mirror of
https://github.com/octoleo/lsyncd.git
synced 2024-12-04 19:03:17 +00:00
Lsyncd (Live Syncing Daemon) synchronizes local directories with remote targets
82302ad03e
lsyncd1.0 doesn't handle this case very well, and lsyncd does not copy the files, and does not detect an error condition, or simply dies. |
||
---|---|---|
tests | ||
AUTHORS | ||
ChangeLog | ||
config.guess | ||
config.h.in | ||
config.sub | ||
configure.in | ||
COPYING | ||
inotify-nosys.h | ||
INSTALL | ||
install-sh | ||
lsyncd.c | ||
ltmain.sh | ||
Makefile.am | ||
manpage.xml | ||
mkinstalldirs | ||
NEWS | ||
README | ||
TODO |
lsyncd - Live Syncing (Mirror) Daemon DESCRIPTION: Lsyncd uses rsync to synchronize local directories with a remote machine running rsyncd. Lsyncd watches multiple directories trees through inotify. The first step after adding the watches is to, rsync all directories with the remote host, and then sync single file buy collecting the inotify events. So lsyncd is a light-weight live mirror solution that should be easy to install and use while blending well with your system. See lsyncd --help for detailed command line options. WHEN TO USE: Lsyncd is designed to synchronize a local directory tree with low profile of expected changes to a remote mirror. On the receivers side rsyncd can be configured to also change the uid/gid of the file. Lsyncd is especially useful to sync data from a secure area to a not-so-secure area (e.g. as a one way connection to allow employees to publish their files to a public accessible web server). WHEN NOT TO USE: * File with active file handles (e.g. database files) * Directories where many changes occur (like mail or news servers) In these cases e.g. DRBD (see http://www.linux-ha.org/DRBD) might be better for you. COMPARISONS: Lsyncd vs. DRBD: DRBD operates on block device level. This makes it useful for synchronizing systems that are under heavy load. Lsyncd on the other hand * does not require you to change block devices and/or mount points. * allows you to change uid/gid of the transferred files. * separates the receiver through the one-way nature of rsync. However when using lsyncd a file change can possibly result in a full file transfer (at least for binary files) and is therefore unsuitable for databases. Also a directory rename will result in transferring the whole directory. Lsyncd vs. incron: Incron does not (yet) support recursive directory watching making it unsuitable for described needs (http://inotify.aiken.cz/?section=incron&page=about&lang=en). In fact a different approach would have been to extent incron. However, we decided to stick to the NIH principle (Not Invented Here) :-), because extending the C++ solution seemed to tedious. Lsyncd vs. FUSE: This is another interesting idea is to write a daemon that provides a shadow file system through fuse. When accessing a file the data is synced to local file as well as the remote file. Whit this approach inotify could be replaced. BindFS (see http://www.cs.helsinki.fi/u/partel/bindfs/) does this for local mirroring. We discarded this idea because it would affect performance of normal operations in a negative way. Lsyncd vs. cron: If you find a solution using cron to call rsync over the whole directory tree periodically after every 'X' hours/minutes/seconds more satisfying than lsyncd, please go for it *sulking*. We don't like it! LSYNCD USAGE EXAMPLES: /usr/sbin/lsyncd /var/www/ remotehost::wwwshare/ This watches and rsycn's the local directory /var/www/ with all subdirectories and transfers them to 'remotehost' using the rsync-share 'wwwshare'. /usr/sbin/lsyncd --nodaemon --exclude-from /etc/lsycnd/exclude \ /var/www/ remotehost::wwwshare/ This will also rsync/watch '/var/www', but it excludes files and directories from '/etc/lsycnd/exclude'. Additionally this example lsyncd will not fork, and log to stdout/stderr instead. /usr/sbin/lsyncd %userwww remotehost::wwwshare/foobar/ This special target will scan through all directories in /home and syncs all www subdirectories of the users to wwwshare in the subdirectory foobar. The user peter having his local data in /home/peter/www/ will have it rsynced to ::wwwshare/foobar/peter/. LIMITATIONS: Be aware that the kernel limits the number of watches. You can see the limit in /proc/sys/fs/inotify/max_user_watches which is usually set to 8192. This means lsyncd cannot watch more than 8192 directories unless you change the kernel setting. Lsyncd itself has no limits. Because Axel is lazy the maximum possible size a filename is 8192. If you need more, change MAX_PATH in lsyncd.c. Or send me patches that introduce dynamic memory usage. SOURCE DOCUMENTATION: The only file of interest is 'lsyncd.c' which includes comments. Everything else in the tarball is packaging bushwa. DISCLAIMER: Besides the usual disclaimer in the license, we want to specifically EMPHASIZE that NEITHER the authors NOR any organization the authors are associated with can and will hold responsible for data-loss caused by possible malfunctions of lsyncd. Especially if you run it with root privileges ;-) (we ourselves run lsyncd as www-data). FEEDBACK: Please send praises and feedback to: axel.kittenberger@univie.ac.at