A PGP (https://en.wikipedia.org/wiki/Pretty_Good_Privacy) signature is a cryptographic digital signature (https://en.wikipedia.org/wiki/Digital_signature) made in accordance with the OpenPGP (https://en.wikipedia.org/wiki/Pretty_Good_Privacy#OpenPGP) standard. PGP signatures can be cryptographically verified with programs like GNU Privacy Guard (GPG) (https://en.wikipedia.org/wiki/GNU_Privacy_Guard). The Qubes security team cryptographically signs all canaries so that Qubes users have a reliable way to check whether canaries are genuine. The only way to be certain that a canary is authentic is by verifying its PGP signatures.
Why should I care whether a canary is authentic?
If you fail to notice that a canary is unhealthy or has died, you may continue to trust the Qubes security team even after they have signaled via the canary (or lack thereof) that they been compromised or coerced. Falsified canaries could include manipulated text designed to sow fear, uncertainty, and doubt about the security of Qubes OS or the status of the Qubes OS Project.
How do I verify the PGP signatures on a canary?
The following command-line instructions assume a Linux system with git and gpg installed. (For Windows and Mac options, see OpenPGP software (https://www.qubes-os.org/security/verifying-signatures/#openpgp-software).)
Obtain the Qubes Master Signing Key (QMSK), e.g.:
$ gpg --fetch-keys https://keys.qubes-os.org/keys/qubes-master-signing-key.asc
gpg: directory '/home/user/.gnupg' created
gpg: keybox '/home/user/.gnupg/pubring.kbx' created
gpg: requesting key from 'https://keys.qubes-os.org/keys/qubes-master-signing-key.asc'
gpg: /home/user/.gnupg/trustdb.gpg: trustdb created
gpg: key DDFA1A3E36879494: public key "Qubes Master Signing Key" imported
gpg: Total number processed: 1
gpg: imported: 1
(For more ways to obtain the QMSK, see How to import and authenticate the Qubes Master Signing Key (https://www.qubes-os.org/security/verifying-signatures/#how-to-import-and-authenticate-the-qubes-master-signing-key).)
View the fingerprint of the PGP key you just imported. (Note: gpg> indicates a prompt inside of the GnuPG program. Type what appears after it when prompted.)
$ gpg --edit-key 0x427F11FD0FAA4B080123F01CDDFA1A3E36879494
gpg (GnuPG) 2.2.27; Copyright (C) 2021 Free Software Foundation, Inc.
This is free software: you are free to change and redistribute it.
There is NO WARRANTY, to the extent permitted by law.
pub rsa4096/DDFA1A3E36879494
created: 2010-04-01 expires: never usage: SC
trust: unknown validity: unknown
[ unknown] (1). Qubes Master Signing Key
gpg> fpr
pub rsa4096/DDFA1A3E36879494 2010-04-01 Qubes Master Signing Key
Primary key fingerprint: 427F 11FD 0FAA 4B08 0123 F01C DDFA 1A3E 3687 9494
Important: At this point, you still don’t know whether the key you just imported is the genuine QMSK or a forgery. In order for this entire procedure to provide meaningful security benefits, you must authenticate the QMSK out-of-band. Do not skip this step! The standard method is to obtain the QMSK fingerprint from multiple independent sources in several different ways and check to see whether they match the key you just imported. For more information, see How to import and authenticate the Qubes Master Signing Key (https://www.qubes-os.org/security/verifying-signatures/#how-to-import-and-authenticate-the-qubes-master-signing-key).
Tip: After you have authenticated the QMSK out-of-band to your satisfaction, record the QMSK fingerprint in a safe place (or several) so that you don’t have to repeat this step in the future.
Once you are satisfied that you have the genuine QMSK, set its trust level to 5 (“ultimate”), then quit GnuPG with q.
gpg> trust
pub rsa4096/DDFA1A3E36879494
created: 2010-04-01 expires: never usage: SC
trust: unknown validity: unknown
Why should I care whether a canary is authentic?
If you fail to notice that a canary is unhealthy or has died, you may continue to trust the Qubes security team even after they have signaled via the canary (or lack thereof) that they been compromised or coerced. Falsified canaries could include manipulated text designed to sow fear, uncertainty, and doubt about the security of Qubes OS or the status of the Qubes OS Project.
How do I verify the PGP signatures on a canary?
The following command-line instructions assume a Linux system with git and gpg installed. (For Windows and Mac options, see OpenPGP software (https://www.qubes-os.org/security/verifying-signatures/#openpgp-software).)
Obtain the Qubes Master Signing Key (QMSK), e.g.:
$ gpg --fetch-keys https://keys.qubes-os.org/keys/qubes-master-signing-key.asc
gpg: directory '/home/user/.gnupg' created
gpg: keybox '/home/user/.gnupg/pubring.kbx' created
gpg: requesting key from 'https://keys.qubes-os.org/keys/qubes-master-signing-key.asc'
gpg: /home/user/.gnupg/trustdb.gpg: trustdb created
gpg: key DDFA1A3E36879494: public key "Qubes Master Signing Key" imported
gpg: Total number processed: 1
gpg: imported: 1
(For more ways to obtain the QMSK, see How to import and authenticate the Qubes Master Signing Key (https://www.qubes-os.org/security/verifying-signatures/#how-to-import-and-authenticate-the-qubes-master-signing-key).)
View the fingerprint of the PGP key you just imported. (Note: gpg> indicates a prompt inside of the GnuPG program. Type what appears after it when prompted.)
$ gpg --edit-key 0x427F11FD0FAA4B080123F01CDDFA1A3E36879494
gpg (GnuPG) 2.2.27; Copyright (C) 2021 Free Software Foundation, Inc.
This is free software: you are free to change and redistribute it.
There is NO WARRANTY, to the extent permitted by law.
pub rsa4096/DDFA1A3E36879494
created: 2010-04-01 expires: never usage: SC
trust: unknown validity: unknown
[ unknown] (1). Qubes Master Signing Key
gpg> fpr
pub rsa4096/DDFA1A3E36879494 2010-04-01 Qubes Master Signing Key
Primary key fingerprint: 427F 11FD 0FAA 4B08 0123 F01C DDFA 1A3E 3687 9494
Important: At this point, you still don’t know whether the key you just imported is the genuine QMSK or a forgery. In order for this entire procedure to provide meaningful security benefits, you must authenticate the QMSK out-of-band. Do not skip this step! The standard method is to obtain the QMSK fingerprint from multiple independent sources in several different ways and check to see whether they match the key you just imported. For more information, see How to import and authenticate the Qubes Master Signing Key (https://www.qubes-os.org/security/verifying-signatures/#how-to-import-and-authenticate-the-qubes-master-signing-key).
Tip: After you have authenticated the QMSK out-of-band to your satisfaction, record the QMSK fingerprint in a safe place (or several) so that you don’t have to repeat this step in the future.
Once you are satisfied that you have the genuine QMSK, set its trust level to 5 (“ultimate”), then quit GnuPG with q.
gpg> trust
pub rsa4096/DDFA1A3E36879494
created: 2010-04-01 expires: never usage: SC
trust: unknown validity: unknown
[ unknown] (1). Qubes Master Signing Key
Please decide how far you trust this user to correctly verify other users' keys
(by looking at passports, checking fingerprints from different sources, etc.)
1 = I don't know or won't say
2 = I do NOT trust
3 = I trust marginally
4 = I trust fully
5 = I trust ultimately
m = back to the main menu
Your decision? 5
Do you really want to set this key to ultimate trust? (y/N) y
pub rsa4096/DDFA1A3E36879494
created: 2010-04-01 expires: never usage: SC
trust: ultimate validity: unknown
[ unknown] (1). Qubes Master Signing Key
Please note that the shown key validity is not necessarily correct
unless you restart the program.
gpg> q
Use Git to clone the qubes-secpack repo.
$ git clone https://github.com/QubesOS/qubes-secpack.git
Cloning into 'qubes-secpack'...
remote: Enumerating objects: 4065, done.
remote: Counting objects: 100% (1474/1474), done.
remote: Compressing objects: 100% (742/742), done.
remote: Total 4065 (delta 743), reused 1413 (delta 731), pack-reused 2591
Receiving objects: 100% (4065/4065), 1.64 MiB | 2.53 MiB/s, done.
Resolving deltas: 100% (1910/1910), done.
Import the included PGP keys. (See our PGP key policies (https://www.qubes-os.org/security/pack/#pgp-key-policies) for important information about these keys.)
$ gpg --import qubes-secpack/keys/*/*
gpg: key 063938BA42CFA724: public key "Marek Marczykowski-Górecki (Qubes OS signing key)" imported
gpg: qubes-secpack/keys/core-devs/retired: read error: Is a directory
gpg: no valid OpenPGP data found.
gpg: key 8C05216CE09C093C: 1 signature not checked due to a missing key
gpg: key 8C05216CE09C093C: public key "HW42 (Qubes Signing Key)" imported
gpg: key DA0434BC706E1FCF: public key "Simon Gaiser (Qubes OS signing key)" imported
gpg: key 8CE137352A019A17: 2 signatures not checked due to missing keys
gpg: key 8CE137352A019A17: public key "Andrew David Wong (Qubes Documentation Signing Key)" imported
gpg: key AAA743B42FBC07A9: public key "Brennan Novak (Qubes Website & Documentation Signing)" imported
gpg: key B6A0BB95CA74A5C3: public key "Joanna Rutkowska (Qubes Documentation Signing Key)" imported
gpg: key F32894BE9684938A: public key "Marek Marczykowski-Górecki (Qubes Documentation Signing Key)" imported
gpg: key 6E7A27B909DAFB92: public key "Hakisho Nukama (Qubes Documentation Signing Key)" imported
gpg: key 485C7504F27D0A72: 1 signature not checked due to a missing key
gpg: key 485C7504F27D0A72: public key "Sven Semmler (Qubes Documentation Signing Key)" imported
gpg: key BB52274595B71262: public key "unman (Qubes Documentation Signing Key)" imported
gpg: key DC2F3678D272F2A8: 1 signature not checked due to a missing key
gpg: key DC2F3678D272F2A8: public key "Wojtek Porczyk (Qubes OS documentation signing key)" imported
gpg: key FD64F4F9E9720C4D: 1 signature not checked due to a missing key
gpg: key FD64F4F9E9720C4D: public key "Zrubi (Qubes Documentation Signing Key)" imported
gpg: key DDFA1A3E36879494: "Qubes Master Signing Key" not changed
gpg: key 1848792F9E2795E9: public key "Qubes OS Release 4 Signing Key" imported
gpg: qubes-secpack/keys/release-keys/retired: read error: Is a directory
gpg: no valid OpenPGP data found.
gpg: key D655A4F21830E06A: public key "Marek Marczykowski-Górecki (Qubes security pack)" imported
gpg: key ACC2602F3F48CB21: public key "Qubes OS Security Team" imported
gpg: qubes-secpack/keys/security-team/retired: read error: Is a directory
gpg: no valid OpenPGP data found.
gpg: key 4AC18DE1112E1490: public key "Simon Gaiser (Qubes Security Pack signing key)" imported
gpg: Total number processed: 17
gpg: imported: 16
gpg: unchanged: 1
gpg: marginals needed: 3 completes needed: 1 trust model: pgp
gpg: depth: 0 valid: 1 signed: 6 trust: 0-, 0q, 0n, 0m, 0f, 1u
gpg: depth: 1 valid: 6 signed: 0 trust: 6-, 0q, 0n, 0m, 0f, 0u
Verify signed Git tags.
Please decide how far you trust this user to correctly verify other users' keys
(by looking at passports, checking fingerprints from different sources, etc.)
1 = I don't know or won't say
2 = I do NOT trust
3 = I trust marginally
4 = I trust fully
5 = I trust ultimately
m = back to the main menu
Your decision? 5
Do you really want to set this key to ultimate trust? (y/N) y
pub rsa4096/DDFA1A3E36879494
created: 2010-04-01 expires: never usage: SC
trust: ultimate validity: unknown
[ unknown] (1). Qubes Master Signing Key
Please note that the shown key validity is not necessarily correct
unless you restart the program.
gpg> q
Use Git to clone the qubes-secpack repo.
$ git clone https://github.com/QubesOS/qubes-secpack.git
Cloning into 'qubes-secpack'...
remote: Enumerating objects: 4065, done.
remote: Counting objects: 100% (1474/1474), done.
remote: Compressing objects: 100% (742/742), done.
remote: Total 4065 (delta 743), reused 1413 (delta 731), pack-reused 2591
Receiving objects: 100% (4065/4065), 1.64 MiB | 2.53 MiB/s, done.
Resolving deltas: 100% (1910/1910), done.
Import the included PGP keys. (See our PGP key policies (https://www.qubes-os.org/security/pack/#pgp-key-policies) for important information about these keys.)
$ gpg --import qubes-secpack/keys/*/*
gpg: key 063938BA42CFA724: public key "Marek Marczykowski-Górecki (Qubes OS signing key)" imported
gpg: qubes-secpack/keys/core-devs/retired: read error: Is a directory
gpg: no valid OpenPGP data found.
gpg: key 8C05216CE09C093C: 1 signature not checked due to a missing key
gpg: key 8C05216CE09C093C: public key "HW42 (Qubes Signing Key)" imported
gpg: key DA0434BC706E1FCF: public key "Simon Gaiser (Qubes OS signing key)" imported
gpg: key 8CE137352A019A17: 2 signatures not checked due to missing keys
gpg: key 8CE137352A019A17: public key "Andrew David Wong (Qubes Documentation Signing Key)" imported
gpg: key AAA743B42FBC07A9: public key "Brennan Novak (Qubes Website & Documentation Signing)" imported
gpg: key B6A0BB95CA74A5C3: public key "Joanna Rutkowska (Qubes Documentation Signing Key)" imported
gpg: key F32894BE9684938A: public key "Marek Marczykowski-Górecki (Qubes Documentation Signing Key)" imported
gpg: key 6E7A27B909DAFB92: public key "Hakisho Nukama (Qubes Documentation Signing Key)" imported
gpg: key 485C7504F27D0A72: 1 signature not checked due to a missing key
gpg: key 485C7504F27D0A72: public key "Sven Semmler (Qubes Documentation Signing Key)" imported
gpg: key BB52274595B71262: public key "unman (Qubes Documentation Signing Key)" imported
gpg: key DC2F3678D272F2A8: 1 signature not checked due to a missing key
gpg: key DC2F3678D272F2A8: public key "Wojtek Porczyk (Qubes OS documentation signing key)" imported
gpg: key FD64F4F9E9720C4D: 1 signature not checked due to a missing key
gpg: key FD64F4F9E9720C4D: public key "Zrubi (Qubes Documentation Signing Key)" imported
gpg: key DDFA1A3E36879494: "Qubes Master Signing Key" not changed
gpg: key 1848792F9E2795E9: public key "Qubes OS Release 4 Signing Key" imported
gpg: qubes-secpack/keys/release-keys/retired: read error: Is a directory
gpg: no valid OpenPGP data found.
gpg: key D655A4F21830E06A: public key "Marek Marczykowski-Górecki (Qubes security pack)" imported
gpg: key ACC2602F3F48CB21: public key "Qubes OS Security Team" imported
gpg: qubes-secpack/keys/security-team/retired: read error: Is a directory
gpg: no valid OpenPGP data found.
gpg: key 4AC18DE1112E1490: public key "Simon Gaiser (Qubes Security Pack signing key)" imported
gpg: Total number processed: 17
gpg: imported: 16
gpg: unchanged: 1
gpg: marginals needed: 3 completes needed: 1 trust model: pgp
gpg: depth: 0 valid: 1 signed: 6 trust: 0-, 0q, 0n, 0m, 0f, 1u
gpg: depth: 1 valid: 6 signed: 0 trust: 6-, 0q, 0n, 0m, 0f, 0u
Verify signed Git tags.
$ cd qubes-secpack/
$ git tag -v `git describe`
object 266e14a6fae57c9a91362c9ac784d3a891f4d351
type commit
tag marmarek_sec_266e14a6
tagger Marek Marczykowski-Górecki 1677757924 +0100
Tag for commit 266e14a6fae57c9a91362c9ac784d3a891f4d351
gpg: Signature made Thu 02 Mar 2023 03:52:04 AM PST
gpg: using RSA key 2D1771FE4D767EDC76B089FAD655A4F21830E06A
gpg: Good signature from "Marek Marczykowski-Górecki (Qubes security pack)" [full]
The exact output will differ, but the final line should always start with gpg: Good signature from... followed by an appropriate key. The [full] indicates full trust, which this key inherits in virtue of being validly signed by the QMSK.
Verify PGP signatures, e.g.:
$ cd QSBs/
$ gpg --verify qsb-087-2022.txt.sig.marmarek qsb-087-2022.txt
gpg: Signature made Wed 23 Nov 2022 04:05:51 AM PST
gpg: using RSA key 2D1771FE4D767EDC76B089FAD655A4F21830E06A
gpg: Good signature from "Marek Marczykowski-Górecki (Qubes security pack)" [full]
$ gpg --verify qsb-087-2022.txt.sig.simon qsb-087-2022.txt
gpg: Signature made Wed 23 Nov 2022 03:50:42 AM PST
gpg: using RSA key EA18E7F040C41DDAEFE9AA0F4AC18DE1112E1490
gpg: Good signature from "Simon Gaiser (Qubes Security Pack signing key)" [full]
$ cd ../canaries/
$ gpg --verify canary-034-2023.txt.sig.marmarek canary-034-2023.txt
gpg: Signature made Thu 02 Mar 2023 03:51:48 AM PST
gpg: using RSA key 2D1771FE4D767EDC76B089FAD655A4F21830E06A
gpg: Good signature from "Marek Marczykowski-Górecki (Qubes security pack)" [full]
$ gpg --verify canary-034-2023.txt.sig.simon canary-034-2023.txt
gpg: Signature made Thu 02 Mar 2023 01:47:52 AM PST
gpg: using RSA key EA18E7F040C41DDAEFE9AA0F4AC18DE1112E1490
gpg: Good signature from "Simon Gaiser (Qubes Security Pack signing key)" [full]
Again, the exact output will differ, but the final line of output from each gpg --verify command should always start with gpg: Good signature from... followed by an appropriate key.
For this announcement (Qubes Canary 041), the commands are:
$ gpg --verify canary-041-2024.txt.sig.marmarek canary-041-2024.txt
$ gpg --verify canary-041-2024.txt.sig.simon canary-041-2024.txt
You can also verify the signatures directly from this announcement in addition to or instead of verifying the files from the qubes-secpack. Simply copy and paste the Qubes Canary 041 text into a plain text file and do the same for both signature files. Then, perform the same authentication steps as listed above, substituting the filenames above with the names of the files you just created.
$ git tag -v `git describe`
object 266e14a6fae57c9a91362c9ac784d3a891f4d351
type commit
tag marmarek_sec_266e14a6
tagger Marek Marczykowski-Górecki 1677757924 +0100
Tag for commit 266e14a6fae57c9a91362c9ac784d3a891f4d351
gpg: Signature made Thu 02 Mar 2023 03:52:04 AM PST
gpg: using RSA key 2D1771FE4D767EDC76B089FAD655A4F21830E06A
gpg: Good signature from "Marek Marczykowski-Górecki (Qubes security pack)" [full]
The exact output will differ, but the final line should always start with gpg: Good signature from... followed by an appropriate key. The [full] indicates full trust, which this key inherits in virtue of being validly signed by the QMSK.
Verify PGP signatures, e.g.:
$ cd QSBs/
$ gpg --verify qsb-087-2022.txt.sig.marmarek qsb-087-2022.txt
gpg: Signature made Wed 23 Nov 2022 04:05:51 AM PST
gpg: using RSA key 2D1771FE4D767EDC76B089FAD655A4F21830E06A
gpg: Good signature from "Marek Marczykowski-Górecki (Qubes security pack)" [full]
$ gpg --verify qsb-087-2022.txt.sig.simon qsb-087-2022.txt
gpg: Signature made Wed 23 Nov 2022 03:50:42 AM PST
gpg: using RSA key EA18E7F040C41DDAEFE9AA0F4AC18DE1112E1490
gpg: Good signature from "Simon Gaiser (Qubes Security Pack signing key)" [full]
$ cd ../canaries/
$ gpg --verify canary-034-2023.txt.sig.marmarek canary-034-2023.txt
gpg: Signature made Thu 02 Mar 2023 03:51:48 AM PST
gpg: using RSA key 2D1771FE4D767EDC76B089FAD655A4F21830E06A
gpg: Good signature from "Marek Marczykowski-Górecki (Qubes security pack)" [full]
$ gpg --verify canary-034-2023.txt.sig.simon canary-034-2023.txt
gpg: Signature made Thu 02 Mar 2023 01:47:52 AM PST
gpg: using RSA key EA18E7F040C41DDAEFE9AA0F4AC18DE1112E1490
gpg: Good signature from "Simon Gaiser (Qubes Security Pack signing key)" [full]
Again, the exact output will differ, but the final line of output from each gpg --verify command should always start with gpg: Good signature from... followed by an appropriate key.
For this announcement (Qubes Canary 041), the commands are:
$ gpg --verify canary-041-2024.txt.sig.marmarek canary-041-2024.txt
$ gpg --verify canary-041-2024.txt.sig.simon canary-041-2024.txt
You can also verify the signatures directly from this announcement in addition to or instead of verifying the files from the qubes-secpack. Simply copy and paste the Qubes Canary 041 text into a plain text file and do the same for both signature files. Then, perform the same authentication steps as listed above, substituting the filenames above with the names of the files you just created.
Say hello to our new website
https://xenproject.org/blog/say-hello-to-our-new-website/
Hello Xen Community,You may have noticed something different...We've refreshed our existing website!
https://xenproject.org/blog/say-hello-to-our-new-website/
Hello Xen Community,You may have noticed something different...We've refreshed our existing website!
Why did we do this? Well, all these new changes are part of an ongoing effort to increase our visibility and make it easier to find information on pages. We know how important it
Fedora 41 templates available
https://www.qubes-os.org/news/2024/12/07/fedora-41-templates-available/
New Fedora 41 templates are now available for Qubes OS 4.2 in standard, minimal (https://www.qubes-os.org/doc/templates/minimal/), and Xfce (https://www.qubes-os.org/doc/templates/xfce/) varieties. There are two ways to upgrade a template to a new Fedora release:
Recommended: Install a fresh template to replace an existing one. (https://www.qubes-os.org/doc/templates/fedora/#installing) This option may be simpler for less experienced users. After you install the new template, redo all desired template modifications and switch everything that was set to the old template to the new template (https://www.qubes-os.org/doc/templates/#switching). You may want to write down the modifications you make to your templates so that you remember what to redo on each fresh install. To see a log of package manager actions, open a terminal in the old Fedora template and use the dnf history command.
Advanced: Perform an in-place upgrade of an existing Fedora template. (https://www.qubes-os.org/doc/templates/fedora/in-place-upgrade/) This option will preserve any modifications you’ve made to the template, but it may be more complicated for less experienced users.
Note: No user action is required regarding the OS version in dom0 (see our note on dom0 and EOL (https://www.qubes-os.org/doc/supported-releases/#note-on-dom0-and-eol)).
https://www.qubes-os.org/news/2024/12/07/fedora-41-templates-available/
New Fedora 41 templates are now available for Qubes OS 4.2 in standard, minimal (https://www.qubes-os.org/doc/templates/minimal/), and Xfce (https://www.qubes-os.org/doc/templates/xfce/) varieties. There are two ways to upgrade a template to a new Fedora release:
Recommended: Install a fresh template to replace an existing one. (https://www.qubes-os.org/doc/templates/fedora/#installing) This option may be simpler for less experienced users. After you install the new template, redo all desired template modifications and switch everything that was set to the old template to the new template (https://www.qubes-os.org/doc/templates/#switching). You may want to write down the modifications you make to your templates so that you remember what to redo on each fresh install. To see a log of package manager actions, open a terminal in the old Fedora template and use the dnf history command.
Advanced: Perform an in-place upgrade of an existing Fedora template. (https://www.qubes-os.org/doc/templates/fedora/in-place-upgrade/) This option will preserve any modifications you’ve made to the template, but it may be more complicated for less experienced users.
Note: No user action is required regarding the OS version in dom0 (see our note on dom0 and EOL (https://www.qubes-os.org/doc/supported-releases/#note-on-dom0-and-eol)).
Welcome Honda to the Xen Project Board
https://xenproject.org/blog/welcome-honda-to-xen-project/
We're excited to announce our newest Advisory Board Member Honda, to Xen Project.
Since its foundation, Honda has been committed to "creating a society that is useful to people" by utilizing its technologies and ideas. Honda also focuses on environmental responsiveness and traffic safety, and continue
https://xenproject.org/blog/welcome-honda-to-xen-project/
We're excited to announce our newest Advisory Board Member Honda, to Xen Project.
Since its foundation, Honda has been committed to "creating a society that is useful to people" by utilizing its technologies and ideas. Honda also focuses on environmental responsiveness and traffic safety, and continue
🔥1
Channel Owner Announcement:
RockyOS is an open-source Linux operating system based on Red Hat Enterprise Linux (RHEL). It was created to serve as a community-driven, downstream alternative after the discontinuation of CentOS Linux in December 2020. Designed for stability, security, and enterprise use, RockyOS provides a reliable platform for server environments, developers, and IT professionals who require a RHEL-compatible distribution.
The project was initiated by Gregory Kurtzer, one of the original founders of CentOS. Kurtzer created RockyOS to ensure the continued availability of a free and stable RHEL-compatible distribution, addressing concerns among users and organizations who relied on CentOS for production systems. Named in honor of his late CentOS co-founder, Rocky McGaugh, the project reflects a commitment to collaboration and community-driven development.
With that being said, I @Linus have created a new Community Channel for @RockyOS to fulfill the communities continued support for the old beloved CentOS.
At the moment the channel is under construction and should be ready between now and next year.
Feel free to join!
@RockyOS
RockyOS is an open-source Linux operating system based on Red Hat Enterprise Linux (RHEL). It was created to serve as a community-driven, downstream alternative after the discontinuation of CentOS Linux in December 2020. Designed for stability, security, and enterprise use, RockyOS provides a reliable platform for server environments, developers, and IT professionals who require a RHEL-compatible distribution.
The project was initiated by Gregory Kurtzer, one of the original founders of CentOS. Kurtzer created RockyOS to ensure the continued availability of a free and stable RHEL-compatible distribution, addressing concerns among users and organizations who relied on CentOS for production systems. Named in honor of his late CentOS co-founder, Rocky McGaugh, the project reflects a commitment to collaboration and community-driven development.
With that being said, I @Linus have created a new Community Channel for @RockyOS to fulfill the communities continued support for the old beloved CentOS.
At the moment the channel is under construction and should be ready between now and next year.
Feel free to join!
@RockyOS
🔥3
XSAs released on 2024-12-17
https://www.qubes-os.org/news/2024/12/18/xsas-released-on-2024-12-17/
The Xen Project (https://xenproject.org/) has released one or more Xen security advisories (XSAs) (https://xenbits.xen.org/xsa/).
The security of Qubes OS is not affected.
XSAs that DO affect the security of Qubes OS
The following XSAs do affect the security of Qubes OS:
(none)
XSAs that DO NOT affect the security of Qubes OS
The following XSAs do not affect the security of Qubes OS, and no user action is necessary:
XSA-465 (https://xenbits.xen.org/xsa/advisory-465.html)
Denial of service only
XSA-466 (https://xenbits.xen.org/xsa/advisory-466.html)
Internal to domUs
About this announcement
Qubes OS uses the Xen hypervisor (https://wiki.xenproject.org/wiki/Xen_Project_Software_Overview) as part of its architecture (https://www.qubes-os.org/doc/architecture/). When the Xen Project (https://xenproject.org/) publicly discloses a vulnerability in the Xen hypervisor, they issue a notice called a Xen security advisory (XSA) (https://xenproject.org/developers/security-policy/). Vulnerabilities in the Xen hypervisor sometimes have security implications for Qubes OS. When they do, we issue a notice called a Qubes security bulletin (QSB) (https://www.qubes-os.org/security/qsb/). (QSBs are also issued for non-Xen vulnerabilities.) However, QSBs can provide only positive confirmation that certain XSAs do affect the security of Qubes OS. QSBs cannot provide negative confirmation that other XSAs do not affect the security of Qubes OS. Therefore, we also maintain an XSA tracker (https://www.qubes-os.org/security/xsa/), which is a comprehensive list of all XSAs publicly disclosed to date, including whether each one affects the security of Qubes OS. When new XSAs are published, we add them to the XSA tracker and publish a notice like this one in order to inform Qubes users that a new batch of XSAs has been released and whether each one affects the security of Qubes OS.
https://www.qubes-os.org/news/2024/12/18/xsas-released-on-2024-12-17/
The Xen Project (https://xenproject.org/) has released one or more Xen security advisories (XSAs) (https://xenbits.xen.org/xsa/).
The security of Qubes OS is not affected.
XSAs that DO affect the security of Qubes OS
The following XSAs do affect the security of Qubes OS:
(none)
XSAs that DO NOT affect the security of Qubes OS
The following XSAs do not affect the security of Qubes OS, and no user action is necessary:
XSA-465 (https://xenbits.xen.org/xsa/advisory-465.html)
Denial of service only
XSA-466 (https://xenbits.xen.org/xsa/advisory-466.html)
Internal to domUs
About this announcement
Qubes OS uses the Xen hypervisor (https://wiki.xenproject.org/wiki/Xen_Project_Software_Overview) as part of its architecture (https://www.qubes-os.org/doc/architecture/). When the Xen Project (https://xenproject.org/) publicly discloses a vulnerability in the Xen hypervisor, they issue a notice called a Xen security advisory (XSA) (https://xenproject.org/developers/security-policy/). Vulnerabilities in the Xen hypervisor sometimes have security implications for Qubes OS. When they do, we issue a notice called a Qubes security bulletin (QSB) (https://www.qubes-os.org/security/qsb/). (QSBs are also issued for non-Xen vulnerabilities.) However, QSBs can provide only positive confirmation that certain XSAs do affect the security of Qubes OS. QSBs cannot provide negative confirmation that other XSAs do not affect the security of Qubes OS. Therefore, we also maintain an XSA tracker (https://www.qubes-os.org/security/xsa/), which is a comprehensive list of all XSAs publicly disclosed to date, including whether each one affects the security of Qubes OS. When new XSAs are published, we add them to the XSA tracker and publish a notice like this one in order to inform Qubes users that a new batch of XSAs has been released and whether each one affects the security of Qubes OS.
What’s new in Qubes 4.2.4?
All security updates to date
All bug fixes to date
Included Fedora template upgraded from Fedora 40 to 41
For more information about the changes included in this version, see the Qubes OS 4.2 release notes (https://www.qubes-os.org/doc/releases/4.2/release-notes/) and the full list of issues completed since the previous stable release (https://github.com/QubesOS/qubes-issues/issues?q=is%3Aissue%20is%3Aclosed%20reason%3Acompleted%20closed%3A2024-09-17..2025-01-30%20-label%3A%22R%3A%20cannot%20reproduce%22%20-label%3A%22R%3A%20declined%22%20-label%3A%22R%3A%20duplicate%22%20-label%3A%22R%3A%20not%20applicable%22%20-label%3A%22R%3A%20self-closed%22%20-label%3A%22R%3A%20upstream%20issue%22).
When is the stable release?
That depends on the number of bugs discovered in this RC and their severity. As explained in our release schedule (https://www.qubes-os.org/doc/version-scheme/#release-schedule) documentation, our usual process after issuing a new RC is to collect bug reports, triage the bugs, and fix them. If warranted, we then issue a new RC that includes the fixes and repeat the process. We continue this iterative procedure until we’re left with an RC that’s good enough to be declared the stable release. No one can predict, at the outset, how many iterations will be required (and hence how many RCs will be needed before a stable release), but we tend to get a clearer picture of this as testing progresses.
Testing Qubes 4.2.4-rc1
If you’re willing to test (https://www.qubes-os.org/doc/testing/) this new RC, you can help us improve the eventual stable release by reporting any bugs you encounter (https://www.qubes-os.org/doc/issue-tracking/). We encourage experienced users to join the testing team (https://forum.qubes-os.org/t/joining-the-testing-team/5190). The best way to test Qubes 4.2.4-rc1 is by performing a clean installation (https://www.qubes-os.org/doc/installation-guide/) with the new ISO. We strongly recommend making a full backup (https://www.qubes-os.org/doc/how-to-back-up-restore-and-migrate/) beforehand.
As an alternative to a clean installation, there is also the option of performing an in-place upgrade without reinstalling. However, since Qubes 4.2.4 is simply Qubes 4.2 inclusive of all updates to date, this amounts to simply using a fully-updated 4.2 installation. In a sense, then, all current 4.2 users who are keeping up with updates are already testing 4.2.4-rc1, but this testing is only partial, since it does not cover things like the installation procedure.
Reminder: new signing key for Qubes 4.2
As a reminder, we published the following special announcement in Qubes Canary 032 (https://www.qubes-os.org/news/2022/09/14/canary-032/) on 2022-09-14:
We plan to create a new Release Signing Key (RSK) for Qubes OS 4.2. Normally, we have only one RSK for each major release. However, for the 4.2 release, we will be using Qubes Builder version 2, which is a complete rewrite of the Qubes Builder. Out of an abundance of caution, we would like to isolate the build processes of the current stable 4.1 release and the upcoming 4.2 release from each other at the cryptographic level in order to minimize the risk of a vulnerability in one affecting the other. We are including this notice as a canary special announcement since introducing a new RSK for a minor release is an exception to our usual RSK management policy.
As always, we encourage you to authenticate (https://www.qubes-os.org/security/pack/#how-to-obtain-and-authenticate) this canary by verifying its PGP signatures (https://www.qubes-os.org/security/verifying-signatures/). Specific instructions are also included in the canary announcement (https://www.qubes-os.org/news/2022/09/14/canary-032/).
All security updates to date
All bug fixes to date
Included Fedora template upgraded from Fedora 40 to 41
For more information about the changes included in this version, see the Qubes OS 4.2 release notes (https://www.qubes-os.org/doc/releases/4.2/release-notes/) and the full list of issues completed since the previous stable release (https://github.com/QubesOS/qubes-issues/issues?q=is%3Aissue%20is%3Aclosed%20reason%3Acompleted%20closed%3A2024-09-17..2025-01-30%20-label%3A%22R%3A%20cannot%20reproduce%22%20-label%3A%22R%3A%20declined%22%20-label%3A%22R%3A%20duplicate%22%20-label%3A%22R%3A%20not%20applicable%22%20-label%3A%22R%3A%20self-closed%22%20-label%3A%22R%3A%20upstream%20issue%22).
When is the stable release?
That depends on the number of bugs discovered in this RC and their severity. As explained in our release schedule (https://www.qubes-os.org/doc/version-scheme/#release-schedule) documentation, our usual process after issuing a new RC is to collect bug reports, triage the bugs, and fix them. If warranted, we then issue a new RC that includes the fixes and repeat the process. We continue this iterative procedure until we’re left with an RC that’s good enough to be declared the stable release. No one can predict, at the outset, how many iterations will be required (and hence how many RCs will be needed before a stable release), but we tend to get a clearer picture of this as testing progresses.
Testing Qubes 4.2.4-rc1
If you’re willing to test (https://www.qubes-os.org/doc/testing/) this new RC, you can help us improve the eventual stable release by reporting any bugs you encounter (https://www.qubes-os.org/doc/issue-tracking/). We encourage experienced users to join the testing team (https://forum.qubes-os.org/t/joining-the-testing-team/5190). The best way to test Qubes 4.2.4-rc1 is by performing a clean installation (https://www.qubes-os.org/doc/installation-guide/) with the new ISO. We strongly recommend making a full backup (https://www.qubes-os.org/doc/how-to-back-up-restore-and-migrate/) beforehand.
As an alternative to a clean installation, there is also the option of performing an in-place upgrade without reinstalling. However, since Qubes 4.2.4 is simply Qubes 4.2 inclusive of all updates to date, this amounts to simply using a fully-updated 4.2 installation. In a sense, then, all current 4.2 users who are keeping up with updates are already testing 4.2.4-rc1, but this testing is only partial, since it does not cover things like the installation procedure.
Reminder: new signing key for Qubes 4.2
As a reminder, we published the following special announcement in Qubes Canary 032 (https://www.qubes-os.org/news/2022/09/14/canary-032/) on 2022-09-14:
We plan to create a new Release Signing Key (RSK) for Qubes OS 4.2. Normally, we have only one RSK for each major release. However, for the 4.2 release, we will be using Qubes Builder version 2, which is a complete rewrite of the Qubes Builder. Out of an abundance of caution, we would like to isolate the build processes of the current stable 4.1 release and the upcoming 4.2 release from each other at the cryptographic level in order to minimize the risk of a vulnerability in one affecting the other. We are including this notice as a canary special announcement since introducing a new RSK for a minor release is an exception to our usual RSK management policy.
As always, we encourage you to authenticate (https://www.qubes-os.org/security/pack/#how-to-obtain-and-authenticate) this canary by verifying its PGP signatures (https://www.qubes-os.org/security/verifying-signatures/). Specific instructions are also included in the canary announcement (https://www.qubes-os.org/news/2022/09/14/canary-032/).
👍2🔥1
As with all Qubes signing keys, we also encourage you to authenticate (https://www.qubes-os.org/security/verifying-signatures/#how-to-import-and-authenticate-release-signing-keys) the Qubes OS Release 4.2 Signing Key, which is available in the Qubes Security Pack (qubes-secpack) (https://www.qubes-os.org/security/pack/) as well as on the downloads (https://www.qubes-os.org/downloads/) page.
What is a release candidate?
A release candidate (RC) is a software build that has the potential to become a stable release, unless significant bugs are discovered in testing. RCs are intended for more advanced (or adventurous!) users who are comfortable testing early versions of software that are potentially buggier than stable releases. You can read more about Qubes OS supported releases (https://www.qubes-os.org/doc/supported-releases/) and the version scheme (https://www.qubes-os.org/doc/version-scheme/) in our documentation.
What is a patch release?
The Qubes OS Project uses the semantic versioning (https://semver.org/) standard. Version numbers are written as ... Hence, we refer to releases that increment the third number as “patch releases.” A patch release does not designate a separate, new major or minor release of Qubes OS. Rather, it designates its respective major or minor release (in this case, 4.2) inclusive of all updates up to a certain point. (See supported releases (https://www.qubes-os.org/doc/supported-releases/) for a comprehensive list of major and minor releases.) Installing the initial Qubes 4.2.0 release and fully updating (https://www.qubes-os.org/doc/how-to-update/) it results in essentially the same system as installing Qubes 4.2.4. You can learn more about how Qubes release versioning works in the version scheme (https://www.qubes-os.org/doc/version-scheme/) documentation.
What is a release candidate?
A release candidate (RC) is a software build that has the potential to become a stable release, unless significant bugs are discovered in testing. RCs are intended for more advanced (or adventurous!) users who are comfortable testing early versions of software that are potentially buggier than stable releases. You can read more about Qubes OS supported releases (https://www.qubes-os.org/doc/supported-releases/) and the version scheme (https://www.qubes-os.org/doc/version-scheme/) in our documentation.
What is a patch release?
The Qubes OS Project uses the semantic versioning (https://semver.org/) standard. Version numbers are written as ... Hence, we refer to releases that increment the third number as “patch releases.” A patch release does not designate a separate, new major or minor release of Qubes OS. Rather, it designates its respective major or minor release (in this case, 4.2) inclusive of all updates up to a certain point. (See supported releases (https://www.qubes-os.org/doc/supported-releases/) for a comprehensive list of major and minor releases.) Installing the initial Qubes 4.2.0 release and fully updating (https://www.qubes-os.org/doc/how-to-update/) it results in essentially the same system as installing Qubes 4.2.4. You can learn more about how Qubes release versioning works in the version scheme (https://www.qubes-os.org/doc/version-scheme/) documentation.
Xen Project Winter Meetup
https://xenproject.org/blog/xen-project-winter-meetup/
We just wrapped up the Xen Winter Meetup 2025. It was an amazing opportunity to push Xen forward in a way that can only happen when people get together in person. Organized by Vates, we hosted it at the University of Grenoble IMAG building, a great spot for cutting-edge research
https://xenproject.org/blog/xen-project-winter-meetup/
We just wrapped up the Xen Winter Meetup 2025. It was an amazing opportunity to push Xen forward in a way that can only happen when people get together in person. Organized by Vates, we hosted it at the University of Grenoble IMAG building, a great spot for cutting-edge research
Qubes OS 4.2.4 has been released!
https://www.qubes-os.org/news/2025/02/18/qubes-os-4-2-4-has-been-released/
We’re pleased to announce the stable release of Qubes OS 4.2.4! This patch release aims to consolidate all the security patches, bug fixes, and other updates that have occurred since the previous stable release. Our goal is to provide a secure and convenient way for users to install (or reinstall) the latest stable Qubes release with an up-to-date ISO. The ISO and associated verification files (https://www.qubes-os.org/security/verifying-signatures/) are available on the downloads (https://www.qubes-os.org/downloads/) page.
What’s new in Qubes 4.2.4?
All security updates to date
All bug fixes to date
Included Fedora template upgraded from Fedora 40 to 41
For more information about the changes included in this version, see the Qubes OS 4.2 release notes (https://www.qubes-os.org/doc/releases/4.2/release-notes/) and the full list of issues completed since the previous stable release (https://github.com/QubesOS/qubes-issues/issues?q=is%3Aissue%20is%3Aclosed%20reason%3Acompleted%20closed%3A2024-09-17..2025-01-30%20-label%3A%22R%3A%20cannot%20reproduce%22%20-label%3A%22R%3A%20declined%22%20-label%3A%22R%3A%20duplicate%22%20-label%3A%22R%3A%20not%20applicable%22%20-label%3A%22R%3A%20self-closed%22%20-label%3A%22R%3A%20upstream%20issue%22).
How to get Qubes 4.2.4
You have a couple different options, depending on your situation:
If you’d like to install Qubes OS for the first time or perform a clean reinstallation on an existing system, there’s never been a better time to do so! Simply download (https://www.qubes-os.org/downloads/) the Qubes 4.2.4 ISO and follow our installation guide (https://www.qubes-os.org/doc/installation-guide/).
If you’re currently on Qubes 4.2 (including 4.2.0, 4.2.1, 4.2.2, 4.2.3, and 4.2.4-rc1), update normally (https://www.qubes-os.org/doc/how-to-update/) (which includes upgrading any EOL templates and standalones (https://www.qubes-os.org/doc/how-to-update/#upgrading-to-avoid-eol) you might have) in order to make your system essentially equivalent to the stable Qubes 4.2.4 release. No reinstallation or other special action is required.
Please note that Qubes 4.1 has reached end-of-life (https://www.qubes-os.org/news/2024/06/18/qubes-os-4-1-has-reached-end-of-life-extended-security-support-continues-until-2024-07-31/) and extended security support for Qubes 4.1 has ended (https://www.qubes-os.org/news/2024/08/01/extended-security-support-for-qubes-os-4-1-has-ended/). If you’re still on Qubes 4.1 or an earlier release, you should upgrade to Qubes 4.2 immediately (https://www.qubes-os.org/doc/upgrade/4.2/).
In all cases, we strongly recommend making a full backup (https://www.qubes-os.org/doc/how-to-back-up-restore-and-migrate/) beforehand.
Reminder: new signing key for Qubes 4.2
As a reminder for those upgrading from Qubes 4.1 and earlier, we published the following special announcement in Qubes Canary 032 (https://www.qubes-os.org/news/2022/09/14/canary-032/) on 2022-09-14:
We plan to create a new Release Signing Key (RSK) for Qubes OS 4.2. Normally, we have only one RSK for each major release. However, for the 4.2 release, we will be using Qubes Builder version 2, which is a complete rewrite of the Qubes Builder. Out of an abundance of caution, we would like to isolate the build processes of the current stable 4.1 release and the upcoming 4.2 release from each other at the cryptographic level in order to minimize the risk of a vulnerability in one affecting the other. We are including this notice as a canary special announcement since introducing a new RSK for a minor release is an exception to our usual RSK management policy.
https://www.qubes-os.org/news/2025/02/18/qubes-os-4-2-4-has-been-released/
We’re pleased to announce the stable release of Qubes OS 4.2.4! This patch release aims to consolidate all the security patches, bug fixes, and other updates that have occurred since the previous stable release. Our goal is to provide a secure and convenient way for users to install (or reinstall) the latest stable Qubes release with an up-to-date ISO. The ISO and associated verification files (https://www.qubes-os.org/security/verifying-signatures/) are available on the downloads (https://www.qubes-os.org/downloads/) page.
What’s new in Qubes 4.2.4?
All security updates to date
All bug fixes to date
Included Fedora template upgraded from Fedora 40 to 41
For more information about the changes included in this version, see the Qubes OS 4.2 release notes (https://www.qubes-os.org/doc/releases/4.2/release-notes/) and the full list of issues completed since the previous stable release (https://github.com/QubesOS/qubes-issues/issues?q=is%3Aissue%20is%3Aclosed%20reason%3Acompleted%20closed%3A2024-09-17..2025-01-30%20-label%3A%22R%3A%20cannot%20reproduce%22%20-label%3A%22R%3A%20declined%22%20-label%3A%22R%3A%20duplicate%22%20-label%3A%22R%3A%20not%20applicable%22%20-label%3A%22R%3A%20self-closed%22%20-label%3A%22R%3A%20upstream%20issue%22).
How to get Qubes 4.2.4
You have a couple different options, depending on your situation:
If you’d like to install Qubes OS for the first time or perform a clean reinstallation on an existing system, there’s never been a better time to do so! Simply download (https://www.qubes-os.org/downloads/) the Qubes 4.2.4 ISO and follow our installation guide (https://www.qubes-os.org/doc/installation-guide/).
If you’re currently on Qubes 4.2 (including 4.2.0, 4.2.1, 4.2.2, 4.2.3, and 4.2.4-rc1), update normally (https://www.qubes-os.org/doc/how-to-update/) (which includes upgrading any EOL templates and standalones (https://www.qubes-os.org/doc/how-to-update/#upgrading-to-avoid-eol) you might have) in order to make your system essentially equivalent to the stable Qubes 4.2.4 release. No reinstallation or other special action is required.
Please note that Qubes 4.1 has reached end-of-life (https://www.qubes-os.org/news/2024/06/18/qubes-os-4-1-has-reached-end-of-life-extended-security-support-continues-until-2024-07-31/) and extended security support for Qubes 4.1 has ended (https://www.qubes-os.org/news/2024/08/01/extended-security-support-for-qubes-os-4-1-has-ended/). If you’re still on Qubes 4.1 or an earlier release, you should upgrade to Qubes 4.2 immediately (https://www.qubes-os.org/doc/upgrade/4.2/).
In all cases, we strongly recommend making a full backup (https://www.qubes-os.org/doc/how-to-back-up-restore-and-migrate/) beforehand.
Reminder: new signing key for Qubes 4.2
As a reminder for those upgrading from Qubes 4.1 and earlier, we published the following special announcement in Qubes Canary 032 (https://www.qubes-os.org/news/2022/09/14/canary-032/) on 2022-09-14:
We plan to create a new Release Signing Key (RSK) for Qubes OS 4.2. Normally, we have only one RSK for each major release. However, for the 4.2 release, we will be using Qubes Builder version 2, which is a complete rewrite of the Qubes Builder. Out of an abundance of caution, we would like to isolate the build processes of the current stable 4.1 release and the upcoming 4.2 release from each other at the cryptographic level in order to minimize the risk of a vulnerability in one affecting the other. We are including this notice as a canary special announcement since introducing a new RSK for a minor release is an exception to our usual RSK management policy.
As always, we encourage you to authenticate (https://www.qubes-os.org/security/pack/#how-to-obtain-and-authenticate) this canary by verifying its PGP signatures (https://www.qubes-os.org/security/verifying-signatures/). Specific instructions are also included in the canary announcement (https://www.qubes-os.org/news/2022/09/14/canary-032/).
As with all Qubes signing keys, we also encourage you to authenticate (https://www.qubes-os.org/security/verifying-signatures/#how-to-import-and-authenticate-release-signing-keys) the Qubes OS Release 4.2 Signing Key, which is available in the Qubes Security Pack (qubes-secpack) (https://www.qubes-os.org/security/pack/) as well as on the downloads (https://www.qubes-os.org/downloads/) page.
What is a patch release?
The Qubes OS Project uses the semantic versioning (https://semver.org/) standard. Version numbers are written as ... Hence, we refer to releases that increment the third number as “patch releases.” A patch release does not designate a separate, new major or minor release of Qubes OS. Rather, it designates its respective major or minor release (in this case, 4.2) inclusive of all updates up to a certain point. (See supported releases (https://www.qubes-os.org/doc/supported-releases/) for a comprehensive list of major and minor releases.) Installing the initial Qubes 4.2.0 release and fully updating (https://www.qubes-os.org/doc/how-to-update/) it results in essentially the same system as installing Qubes 4.2.4. You can learn more about how Qubes release versioning works in the version scheme (https://www.qubes-os.org/doc/version-scheme/) documentation.
As with all Qubes signing keys, we also encourage you to authenticate (https://www.qubes-os.org/security/verifying-signatures/#how-to-import-and-authenticate-release-signing-keys) the Qubes OS Release 4.2 Signing Key, which is available in the Qubes Security Pack (qubes-secpack) (https://www.qubes-os.org/security/pack/) as well as on the downloads (https://www.qubes-os.org/downloads/) page.
What is a patch release?
The Qubes OS Project uses the semantic versioning (https://semver.org/) standard. Version numbers are written as ... Hence, we refer to releases that increment the third number as “patch releases.” A patch release does not designate a separate, new major or minor release of Qubes OS. Rather, it designates its respective major or minor release (in this case, 4.2) inclusive of all updates up to a certain point. (See supported releases (https://www.qubes-os.org/doc/supported-releases/) for a comprehensive list of major and minor releases.) Installing the initial Qubes 4.2.0 release and fully updating (https://www.qubes-os.org/doc/how-to-update/) it results in essentially the same system as installing Qubes 4.2.4. You can learn more about how Qubes release versioning works in the version scheme (https://www.qubes-os.org/doc/version-scheme/) documentation.
The NovaCustom V54 Series 14.0 inch coreboot laptop is Qubes certified!
https://www.qubes-os.org/news/2025/02/19/novacustom-v54-series-qubes-certified/
It is our pleasure to announce that the NovaCustom V54 Series 14.0 inch coreboot laptop (https://novacustom.com/product/v54-series/) is officially certified (https://www.qubes-os.org/doc/certified-hardware/) for Qubes OS Release 4!
V54 Series 14.0 inch coreboot laptop
Introducing the latest coreboot laptop equipped with cutting-edge technology. With an ultra-efficient 14th-gen Intel Meteor Lake CPU, a robust 73 WH battery, and a captivating 16:10 screen, your productivity will soar to new heights. Customize your device with a maximum of 96 GB DDR5 RAM and up to two lightning-fast PCIe SSDs. The Dasharo coreboot firmware ensures a reliable and secure foundation. Additionally, enjoy a variety of connectivity options such as Thunderbolt 4, Ethernet, plentiful USB ports, and optional Wi-Fi 7.
https://www.qubes-os.org/news/2025/02/19/novacustom-v54-series-qubes-certified/
It is our pleasure to announce that the NovaCustom V54 Series 14.0 inch coreboot laptop (https://novacustom.com/product/v54-series/) is officially certified (https://www.qubes-os.org/doc/certified-hardware/) for Qubes OS Release 4!
V54 Series 14.0 inch coreboot laptop
Introducing the latest coreboot laptop equipped with cutting-edge technology. With an ultra-efficient 14th-gen Intel Meteor Lake CPU, a robust 73 WH battery, and a captivating 16:10 screen, your productivity will soar to new heights. Customize your device with a maximum of 96 GB DDR5 RAM and up to two lightning-fast PCIe SSDs. The Dasharo coreboot firmware ensures a reliable and secure foundation. Additionally, enjoy a variety of connectivity options such as Thunderbolt 4, Ethernet, plentiful USB ports, and optional Wi-Fi 7.
Qubes-certified options
The configuration options required for Qubes certification are detailed below.
Screen size
Certified: 14 inch
Note: The 14-inch model (V540TU) and the 16-inch model (V560TU) are two separate products. The 16-inch model has already been certified. (https://www.qubes-os.org/news/2024/09/17/novacustom-v56-series-qubes-certified/)
Screen resolution
Certified: Full HD+ (1920 x 1200)
Certified: 2.8K (2880 x 1800)
Processor and graphics
Certified: Intel Core Ultra 5 Processor 125H, Intel Arc iGPU with AI Boost
Certified: Intel Core Ultra 7 Processor 155H, Intel Arc iGPU with AI Boost
The Nvidia discrete GPU options are not currently certified.
Memory
Certified: Any configuration with at least 16 GB of memory
Storage
Certified: All of the available options in these sections
Personalization
This section is merely cosmetic and therefore does not affect certification.
Firmware options
Qubes OS does not currently support UEFI secure boot.
The option to be kept up to date with firmware updates is merely an email notification service and therefore does not affect certification.
The coreboot+Heads option is not currently certified. This option is a separate firmware variant. As such, it requires a separate certification process, which we expect to occur in the future.
Disabling Intel Management Engine (HAP disabling) does not affect certification.
Operating system
Certified: Qubes OS 4.2.4 or newer (within Release 4).
Releases older than 4.2.4 are not certified.
You may choose either to have NovaCustom preinstall Qubes OS for you, or you may choose to install Qubes OS yourself. This choice does not affect certification.
Wi-Fi and Bluetooth
Certified: Intel AX-210/211 (non vPro) Wi-Fi module 2.4 Gbps, 802.11AX/Wi-Fi6E + Bluetooth 5.3
Certified: Intel BE200 (non vPro) Wi-Fi module 5.8 Gbps, 802.11BE/Wi-Fi7 + Bluetooth 5.42
Certified: No Wi-Fi chip – no Bluetooth and Wi-Fi connection possible (only with USB adapter)
Disclaimers
In order for Wi-Fi to function properly, sys-net must currently be based on a Fedora template. The firmware package in Debian templates is currently too old for the certified Wi-Fi cards.
Currently requires kernel-latest: If you install Qubes OS yourself, you must select the Install Qubes OS RX using kernel-latest option on the GRUB menu when booting the installer. This non-default kernel option is currently required for the NovaCustom V54 Series to function properly.
Due to a known bug (https://github.com/Dasharo/dasharo-issues/issues/976), the bottom-right USB-C port is currently limited to USB 2.0 speeds.
What is Qubes-certified hardware?
Qubes-certified hardware (https://www.qubes-os.org/doc/certified-hardware/) is hardware that has been certified by the Qubes developers as compatible with a specific major release (https://www.qubes-os.org/doc/version-scheme/) of Qubes OS. All Qubes-certified devices are available for purchase with Qubes OS preinstalled. Beginning with Qubes 4.0, in order to achieve certification, the hardware must satisfy a rigorous set of requirements (https://www.qubes-os.org/doc/certified-hardware/#hardware-certification-requirements), and the vendor must commit to offering customers the very same configuration (same motherboard, same screen, same BIOS version, same Wi-Fi module, etc.) for at least one year.
Qubes-certified computers (https://www.qubes-os.org/doc/certified-hardware/#qubes-certified-computers) are specific models that are regularly tested by the Qubes developers to ensure compatibility with all of Qubes’ features. The developers test all new major versions and updates to ensure that no regressions are introduced.
It is important to note, however, that Qubes hardware certification certifies only that a particular hardware configuration is supported by Qubes. The Qubes OS Project takes no responsibility for any vendor’s manufacturing, shipping, payment, or other
The configuration options required for Qubes certification are detailed below.
Screen size
Certified: 14 inch
Note: The 14-inch model (V540TU) and the 16-inch model (V560TU) are two separate products. The 16-inch model has already been certified. (https://www.qubes-os.org/news/2024/09/17/novacustom-v56-series-qubes-certified/)
Screen resolution
Certified: Full HD+ (1920 x 1200)
Certified: 2.8K (2880 x 1800)
Processor and graphics
Certified: Intel Core Ultra 5 Processor 125H, Intel Arc iGPU with AI Boost
Certified: Intel Core Ultra 7 Processor 155H, Intel Arc iGPU with AI Boost
The Nvidia discrete GPU options are not currently certified.
Memory
Certified: Any configuration with at least 16 GB of memory
Storage
Certified: All of the available options in these sections
Personalization
This section is merely cosmetic and therefore does not affect certification.
Firmware options
Qubes OS does not currently support UEFI secure boot.
The option to be kept up to date with firmware updates is merely an email notification service and therefore does not affect certification.
The coreboot+Heads option is not currently certified. This option is a separate firmware variant. As such, it requires a separate certification process, which we expect to occur in the future.
Disabling Intel Management Engine (HAP disabling) does not affect certification.
Operating system
Certified: Qubes OS 4.2.4 or newer (within Release 4).
Releases older than 4.2.4 are not certified.
You may choose either to have NovaCustom preinstall Qubes OS for you, or you may choose to install Qubes OS yourself. This choice does not affect certification.
Wi-Fi and Bluetooth
Certified: Intel AX-210/211 (non vPro) Wi-Fi module 2.4 Gbps, 802.11AX/Wi-Fi6E + Bluetooth 5.3
Certified: Intel BE200 (non vPro) Wi-Fi module 5.8 Gbps, 802.11BE/Wi-Fi7 + Bluetooth 5.42
Certified: No Wi-Fi chip – no Bluetooth and Wi-Fi connection possible (only with USB adapter)
Disclaimers
In order for Wi-Fi to function properly, sys-net must currently be based on a Fedora template. The firmware package in Debian templates is currently too old for the certified Wi-Fi cards.
Currently requires kernel-latest: If you install Qubes OS yourself, you must select the Install Qubes OS RX using kernel-latest option on the GRUB menu when booting the installer. This non-default kernel option is currently required for the NovaCustom V54 Series to function properly.
Due to a known bug (https://github.com/Dasharo/dasharo-issues/issues/976), the bottom-right USB-C port is currently limited to USB 2.0 speeds.
What is Qubes-certified hardware?
Qubes-certified hardware (https://www.qubes-os.org/doc/certified-hardware/) is hardware that has been certified by the Qubes developers as compatible with a specific major release (https://www.qubes-os.org/doc/version-scheme/) of Qubes OS. All Qubes-certified devices are available for purchase with Qubes OS preinstalled. Beginning with Qubes 4.0, in order to achieve certification, the hardware must satisfy a rigorous set of requirements (https://www.qubes-os.org/doc/certified-hardware/#hardware-certification-requirements), and the vendor must commit to offering customers the very same configuration (same motherboard, same screen, same BIOS version, same Wi-Fi module, etc.) for at least one year.
Qubes-certified computers (https://www.qubes-os.org/doc/certified-hardware/#qubes-certified-computers) are specific models that are regularly tested by the Qubes developers to ensure compatibility with all of Qubes’ features. The developers test all new major versions and updates to ensure that no regressions are introduced.
It is important to note, however, that Qubes hardware certification certifies only that a particular hardware configuration is supported by Qubes. The Qubes OS Project takes no responsibility for any vendor’s manufacturing, shipping, payment, or other
practices, nor can we control whether physical hardware is modified (whether maliciously or otherwise) en route to the user.