- The Linux screen command is a versatile tool that allows you to run terminal applications in the background and switch back to them when needed.
- It supports split-screen displays and can be used over SSH connections, even after disconnecting and reconnecting.
- With screen, you can create new windows, run multiple processes, detach and reattach sessions, and share sessions between multiple users in real-time.
With the Linux
screen command, you can push running terminal applications to the background and pull them forward when you want to see them. It also supports split-screen displays and works over SSH connections, even after you disconnect and reconnect!
What Is the screen Command?
The following are the most common cases in which you would use the
screen command, and we’ll cover these further in this article:
- The standard operation is to create a new window with a shell in it, run a command, and then push the window to the background (called “detaching”). When you want to see how your process is doing, you can pull the window to the foreground again (“reattach”) and use it again. This is great for long processes you don’t want to accidentally terminate by closing the terminal window.
- Once you’ve got a
screensession running, you can create new windows and run other processes in them. You can easily hop between windows to monitor their progress. You can also split your terminal window into vertical or horizontal regions, and display your various
screenwindows in one window.
- You can connect to a remote machine, start a
screensession, and launch a process. You can disconnect from the remote host, reconnect, and your process will still be running.
- You can share a
screensession between two different SSH connections so two people can see the same thing, in real-time.
Install Linux screen
screen on ubuntu, use this command:
sudo apt-get install screen
screen on Manjaro, use the following command:
sudo pacman -Sy screen
On Fedora, you type the following:
sudo dnf install screen
Getting Started with Linux screen
screen, simply type it as shown below and hit Enter:
You’ll see a page of license information. You can press the Space bar to read the second page or Enter to return to the command prompt.
You’re left at the command prompt, and nothing much seems to have happened. However, you’re now running a shell inside a multiplexed terminal emulator. Why is this a good thing? Well, let’s start a process that’s going to take a long time to complete. We’ll download the source code for the latest Linux kernel and redirect it into a file called
To do so, we type the following:
curl https://cdn.kernel.org/pub/linux/kernel/v5.x/linux-5.5.9.tar.xz > latest_kernel.zip
Our download begins, and the
curl output shows us the progress.
We can’t show you an image of the next bit, because it’s a keystroke sequence. You type Ctrl+A, release those keys, and then press d to detach the screen.
The download process is still running but the window showing the download is removed. You’re returned to the terminal window from which you launched the
screen session. A message tells you that a
screen window labeled
23167.pts-0.howtogeek has been detached.
You need the number from the start of the window name to reattach it. If you forget it, you can always use the
-ls (list) option, as shown below, to get a list of the detached windows:
When you’re ready, you can use the
-r (reattach) option and the number of the session to reattach it, like so:
screen -r 23167
The window that’s been working away in the background is now brought back to your terminal window as if it had never left.
If it’s a process that’s going to run through to its conclusion it will eventually complete. If it’s a continual process, you’ll eventually want to terminate it. Either way, when the process ends, you can type
exit to exit from the
screen. Alternatively, you can press Ctrl+A, and then K to forcibly kill a window.
Type the following command:
You’re returned to your previous terminal window, which will still show the command you used to reattach the window. Because we closed our one and only detached window, we get a message that
screen is terminating.
Detach from Linux Screen Session and Other Shortcuts
We briefly touched on how to detatch yourself from a screen session, but it bears repeating. We’ve also thrown in some other common shortcuts you should get comfortable with.
When you’re using screen, shortcuts will usually take the form Ctrl + a followed by a letter. Pressing Ctrl + a basically tells screen: “You need to look for another input now.”
Ctrl + a
Disconnect from the current screen
Ctrl + a
View all of the available screen windows
Ctrl + a
Connect to a screen with a particular number
Ctrl + a
View information about the current screen
Ctrl + a
Kills the current window
Ctrl + a
Kills all windows and terminates screen
This isn’t an exhaustive list, but it should get you through most of what you need to do. We’ll also be covering more keybinds that are handy for specific scenarios later in the article. There is more detailed documentation over on the official GNU screen website, if you want to look through the entire list of keybinds.
Using Named screen Sessions on Linux
You can use the
-S (session name) option to name your
screen session. If you use a memorable name rather than the numerical identity of the session, it’s more convenient to reconnect to a session. We type the following to name our session “bigfile”:
screen -S bigfile
screen launches our session, we see a blank window with a command prompt. We’re going to download a big file, so we can use a long-running process as an example.
We type the following:
curl http://ipv4.download.thinkbroadband.com/1GB.zip > bigfile.zip
When the download starts, we press Ctrl+A, and then press D to detach the session. We type the following to use the
-ls (list) option with
screen to see the details of our detached session:
Behind the numeric identifier (23266), we see the name of our session (bigfile). We type the following, including the session’s name, to reattach it:
screen -r bigfile
We’re reconnected to our download window and see the long download is still in progress.
When the download is complete, we type
exit to close the session window.
Using screen with Multiple Windows
So far, we’ve used
screen to place a single process in the background in a detached window. However,
screen is capable of doing much more than that. Next, we’ll run a few processes that allow us to monitor some aspects of our computer.
We type the following to start a screen session called “monitor”:
screen -S monitor
At the command prompt in our new window session, we’ll launch
dmesg and use the
-H (human-readable) and
-w (wait for new messages) options. This will display the kernel buffer messages; new messages will appear as they occur.
We type the following:
dmesg -H -w
The existing messages appear. We’re not returned to the command prompt because
dmseg is waiting for new messages, and will display them as they arrive.
We want to run another application, so we need a new
screen window. We press Ctrl+A, and then C to create a fresh window. We’re going to use
watch to repeatedly run
vmstat, so we get a frequently updated display of the virtual memory usage on our computer.
At the new command prompt, we type the following:
vmstat output appears and updates every two seconds.
Our two processes are now running. To hop between the
screen windows, you press Ctrl+A, and the number of the window. The first one we created is window zero (0), the next is window 1, and so on. To hop to the first window (the
dmesg one), we press Ctrl+A and 0.
If we press Ctrl+A and 1, it takes us back to the
That’s pretty nifty! We can press Ctrl+A, and then D to detach from this session; we can reattach later. Both sessions will still be running. Again, to switch between the windows, we press Ctrl+A and the number (0 or 1) of the window we want to switch to.
Let’s go to the next step and view both screens in one window. When you do this, you’ll stretch your terminal window to a size that makes this step useful. Our examples are constrained to the size of our screenshots, so our windows will look a little cramped.
To do this, we press Ctrl+A, and then Shift+S (a capital “S” is required).
The window splits into two “regions.”
The top region still displays
vmstat, and the bottom region is blank. The cursor is highlighted in the screenshot below. To move it to the lower region, we press Ctrl+A, and then Tab.
The cursor moves to the lower region, which really is just an empty space. It isn’t a shell, so we can’t type anything in it. To get a useful display, we press Ctrl+A, and then press “0” to display the
dmesg window in this region.
This gives us both live outputs in one split window. If we press Ctrl+A and D to detach the window, and then reattach it, we’ll lose the split-pane view. However, we can restore it with the following keyboard shortcuts:
- Ctrl+A, S: Split the window horizontally.
- Ctrl+A, Tab: Move to the lower region.
- Ctrl+A, 0: Display window zero in the lower region.
We can take things even a step further. We’ll now split the lower pane vertically, and add a third process to the display. With the cursor in the lower region, we press Ctrl+A and C to create a new window with a shell in it. The lower region displays the new window and gives us a command prompt.
Next, we run the
df command to check file system usage:
When we see
df running, we hit Ctrl+A and the pipe character
(|). This splits the lower region vertically. We press Ctrl+A and Tab to move to the new region. Next, we press Ctrl+A and 0 to display the
You can also move from region to region, and add more vertical or horizontal splits. Here are some more useful key combinations:
- Ctrl+A: Hop back and forth between the current and previous regions.
- Ctrl+A, Q: Close all regions except the current one.
- Ctrl+A, X: Close the current region.
Using screen Over SSH
screen, you can start a window session, detach it so it’s still running in the background, log off or back in, and reattach the session.
Let’s make an SSH connection to our computer from a different one with the
ssh command. We have to provide the name of the account with which we’re going to connect and the address of the remote computer.
For our example, we type the following:
After we authenticate on the remote computer and log in, we type the following to start a
screen session called “ssh-geek”:
screen -S ssh-geek
For demonstration purposes, we’ll run
top in the
screen window, but you could start any long-running or endless process.
We type the following:
top is running in the window, we hit Ctrl+A, and then D to detach the window.
We’re returned to the original, remote terminal window.
If we type
exit, as shown below, it disconnects the SSH session and we’re back on our local computer:
We type the following to reconnect:
After we’re reconnected and logged in, we can type the following to reattach the
screen -r ssh-geek
We’re now reconnected to our still-running instance of
This is great if you want to start a process on one machine, and then pick up wherever you left off on another.
Sharing a screen Session
You can also use a
screen session to allow two people to see and interact with the same window. Let’s say someone running Fedora on his computer wants to connect to our Ubuntu server.
He would type the following:
After he’s connected, he starts a screen session called “ssh-geek” using the -S (session name) option. He also uses the
-d (detach) and
-m (enforced creation) options to create a new
screen session that’s already detached.
He types the following:
screen -d -m -S ssh-geek
He types the following, using the
-x (multiscreen mode) option to attach the session:
screen -x ssh-geek
On a Manjaro computer, another person connects to the Ubuntu computer with the same account credentials, as shown below:
Once she’s connected, she types the
screen command and uses the -X (multiscreen mode) option to join the same window session, like so:
screen -X ssh-geek
Now, anything either person types, the other will see. For example, when one person issues the date command, they both see it as it’s typed, as well as its output.
Both people are now sharing a
screen session that’s running on a remote Ubuntu computer.
For a piece of software that first saw the light of day in 1987,
screen still packs a good productivity wallop. Familiarizing yourself with it will be time well spent!