privacyguides.org/docs/os/linux-overview.md

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---
title: Linux Overview
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icon: simple/linux
description: Linux is an open-source, privacy-focused desktop operating system alternative, but not all distribitions are created equal.
---
**Linux** is an open-source, privacy-focused desktop operating system alternative. In the face of pervasive telemetry and other privacy-encroaching technologies in mainstream operating systems, desktop Linux has remained the clear choice for people looking for total control over their computers from the ground up.
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Our website generally uses the term “Linux” to describe **desktop** Linux distributions. Other operating systems which also use the Linux kernel such as ChromeOS, Android, and Qubes OS are not discussed on this page.
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[Our Linux Recommendations :material-arrow-right-drop-circle:](../desktop.md){ .md-button }
## Privacy Notes
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There are some notable privacy concerns with Linux which you should be aware of. Despite these drawbacks, desktop Linux distributions are still great for most people who want to:
- Avoid telemetry that often comes with proprietary operating systems
- Maintain [software freedom](https://gnu.org/philosophy/free-sw.en.html#four-freedoms)
- Use privacy-focused systems such as [Whonix](../desktop.md#whonix) or [Tails](../desktop.md#tails)
### Open-Source Security
It is a [common misconception](../basics/common-misconceptions.md#open-source-software-is-always-secure-or-proprietary-software-is-more-secure) that Linux and other open-source software are inherently secure simply because the source code is available. There is an expectation that community verification occurs regularly, but this isnt always [the case](https://seirdy.one/posts/2022/02/02/floss-security).
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In reality, distro security depends on a number of factors, such as project activity, developer experience, the level of rigor applied to code reviews, and how often attention is given to specific parts of the codebase that may go untouched for years.
### Missing Security Features
At the moment, desktop Linux [falls behind alternatives](https://discussion.fedoraproject.org/t/fedora-strategy-2028-proposal-fedora-linux-is-as-secure-as-macos/46899/9) like macOS or Android when it comes to certain security features. We hope to see improvements in these areas in the future.
- **Verified boot** on Linux is not as robust as alternatives such as Apples [Secure Boot](https://support.apple.com/guide/security/secac71d5623/web) or Androids [Verified Boot](https://source.android.com/security/verifiedboot). Verified boot prevents persistent tampering by malware and [evil maid attacks](https://en.wikipedia.org/wiki/Evil_Maid_attack), but is still largely [unavailable on even the most advanced distributions](https://discussion.fedoraproject.org/t/has-silverblue-achieved-verified-boot/27251/3).
- **Strong sandboxing** for apps on Linux is severely lacking, even with containerized apps like Flatpaks or sandboxing solutions like Firejail. Flatpak is the most promising sandboxing utility for Linux thus far, but is still deficient in many areas and allows for [unsafe defaults](https://flatkill.org/2020) which permit most apps to trivially bypass their sandbox.
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Additionally, Linux falls behind in implementing [exploit mitigations](https://madaidans-insecurities.github.io/linux.html#exploit-mitigations) which are now standard on other operating systems, such as Arbitrary Code Guard on Windows or Hardened Runtime on macOS. Also, most Linux programs and Linux itself are coded in memory-unsafe languages. Memory corruption bugs are responsible for the [majority of vulnerabilities](https://msrc.microsoft.com/blog/2019/07/a-proactive-approach-to-more-secure-code) fixed and assigned a CVE. While this is also true for Windows and macOS, they are quickly making progress on adopting memory-safe languages—such as Rust and Swift, respectively—while there is no similar effort to rewrite Linux in a memory-safe language like Rust.
## Choosing your distribution
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Not all Linux distributions are created equal. Our [Linux recommendation page](../desktop.md) is not meant to be an authoritative source on which distribution you should use, but our recommendations *are* aligned with the following guidelines. These are a few things you should keep in mind when choosing a distribution:
### Release cycle
We highly recommend that you choose distributions which stay close to the stable upstream software releases, often referred to as rolling release distributions. This is because frozen release cycle distributions often dont update package versions and fall behind on security updates.
For frozen distributions such as [Debian](https://debian.org/security/faq#handling), package maintainers are expected to backport patches to fix vulnerabilities rather than bump the software to the “next version” released by the upstream developer. Some security fixes (particularly for less popular software) [do not](https://arxiv.org/abs/2105.14565) receive a [CVE ID](https://en.wikipedia.org/wiki/Common_Vulnerabilities_and_Exposures) at all and therefore do not make it into the distribution with this patching model. As a result, minor security fixes are sometimes held back until the next major release.
We dont believe holding packages back and applying interim patches is a good idea, as it diverges from the way the developer might have intended the software to work. [Richard Brown](https://rootco.de/aboutme) has a presentation about this:
- [Regular Releases are Wrong, Roll for your life](https://youtu.be/i8c0mg_mS7U) <small>(YouTube)</small>
### Traditional vs Atomic Updates
Traditionally, Linux distributions update by sequentially updating the desired packages. Traditional updates such as those used in Fedora, Arch Linux, and Debian-based distributions can be less reliable if an error occurs while updating.
Atomic updating distributions, on the other hand, apply updates in full or not at all. On an atomic distribution, if an error occurs while updating (perhaps due to a power failure), nothing is changed on the system.
The atomic update method can achieve reliability with this model and is used for [distributions](../desktop.md#atomic-distributions) like Silverblue and NixOS. [Adam Šamalík](https://twitter.com/adsamalik) provides a presentation on how `rpm-ostree` works with Silverblue:
- [Let's try Fedora Silverblue — an immutable desktop OS! - Adam Šamalik](https://youtu.be/aMo4ZlWznao) <small>(YouTube)</small>
### “Security-focused” distributions
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There is often some confusion between “security-focused” distributions and “pentesting” distributions. A quick search for “the most secure Linux distribution” will often give results like Kali Linux, Black Arch, or Parrot OS. These distributions are offensive penetration testing distributions that bundle tools for testing other systems. They dont include any “extra security” or defensive mitigations intended for regular use.
### Arch-based distributions
Arch and Arch-based distributions are not recommended for those new to Linux (regardless of distribution) as they require regular [system maintenance](https://wiki.archlinux.org/title/System_maintenance). Arch does not have a distribution update mechanism for the underlying software choices. As a result you have to stay aware with current trends and adopt technologies on your own as they supersede older practices.
For a secure system, you are also expected to have sufficient Linux knowledge to properly set up security for their system such as adopting a [mandatory access control](#mandatory-access-control) system, setting up [kernel module](https://en.wikipedia.org/wiki/Loadable_kernel_module#Security) blacklists, hardening boot parameters, manipulating [sysctl](https://en.wikipedia.org/wiki/Sysctl) parameters, and knowing what components they need such as [Polkit](https://en.wikipedia.org/wiki/Polkit).
Anyone using the [Arch User Repository (AUR)](https://wiki.archlinux.org/title/Arch_User_Repository) **must** be comfortable auditing PKGBUILDs that they download from that service. AUR packages are community-produced content and are not vetted in any way, and therefore are vulnerable to software [:material-package-variant-closed-remove: Supply Chain Attacks](../basics/common-threats.md#attacks-against-certain-organizations){ .pg-viridian }, which has in fact happened [in the past](https://bleepingcomputer.com/news/security/malware-found-in-arch-linux-aur-package-repository).
The AUR should always be used sparingly, and often there is a lot of bad advice on various pages which direct people to blindly use [AUR helpers](https://wiki.archlinux.org/title/AUR_helpers) without sufficient warning. Similar warnings apply to the use of third-party Personal Package Archives (PPAs) on Debian-based distributions or Community Projects (COPR) on Fedora.
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If you are experienced with Linux and wish to use an Arch-based distribution, we generally recommend mainline Arch Linux over any of its derivatives.
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Additionally, we recommend **against** these two Arch derivatives specifically:
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- **Manjaro**: This distribution holds packages back for 2 weeks to make sure that their own changes dont break, not to make sure that upstream is stable. When AUR packages are used, they are often built against the latest [libraries](https://en.wikipedia.org/wiki/Library_(computing)) from Archs repositories.
- **Garuda**: They use [Chaotic-AUR](https://aur.chaotic.cx) which automatically and blindly compiles packages from the AUR. There is no verification process to make sure that the AUR packages dont suffer from supply chain attacks.
### Linux-libre kernel and “Libre” distributions
We recommend **against** using the Linux-libre kernel, since it [removes security mitigations](https://phoronix.com/news/GNU-Linux-Libre-5.7-Released) and [suppresses kernel warnings](https://news.ycombinator.com/item?id=29674846) about vulnerable microcode.
### Mandatory access control
Mandatory access control is a set of additional security controls which help to confine parts of the system such as apps and system services. The two common forms of mandatory access control found in Linux distributions are [SELinux](https://github.com/SELinuxProject) and [AppArmor](https://apparmor.net). While Fedora uses SELinux by default, Tumbleweed [defaults](https://en.opensuse.org/Portal:SELinux) to AppArmor in the installer, with an option to [choose](https://en.opensuse.org/Portal:SELinux/Setup) SELinux instead.
SELinux on [Fedora](https://docs.fedoraproject.org/en-US/quick-docs/selinux-getting-started) confines Linux containers, virtual machines, and service daemons by default. AppArmor is used by the snap daemon for [sandboxing](https://snapcraft.io/docs/security-sandboxing) snaps which have [strict](https://snapcraft.io/docs/snap-confinement) confinement such as [Firefox](https://snapcraft.io/firefox). There is a community effort to confine more parts of the system in Fedora with the [ConfinedUsers](https://fedoraproject.org/wiki/SIGs/ConfinedUsers) special interest group.
## General Recommendations
### Drive Encryption
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Most Linux distributions have an option within its installer for enabling [LUKS](../encryption.md#linux-unified-key-setup) FDE. If this option isnt set at installation time, you will have to backup your data and re-install, as encryption is applied after [disk partitioning](https://en.wikipedia.org/wiki/Disk_partitioning), but before [file systems](https://en.wikipedia.org/wiki/File_system) are formatted. We also suggest securely erasing your storage device:
- [Secure Data Erasure :material-arrow-right-drop-circle:](https://blog.privacyguides.org/2022/05/25/secure-data-erasure)
### Swap
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Consider using [ZRAM](https://wiki.archlinux.org/title/Zram#Using_zram-generator) instead of a traditional swap file or partition to avoid writing potentially sensitive memory data to persistent storage (and improve performance). Fedora-based distributions [use ZRAM by default](https://fedoraproject.org/wiki/Changes/SwapOnZRAM).
If you require suspend-to-disk (hibernation) functionality, you will still need to use a traditional swap file or partition. Make sure that any swap space you do have on a persistent storage device is [encrypted](https://wiki.archlinux.org/title/Dm-crypt/Swap_encryption) at a minimum to mitigate some of these threats.
### Proprietary Firmware (Microcode Updates)
Some Linux distributions (such as [Linux-libre](https://en.wikipedia.org/wiki/Linux-libre)-based or DIY distros) dont come with the proprietary [microcode](https://en.wikipedia.org/wiki/Microcode) updates which patch critical security vulnerabilities. Some notable examples of these vulnerabilities include [Spectre](https://en.wikipedia.org/wiki/Spectre_(security_vulnerability)), [Meltdown](https://en.wikipedia.org/wiki/Meltdown_(security_vulnerability)), [SSB](https://en.wikipedia.org/wiki/Speculative_Store_Bypass), [Foreshadow](https://en.wikipedia.org/wiki/Foreshadow), [MDS](https://en.wikipedia.org/wiki/Microarchitectural_Data_Sampling), [SWAPGS](https://en.wikipedia.org/wiki/SWAPGS_(security_vulnerability)), and other [hardware vulnerabilities](https://kernel.org/doc/html/latest/admin-guide/hw-vuln/index.html).
We **highly recommend** that you install microcode updates, as they contain important security patches for the CPU which can not be fully mitigated in software alone. Fedora and openSUSE both apply microcode updates by default.
### Updates
Most Linux distributions will automatically install updates or remind you to do so. It is important to keep your OS up to date so that your software is patched when a vulnerability is found.
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Some distributions (particularly those aimed at advanced users) are more bare bones and expect you to do things yourself (e.g. Arch or Debian). These will require running the "package manager" (`apt`, `pacman`, `dnf`, etc.) manually in order to receive important security updates.
Additionally, some distributions will not download firmware updates automatically. For that, you will need to install [`fwupd`](https://wiki.archlinux.org/title/Fwupd).
### Permission Controls
Desktop environments (DEs) that support the [Wayland](https://wayland.freedesktop.org) display protocol are [more secure](https://lwn.net/Articles/589147) than those that only support X11. However, not all DEs take full advantage of Wayland's architectural security improvements.
For example, GNOME has a notable edge in security compared to other DEs by implementing permission controls for third-party software that tries to [capture your screen](https://gitlab.gnome.org/GNOME/gnome-shell/-/issues/3943). That is, when a third-party application attempts to capture your screen, you are prompted for your permission to share your screen with the app.
<figure markdown>
![Screenshot permissions](../assets/img/linux/screenshot_permission.png){ width="450" }
<figcaption>GNOME's screenshot permission dialog</figcaption>
</figure>
Many alternatives don't provide these same permission controls yet,[^1] while some are waiting for Wayland to implement these controls upstream.[^2]
[^1]: KDE currently has an open proposal to add controls for screen captures: <https://invent.kde.org/plasma/xdg-desktop-portal-kde/-/issues/7>
[^2]: Sway is waiting to add specific security controls until they "know how security as a whole is going to play out" in Wayland: <https://github.com/swaywm/sway/issues/5118#issuecomment-600054496>
## Privacy Tweaks
### MAC Address Randomization
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Many desktop Linux distributions (Fedora, openSUSE, etc.) come with [NetworkManager](https://en.wikipedia.org/wiki/NetworkManager) to configure Ethernet and Wi-Fi settings.
It is possible to [randomize](https://fedoramagazine.org/randomize-mac-address-nm) the [MAC address](https://en.wikipedia.org/wiki/MAC_address) when using NetworkManager. This provides a bit more privacy on Wi-Fi networks as it makes it harder to track specific devices on the network youre connected to. It does [**not**](https://papers.mathyvanhoef.com/wisec2016.pdf) make you anonymous.
We recommend changing the setting to **random** instead of **stable**, as suggested in the [article](https://fedoramagazine.org/randomize-mac-address-nm).
If you are using [systemd-networkd](https://en.wikipedia.org/wiki/Systemd#Ancillary_components), you will need to set [`MACAddressPolicy=random`](https://freedesktop.org/software/systemd/man/systemd.link.html#MACAddressPolicy=) which will enable [RFC 7844 (Anonymity Profiles for DHCP Clients)](https://freedesktop.org/software/systemd/man/systemd.network.html#Anonymize=).
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MAC address randomization is primarily beneficial for Wi-Fi connections. For Ethernet connections, randomizing your MAC address provides little (if any) benefit, because a network administrator can trivially identify your device by other means (such as inspecting the port you are connected to on the network switch). Randomizing Wi-Fi MAC addresses depends on support from the Wi-Fis firmware.
### Other Identifiers
There are other system identifiers which you may wish to be careful about. You should give this some thought to see if it applies to your [threat model](../basics/threat-modeling.md):
- **Hostnames:** Your system's hostname is shared with the networks you connect to. You should avoid including identifying terms like your name or operating system in your hostname, instead sticking to generic terms or random strings.
- **Usernames:** Similarly, your username is used in a variety of ways across your system. Consider using generic terms like "user" rather than your actual name.
- **Machine ID:** During installation, a unique machine ID is generated and stored on your device. Consider [setting it to a generic ID](https://madaidans-insecurities.github.io/guides/linux-hardening.html#machine-id).
### System Counting
The Fedora Project [counts](https://fedoraproject.org/wiki/Changes/DNF_Better_Counting) how many unique systems access its mirrors by using a [`countme`](https://fedoraproject.org/wiki/Changes/DNF_Better_Counting#Detailed_Description) variable instead of a unique ID. Fedora does this to determine load and provision better servers for updates where necessary.
This [option](https://dnf.readthedocs.io/en/latest/conf_ref.html#options-for-both-main-and-repo) is currently off by default. We recommend adding `countme=false` to `/etc/dnf/dnf.conf` just in case it is enabled in the future. On systems that use `rpm-ostree` such as Silverblue, the countme option is disabled by masking the [rpm-ostree-countme](https://fedoramagazine.org/getting-better-at-counting-rpm-ostree-based-systems) timer.
openSUSE also uses a [unique ID](https://en.opensuse.org/openSUSE:Statistics) to count systems, which can be disabled by emptying the `/var/lib/zypp/AnonymousUniqueId` file.