#typescript#docker#docker_compose#linux#rdp#virtualization#windows
WinBoat lets you run any Windows app on Linux with a smooth, native-like experience by running a full Windows system inside a Docker container using virtualization. It has an elegant interface and automates installation, so you just pick your settings and it handles the rest. You can run individual Windows apps seamlessly alongside Linux apps or access the full Windows desktop when needed. Your Linux files are easily shared with Windows, making file management simple. This helps you use Windows-only software on Linux without complicated setups, though it requires some system resources and setup steps like enabling virtualization and installing Docker. WinBoat is still in beta, so occasional bugs may occur.
https://github.com/TibixDev/winboat
Django Q on Windows
We're developing with Django Q and Mac OS and it runs on our Linux Servers. Now we hired external developers which work on Windows machines and we discovered that Django Q is not working on Windows due to missing fork implementation.
Does anyone use Django Q on Windows?
answer:
Use #Docker with local windows code directory mounted inside container,
run the docker container interactively and forward a port 8000 to host machine,
then run migrations, test server and other stuff inside the container.
Still a Windows user? Know a Windows user?
Consider switching to Linux for these possible reasons.
https://fosspost.org/7-reasons-to-switch-to-linux-from-windows/
#Linux#Windows#OpenSource
Take the following quiz about the #Linux command line (20 questions) and see how much you would score in these very basic questions!
https://quiz.fosspost.org/quiz/introduction-to-linux-command-line-quiz/
Take the following quiz about software management in #Linux! Learn the basics of apt/dnf/zypper/rpm/dpkg in few minutes: https://quiz.fosspost.org/quiz/software-management-from-the-command-line/
#Linux devices have a unique identifier called machine-id. Here is how to change it.
Posted on February 24, 2021
What is a machine-id, and why should you randomize it? From the machine-id man pages, it is defined as:
This ID uniquely identifies the host. It should be considered “confidential”, and must not be exposed in untrusted environments, in particular on the network. If a stable unique identifier that is tied to the machine is needed for some application, the machine ID or any part of it must not be used directly.
https://www.man7.org/linux/man-pages/man5/machine-id.5.html
In an effort to promote privacy, having a unique and unchanging identifier tied to your device seems like the wrong approach. It’s quite possible that poorly coded or even maliciously coded software could fetch this ID from your system. Let’s make sure that even if that does happen, that the value is constantly changing so that your device can not be uniquely identified as your device.
This is an incredibly simple and quick adjustment to your default Linux system. What we’re doing is showing you how to either adjust this value manually by hand, or by running a cronjob to change this value every minute with a new, randomized value.
Before we begin, a disclaimer: We’ve tested this on our own work desktops and development environments and I’ve tested it on my daily driver desktop. We have not found that anything has ‘broken’ because of this, but this is untested in many environments and may not be suitable for your use. It’s always reversible if you later wish to continue with a single, uniquely identifying ID attached to your device(s).
Debian / Ubuntu systems
To check your machine-id, open up your terminal and enter the following:
cat /etc/machine-id
The output should look a little something like this:
a9976154f0084a3782892638656ad9fd
You’ll note that this value is also stored in /var/lib/dbus/machine-id and that a symlink between the two exist. Any change to one file, will be reflected in the other.
me@virtbox-testing:~$ cat /etc/machine-id a9976154f0084a3782892638656ad9fd me@virtbox-testing:~$ cat /var/lib/dbus/machine-id a9976154f0084a3782892638656ad9fd
If you reboot your device, you’ll notice that this value remains unchanged. So, let’s change it ourselves!
Method 1: Manually.
Method 2 is automatically, every minute, as ran by a cron-job. If you don’t want to fully commit to that, you can change your machine-id by hand manually whenever you feel like it.
Step 1, remove the old machine-id file.
sudo rm /etc/machine-id
Step 2, recreate the machine-id file.
sudo systemd-machine-id-setup
Step 3, confirm that /etc/machine-id (and /var/lib/dbus/machine-id) now show a new value, different from the original.
cat /etc/machine-id && cat /var/lib/dbus/machine-id
That’s it! You should see two lines in your output with matching IDs that differ from the original machine-id you had in the beginning.
me@virtbox-testing:~$ cat /etc/machine-id && cat /var/lib/dbus/machine-id a78badce3e73beced163bbef7e55232a a78badce3e73beced163bbef7e55232a
You’ve changed your device’s uniquely identifying machine-id. This change will survive device reboots and will remain the same until you create a new one.
Method 2: Changing every 1 minute, automatically.
If the above didn’t satisfy your needs, than feel free to automate the creation of a new machine-id by creating a cronjob entry that will generate a new ID every minute.
Step 1, open up your crontab file.
sudo crontab -e
Step 2, enter at the bottom of the file the following:
*/1 * * * * sudo rm /etc/machine-id && sudo systemd-machine-id-setup
Save and Exit.
Step 3, wait a minute and confirm that your machine-id value has changed:
cat /etc/machine-id && cat /var/lib/dbus/machine-id
You should see two new matching values, that differs from the original value you had at the start. Wait a minute and run the step 3 command again, and you’ll see that these values have changed.
🚨 QLNX, a previously undocumented #Linux RAT, is targeting developers and DevOps systems to steal npm, PyPI, AWS, Kubernetes, Docker, and CI/CD credentials.
The malware uses fileless execution, PAM backdoors, eBPF rootkits, and 58 remote commands to maintain covert access and hijack software supply chains.
Learn more about QLNX here: https://thehackernews.com/2026/05/quasar-linux-rat-steals-developer.html
⚠️ A new #Linux flaw is now under active exploitation.
CISA added CVE-2026-31431 to its KEV list. The bug lets low-privilege users gain full root access. Patches released.
Fix deadline: May 15, 2026.
Read: https://thehackernews.com/2026/05/cisa-adds-actively-exploited-linux-root.html