Paranoid Penguin - Secured Remote Desktop/Application Sessions
There are many different ways to control a Linux system over a network, and many reasons you might want to do so. When covering remote control in past columns, I've tended to focus on server-oriented usage scenarios and tools, which is to say, on administering servers via text-based applications, such as OpenSSH. But, what about GUI-based applications and remote desktops?
Remote desktop sessions can be very useful for technical support, surveillance and remote control of desktop applications. But, it isn't always necessary to access an entire desktop; you may need to run only one or two specific graphical applications.
In this month's column, I describe how to use VNC (Virtual Network Computing) for remote desktop sessions and OpenSSH with X forwarding for remote access to specific applications. Our focus here, of course, is on using these tools securely, and I include a healthy dose of opinion as to the relative merits of each.
So, which approach should you use, remote desktops or remote applications? If you've come to Linux from the Microsoft world, you may be tempted to assume that because Terminal Services in Windows is so useful, you have to have some sort of remote desktop access in Linux too. But, that may not be the case.
Linux and most other UNIX-based operating systems use the X Window System as the basis for their various graphical environments. And, the X Window System was designed to be run over networks. In fact, it treats your local system as a self-contained network over which different parts of the X Window System communicate.
Accordingly, it's not only possible but easy to run individual X Window System applications over TCP/IP networks—that is, to display the output (window) of a remotely executed graphical application on your local system. Because the X Window System's use of networks isn't terribly secure (the X Window System has no native support whatsoever for any kind of encryption), nowadays we usually tunnel X Window System application windows over the Secure Shell (SSH), especially OpenSSH.
The advantage of tunneling individual application windows is that it's faster and generally more secure than running the entire desktop remotely. The disadvantages are that OpenSSH has a history of security vulnerabilities, and for many Linux newcomers, forwarding graphical applications via commands entered in a shell session is counterintuitive. And besides, as I mentioned earlier, remote desktop control (or even just viewing) can be very useful for technical support and for security surveillance.
Having said all that, tunneling X Window System applications over OpenSSH may be a lot easier than you imagine. All you need is a client system running an X server (for example, a Linux desktop system or a Windows system running the Cygwin X server) and a destination system running the OpenSSH dæmon (sshd).
Note that I didn't say “a destination system running sshd and an X server”. This is because X servers, oddly enough, don't actually run or control X Window System applications; they merely display their output. Therefore, if you're running an X Window System application on a remote system, you need to run an X server on your local system, not on the remote system. The application will execute on the remote system and send its output to your local X server's display.
Suppose you've got two systems, mylaptop and remotebox, and you want to monitor system resources on remotebox with the GNOME System Monitor. Suppose further you're running the X Window System on mylaptop and sshd on remotebox.
First, from a terminal window or xterm on mylaptop, you'd open an SSH session like this:
mick@mylaptop:~$ ssh -X admin-slave@remotebox admin-slave@remotebox's password: ********** Last login: Wed Jun 11 21:50:19 2008 from dtcla00b674986d admin-slave@remotebox:~$
Note the -X flag in my ssh command. This enables X Window System forwarding for the SSH session. In order for that to work, sshd on the remote system must be configured with X11Forwarding set to yes in its /etc/ssh/sshd.conf file. On many distributions, yes is the default setting, but check yours to be sure.
Next, to run the GNOME System Monitor on remotebox, such that its output (window) is displayed on mylaptop, simply execute it from within the same SSH session:
admin-slave@remotebox:~$ gnome-system-monitor &
The trailing ampersand (&) causes this command to run in the background, so you can initiate other commands from the same shell session. Without this, the cursor won't reappear in your shell window until you kill the command you just started.
At this point, the GNOME System Monitor window should appear on mylaptop's screen, displaying system performance information for remotebox. And, that really is all there is to it.
This technique works for practically any X Window System application installed on the remote system. The only catch is that you need to know the name of anything you want to run in this way—that is, the actual name of the executable file.
If you're accustomed to starting your X Window System applications from a menu on your desktop, you may not know the names of their corresponding executables. One quick way to find out is to open your desktop manager's menu editor, and then view the properties screen for the application in question.
For example, on a GNOME desktop, you would right-click on the Applications menu button, select Edit Menus, scroll down to System/Administration, right-click on System Monitor and select Properties. This pops up a window whose Command field shows the name gnome-system-monitor.
Figure 1 shows the Launcher Properties, not for the GNOME System Monitor, but instead for the GNOME File Browser, which is a better example, because its launcher entry includes some command-line options. Obviously, all such options also can be used when starting X applications over SSH.
If this sounds like too much trouble, or if you're worried about accidentally messing up your desktop menus, you simply can run the application in question, issue the command ps auxw in a terminal window, and find the entry that corresponds to your application. The last field in each row of the output from ps is the executable's name plus the command-line options with which it was invoked.
Once you've finished running your remote X Window System application, you can close it the usual way (selecting Exit from its File menu, clicking the x button in the upper right-hand corner of its window and so forth). Don't forget to close your SSH session too, by issuing the command exit in the terminal window where you're running SSH.
Practical Task Scheduling Deployment
July 20, 2016 12:00 pm CDT
One of the best things about the UNIX environment (aside from being stable and efficient) is the vast array of software tools available to help you do your job. Traditionally, a UNIX tool does only one thing, but does that one thing very well. For example, grep is very easy to use and can search vast amounts of data quickly. The find tool can find a particular file or files based on all kinds of criteria. It's pretty easy to string these tools together to build even more powerful tools, such as a tool that finds all of the .log files in the /home directory and searches each one for a particular entry. This erector-set mentality allows UNIX system administrators to seem to always have the right tool for the job.
Cron traditionally has been considered another such a tool for job scheduling, but is it enough? This webinar considers that very question. The first part builds on a previous Geek Guide, Beyond Cron, and briefly describes how to know when it might be time to consider upgrading your job scheduling infrastructure. The second part presents an actual planning and implementation framework.
Join Linux Journal's Mike Diehl and Pat Cameron of Help Systems.
Free to Linux Journal readers.Register Now!
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