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In a previous article I explained how you can use rsnapshot to build a backup server that stores daily/weekly/monthly data snapshots in a disk-efficient way.
The assumption there was, that you would use a Slackware Linux machine as the backup server.
This article however, will show you how you can use a cheap off-the-shelf NAS (Network Attached Storage) plus a big external USB hard disk to build a rsnapshot backup server that is silent and power-efficient.
The hardware & software I used to build my backup server are:
- LinkSys NSLU2 NAS (commonly called a slug)
- External USB 2.0 hard disk enclosure with 1 TB disk storage
- USB Flash drive with 1 GB storage
- The uNSLUng package repository
The NSLU2 is a small and silent, ARM CPU powered network storage server that does not have disk storage built in - you need to attach one or two external USB hard drives to it's USB connectors on the back. It is one of the many relatively cheap solutions for out-of-the-box network storage demands. It has a spartan administrative user interface, and is not customizable. However, it's firmware is built on Linux so the source code modifications have been made available to the public. Initially, there was only the “unslung” firmware alternative which enables you to add additional software to the device. Nowadays, several alternative opensource firmwares are available, all sprouting from the original unslung concept. You can find all of these (like OpenWrt and SlugOS) referenced on the nslu2-linux homepage. The range of supported devices has grown, too.
Below you find the steps I took to add extra functionality to the NSLU2.
You can find a good overview of available alternative firmwares for the NSLU2 on the nslu2-linux homePage. It depends on what you want to do with the device, and in my case I did not want to change the NAS function of the NSLU2, only add functionality to it (such as a SSH server and rsnapshot software). So, I opted for the uNSLUng firmware, which also was the first on the market.
The original NSLU2 firmware from LinkSys allows you to add at most two external USB storage devices to the connectors at the back. The alternative firmwares like unslung allow you to add a USB hub to “Port 1” and therefore, connect more than two storage devices.
However, the unslung firmware uses one of the external USB devices as the root device where it will install additional software. You will have to make a judgement call on whether you want the unslung packages and configuration files to be stored on the same disk as where your backup data is going to accumulate.
In particular, if you want to be able to remove your external hard drive from the NSLU2 and use that on another computer, the disk must not contain unslung configuration data or else your NSLU2 with unslung will not reboot properly!
There are some articles on the nslu2-linux Wiki that you should read before making the decision about what devices to connect to what port:
What I decided, is to plug a 1 GB USB flash drive (the minimum required storage for an unslung root device is 512 MB) into Port 2 of the NSLU2 and use that as the root device for “unslinging” the firmware. In order to function as a root device, it must be natively formatted by the unslung firmware. The concept of “native format” means that the device gets equipped with two partitions, both with a ext3 filesystem. One partition will be mounted as
/share/flash/conf and used to store configuration data. The second partition will be mounted as
/share/flash/data and will be available for the NAS data storage. You will have to carefully read the above URLs if you decide to use two natively formatted disks. Your initial decisions will affect all further actions with respect to location and use of these storage devices.
A storage device with EXT3 filesystem which has not been natively formatted by unslung will not be visible in the NSLU2 administrative interface.
To Port 1, I have attached an external USB 1 TB hard disk. This device has been manually formatted as and ext3 filesystem using the
mkfs.ext3 command (i.e. it is not natively formatted by unslung). This makes it easy to unplug this disk from the NSLU2 and use it elsewhere without disrupting the NSLU2's fnctionality (the USB flash device which holds the root device will for ever remain attached to the NSLU2).
We will be using this big disk as the storage device for our rsnapshot backups.
The firmware that ships with the NSLU2 does not have a telnet server. The only management interface is the web interface.
The NSLU2 will start out of the box on IP address ”
192.168.1.77” so you should be able to quickly access it at http://192.168.1.77. If you do not use the subnet
192.168.1.0/255.255.255.0 in your network, then you will have to configure a computer with an IP address in that range and use a cross-cable or a ethernet switch in order to make your computer and the NSLU2 talk to each other. Alternatively you can configure an IP alias for your computer's network card: assign an address in the NSLU2's network range to that alias interface and then connect the NSLU2 to your LAN.
The default username/password combination of the web interface of the NSLU2 is ”
Once you flashed the NSLU2, you will have to enable the telnet server of the uNSLUng firmware before you can do anything else (do not attach any external storage yet!). The default username/password combination for the uNSLUng firmware is ”
To enable the telnet server, you will have to use the web-based management interface - http://192.168.1.77/Management/telnet.cgi.
In order to flash a NSLU2 with custom firmware you will have to install the upslug2 program on the linux workstation you are going to use for the configuration of the device. This small program will do the hard work. I have created a Slackware package which you can download from my repository.
The upslug web page explains the flashing process. Basically, you will have to put your NSLU2 in ”upgrade mode” (text taken from that page):
- Shutdown the slug
- Using a paper clip (or pushpin), push and hold in the reset button. (The reset button is located on the back of the NSLU2 above the power connection.)
- While holding in the reset button, press and release the power button.
- Watch the orange Ready/Status LED and after approx 10 seconds the LED will turn solid red. Quickly release the reset button.
- You should be in upgrade mode which is indicated by the Ready/Status LED alternating between red and green.
If the Ready/Status LED is flashing yellow rather than red/green, you didn't release the reset button quickly enough after the Ready/Status LED turned red, and the Slug is now in ”assign mode”, whatever that means. Don't panic; just remove the power and start again.
This is how the process looks from the command line. Make sure you have the upslug2 binary in your
$PATH and an uNSLUng firmware file ready (I downloaded the
Unslung-6.10-beta.bin image file, which is contained in Unslung-6.10-beta-firmware.zip):
$ upslug2 --device eth2 --verify --image Unslung-6.10-beta.bin NSLU2 00:14:bf:63:4b:23 Product ID: 1 Protocol ID: 0 Firmware Version: R23V29 [0x2329] Upgrading LKG634B67 00:14:bf:63:4b:23
In the above command I used ”
–device eth2” to show how you can flash the slug in case you have multiple network interfaces and the slug is directly connected to your
After flashing with new firmware, enable the telnet server, login as root and while logged on perform the ”unsling”:
- Plugin a flash disk (512MB or larger) into the ”
Disk 2” port
- In the Web GUI, http://192.168.1.77/Management/disk_fs.htm check that the
flash disk is detected, and let the NSLU2 format it. After formatting it must display as ”
- In the telnet session (stay logged in!) enter
. You will have to enter a new password for root then.
- Afer the unslining process completes, a comment is left in your telnet terminal that you have to reboot the machine:
Leave the device disk2, /dev/sda1, plugged in and reboot (using either the Web GUI, or the command "DO_Reboot") in order to boot this system up into unslung mode.
If your LAN's network address is not ”
192.168.1.0”, then you will have had to configure a network interface with an IP address in that network range in order to communicate with the device (see section 'administrative access').
Now is the time to reconfigure your NSLU2 for the actual IP address it will be using in your network. Open the URL http://192.168.0.250/Management/setup.cgi?next_file=lan.htm and configure a static IP address for the device. You have the option to use DHCP, but I have had mixed success with DHCP so I prefer a static IP address.
if you were using a cross-cable between your own computer and the UNSL2, you will have lost your network connection to the device now. You will have to shutdown the device (use the power button on the front bottom) and then connect the device to a LAN network socket after reconfiguring the IP address and power it up again.
In order to install additional packages as outlined in the next section, you will have to re-enable telnet first through the GUI (http://192.168.1.77/Management/telnet.cgi.
- Configure the remote
rbackupaccount for password-less login (see [[:linux:rsnapshot|my rsnapshot wiki article). Note that for completely automatic login, the ssh key file must be called:
Verify that you can login from the slug as user
rbackupon the remote server:
# ssh email@example.com
If the ”
validate-rsync.sh” script cannot be executed (issues with permissions, ownership) you will receive this error:
bash: line 1: /home/rbackup/validate-rsync.sh: Permission denied Connection to mycomp.mylan.lan closed.
otherwise you will see this error:
Rejected 3 Connection to mycomp.mylan.lan closed.
Which means that all is setup properly for rsnapshot!
- Copy the
rsnapshot.confdefaults file to your own (the unslung package automatically does that for us):
# cp /opt/etc/rsnapshot.conf.default /opt/etc/rsnapshot.conf
- Edit the configfile and check for correct syntax:
# /opt/bin/rsnapshot configtest
- After plugging in the big drive into port ”Disk 1”. Format it as
ext3and tune it's
fsckparameters (check what the drive's device is!!!!):
# umount /share/hdd/data/HDD_1_1_1 # mkfs.ext3 -m 0 /dev/sdb1 # tune2fs -c 0 -i 0 /dev/sdb1
- Make a root directory for the snapshot backups at
. We are mounting the big storage drive at
, and you will have to create the directory structure
on that disk's partition so that the rest of the instructions work.
- Add the following line to
/etc/fstabso that the disk is available after reboot:
/dev/sdb1 /mnt/thevault ext3 defaults,usrquota 1 1
NOTE: this disk is not formatted by the slug, so it will not show up in the slug's GUI!
- For ordinary users to access their backups read-only via NFS, we do the following:
# mkdir /mnt/thevault/.snapshots
Set the proper permissions on all directories:
# chmod 0700 /mnt/thevault/.private/ # chmod 0755 /mnt/thevault/.private/.snapshots/ # chmod 0755 /mnt/thevault/.snapshots/
/etc/exports, add the directory
.private/.snapshots/as a read only NFS export:
localhost:/mnt/thevault/.private/.snapshots/ /mnt/thevault/.snapshots/ nfs ro 0 0
Now restart the NFS daemon:
Now mount the read-only snapshot root (happens automatically at boot):
# mount /mnt/thevault/.snapshots/
/opt/etc/mail/aliasesadd an email alias for user root so that you will receive emails generated from root's cronjobs.
- Add these lines to root's crontab (crontab -e) so that daily and weekly snapshots are being generated (you can add more as desired, and at other times of course):
30 23 * * * /opt/bin/rsnapshot daily 0 01 * * sun /opt/bin/rsnapshot weekly