doesn't support the * ACL extension */ public void removeACL(final String name) throws MessagingException { doOptionalCommand("ACL not supported", new ProtocolCommand() { public Object doCommand(IMAPProtocol p) throws ProtocolException { p.deleteACL(fullName, name); return null; } }); } /** * Add the rights specified in the ACL to the entry for the * identifier specified in the ACL. If an entry for the identifier * doesn't already exist, add one. * * @param acl the identifer and rights to add * @exception MessagingException if the server doesn't support the * ACL extension */ public void addRights(ACL acl) throws MessagingException { setACL(acl, '+'); } /** * Remove the rights specified in the ACL from the entry for the * identifier specified in the ACL. * * @param acl the identifer and rights to remove * @exception MessagingException if the server doesn't support the * ACL extension */ public void removeRights(ACL acl) throws MessagingException { setACL(acl, '-'); } /** * Get all the rights that may be allowed to the given identifier. * Rights are grouped per RFC 2086 and each group is returned as an * element of the array. The first element of the array is the set * of rights that are always granted to the identifier. Later * elements are rights that may be optionally granted to the * identifier.

* * Note that this method lists the rights that it is possible to * assign to the given identifier, not the rights that are * actually granted to the given identifier. For the latter, see * the getACL method. * * @param name the identifier to list rights for * @return array of Rights objects representing possible * rights for the identifier * @exception MessagingException if the server doesn't support the * ACL extension */ public Rights[] listRights(final String name) throws MessagingException { return (Rights[])doOptionalCommand("ACL not supported", new ProtocolCommand() { public Object doCommand(IMAPProtocol p) throws ProtocolException { return p.listRights(fullName, name); } }); } /** * Get the rights allowed to the currently authenticated user. * * @return the rights granted to the current user * @exception MessagingException if the server doesn't support the * ACL extension */ public Rights myRights() throws MessagingException { return (Rights)doOptionalCommand("ACL not supported", new ProtocolCommand() { public Object doCommand(IMAPProtocol p) throws ProtocolException { return p.myRights(fullName); } }); } private void setACL(final ACL acl, final char mod) throws MessagingException { doOptionalCommand("ACL not supported", new ProtocolCommand() { public Object doCommand(IMAPProtocol p) throws ProtocolException { p.setACL(fullName, mod, acl); return null; } }); } /** * Get the attributes that the IMAP server returns with the * LIST response. * * @since JavaMail 1.3.3 */ public synchronized String[] getAttributes() throws MessagingException { checkExists(); if (attributes == null) exists(); // do a LIST to set the attributes return attributes == null ? new String[0] : (String[])(attributes.clone()); } /** * Use the IMAP IDLE command (see * RFC 2177), * if supported by the server, to enter idle mode so that the server * can send unsolicited notifications of new messages arriving, etc. * without the need for the client to constantly poll the server. * Use an appropriate listener to be notified of new messages or * other events. When another thread (e.g., the listener thread) * needs to issue an IMAP comand for this folder, the idle mode will * be terminated and this method will return. Typically the caller * will invoke this method in a loop.

* * The mail.imap.minidletime property enforces a minimum delay * before returning from this method, to ensure that other threads * have a chance to issue commands before the caller invokes this * method again. The default delay is 10 milliseconds. * * @exception MessagingException if the server doesn't support the * IDLE extension * @exception IllegalStateException if the folder isn't open * * @since JavaMail 1.4.1 */ public void idle() throws MessagingException { idle(false); } /** * Like {@link #idle}, but if once is true, abort the * IDLE command after the first notification, to allow the caller * to process any notification synchronously. * * @exception MessagingException if the server doesn't support the * IDLE extension * @exception IllegalStateException if the folder isn't open * * @since JavaMail 1.4.3 */ public void idle(boolean once) throws MessagingException { // ASSERT: Must NOT be called with this folder's // synchronization lock held. assert !Thread.holdsLock(this); synchronized(this) { checkOpened(); Boolean started = (Boolean)doOptionalCommand("IDLE not supported", new ProtocolCommand() { public Object doCommand(IMAPProtocol p) throws ProtocolException { if (idleState == RUNNING) { p.idleStart(); idleState = IDLE; return Boolean.TRUE; } else { // some other thread must be running the IDLE // command, we'll just wait for it to finish // without aborting it ourselves try { // give up lock and wait to be not idle messageCacheLock.wait(); } catch (InterruptedException ex) { } return Boolean.FALSE; } } }); if (!started.booleanValue()) return; } /* * We gave up the folder lock so that other threads * can get into the folder far enough to see that we're * in IDLE and abort the IDLE. * * Now we read responses from the IDLE command, especially * including unsolicited notifications from the server. * We don't hold the messageCacheLock while reading because * it protects the idleState and other threads need to be * able to examine the state. * * We hold the messageCacheLock while processing the * responses so that we can update the number of messages * in the folder (for example). */ for (;;) { Response r = protocol.readIdleResponse(); try { synchronized (messageCacheLock) { try { if (r == null || protocol == null || !protocol.processIdleResponse(r)) { idleState = RUNNING; messageCacheLock.notifyAll(); break; } } catch (ProtocolException pex) { idleState = RUNNING; messageCacheLock.notifyAll(); throw pex; } if (once) { if (idleState == IDLE) { protocol.idleAbort(); idleState = ABORTING; } } } } catch (ConnectionException cex) { // Oops, the store or folder died on us. throwClosedException(cex); } catch (ProtocolException pex) { throw new MessagingException(pex.getMessage(), pex); } } /* * Enforce a minimum delay to give time to threads * processing the responses that came in while we * were idle. */ int minidle = ((IMAPStore)store).getMinIdleTime(); if (minidle > 0) { try { Thread.sleep(minidle); } catch (InterruptedException ex) { } } } /* * If an IDLE command is in progress, abort it if necessary, * and wait until it completes. * ASSERT: Must be called with the message cache lock held. */ void waitIfIdle() throws ProtocolException { assert Thread.holdsLock(messageCacheLock); while (idleState != RUNNING) { if (idleState == IDLE) { protocol.idleAbort(); idleState = ABORTING; } try { // give up lock and wait to be not idle messageCacheLock.wait(); } catch (InterruptedException ex) { } } } /** * The response handler. This is the callback routine that is * invoked by the protocol layer. */ /* * ASSERT: This method must be called only when holding the * messageCacheLock. * ASSERT: This method must *not* invoke any other method that * might grab the 'folder' lock or 'message' lock (i.e., any * synchronized methods on IMAPFolder or IMAPMessage) * since that will result in violating the locking hierarchy. */ public void handleResponse(Response r) { assert Thread.holdsLock(messageCacheLock); /* * First, delegate possible ALERT or notification to the Store. */ if (r.isOK() || r.isNO() || r.isBAD() || r.isBYE()) ((IMAPStore)store).handleResponseCode(r); /* * Now check whether this is a BYE or OK response and * handle appropriately. */ if (r.isBYE()) { if (opened) // XXX - accessed without holding folder lock cleanup(false); return; } else if (r.isOK()) { return; } else if (!r.isUnTagged()) { return; // might be a continuation for IDLE } /* Now check whether this is an IMAP specific response */ if (!(r instanceof IMAPResponse)) { // Probably a bug in our code ! // XXX - should be an assert logger.fine("UNEXPECTED RESPONSE : " + r.toString()); return; } if (responseQueue != null) { // queue responses to process after open responseQueue.add(r); return; } IMAPResponse ir = (IMAPResponse)r; if (ir.keyEquals("EXISTS")) { // EXISTS int exists = ir.getNumber(); if (exists <= realTotal) // Could be the EXISTS following EXPUNGE, ignore 'em return; int count = exists - realTotal; // number of new messages Message[] msgs = new Message[count]; // Add 'count' new IMAPMessage objects into the messageCache messageCache.addMessages(count, realTotal + 1); int oldtotal = total; // used in loop below realTotal += count; total += count; // avoid instantiating Message objects if no listeners. if (hasMessageCountListener) { for (int i = 0; i < count; i++) msgs[i] = messageCache.getMessage(++oldtotal); // Notify listeners. notifyMessageAddedListeners(msgs); } } else if (ir.keyEquals("EXPUNGE")) { // EXPUNGE response. int seqnum = ir.getNumber(); Message[] msgs = null; if (doExpungeNotification && hasMessageCountListener) { // save the Message object first; can't look it // up after it's expunged msgs = new Message[] { getMessageBySeqNumber(seqnum) }; } messageCache.expungeMessage(seqnum); // decrement 'realTotal'; but leave 'total' unchanged realTotal--; if (msgs != null) // Do the notification here. notifyMessageRemovedListeners(false, msgs); } else if (ir.keyEquals("VANISHED")) { if (hasMessageCountListener) { // otherwise, don't care // "VANISHED" SP ["(EARLIER)"] SP known-uids String[] s = ir.readAtomStringList(); // XXX - check that it really is "EARLIER"? String uids = ir.readAtom(); UIDSet[] uidset = UIDSet.parseUIDSets(uids); Message[] msgs = createMessagesForUIDSet(uidset); notifyMessageRemovedListeners(true, msgs); } } else if (ir.keyEquals("FETCH")) { // The only unsolicited FETCH response that makes sense // to me (for now) is FLAGS updates, which might include // UID and MODSEQ information. Ignore any other junk. assert ir instanceof FetchResponse : "!ir instanceof FetchResponse"; FetchResponse f = (FetchResponse)ir; IMAPMessage msg = getMessageBySeqNumber(f.getNumber()); if (msg != null) { // should always be true boolean notify = false; UID uid = f.getItem(UID.class); if (uid != null && msg.getUID() != uid.uid) { msg.setUID(uid.uid); if (uidTable == null) uidTable = new Hashtable(); uidTable.put(Long.valueOf(uid.uid), msg); notify = true; } MODSEQ modseq = f.getItem(MODSEQ.class); if (modseq != null && msg._getModSeq() != modseq.modseq) { msg.setModSeq(modseq.modseq); if (modseq.modseq > highestmodseq) highestmodseq = modseq.modseq; notify = true; } // Get FLAGS response, if present FLAGS flags = f.getItem(FLAGS.class); if (flags != null) { msg._setFlags(flags); // assume flags changed notify = true; } if (notify) notifyMessageChangedListeners( MessageChangedEvent.FLAGS_CHANGED, msg); } } else if (ir.keyEquals("RECENT")) { // update 'recent' recent = ir.getNumber(); } } /** * Handle the given array of Responses. * * ASSERT: This method must be called only when holding the * messageCacheLock */ void handleResponses(Response[] r) { for (int i = 0; i < r.length; i++) { if (r[i] != null) handleResponse(r[i]); } } /** * Get this folder's Store's protocol connection. * * When acquiring a store protocol object, it is important to * use the following steps: * * IMAPProtocol p = null; * try { * p = getStoreProtocol(); * // perform the command * } catch (WhateverException ex) { * // handle it * } finally { * releaseStoreProtocol(p); * } */ protected synchronized IMAPProtocol getStoreProtocol() throws ProtocolException { connectionPoolLogger.fine("getStoreProtocol() borrowing a connection"); return ((IMAPStore)store).getFolderStoreProtocol(); } /** * Throw the appropriate 'closed' exception. */ protected synchronized void throwClosedException(ConnectionException cex) throws FolderClosedException, StoreClosedException { // If it's the folder's protocol object, throw a FolderClosedException; // otherwise, throw a StoreClosedException. // If a command has failed because the connection is closed, // the folder will have already been forced closed by the // time we get here and our protocol object will have been // released, so if we no longer have a protocol object we base // this decision on whether we *think* the folder is open. if ((protocol != null && cex.getProtocol() == protocol) || (protocol == null && !reallyClosed)) throw new FolderClosedException(this, cex.getMessage()); else throw new StoreClosedException(store, cex.getMessage()); } /** * Return the IMAPProtocol object for this folder.

* * This method will block if necessary to wait for an IDLE * command to finish. * * @return the IMAPProtocol object used when the folder is open */ protected IMAPProtocol getProtocol() throws ProtocolException { assert Thread.holdsLock(messageCacheLock); waitIfIdle(); return protocol; } /** * A simple interface for user-defined IMAP protocol commands. */ public static interface ProtocolCommand { /** * Execute the user-defined command using the supplied IMAPProtocol * object. */ public Object doCommand(IMAPProtocol protocol) throws ProtocolException; } /** * Execute a user-supplied IMAP command. The command is executed * in the appropriate context with the necessary locks held and * using the appropriate IMAPProtocol object.

* * This method returns whatever the ProtocolCommand * object's doCommand method returns. If the * doCommand method throws a ConnectionException * it is translated into a StoreClosedException or * FolderClosedException as appropriate. If the * doCommand method throws a ProtocolException * it is translated into a MessagingException.

* * The following example shows how to execute the IMAP NOOP command. * Executing more complex IMAP commands requires intimate knowledge * of the com.sun.mail.iap and * com.sun.mail.imap.protocol packages, best acquired by * reading the source code.

* *

     * import com.sun.mail.iap.*;
     * import com.sun.mail.imap.*;
     * import com.sun.mail.imap.protocol.*;
     *
     * ...
     *
     * IMAPFolder f = (IMAPFolder)folder;
     * Object val = f.doCommand(new IMAPFolder.ProtocolCommand() {
     *	public Object doCommand(IMAPProtocol p)
     *			throws ProtocolException {
     *	    p.simpleCommand("NOOP", null);
     *	    return null;
     *	}
     * });
     * 
*

* * Here's a more complex example showing how to use the proposed * IMAP SORT extension:

* *

* import com.sun.mail.iap.*; * import com.sun.mail.imap.*; * import com.sun.mail.imap.protocol.*; * * ... * * IMAPFolder f = (IMAPFolder)folder; * Object val = f.doCommand(new IMAPFolder.ProtocolCommand() { * public Object doCommand(IMAPProtocol p) * throws ProtocolException { * // Issue command * Argument args = new Argument(); * Argument list = new Argument(); * list.writeString("SUBJECT"); * args.writeArgument(list); * args.writeString("UTF-8"); * args.writeString("ALL"); * Response[] r = p.command("SORT", args); * Response response = r[r.length-1]; * * // Grab response * Vector v = new Vector(); * if (response.isOK()) { // command succesful * for (int i = 0, len = r.length; i < len; i++) { * if (!(r[i] instanceof IMAPResponse)) * continue; * * IMAPResponse ir = (IMAPResponse)r[i]; * if (ir.keyEquals("SORT")) { * String num; * while ((num = ir.readAtomString()) != null) * System.out.println(num); * r[i] = null; * } * } * } * * // dispatch remaining untagged responses * p.notifyResponseHandlers(r); * p.handleResult(response); * * return null; * } * }); *
*/ public Object doCommand(ProtocolCommand cmd) throws MessagingException { try { return doProtocolCommand(cmd); } catch (ConnectionException cex) { // Oops, the store or folder died on us. throwClosedException(cex); } catch (ProtocolException pex) { throw new MessagingException(pex.getMessage(), pex); } return null; } public Object doOptionalCommand(String err, ProtocolCommand cmd) throws MessagingException { try { return doProtocolCommand(cmd); } catch (BadCommandException bex) { throw new MessagingException(err, bex); } catch (ConnectionException cex) { // Oops, the store or folder died on us. throwClosedException(cex); } catch (ProtocolException pex) { throw new MessagingException(pex.getMessage(), pex); } return null; } public Object doCommandIgnoreFailure(ProtocolCommand cmd) throws MessagingException { try { return doProtocolCommand(cmd); } catch (CommandFailedException cfx) { return null; } catch (ConnectionException cex) { // Oops, the store or folder died on us. throwClosedException(cex); } catch (ProtocolException pex) { throw new MessagingException(pex.getMessage(), pex); } return null; } protected Object doProtocolCommand(ProtocolCommand cmd) throws ProtocolException { synchronized (this) { /* * Check whether we have a protocol object, not whether we're * opened, to allow use of the exsting protocol object in the * open method before the state is changed to "opened". */ if (protocol != null) { synchronized (messageCacheLock) { return cmd.doCommand(getProtocol()); } } } // only get here if using store's connection IMAPProtocol p = null; try { p = getStoreProtocol(); return cmd.doCommand(p); } finally { releaseStoreProtocol(p); } } /** * Release the store protocol object. If we borrowed a protocol * object from the connection pool, give it back. If we used our * own protocol object, nothing to do. */ protected synchronized void releaseStoreProtocol(IMAPProtocol p) { if (p != protocol) ((IMAPStore)store).releaseFolderStoreProtocol(p); else { // XXX - should never happen logger.fine("releasing our protocol as store protocol?"); } } /** * Release the protocol object. * * ASSERT: This method must be called only when holding the * messageCacheLock */ protected void releaseProtocol(boolean returnToPool) { if (protocol != null) { protocol.removeResponseHandler(this); responseQueue = null; if (returnToPool) ((IMAPStore)store).releaseProtocol(this, protocol); else { protocol.disconnect(); // make sure it's disconnected ((IMAPStore)store).releaseProtocol(this, null); } protocol = null; } } /** * Issue a noop command for the connection if the connection has not been * used in more than a second. If keepStoreAlive is true, * also issue a noop over the store's connection. * * ASSERT: This method must be called only when holding the * messageCacheLock */ protected void keepConnectionAlive(boolean keepStoreAlive) throws ProtocolException { if (System.currentTimeMillis() - protocol.getTimestamp() > 1000) { waitIfIdle(); if (protocol != null) protocol.noop(); } if (keepStoreAlive && ((IMAPStore)store).hasSeparateStoreConnection()) { IMAPProtocol p = null; try { p = ((IMAPStore)store).getFolderStoreProtocol(); if (System.currentTimeMillis() - p.getTimestamp() > 1000) p.noop(); } finally { ((IMAPStore)store).releaseFolderStoreProtocol(p); } } } /** * Get the message object for the given sequence number. If * none found, null is returned. * * ASSERT: This method must be called only when holding the * messageCacheLock */ protected IMAPMessage getMessageBySeqNumber(int seqnum) { return messageCache.getMessageBySeqnum(seqnum); } private boolean isDirectory() { return ((type & HOLDS_FOLDERS) != 0); } } /** * An object that holds a Message object * and reports its size and writes it to another OutputStream * on demand. Used by appendMessages to avoid the need to * buffer the entire message in memory in a single byte array * before sending it to the server. */ class MessageLiteral implements Literal { private Message msg; private int msgSize = -1; private byte[] buf; // the buffered message, if not null public MessageLiteral(Message msg, int maxsize) throws MessagingException, IOException { this.msg = msg; // compute the size here so exceptions can be returned immediately LengthCounter lc = new LengthCounter(maxsize); OutputStream os = new CRLFOutputStream(lc); msg.writeTo(os); os.flush(); msgSize = lc.getSize(); buf = lc.getBytes(); } public int size() { return msgSize; } public void writeTo(OutputStream os) throws IOException { // the message should not change between the constructor and this call try { if (buf != null) os.write(buf, 0, msgSize); else { os = new CRLFOutputStream(os); msg.writeTo(os); } } catch (MessagingException mex) { // exceptions here are bad, "should" never happen throw new IOException("MessagingException while appending message: " + mex); } } } /** * Count the number of bytes written to the stream. * Also, save a copy of small messages to avoid having to process * the data again. */ class LengthCounter extends OutputStream { private int size = 0; private byte[] buf; private int maxsize; public LengthCounter(int maxsize) { buf = new byte[8192]; this.maxsize = maxsize; } public void write(int b) { int newsize = size + 1; if (buf != null) { if (newsize > maxsize && maxsize >= 0) { buf = null; } else if (newsize > buf.length) { byte newbuf[] = new byte[Math.max(buf.length << 1, newsize)]; System.arraycopy(buf, 0, newbuf, 0, size); buf = newbuf; buf[size] = (byte)b; } else { buf[size] = (byte)b; } } size = newsize; } public void write(byte b[], int off, int len) { if ((off < 0) || (off > b.length) || (len < 0) || ((off + len) > b.length) || ((off + len) < 0)) { throw new IndexOutOfBoundsException(); } else if (len == 0) { return; } int newsize = size + len; if (buf != null) { if (newsize > maxsize && maxsize >= 0) { buf = null; } else if (newsize > buf.length) { byte newbuf[] = new byte[Math.max(buf.length << 1, newsize)]; System.arraycopy(buf, 0, newbuf, 0, size); buf = newbuf; System.arraycopy(b, off, buf, size, len); } else { System.arraycopy(b, off, buf, size, len); } } size = newsize; } public void write(byte[] b) throws IOException { write(b, 0, b.length); } public int getSize() { return size; } public byte[] getBytes() { return buf; } }




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