Rsnapshot
rnapshot is an excellent backup application and has been around for a long time and is extremely stable.
Why are backups important? Well, hardware failures, accidental file deletion(s), files become corrupted, etc.. Backups can help recover data where applications are being updated/upgraded. Enough reasons?
Where should backups be stored? Due to the inevitable failure of hardware it is desirable to store backups on a separate system from where the production data is stored. Or possibly to an external medium such as an external USB disk drive. This article discusses backing up to an external USB drive.
Please Note:
rnapshot depends on attributes that are unique to Linux/Unix (i.e. ext3, ext4) filesystems only. If backups to "CIFS" (Samba a.k.a. smb, fat, fat32, vfat, ntfs) filesystems are required a different backup application must be used (i.e. rdiff-backup).
Here is a good book that discusses backups, recoveries, rsnapshot and rdiff-backup: "Backup & Recovery: Inexpensive Backup Solutions for Open Systems, by W. Curtis Preston". |
Contents
- 1 Preparing an External USB Drive
- 2 Mounting an External USB Drive
- 3 Install rsnapshot
- 4 Quick rsnapshot Recipe
- 5 Another example of rsnapshot configuration on amahi 5.1
- 6 Modify rsnapshot configuration
- 7 Email reporting
- 8 Automate backup with cronjob
- 9 Make your backups available on clients (READ ONLY)
Preparing an External USB Drive
Off-the-shelf external USB drives normally are setup to work with computers that utilize CIFS type filesystems. rsnapshot uses a "hard links" feature that is unique to Linux/Unix filesystems (ext3). "Hard Links" are not supported on filesystems such as: "smbfs", "Samba (SMB)", "FAT", "FAT32", "NTFS", "CIFS", "vfat". Please note that "Amahi Greyhole" mounts Amahi shares that look like "local disk drives" but these are Samba (SMB) mounted shares. The external disk drive will have to be prepared for a Linux/Unix filesystem, in particular ext3. Why? ext3 has been around for sometime, is stable, and "Windows" computers have Open Source drivers available that can be installed to gain access to an ext3 drive.
Prepare an external drive for ext3 as follows:
- The external USB drive used in this example is a 1 Terabyte (1 TB) Seagate drive.
- Plug the drive in to a USB connector and power it up.
- Using a "terminal session, login in using the "root" user ID.
- The "device name" of the drive needs to be determined.
Enter the following command:
bash code dmesg
The following information is displayed:
Text [11122.304178] usb 2-4: new high-speed USB device number 5 using ehci_hcd [11122.422152] usb 2-4: New USB device found, idVendor=0bc2, idProduct=3320 [11122.422165] usb 2-4: New USB device strings: Mfr=2, Product=3, SerialNumber=1 [11122.422173] usb 2-4: Product: Expansion Desk [11122.422180] usb 2-4: Manufacturer: Seagate . . . . . [11123.516813] sdb: sdb1
- The "device name" is "sdb1".
- The USB drive needs to be "unmounted".
bash code umount /dev/sdb1
- Format drive for ext3 filesystem and set drive label name as "usbdisk".
bash code mkfs -t ext3 -v -L usbdisk /dev/sdb1
- Please Note: THIS WILL ERASE ALL DATA ON /dev/sdb1, MAKE SURE THIS IS THE CORRECT USB DRIVE AND NOT ANOTHER DRIVE.
The following information is displayed:
Text mke2fs 1.42.5 (29-Jul-2012) fs_types for mke2fs.conf resolution: 'ext3' Filesystem label=usbdisk OS type: Linux . . . . . Writing superblocks and filesystem accounting information: done
- Whenever a drive is formatted in Linux, about 5% is reserved of the total space on the drive for the operating system to continue using the hard drive to operate, even if it gets full. This is totally unnecessary for a USB external hard drive if it stores only data and not to run an operating system.
Enter the following to remove the reserved space:
bash code tune2fs -m 0 /dev/sdb1
The following information is displayed:
Text tune2fs 1.42.5 (29-Jul-2012) Setting reserved blocks percentage to 0% (0 blocks)
- The external drive is now ready for use.
Mounting an External USB Drive
There are two methods of mounting an external USB drive. The first, mounts the drive automatically each time the server "boots" or "reboots". The second, is mounted manually by the "root" user via the "command-line".
Before proceeding a couple of information items need to be gathered:
- In the previous section the device name found found via the "dmesg" command. The device name found was "sdb1".
- We set the set the external drive's "label". It was set to "usbdisk".
To find the label at anytime via the "root" user ID enter:
bash code e2label /dev/sdb1
The following information is displayed:
Text usbdisk
Auto-Mounting
To Auto-Mount your usbdisk (so the backup will work after a reboot) do the following:
- cp /etc/fstab /etc/fstab_bak
- nano /etc/fstab
Add to this file
- LABEL=usbdisk /media/usbdisk ext3 defaults 0 0
Save the file.
Manual Mounting
< TBA >
Install rsnapshot
- yum install rsnapshot
- mkdir -p /media/usbdisk/.private/.snapshots
- chmod 0700 /media/usbdisk/.private/
- chmod 0755 /media/usbdisk/.private/.snapshots/
Quick rsnapshot Recipe
Here is a quick recipe to configure rsnapshot.
These are the critical settings in /etc/rsnapshot.conf:
snapshot_root /mnt/1tb-external/snapshots/ interval daily 14 interval weekly 4 interval monthly 4This will create a series of directories called daily.0 through daily.13 weekly.0 to weekly.3 ... etc.
Another example of rsnapshot configuration on amahi 5.1
In this example automated backups are made to an external usb drive. Plug in the USB drive, it will probably mount automatically under /media/yourdisklabel
Modify rsnapshot configuration
- nano /etc/rsnapshot.conf
make the following modifications to the file rsnapshot.conf for blank spaces use TABS!
- snapshot_root /media/usbdisk/.private/.snapshots/
- no_create_root 1
- interval hourly 6
- interval daily 7
- interval weekly 4
- interval monthly 12
- verbose 3
- backup /var/hda/files/docs/ localhost/
- backup /var/hda/files/pictures/ localhost/
- backup /var/hda/files/movies/ localhost/
- backup /var/hda/files/music/ localhost/
- backup /var/hda/files/othersharesyoumade localhost/
Save the file
- rsnapshot configtest
this should return: syntax OK
Email reporting
for email reporting on your backups:
- cp /usr/share/doc/rsnapshot*/utils/rsnapreport.pl /root
- chmod 744 rsnapreport.pl
Automate backup with cronjob
- crontab -l > cronjobs
- nano cronjobs
add to this file for running rsnapshot and a weekly email report on rsnapshot:
- 0 */4 * * * /usr/bin/rsnapshot hourly 2>&1 | /root/rsnapreport.pl > /root/rsnapreport
- 30 23 * * * /usr/bin/rsnapshot daily
- 00 23 * * 1 /usr/bin/rsnapshot weekly
- 30 22 1 * * /usr/bin/rsnapshot monthly
- 00 22 * * 6 /usr/bin/rsnapshot du >> /root/rsnapreport | nail –r "somereturnadress@provider.com" -s"HDA backup report" -S smtp=smtp.yourprovider.com youremail@provider.com < /root/rsnapreport
Save the file
- crontab cronjobs
Rsnapshot should now be operational.
Make your backups available on clients (READ ONLY)
If you want to make the backups accesible from your clients:
Create a //hda/backup share in the HDA webinterface
- chkconfig nfs --level 2345 on
add a read only NFS export:
- nano /etc/exports
add
- /media/usbdisk/.private/.snapshots/ 127.0.0.1(ro,no_root_squash)
Save file
Unfortunately mounting an NFS share in fstab did not work on my machine after a reboot, so I chose an alternative configuration that mounts the share later in the booting process:
- nano /etc/rc.local
Add
- mount -r -t nfs localhost:/media/usbdisk/.private/.snapshots/ /var/hda/files/backup/
save file