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rsync is an open source utility that provides fast incremental file transfer.


Install the rsync package.

Note: rsync must be installed on both the source and the destination machine.

The grsync package provides a graphical front-end.

As a cp alternative

rsync can be used as an advanced alternative for the cp command, especially for copying larger files:

$ rsync -P source destination

The -P option is the same as --partial --progress, which keeps partially transferred files and shows a progress bar during transfer.

You may want to use the -r --recursive option to recurse into directories.

Files can be copied locally as with cp, but the motivating purpose of rsync is to copy files remotely, i.e. between two different hosts. Remote locations can be specified with a host-colon syntax:

$ rsync source host:destination


$ rsync host:source destination

Network file transfers use the SSH protocol by default.

Tango-inaccurate.pngThe factual accuracy of this article or section is disputed.Tango-inaccurate.png

Reason: By default, rsync does not compare contents of files. Rsync uses a "quick check" that (by default) checks if each file’s size and time of last modification match between the sender and receiver. (Discuss in Talk:Rsync#)

Whether transferring files locally or remotely, rsync first creates an index of block checksums of each source file. This index is used to find any identical blocks of data which might exist in the destination. Such blocks are used in-place, rather than being copied from the source. This can greatly accelerate the synchronization of large files with small changes. For more information, see official documentation, how rsync works.

Trailing slash caveat

Arch by default uses GNU cp (part of GNU coreutils). However, rsync follows the convention of BSD cp, which gives special treatment to source directories with a trailing slash "/". Although

$ rsync -r source destination

creates a directory "destination/source" with the contents of "source", the command

$ rsync -r source/ destination

copies all of the files in "source/" directly into "destination", with no intervening subdirectory - just as if you had invoked it as

$ rsync -r source/. destination

This behavior is different from that of GNU cp, which treats "source" and "source/" identically (but not "source/."). Also, some shells automatically append the trailing slash when tab-completing directory names. Because of these factors, there can be a tendency among new or occasional rsync users to forget about rsync's different behavior, and inadvertently create a mess or even overwrite important files by leaving the trailing slash on the command line.

Thus it can be prudent to use a wrapper script to automatically remove trailing slashes before invoking rsync:

for i in "$@"; do
    case $i in /) i=/;; */) i=${i%/};; esac
exec rsync "${(@)new_args}"

This script can be put somewhere in the path, and aliased to rsync in the shell init file.

As a backup utility

The rsync protocol can easily be used for backups, only transferring files that have changed since the last backup. This section describes a very simple scheduled backup script using rsync, typically used for copying to removable media. For a more thorough example and additional options required to preserve some system files, see Full system backup with rsync.

Automated backup

For the sake of this example, the script is created in the /etc/cron.daily directory, and will be run on a daily basis if a cron daemon is installed and properly configured. Configuring and using cron is outside the scope of this article.

First, create a script containing the appropriate command options:

rsync -a --delete /folder/to/backup /location/of/backup &> /dev/null
indicates that files should be archived, meaning that most of their characteristics are preserved (but not ACLs, hard links or extended attributes such as capabilities)
means files deleted on the source are to be deleted on the backup as well

Here, /folder/to/backup should be changed to what needs to be backed-up (/home, for example) and /location/to/backup is where the backup should be saved (/media/disk, for instance).

Finally, the script must be executable:

# chmod +x /etc/cron.daily/backup

Automated backup with SSH

If backing-up to a remote host using SSH, use this script instead:

rsync -a --delete -e ssh /folder/to/backup remoteuser@remotehost:/location/of/backup &> /dev/null
-e ssh 
tells rsync to use SSH
is the user on the host remotehost
groups all these options -rlptgoD (recursive, links, perms, times, group, owner, devices)

Automated backup with NetworkManager

This script starts a backup when network connection is established.

First, create a script containing the appropriate command options:


if [ x"$2" = "xup" ] ; then
        rsync --force --ignore-errors -a --delete --bwlimit=2000 --files-from=files.rsync /folder/to/backup /location/to/backup
group all this options -rlptgoD recursive, links, perms, times, group, owner, devices
read the relative path of /folder/to/backup from this file
limit I/O bandwidth; KBytes per second

Also, the script must have write permission for owner (root, of course) only (see NetworkManager#Network services with NetworkManager dispatcher for details).

Automated backup with systemd and inotify

  • Due to the limitations of inotify and systemd (see this question and answer), recursive filesystem monitoring is not possible. Although you can watch a directory and its contents, it will not recurse into subdirectories and watch the contents of them; you must explicitly specify every directory to watch, even if that directory is a child of an already watched directory.
  • This setup is based on a systemd/User instance.

Instead of running time interval backups with time based schedules, such as those implemented in cron, it is possible to run a backup every time one of the files you are backing up changes. systemd.path units use inotify to monitor the filesystem, and can be used in conjunction with systemd.service files to start any process (in this case your rsync backup) based on a filesystem event.

First, create the systemd.path file that will monitor the files you are backing up:

Description=Checks if paths that are currently being backed up have changed



Then create a systemd.service file that will be activated when it detects a change. By default a service file of the same name as the path unit (in this case backup.path) will be activated, except with the .service extension instead of .path (in this case backup.service).

Note: If you need to run multiple rsync commands, use Type=oneshot. This allows you to specify multiple ExecStart= parameters, one for each rsync command, that will be executed. Alternatively, you can simply write a script to perform all of your backups, just like cron scripts.
Description=Backs up files

ExecStart=/usr/bin/rsync %h/./documents %h/./music -CERrltm --delete ubuntu:

Now all you have to do is start/enable backup.path like a normal systemd service and it will start monitoring file changes and automatically starting backup.service.

Differential backup on a week

This is a useful option of rsync, creating a full backup and a differential backup for each day of a week.

First, create a script containing the appropriate command options:


DAY=$(date +%A)

if [ -e /location/to/backup/incr/$DAY ] ; then
  rm -fr /location/to/backup/incr/$DAY

rsync -a --delete --inplace --backup --backup-dir=/location/to/backup/incr/$DAY /folder/to/backup/ /location/to/backup/full/ &> /dev/null
implies --partial update destination files in-place

Snapshot backup

The same idea can be used to maintain a tree of snapshots of your files. In other words, a directory with date-ordered copies of the files. The copies are made using hardlinks, which means that only files that did change will occupy space. Generally speaking, this is the idea behind Apple's TimeMachine.

This basic script is easy to implement and creates quick incremental snapshots using the --link-dest option to hardlink unchanged files:


# Basic snapshot-style rsync backup script 

# Config
date=`date "+%Y-%b-%d:_%T"`

# Run rsync to create snapshot
rsync $OPT $LINK $SRC ${SNAP}$date

# Remove symlink to previous snapshot
rm -f $LAST

# Create new symlink to latest snapshot for the next backup to hardlink
ln -s ${SNAP}$date $LAST 

There must be a symlink to a full backup already in existence as a target for --link-dest. If the most recent snapshot is deleted, the symlink will need to be recreated to point to the most recent snapshot. If --link-dest does not find a working symlink, rsync will proceed to copy all source files instead of only the changes.

A more sophisticated version checks to see if a certain number of changes have been made before making the backup and utilizes cp -al to hardlink unchanged files:


## my own rsync-based snapshot-style backup procedure
## (cc) marcio rps AT

# config vars

SRC="/home/username/files/" #dont forget trailing slash!
OPTS="-rltgoi --delay-updates --delete --chmod=a-w"

# run this process with real low priority

ionice -c 3 -p $$
renice +12  -p $$

# sync

rsync $OPTS $SRC $SNAP/latest >> $SNAP/rsync.log

# check if enough has changed and if so
# make a hardlinked copy named as the date

COUNT=$( wc -l $SNAP/rsync.log|cut -d" " -f1 )
if [ $COUNT -gt $MINCHANGES ] ; then
        DATETAG=$(date +%Y-%m-%d)
        if [ ! -e $SNAP/$DATETAG ] ; then
                cp -al $SNAP/latest $SNAP/$DATETAG
                chmod u+w $SNAP/$DATETAG
                mv $SNAP/rsync.log $SNAP/$DATETAG
               chmod u-w $SNAP/$DATETAG

To make things really, really simple this script can be run from a systemd/Timers unit.

File system cloning

rsync provides a way to do a copy of all data in a file system while preserving as much information as possible, including the file system metadata. It is a procedure of data cloning on a file system level where source and destination file systems don't need to be of the same type. It can be used for backing up, file system migration or data recovery.

rsync's archive mode comes close to being fit for the job, but it doesn't back up the special file system metadata such as access control lists, extended attributes or sparse file properties. For successful cloning at the file system level, some additional options need to be provided:


And their meaning is (from the manpage):

-H, --hard-links      preserve hard links
-A, --acls            preserve ACLs (implies -p)
-X, --xattrs          preserve extended attributes
-S, --sparse          handle sparse files efficiently

Produced copy can be simply reread and checked (for example after a data recovery attempt) at the file system level with diff's recursive option:


It is possible to do a successful file system migration by using rsync as described in this article and updating the fstab and bootloader as described in the Migrate installation to new hardware (and Full system backup with rsync) articles. This essentially provides a way to convert any root file system to another one.

rsync daemon

rsync can be run as daemon on a server listening on port 873.

Edit the template /etc/rsyncd.conf, configure a share and start the rsyncd.service.

Usage from client, e.g. list server content:

$ rsync rsync://server/share

transfer file from client to server:

$ rsync local-file rsync://server/share/

Consider iptables to open port 873 and user authentication.

See also