![]() ![]() You could easily create a task for such backups as: ![]() For this you will want to create multiple tasks. You might even want different directories to back up in different way, to different locations, or to be run at different times or intervals. Let’s say you have multiple directories you want to back up. After you set the schedule up you then need to click the crontIT! button which will then automatically create a cron job for the backup job. After you set the time for the backup click OK and the schedule is set…but not complete. From here you can choose a Profile to schedule and then set the interval in which to back up. When the Schedule window opens click the Add button which will open up the scheduler. To do this click Profile > Schedule and then click the Add button in the new window (see Figure 3). Once you have all of your tasks created you will want to set up the scheduled aspect of the backup. Before you click the OK button it is always wise to click the Validate button to ensure your backup settings are good to go. In the Advanced section you can setup excludes, remote options, command options, and extra executables. If you want to do any file/folder exclusion make sure you click on the Advanced button. You can do a full backup (copy all files/sub-folders from the source to the destination) or a synchronized backup (make sure source and destination are the same). You will also want to pay close attention to the Type of backup you are creating. This drive will be your Destination for your tasks. For a local backup you will want to have either a second drive or an external drive attached. Obviously you will not want your Source and Destination to be located on the same drive. If you need multiple sources for this profile you simply create a task for each source. In this window you will need fill out a few pieces of information.Īs you can see you can only add one directory per task. The first step is to click the Add button which will open up the Task Properties window (see Figure 2). But for the sake of simplicity, let’s stick with a single profile. You could, of course, create multiple profiles which would allow you to have multiple backup sets that could be run at different times (making Lucky Backup fairly flexible). Let’s assume you are only going to need one profile for backup. Let’s take a look at the process for creating a scheduled local backup. When you open Lucky Backup the main window (see Figure 1) has pretty much everything you need to create and run a backup. Once installed you will find the tool in Applications > Accessories on GNOME. All you need to do is open up your Add/Remove Software utility, search for “luckybackup” (no quotes), select Lucky Backup for installation, and click Apply to install. It has a user-friendly interface that will make any user happy, and has the following features: Of all the backup utilities I have used I have to say Lucky Backup is the easiest. Once you’ve seen Lucky Backup in action you will never think Linux backups are difficult again. But for those who haven’t the slightest idea how to cobble together their own Bash scripts, what is there to use to back up all of that precious data? Those of you who don’t want to “roll your own” or those just looking for something easy to use, you’re in luck… thanks to Lucky Backup! Lucky Backup is a very user-friendly backup tool that will have you backing up remotely or locally in no time. When you need to back up where do you turn? Of course you could slap together a good ol’ fashion Bash script using rsync, ssh, tar, and a few other Linux tools. Add to that the irresistible urge to upgrade hardware and you have the serious makings for the need to back up. Even if your OS is 100% rock solid, with nary a nanosecond of downtime, that hardware running that OS can not possibly give 100% forever. Fire up your terminal and enter the following command at the prompt.We would all like to think that, since we are using Linux, we will never really need a backup of our data. (You can use Zeit to schedule cron jobs, too.)Īlso read: 4 Ways to Clone an Entire Hard Drive on Linux Install and Configure google-drive-ocamlfuseįirst, we need to install google-drive-ocamlfuse on our Linux machine. To keep things simple, we’re using the Linux CRON utility to take care of the scheduling process. Then we can use an automatic scheduler for periodically transferring files to the drive. This is where google-drive-ocamlfuse comes into play. The first step is to mount the remote Google Drive to the local filesystem. Some of its main features include full read/write access, multiple account support, Unix permissions, and Team Drive support. It is written using OCaml and is freely available via GitHub. Google-drive-ocamlfuse is a FUSE filesystem that lets users mount their Google Drive storage on the local machine.
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