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453 lines
16 KiB
Java
453 lines
16 KiB
Java
/* -*- Mode: java; indent-tabs-mode: nil; c-basic-offset: 2 -*-
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*
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* The contents of this file are subject to the Mozilla Public License
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* Version 1.0 (the "License"); you may not use this file except in
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* compliance with the License. You may obtain a copy of the License at
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* http://www.mozilla.org/MPL/
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*
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* Software distributed under the License is distributed on an "AS IS"
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* basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
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* the License for the specific language governing rights and limitations
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* under the License.
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*
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* The Original Code is the Grendel mail/news client.
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*
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* The Initial Developer of the Original Code is Netscape Communications
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* Corporation. Portions created by Netscape are Copyright (C) 1997
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* Netscape Communications Corporation. All Rights Reserved.
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*
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* Created: Jamie Zawinski <jwz@netscape.com>, 20 Sep 1997.
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*/
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package grendel.storage;
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import calypso.util.Assert;
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import java.lang.Thread;
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import java.lang.SecurityException;
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import java.lang.InterruptedException;
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import java.util.Vector;
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import java.io.File;
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import java.io.FileOutputStream;
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import java.io.IOException;
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/** Implements Unix-style dot-locking (locking file <TT>"FOO"</TT> by using an
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atomically-created file in the same directory named <TT>"FOO.lock"</TT>.)
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<P> Use it like this:
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<P><UL>
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<TT>UnixDotLock lock = new UnixDotLock(file); // </TT><I>this blocks</I>
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<BR><TT>// </TT><I>... long-running manipulations of file</I>
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<BR><TT>lock.unlock();</TT>
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</UL>
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<P> All the lock-retrying and lock-date-maintenance happens under
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the covers.
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<P> See also the
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<A HREF="http://home.netscape.com/eng/mozilla/2.0/relnotes/demo/movemail.html#movemail">
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description of movemail</A>.
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<P><B>Implementation details:</B>
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<BLOCKQUOTE>
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<P>The protocol for getting a lock on some file <TT>"FOO"</TT> is
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as follows:
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<P><OL>
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<LI> Create a file <TT>"FOO.1234"</TT> (random unused name.)<P>
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<LI> Hard-link <TT>"FOO.1234"</TT> to <TT>"FOO.lock"</TT>.<BR>
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(this is the trick, because <TT>link()</TT> happens to be
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one of the few atomic, synchronized operations over NFS.)<P>
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<LI> Unlink <TT>"FOO.1234"</TT><BR>
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(regardless of whether step 2 succeeded; now either we have
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a <TT>"FOO.lock"</TT> file or we don't.)<P>
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<LI> If we obtained the lock (the <TT>link()</TT> call in
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step #2 succeeded), then we're done.<P>
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<LI> Else if the creation-time of <TT>"FOO.lock"</TT> is more
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than 60 seconds in the past, then smash the lock (unlink
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<TT>"FOO.lock"</TT>) and goto step #1.)<P>
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<LI> Else, the lock is held and current. Wait a second, then
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goto step #1 and try again.
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</OL>
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<P>
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One thing implied by this is that if one wants to hold a lock for longer
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than 60 seconds (which we do in some cases) then one must maintain the
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lock file: its modification-date must be updated every less-than-60
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seconds. We do this by having a ``heartbeat'' thread that wakes up
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periodically and updates all held locks.
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</BLOCKQUOTE>
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*/
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public class UnixDotLock {
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/** Turn this on to cause activity to be logged to System.err. */
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static private final boolean debug = true;
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/** Holds the (one) thread that updates the lock date every <60 seconds. */
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static private Thread lock_heartbeat_thread = null;
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/** List of locked locks. The vector holds UnixDotLock objects. */
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/* #### We really want this vector to hold weak pointers, so that the locks
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get deleted if the lock object is GCed. But, failing to explicitly
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unlock the lock doesn't have <I>that</I> bad a failure mode, since the
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protocol is to smash the lock after 60 seconds anyway.
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*/
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static private Vector active_locks = null;
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/** After someone else's lock is 60 seconds old, we assume it has been left
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dangling, and smash it. This is a part of the de-facto dot-locking
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protocol, folks: I wouldn't make this stuff up. The way you hold a
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lock for longer than 60 seconds is by periodically updating the
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modification date of the lock file to prove that you're still alive.
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*/
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static private final int maximum_lock_age = 60;
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/** How often to update the write-date on a lock file. If we want to
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hold a lock for longer than 60 seconds, we need to update its
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write date, and this is how often we do that. This should be
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less than `maximum_lock_age' by enough to be comfortable that
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system load and thread starvation won't cause the heartbeat
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thread to fail to update the lock file date in time.
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*/
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static final int heart_rate = 30;
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/** <B>System dependency:</B> multiply the result of File.lastModified() by
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this to convert it to seconds. Java doesn't specify the units in which
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File.lastModified() measures time, but we need to be able to add N
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seconds to it, to tell when a file is more than N seconds old. It
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happens that, with JDK 1.1.3 on Irix, this scale is 1000. We must
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assume that all other Unixen behave the same. If this changes in some
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future Java implementation, we're fucked.
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*/
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static private final int File_lastModified_scale = 1000;
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/** The name of the file for which this lock is being held. */
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private File locked_file = null;
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/** Lock the named file. Unlock it by calling the unlock() method.
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If you do not call unlock() before discarding the UnixDotLock object,
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the file will remain locked!
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@exception SecurityException the lock file could not be created
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(file permission problems?)
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@exception IOException a disk I/O error occurred.
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@exception InterruptedException this thread was killed while waiting
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for the lock.
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*/
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public UnixDotLock(File file)
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throws SecurityException, IOException, InterruptedException {
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if (!file.isAbsolute())
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file = new File(file.getAbsolutePath());
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// We want to work in the real directory of the file, not in the
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// directory of a symlink to the file.
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file = new File(file.getCanonicalPath());
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createDiskLock(file);
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setLocked(file);
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}
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/** Unlock the file. This must be called before discarding the UnixDotLock
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object, and may be called only once. The UnixDotLock object must not
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be used again after calling this.
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@exception InterruptedException this thread was killed while waiting
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for the lock.
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*/
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public void unlock() {
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if (locked_file == null)
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throw new Error("not locked");
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removeDiskLock(locked_file);
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try {
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setLocked(null);
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} catch (InterruptedException e) {
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Assert.Assertion(false); // shouldn't be thrown when only unlocking.
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}
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}
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/** Create a lock file name for the given file (append ".lock" to it.) */
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private File makeLockName(File file) {
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return new File(file.toString() + ".lock");
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}
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/** Create the name of a new file in the same directory as the given file.
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This picks a random name and then checks to make sure it doesn't
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already exist. It doesn't actually create the file (so there's a
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very slight race here.) */
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private File gentemp(File prefix) {
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File f;
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do {
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int r = (int) Double.doubleToLongBits(Math.random());
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f = new File(prefix.toString() + "." + Integer.toHexString(r));
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} while (f.exists());
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return f;
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}
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/** Attempt to lock the file, using the hairy dot-locking protocol.
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Does not return until the lock has been obtained.
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@exception SecurityException the lock file could not be created
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(file permission problems?).
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@exception IOException a disk I/O error occurred.
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@exception InterruptedException this thread was killed while waiting
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for the lock.
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*/
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private void createDiskLock(File file)
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throws SecurityException, IOException, InterruptedException {
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File dir = new File(file.getParent());
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File lock = makeLockName(file);
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if (debug)
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System.err.println("LOCK " + file + " (with " + lock + ")");
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while (true) {
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if (!dir.canWrite())
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throw new SecurityException("unwritable directory " + dir);
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// 1: create file "FOO.1234" (random name)
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//
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File tmp = gentemp(lock);
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if (debug) System.err.println("\n 1: create " + tmp);
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FileOutputStream stream = new FileOutputStream(tmp);
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stream.close();
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stream = null;
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// Get the current time as the *disk* sees it, not as the *system*
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// sees it -- this avoids lossage when this machine and the file
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// server do not have synchronized clocks.
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long current_time = tmp.lastModified();
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// 2: hard-link "FOO.1234" to "FOO.lock"
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// (this is the trick, because link() is an atomic, synchronized
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// operation over NFS)
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//
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if (debug) System.err.println(" 2: link " + tmp + " " + lock);
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// #### this part is wrong -- I don't know how make link() syscall
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boolean link_succeeded = false;
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if (!lock.exists()) {
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if (debug) System.err.println(" 2: (#### but not really)");
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stream = new FileOutputStream(lock);
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stream.close();
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stream = null;
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link_succeeded = true;
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}
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// 3: unlink "FOO.1234"
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// (regardless of whether #2 succeeded; now either we have an
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// "FOO.lock" file or we don't)
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//
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if (debug) System.err.println(" 3: delete " + tmp);
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if (!tmp.delete())
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throw new IOException("unable to delete " + tmp);
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// 4: if we obtained the lock (the link() call succeeded), we're done
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//
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if (link_succeeded) {
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if (debug) System.err.println(" 4: locked " + lock);
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break;
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}
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// 5: else if creation-time of "FOO.lock" is > 60 seconds old,
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// smash the lock (unlink "FOO.lock") and goto 1.
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//
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else if ((lock.lastModified() +
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(maximum_lock_age * File_lastModified_scale))
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<= current_time) {
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if (debug)
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System.err.println(" 5: smash lock " + lock + " (" +
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((current_time - lock.lastModified()) /
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File_lastModified_scale) +
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" seconds old)");
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lock.delete();
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}
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// 6: else, the lock is current; wait a second, then goto 1
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// and try again.
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//
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else {
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if (debug)
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System.err.println(" 6: wait for " + lock + " (" +
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((current_time - lock.lastModified()) /
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File_lastModified_scale) +
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" seconds old)");
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Thread.sleep(1000);
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}
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}
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}
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/** Assumes that this process had at some point obtained a lock on the
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given file, and removes that lock. Calling this without having
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obtained the lock will smash someone else's lock, and you don't
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want to do that.
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*/
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private void removeDiskLock(File file) {
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File lock = makeLockName(file);
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if (debug) System.err.println("UNLOCK " + lock);
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lock.delete(); // this had better do the Unix unlink() syscall.
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}
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/** Marks the object as locked or unlocked. Manages the heartbeat
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thread (creating or killing it, as appropriate.)
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@exception InterruptedException this thread was killed while waiting
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for the lock. This can only be thrown
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when locking, not when unlocking.
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*/
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private synchronized void setLocked(File file) throws InterruptedException {
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// This method is synchronized to protect access to the `locked_file'
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// instance variable. This method will only be called from the locking
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// thread, but the heartbeat() method may be called from the heartbeat
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// thread, and we must avoid contention between those two threads.
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if (debug) System.err.println("LOCK = " + file);
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this.locked_file = file;
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updateLockList(this);
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}
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/** If we currently own a lock file, update its modification time.
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This is a way of informing other processes that this process is
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still alive, and still desires to hold the lock.
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@exception IOException a disk I/O error occurred.
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*/
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private synchronized void heartbeat() throws IOException {
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// This method is synchronized to protect access to the `locked_file'
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// instance variable. This method will only be called from the heartbeat
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// thread, but the setLocked() method will be called from the locking
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// thread, and we must avoid contention between those two threads.
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if (locked_file != null) {
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File lock = makeLockName(locked_file);
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if (lock.exists()) {
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if (debug) System.err.println(" heartbeat touch " + lock);
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FileOutputStream stream = new FileOutputStream(lock);
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stream.close();
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}
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}
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}
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/** Call the heartbeat() method on every UnixDotLock in `active_locks'.
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*/
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synchronized static void globalHeartbeat() {
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// This class-method is synchronized because all manipulations of the
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// active_locks class-variable must be protected by a lock on the class.
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// (The updateLockList() class-method also uses active_locks.)
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if (debug) System.err.println("heartbeat awake");
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if (active_locks != null) {
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for (int i = 0; i < active_locks.size(); i++) {
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UnixDotLock d = (UnixDotLock) active_locks.elementAt(i);
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if (d != null) {
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try {
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d.heartbeat();
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} catch (IOException e) {
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// ignore errors.
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if (debug) System.err.println("ignoring " + e);
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}
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}
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}
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}
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}
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private synchronized static void updateLockList(UnixDotLock lock) {
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// This class-method is synchronized because all manipulations of the
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// class-variables active_locks and lock_heartbeat_thread must be
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// protected by a lock on the class. (It happens that this is the
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// only method to touch lock_heartbeat_thread, but active_locks is
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// also used by globalHeartbeat().)
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if (lock.locked_file != null) { // locking
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if (active_locks == null)
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active_locks = new Vector();
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active_locks.addElement(lock);
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if (lock_heartbeat_thread == null ||
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!lock_heartbeat_thread.isAlive()) {
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Thread t = new UnixDotLockHeartbeatThread();
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lock_heartbeat_thread = t;
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t.setDaemon(true);
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t.setName(t.getClass().getName());
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if (debug) System.err.println("LAUNCHING " + t);
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t.start();
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}
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} else { // unlocking
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active_locks.removeElement(lock);
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if (active_locks.isEmpty() &&
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lock_heartbeat_thread != null) {
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if (debug) System.err.println("KILLING " + lock_heartbeat_thread);
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Thread h = lock_heartbeat_thread;
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lock_heartbeat_thread = null;
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h.stop();
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try {
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h.join();
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} catch (InterruptedException e) {
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// ignore it -- not important.
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}
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}
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}
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}
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/** If this object becomes reclaimed without unlock() having been called,
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then call it (thus unlocking the underlying disk file.)
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@exception Throwable
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*/
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protected synchronized void finalize() throws Throwable {
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if (locked_file != null) {
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if (debug)
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System.err.println("unlock " + locked_file + " due to finalization!");
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unlock();
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}
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super.finalize();
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}
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public static final void main(String arg[])
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throws SecurityException, IOException, InterruptedException {
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System.runFinalizersOnExit(true);
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File file1 = new File("/tmp/a");
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File file2 = new File("/tmp/b");
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UnixDotLock lock1 = new UnixDotLock(file1);
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Thread.sleep(3 * 1000);
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UnixDotLock lock2 = new UnixDotLock(file2);
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Thread.sleep(100 * 1000);
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lock1.unlock();
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Thread.sleep(40 * 1000);
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lock2.unlock();
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Thread.sleep(3 * 1000);
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}
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}
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/** This is the thread that runs as a daemon and periodically updates
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the write-dates on long-lived file locks which any user of UnixDotLock
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process holds. This thread is launched as soon as there are any
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outstanding locks, and is killed when there are none; but if there
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is more than one lock, there is still only one heartbeat thread which
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manages them all.
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@see UnixDotLock
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*/
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class UnixDotLockHeartbeatThread extends Thread {
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public void run() {
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while (true) {
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try {
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Thread.sleep(UnixDotLock.heart_rate * 1000);
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} catch (InterruptedException e) {
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return; // is this the right way to do this?
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}
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UnixDotLock.globalHeartbeat();
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}
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}
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}
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