February 18, 2026

Clint Adams

Holger says

sq network keyserver search $id ; sq cert export --cert=$id > $id.asc

Posted on 2026-02-18

Tags: quanks

18 February, 2026 10:59PM

Antoine Beaupré

net-tools to iproute cheat sheet

This is also known as: "ifconfig is not installed by default anymore, how do I do this only with the ip command?"

I have been slowly training my brain to use the new commands but I sometimes forget some. So, here's a couple of equivalence from the old package to net-tools the new iproute2, about 10 years late:

`net-tools`	`iproute2`	shorter form	what it does
`arp -an`	`ip neighbor`	`ip n`
`ifconfig`	`ip address`	`ip a`	show current IP address
`ifconfig`	`ip link`	`ip l`	show link stats (up/down/packet counts)
`route`	`ip route`	`ip r`	show or modify the routing table
`route add default GATEWAY`	`ip route add default via GATEWAY`	`ip r a default via GATEWAY`	add default route to `GATEWAY`
`route del ROUTE`	`ip route del ROUTE`	`ip r d ROUTE`	remove `ROUTE` (e.g. `default`)
`netstat -anpe`	`ss --all --numeric --processes --extended`	`ss -anpe`	list listening processes, less pretty

Another trick

Also note that I often alias ip to ip -br -c as it provides a much prettier output.

Compare, before:

anarcat@angela:~> ip a
1: lo: <LOOPBACK,UP,LOWER_UP> mtu 65536 qdisc noqueue state UNKNOWN group default qlen 1000
    link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
    inet 127.0.0.1/8 scope host lo
       valid_lft forever preferred_lft forever
    inet6 ::1/128 scope host noprefixroute 
       valid_lft forever preferred_lft forever
2: wlan0: <NO-CARRIER,BROADCAST,MULTICAST,UP> mtu 1500 qdisc noqueue state DOWN group default qlen 1000
    link/ether xx:xx:xx:xx:xx:xx brd ff:ff:ff:ff:ff:ff permaddr xx:xx:xx:xx:xx:xx
    altname wlp166s0
    altname wlx8cf8c57333c7
4: virbr0: <NO-CARRIER,BROADCAST,MULTICAST,UP> mtu 1500 qdisc noqueue state DOWN group default qlen 1000
    link/ether xx:xx:xx:xx:xx:xx brd ff:ff:ff:ff:ff:ff
    inet 192.168.122.1/24 brd 192.168.122.255 scope global virbr0
       valid_lft forever preferred_lft forever
20: eth0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc fq_codel state UP group default qlen 1000
    link/ether xx:xx:xx:xx:xx:xx brd ff:ff:ff:ff:ff:ff
    inet 192.168.0.108/24 brd 192.168.0.255 scope global dynamic noprefixroute eth0
       valid_lft 40699sec preferred_lft 40699sec

After:

anarcat@angela:~> ip -br -c a
lo               UNKNOWN        127.0.0.1/8 ::1/128 
wlan0            DOWN           
virbr0           DOWN           192.168.122.1/24 
eth0             UP             192.168.0.108/24

I don't even need to redact MAC addresses! It also affects the display of the other commands, which look similarly neat.

Also imagine pretty colors above.

Finally, I don't have a cheat sheet for iw vs iwconfig (from wireless-tools) yet. I just use NetworkManager now and rarely have to mess with wireless interfaces directly.

Background and history

For context, there are traditionally two ways of configuring the network in Linux:

the old way, with commands like ifconfig, arp, route and netstat, those are part of the net-tools package
the new way, mostly (but not entirely!) wrapped in a single ip command, that is the iproute2 package

It seems like the latter was made "important" in Debian in 2008, which means every release since Debian 5 "lenny" (!) has featured the ip command.

The former net-tools package was demoted in December 2016 which means every release since Debian 9 "stretch" ships without an ifconfig command unless explicitly requested. Note that this was mentioned in the release notes in a similar (but, IMHO, less useful) table.

(Technically, the net-tools Debian package source still indicates it is Priority: important but that's a bug I have just filed.)

Finally, and perhaps more importantly, the name iproute is hilarious if you are a bilingual french speaker: it can be read as "I proute" which can be interpreted as "I fart" as "prout!" is the sound a fart makes. The fact that it's called iproute2 makes it only more hilarious.

18 February, 2026 04:30PM

Thomas Lange

42.000 FAI.me jobs created

The FAI.me service has reached another milestone:

The 42.000th job was submitted via the web interface since the beginning of this service in 2017.

The idea was to provide a simple web interface for end users for creating the configs for the fully automatic installation with only minimal questions and without knowing the syntax of the configuration files. Thanks a lot for using this service and for all your feedback.

The next job can be yours!

P.S.: I like to get more feedback for the FAI.me service. What do you like most? What's missing? Do you have any success story how you use the customized ISO for your deployment? Please fill out the FAI questionaire or sent feedback via email to fai.me@fai-project.org

About FAI.me

FAI.me is the service for building your own customized images via a web interface. You can create an installation or live ISO or a cloud image. For Debian, multiple release versions can be chosen, as well as installations for Ubuntu Server, Ubuntu Desktop, or Linux Mint.

Multiple options are available like selecting different desktop environments, the language and keyboard and adding a user with a password. Optional settings include adding your own package list, choosing a backports kernel, adding a postinst script and adding a ssh public key, choosing a partition layout and some more.

18 February, 2026 02:55PM

Dirk Eddelbuettel

qlcal 0.1.0 on CRAN: Easier Calendar Switching

The eighteenth release of the qlcal package arrivied at CRAN today. There have been no calendar updates in QuantLib 1.41 or 1.42 so it has been relatively quiet since the last release last summer but we now added a nice new feature (more below) leading to a new minor release version.

qlcal delivers the calendaring parts of QuantLib. It is provided (for the R package) as a set of included files, so the package is self-contained and does not depend on an external QuantLib library (which can be demanding to build). qlcal covers over sixty country / market calendars and can compute holiday lists, its complement (i.e. business day lists) and much more. Examples are in the README at the repository, the package page, and course at the CRAN package page.

This releases makes it (much) easier to work with multiple calendars. The previous setup remains: the package keeps one ‘global’ (and hidden) calendar object which can be set, queried, altered, etc. But now we added the ability to hold instantiated calendar objects in R. These are external pointer objects, and we can pass them to functions requiring a calendar. If no such optional argument is given, we fall back to the global default as before. Similarly for functions operating on one or more dates, we now simply default to the current date if none is given. That means we can now say

> sapply(c("UnitedStates/NYSE", "Canada/TSX", "Australia/ASX"), 
         \(x) qlcal::isBusinessDay(xp=qlcal::getCalendar(x)))
UnitedStates/NYSE        Canada/TSX     Australia/ASX 
             TRUE              TRUE              TRUE 
>

to query today (February 18) in several markets, or compare to two days ago when Canada and the US both observed a holiday

> sapply(c("UnitedStates/NYSE", "Canada/TSX", "Australia/ASX"),
         \(x) qlcal::isBusinessDay(as.Date("2026-02-16"), xp=qlcal::getCalendar(x)))
UnitedStates/NYSE        Canada/TSX     Australia/ASX 
            FALSE             FALSE              TRUE 
>

The full details from NEWS.Rd follow.

Changes in version 0.1.0 (2026-02-18)

Invalid calendars return id ‘TARGET’ now

Calendar object can be created on the fly and passed to the date-calculating functions; if missing global one used

For several functions a missing date object now implies computation on the current date, e.g. isBusinessDay()

Courtesy of my CRANberries, there is a diffstat report for this release. See the project page and package documentation for more details, and more examples.

This post by Dirk Eddelbuettel originated on his Thinking inside the box blog. If you like this or other open-source work I do, you can sponsor me at GitHub.

18 February, 2026 01:14PM

February 17, 2026

Russell Coker

Links February 2026

Charles Stross has a good theory of why “AI” is being pushed on corporations, really we need to just replace CEOs with LLMs [1].

This disturbing and amusing article describes how an Open AI investor appears to be having psychological problems releated to SCP based text generated by ChatGPT [2]. Definitely going to be a recursive problem as people who believe in it invest in it.

interesting analysis of dbus and design for a more secure replacement [3].

Scott Jenson gave an insightful lecture for Canonical about future potential developments in the desktop UX [4].

Ploum wrote an insightful article about the problems caused by the Github monopoly [5]. Radicale sounds interesting.

Niki Tonsky write an interesting article about the UI problems with Tahoe (latest MacOS release) due to trying to make an icon for everything [6]. They have a really good writing style as well as being well researched.

Fil-C is an interesting project to compile C/C++ programs in a memory safe way, some of which can be considered a software equivalent of CHERI [7].

Brian Krebs wrote a long list of the ways that Trump has enabled corruption and a variety of other crimes including child sex abuse in the last year [8].

This video about designing a C64 laptop is a masterclass in computer design [9].

Salon has an interesting article about the abortion thought experiment that conservatives can’t handle [10].

Ron Garrett wrote an insightful blog post about abortion [11].

Bruce Schneier and Nathan E. Sanders wrote an insightful article about the potential of LLM systems for advertising and enshittification [12]. We need serious legislation about this ASAP!

17 February, 2026 08:09AM by etbe

Freexian Collaborators

Monthly report about Debian Long Term Support, January 2026 (by Santiago Ruano Rincón)

The Debian LTS Team, funded by Freexian’s Debian LTS offering, is pleased to report its activities for January.

Activity summary

During the month of January, 20 contributors have been paid to work on Debian LTS (links to individual contributor reports are located below).

The team released 33 DLAs fixing 216 CVEs.

The team continued preparing security updates in its usual rhythm. Beyond the updates targeting Debian 11 (“bullseye”), which is the current release under LTS, the team also proposed updates for more recent releases (Debian 12 (“bookworm”) and Debian 13 (“trixie”)), including Debian unstable. We highlight several notable security updates here below.

Notable security updates:

python3.9, prepared by Andrej Shadura (DLA-4455-1), fixing multiple vulnerabilities in the Python interpreter.
php, prepared by Guilhem Moulin (DLA-4447-1), fixing two vulnerabilities that could yield to request forgery or denial of service.
apache2, prepared by Bastien Roucariès DLA-4452-1, fixing four CVEs.
linux-6.1, prepared by Ben Hutchings (DLA-4436-1), as a regular update of the linux 6.1 backport to Debian 11.
python-django, prepared by Chris Lamb (DLA-4458-1), resolving multiple vulnerabilities.
firefox-esr prepared by Emilio Pozuelo Monfort (DLA-4439-1)
gnupg2, prepared by Roberto Sánchez (DLA-4437-1), fixing multiple issues, including CVE-2025-68973 that could potentially be exploited to execute arbitrary code.
apache-log4j2, prepared by Markus Koschany (DLA-4444-1)
ceph, prepared by Utkarsh Gupta (DLA-4460-1)
inetutils, prepared by Andreas Henriksson (DLA-4453-1), fixing an authentication bypass in telnetd.

Moreover, Sylvain Beucler studied the security support status of p7zip, a fork of 7zip that has become unmaintained upstream. To avoid letting the users continue using an unsupported package, Sylvain has investigated a path forward in collaboration with the security team and the 7zip maintainer, looking to replace p7zip with 7zip. It is to note however that 7zip developers don’t reveal the information about the patches that fix CVEs, making it difficult to backport single patches to fix vulnerabilities in Debian released versions.

Contributions from outside the LTS Team:

Thunderbird, prepared by maintainer Christoph Goehre. The DLA (DLA-4442-1) was published by Emilio.

The LTS Team has also contributed with updates to the latest Debian releases:

Bastien uploaded gpsd to unstable, and proposed updates for trixie #1126121 and bookworm #1126168 to fix two CVEs.
Bastien also prepared the imagemagick updates for trixie and bookworm, released as DSA-6111-1, along with the bullseye update DLA-4448-1.
Chris proposed a trixie point update for python-django (#112646), and the work for bookworm was completed in February (#1079454). The longstanding bookworm update required tracking down a regression in the django-storages packages.
Markus prepared tomcat10 updates for trixie and bookworm (DSA-6120-1), and tomcat11 for trixie (DSA-6121-1)
Thorsten Alteholz prepared bookworm point updates for zvbi (#1126167) to fix five CVEs; taglib (#1126273) to fix one CVE; and libuev (#1126370) to fix one CVE.
Utkarsh prepared an unstable update of node-lodash to fix one CVE.

Other than the work related to updates, Sylvain made several improvements to the documentation and tooling used by the team.

Individual Debian LTS contributor reports

Thanks to our sponsors

Sponsors that joined recently are in bold.

Platinum sponsors:
- Toshiba Corporation (for 124 months)
- Civil Infrastructure Platform (CIP) (for 92 months)
- VyOS Inc (for 56 months)
Gold sponsors:
- F. Hoffmann-La Roche AG (for 134 months)
- CONET Deutschland GmbH (for 118 months)
- Plat’Home (for 117 months)
- University of Oxford (for 74 months)
- EDF SA (for 46 months)
- Dataport AöR (for 21 months)
- CERN (for 19 months)
Silver sponsors:
- Domeneshop AS (for 139 months)
- Nantes Métropole (for 133 months)
- Akamai - Linode (for 129 months)
- Univention GmbH (for 125 months)
- Université Jean Monnet de St Etienne (for 125 months)
- Ribbon Communications, Inc. (for 119 months)
- Exonet B.V. (for 109 months)
- Leibniz Rechenzentrum (for 103 months)
- Ministère de l’Europe et des Affaires Étrangères (for 87 months)
- Dinahosting SL (for 74 months)
- Upsun Formerly Platform.sh (for 68 months)
- Deveryware (for 62 months)
- Moxa Inc. (for 62 months)
- sipgate GmbH (for 60 months)
- OVH US LLC (for 58 months)
- Tilburg University (for 58 months)
- GSI Helmholtzzentrum für Schwerionenforschung GmbH (for 49 months)
- THINline s.r.o. (for 22 months)
- Copenhagen Airports A/S (for 16 months)
- Conseil Départemental de l’Isère
Bronze sponsors:
- Seznam.cz, a.s. (for 140 months)
- Evolix (for 139 months)
- Linuxhotel GmbH (for 137 months)
- Intevation GmbH (for 136 months)
- Daevel SARL (for 135 months)
- Megaspace Internet Services GmbH (for 134 months)
- Greenbone AG (for 133 months)
- NUMLOG (for 133 months)
- WinGo AG (for 132 months)
- Entr’ouvert (for 124 months)
- Adfinis AG (for 121 months)
- Laboratoire LEGI - UMR 5519 / CNRS (for 116 months)
- Tesorion (for 116 months)
- Bearstech (for 107 months)
- LiHAS (for 107 months)
- Catalyst IT Ltd (for 102 months)
- Demarcq SAS (for 96 months)
- Université Grenoble Alpes (for 82 months)
- TouchWeb SAS (for 74 months)
- SPiN AG (for 71 months)
- CoreFiling (for 67 months)
- Observatoire des Sciences de l’Univers de Grenoble (for 58 months)
- Tem Innovations GmbH (for 53 months)
- WordFinder.pro (for 53 months)
- CNRS DT INSU Résif (for 51 months)
- Soliton Systems K.K. (for 47 months)
- Alter Way (for 44 months)
- Institut Camille Jordan (for 34 months)
- SOBIS Software GmbH (for 19 months)
- Tuxera Inc. (for 10 months)
- OPM-OP AS

17 February, 2026 12:00AM by Santiago Ruano Rincón

February 16, 2026

Antoine Beaupré

Keeping track of decisions using the ADR model

In the Tor Project system Administrator's team (colloquially known as TPA), we've recently changed how we take decisions, which means you'll get clearer communications from us about upcoming changes or targeted questions about a proposal.

Note that this change only affects the TPA team. At Tor, each team has its own way of coordinating and making decisions, and so far this process is only used inside TPA. We encourage other teams inside and outside Tor to evaluate this process to see if it can improve your processes and documentation.

The new process

We had traditionally been using a "RFC" ("Request For Comments") process and have recently switched to "ADR" ("Architecture Decision Record").

The ADR process is, for us, pretty simple. It consists of three things:

a simpler template
a simpler process
communication guidelines separate from the decision record

The template

As team lead, the first thing I did was to propose a new template (in ADR-100), a variation of the Nygard template. The TPA variation of the template is similarly simple, as it has only 5 headings, and is worth quoting in full:

Context: What is the issue that we're seeing that is motivating this decision or change?
Decision: What is the change that we're proposing and/or doing?
Consequences: What becomes easier or more difficult to do because of this change?
More Information (optional): What else should we know? For larger projects, consider including a timeline and cost estimate, along with the impact on affected users (perhaps including existing Personas). Generally, this includes a short evaluation of alternatives considered.
Metadata: status, decision date, decision makers, consulted, informed users, and link to a discussion forum

The previous RFC template had 17 (seventeen!) headings, which encouraged much longer documents. Now, the decision record will be easier to read and digest at one glance.

An immediate effect of this is that I've started using GitLab issues more for comparisons and brainstorming. Instead of dumping in a document all sorts of details like pricing or in-depth alternatives comparison, we record those in the discussion issue, keeping the document shorter.

The process

The whole process is simple enough that it's worth quoting in full as well:

Major decisions are introduced to stakeholders in a meeting, smaller ones by email. A delay allows people to submit final comments before adoption.

Now, of course, the devil is in the details (and ADR-101), but the point is to keep things simple.

A crucial aspect of the proposal, which Jacob Kaplan-Moss calls the one weird trick, is to "decide who decides". Our previous process was vague about who makes the decision and the new template (and process) clarifies decision makers, for each decision.

Inversely, some decisions degenerate into endless discussions around trivial issues because too many stakeholders are consulted, a problem known as the Law of triviality, also known as the "Bike Shed syndrome".

The new process better identifies stakeholders:

"informed" users (previously "affected users")
"consulted" (previously undefined!)
"decision maker" (instead of the vague "approval")

Picking those stakeholders is still tricky, but our definitions are more explicit and aligned to the classic RACI matrix (Responsible, Accountable, Consulted, Informed).

Communication guidelines

Finally, a crucial part of the process (ADR-102) is to decouple the act of making and recording decisions from communicating about the decision. Those are two radically different problems to solve. We have found that a single document can't serve both purposes.

Because ADRs can affect a wide range of things, we don't have a specific template for communications. We suggest the Five Ws method (Who? What? When? Where? Why?) and, again, to keep things simple.

How we got there

The ADR process is not something I invented. I first stumbled upon it in the Thunderbird Android project. Then, in parallel, I was in the process of reviewing the RFC process, following Jacob Kaplan-Moss's criticism of the RFC process. Essentially, he argues that:

the RFC process "doesn't include any sort of decision-making framework"
"RFC processes tend to lead to endless discussion"
the process "rewards people who can write to exhaustion"
"these processes are insensitive to expertise", "power dynamics and power structures"

And, indeed, I have been guilty of a lot of those issues. A verbose writer, I have written extremely long proposals that I suspect no one has ever fully read. Some proposals were adopted by exhaustion, or ignored because not looping in the right stakeholders.

Our discussion issue on the topic has more details on the issues I found with our RFC process. But to give credit to the old process, it did serve us well while it was there: it's better than nothing, and it allowed us to document a staggering number of changes and decisions (95 RFCs!) made over the course of 6 years of work.

What's next?

We're still experimenting with the communication around decisions, as this text might suggest. Because it's a separate step, we also have a tendency to forget or postpone it, like this post, which comes a couple of months late.

Previously, we'd just ship a copy of the RFC to everyone, which was easy and quick, but incomprehensible to most. Now we need to write a separate communication, which is more work but, hopefully, worth the as the result is more digestible.

We can't wait to hear what you think of the new process and how it works for you, here or in the discussion issue! We're particularly interested in people that are already using a similar process, or that will adopt one after reading this.

Note: this article was also published on the Tor Blog.

16 February, 2026 08:21PM

Philipp Kern

What is happening with this "connection verification"?

You might see a verification screen pop up on more and more Debian web properties. Unfortunately the AI world of today is meeting web hosts that use Perl CGIs and are not built as multi-tiered scalable serving systems. The issues have been at three layers:

Apache's serving capacity runs full - with no threads left to serve requests. This means that your connection will sit around for a long time, not getting accepted. In theory this can be configured, but that would require requests to be handled in time.
Startup costs of request handlers are too high, because we spawn a process for every request. This currently affects the BTS and dgit's browse interface. packages.debian.org has been fixed, which increased scalability sufficiently.
Requests themselves are too expensive to be served quickly - think git blame without caching.

Optimally we would go and solve some scalability issues with the services, however there is also a question of how much we want to be able to serve - as AI scraper demand is just a steady stream of requests that are not shown to humans.

How is it implemented?

DSA has now stood up some VMs with Varnish for proxying. Incoming TLS is provided by hitch, and TLS "on-loading" is done using haproxy. That way TLS goes in and TLS goes out. While Varnish does cache, if the content is cachable (e.g. does not depend on cookies) - that is not the primary reason for using it: It can be used for flexible query and response rewriting.

If no cookie with a proof of work is provided, the user is redirected to a challenge page that does some webcrypto in Javascript - because that looked similar to what other projects do (e.g. haphash that originally inspired the solution). However so far it looks like scrapers generally do not run with Javascript enabled, so this whole crypto proof of work business could probably be replaced with just a Javascript-based redirect. The existing solution also has big (security) holes in it. And, as we found out, Firefox is slower at webcrypto than Chrome. I have recently reduced the complexity, so you should notice it blocking you significantly less.

Once you have the cookie, you can keep accessing the site for as long as the cookie is valid. Please do not make any assumptions about the cookies, or you will be broken in the future.

For legitimate scrapers that obey robots.txt, there is now an automatically generated IP allowlist in place (thanks, Marco d'Itri). Turns out that the search engines do not actually run Javascript either and then loudly complain about the redirect to the challenge page. Other bots are generally exempt.

Conclusion

I hope that right now we found sort of the sweet spot where the admins can stop spending human time on updating firewall rules and the services are generally available, reasonably fast, and still indexed. In case you see problems or run into a block with your own (legitimate) bots, please let me know.

16 February, 2026 07:55PM by Philipp Kern (noreply@blogger.com)

Antoine Beaupré

Kernel-only network configuration on Linux

What if I told you there is a way to configure the network on any Linux server that:

works across all distributions
doesn't require any software installed apart from the kernel and a boot loader (no systemd-networkd, ifupdown, NetworkManager, nothing)
is backwards compatible all the way back to Linux 2.0, in 1996

It has literally 8 different caveats on top of that, but is still totally worth your time.

Known options in Debian

People following Debian development might have noticed there are now four ways of configuring the network Debian system. At least that is what the Debian wiki claims, namely:

ifupdown (/etc/network/interfaces): traditional static configuration system, mostly for workstations and servers that has been there forever in Debian (since at least 2000), documented in the Debian wiki
NetworkManager: self-proclaimed "standard Linux network configuration", mostly used on desktops but technically supports servers as well, see the Debian wiki page (introduced in 2004)
systemd-network: used more for servers, see Debian reference Doc Chapter 5 (introduced some time around Debian 8 "jessie", in 2015)
Netplan: latest entry (2018), YAML-based configuration abstraction layer on top of the above two, see also Debian reference Doc Chapter 5 and the Debian wiki

At this point, I feel ifupdown is on its way out, possibly replaced by systemd-networkd. NetworkManager already manages most desktop configurations.

A "new" network configuration system

The method is this:

ip= on the Linux kernel command line: for servers with a single IPv4 or IPv6 address, no software required other than the kernel and a boot loader (since 2002 or older)

So by "new" I mean "new to me". This option is really old. The nfsroot.txt where it is documented predates the git import of the Linux kernel: it's part of the 2005 git import of 2.6.12-rc2. That's already 20+ years old already.

The oldest trace I found is in this 2002 commit, which imports the whole file at once, but the option might goes back as far as 1996-1997, if the copyright on the file is correct and the option was present back then.

What are you doing.

The trick is to add an ip= parameter to the kernel's command-line. The syntax, as mentioned above, is in nfsroot.txt and looks like this:

ip=<client-ip>:<server-ip>:<gw-ip>:<netmask>:<hostname>:<device>:<autoconf>:<dns0-ip>:<dns1-ip>:<ntp0-ip>

Most settings are pretty self-explanatory, if you ignore the useless ones:

<client-ip>: IP address of the server
<gw-ip>: address of the gateway
<netmask>: netmask, in quad notation
<device>: interface name, if multiple available
<autoconf>: how to configure the interface, namely:
- off or none: no autoconfiguration (static)
- on or any: use any protocol (default)
- dhcp, essentially like on for all intents and purposes
<dns0-ip>, <dns1-ip>: IP address of primary and secondary name servers, exported to /proc/net/pnp, can by symlinked to /etc/resolv.conf

We're ignoring the options:

<server-ip>: IP address of the NFS server, exported to /proc/net/pnp
<hostnname>: Name of the client, typically sent over the DHCP requests, which may lead to a DNS record to be created in some networks
<ntp0-ip>: exported to /proc/net/ipconfig/ntp_servers, unused by the kernel

Note that the Red Hat manual has a different opinion:

ip=[<server-id>]:<gateway-IP-number>:<netmask>:<client-hostname>:inteface:[dhcp|dhcp6|auto6|on|any|none|off]

It's essentially the same (although server-id is weird), and the autoconf variable has other settings, so that's a bit odd.

Examples

For example, this command-line setting:

ip=192.0.2.42::192.0.2.1:255.255.255.0:::off

... will set the IP address to 192.0.2.42/24 and the gateway to 192.0.2.1. This will properly guess the network interface if there's a single one.

A DHCP only configuration will look like this:

ip=::::::dhcp

Of course, you don't want to type this by hand every time you boot the machine. That wouldn't work. You need to configure the kernel commandline, and that depends on your boot loader.

GRUB

With GRUB, you need to edit (on Debian), the file /etc/default/grub (ugh) and find a line like:

GRUB_CMDLINE_LINUX=

and change it to:

GRUB_CMDLINE_LINUX=ip=::::::dhcp

systemd-boot and UKI setups

For systemd-boot UKI setups, it's simpler: just add the setting to the /etc/kernel/cmdline file. Don't forget to include anything that's non-default from /proc/cmdline.

This assumes that is the Cmdline=@ setting in /etc/kernel/uki.conf. See 2025-08-20-luks-ukify-conversion for my minimal documentation on this.

Other systems

This is perhaps where this is much less portable than it might first look, because of course each distribution has its own way of configuring those options. Here are some that I know of:

Arch (11 options, mostly /etc/default/grub, /boot/loader/entries/arch.conf for systemd-boot or /etc/kernel/cmdline for UKI)
Fedora (mostly /etc/default/grub, may be more RHEL mentions grubby, possibly some systemd-boot things here as well)
Gentoo (5 options, mostly /etc/default/grub, /efi/loader/entries/gentoo-sources-kernel.conf for systemd-boot, or /etc/kernel/install.d/95-uki-with-custom-opts.install)

It's interesting that /etc/default/grub is consistent across all distributions above, while the systemd-boot setups are all over the place (except for the UKI case), while I would have expected those be more standard than GRUB.

dropbear-initramfs

If dropbear-initramfs is setup, it already requires you to have such a configuration, and it might not work out of the box.

This is because, by default, it disables the interfaces configured in the kernel after completing its tasks (typically unlocking the encrypted disks).

To fix this, you need to disable that "feature":

IFDOWN="none"

This will keep dropbear-initramfs from disabling the configured interface.

Why?

Traditionally, I've always setup my servers with ifupdown on servers and NetworkManager on laptops, because that's essentially the default. But on some machines, I've started using systemd-networkd because ifupdown has ... issues, particularly with reloading network configurations. ifupdown is a old hack, feels like legacy, and is Debian-specific.

Not excited about configuring another service, I figured I would try something else: just configure the network at boot, through the kernel command-line.

I was already doing such configurations for dropbear-initramfs (see this documentation), which requires the network the be up for unlocking the full-disk encryption keys.

So in a sense, this is a "Don't Repeat Yourself" solution.

Caveats

Also known as: "wait, that works?" Yes, it does! That said...

This is useful for servers where the network configuration will not change after boot. Of course, this won't work on laptops or any mobile device.
This only works for configuring a single, simple, interface. You can't configure multiple interfaces, WiFi, bridges, VLAN, bonding, etc.
It does support IPv6 and feels like the best way to configure IPv6 hosts: true zero configuration.
It likely does not work with a dual-stack IPv4/IPv6 static configuration. It might work with a dynamic dual stack configuration, but I doubt it.
I don't know what happens when a DHCP lease expires. No daemon seems to be running so I assume leases are not renewed, so this is more useful for static configurations, which includes server-side reserved fixed IP addresses. (A non-renewed lease risks getting reallocated to another machine, which would cause an addressing conflict.)
It will not automatically reconfigure the interface on link changes, but ifupdown does not either.
It will not write /etc/resolv.conf for you but the dns0-ip and dns1-ip do end up in /proc/net/pnp which has a compatible syntax, so a common configuration is:
```
ln -s /proc/net/pnp /etc/resolv.conf
```
I have not really tested this at scale: only a single, test server at home.

Yes, that's a lot of caveats, but it happens to cover a lot of machines for me, and it works surprisingly well. My main doubts are about long-term DHCP behaviour, but I don't see why that would be a problem with a statically defined lease.

Cleanup

Once you have this configuration, you don't need any "user" level network system, so you can get rid of everything:

apt purge systemd-networkd ifupdown network-manager netplan.io

Note that ifupdown (and probably others) leave stray files in (e.g.) /etc/network which you might want to cleanup, or keep in case all this fails and I have put you in utter misery. Configuration files for other packages might also be left behind, I haven't tested this, no warranty.

Credits

This whole idea came from the A/I folks (not to be confused with AI) who have been doing this forever, thanks!

16 February, 2026 04:18AM

Benjamin Mako Hill

Why do people participate in similar online communities?

Note: I have not published blog posts about my academic papers over the past few years. To ensure that my blog contains a more comprehensive record of my published papers and to surface these for folks who missed them, I will be periodically (re)publishing blog posts about some “older” published projects.

It seems natural to think of online communities competing for the time and attention of their participants. Over the last few years, I’ve worked with a team of collaborators—led by Nathan TeBlunthuis—to use mathematical and statistical techniques from ecology to understand these dynamics. What we’ve found surprised us: competition between online communities is rare and typically short-lived.

When we started this research, we figured competition would be most likely among communities discussing similar topics. As a first step, we identified clusters of such communities on Reddit. One surprising thing we noticed in our Reddit data was that many of these communities that used similar language also had very high levels of overlap among their users. This was puzzling: why were the same groups of people talking to each other about the same things in different places? And why don’t they appear to be in competition with each other for their users’ time and activity?

We didn’t know how to answer this question using quantitative methods. As a result, we recruited and interviewed 20 active participants in clusters of highly related subreddits with overlapping user bases (for example, one cluster was focused on vintage audio).

We found that the answer to the puzzle lay in the fact that the people we talked to were looking for three distinct things from the communities they worked in:

The ability to connect to specific information and narrowly scoped discussions.
The ability to socialize with people who are similar to themselves.
Attention from the largest possible audience.

Critically, we also found that these three things represented a “trilemma,” and that no single community can meet all three needs. You might find two of the three in a single community, but you could never have all three.

The end result is something I recognize in how I engage with online communities on platforms like Reddit. People tend to engage with a portfolio of communities that vary in size, specialization, topical focus, and rules. Compared with any single community, such overlapping systems can provide a wider range of benefits. No community can do everything.

This work was published as a paper at CSCW: TeBlunthuis, Nathan, Charles Kiene, Isabella Brown, Laura (Alia) Levi, Nicole McGinnis, and Benjamin Mako Hill. 2022. “No Community Can Do Everything: Why People Participate in Similar Online Communities.” Proceedings of the ACM on Human-Computer Interaction 6 (CSCW1): 61:1-61:25. https://doi.org/10.1145/3512908.

This work was supported by the National Science Foundation (awards IIS-1908850, IIS-1910202, and GRFP-2016220885). A full list of acknowledgements is in the paper.

16 February, 2026 03:13AM by Benjamin Mako Hill

February 15, 2026

Ian Jackson

Adopting tag2upload and modernising your Debian packaging

Introduction

tag2upload allows authorised Debian contributors to upload to Debian simply by pushing a signed git tag to Debian’s gitlab instance, Salsa.

We have recently announced that tag2upload is, in our opinion, now very stable, and ready for general use by all Debian uploaders.

tag2upload, as part of Debian’s git transition programme, is very flexible - it needs to support a large variety of maintainer practices. And it’s relatively unopinionated, wherever that’s possible. But, during the open beta, various contributors emailed us asking for Debian packaging git workflow advice and recommendations.

This post is an attempt to give some more opinionated answers, and guide you through modernising your workflow.

(This article is aimed squarely at Debian contributors. Much of it will make little sense to Debian outsiders.)

Why

Ease of development

git offers a far superior development experience to patches and tarballs. Moving tasks from a tarballs and patches representation to a normal, git-first, representation, makes everything simpler.

dgit and tag2upload do automatically many things that have to be done manually, or with separate commands, in dput-based upload workflows.

They will also save you from a variety of common mistakes. For example, you cannot accidentally overwrite an NMU, with tag2upload or dgit. These many safety catches mean that our software sometimes complains about things, or needs confirmation, when more primitive tooling just goes ahead. We think this is the right tradeoff: it’s part of the great care we take to avoid our software making messes. Software that has your back is very liberating for the user.

tag2upload makes it possible to upload with very small amounts of data transfer, which is great in slow or unreliable network environments. The other week I did a git-debpush over mobile data while on a train in Switzerland; it completed in seconds.

See the Day-to-day work section below to see how simple your life could be.

Don’t fear a learning burden; instead, start forgetting all that nonsense

Most Debian contributors have spent months or years learning how to work with Debian’s tooling. You may reasonably fear that our software is yet more bizarre, janky, and mistake-prone stuff to learn.

We promise (and our users tell us) that’s not how it is. We have spent a lot of effort on providing a good user experience. Our new git-first tooling, especially dgit and tag2upload, is much simpler to use than source-package-based tooling, despite being more capable.

The idiosyncrasies and bugs of source packages, and of the legacy archive, have been relentlessly worked around and papered over by our thousands of lines of thoroughly-tested defensive code. You too can forget all those confusing details, like our users have! After using our systems for a while you won’t look back.

And, you shouldn’t fear trying it out. dgit and tag2upload are unlikely to make a mess. If something is wrong (or even doubtful), they will typically detect it, and stop. This does mean that starting to use tag2upload or dgit can involve resolving anomalies that previous tooling ignored, or passing additional options to reassure the system about your intentions. So admittedly it isn’t always trivial to get your first push to succeed.

Properly publishing the source code

One of Debian’s foundational principles is that we publish the source code.

Nowadays, the vast majority of us, and of our upstreams, are using git. We are doing this because git makes our life so much easier.

But, without tag2upload or dgit, we aren’t properly publishing our work! Yes, we typically put our git branch on Salsa, and point Vcs-Git at it. However:

The format of git branches on Salsa is not standardised. They might be patches-unapplied, patches-applied, bare debian/, or something even stranger.
There is no guarantee that the DEP-14 debian/1.2.3-7 tag on salsa corresponds precisely to what was actually uploaded. dput-based tooling (such as gbp buildpackage) doesn’t cross-check the .dsc against git.
There is no guarantee that the presence of a DEP-14 tag even means that that version of package is in the archive.

This means that the git repositories on Salsa cannot be used by anyone who needs things that are systematic and always correct. They are OK for expert humans, but they are awkward (even hazardous) for Debian novices, and you cannot use them in automation. The real test is: could you use Vcs-Git and Salsa to build a Debian derivative? You could not.

tag2upload and dgit do solve this problem. When you upload, they:

Make a canonical-form (patches-applied) derivative of your git branch;
Ensure that there is a well-defined correspondence between the git tree and the source package;
Publish both the DEP-14 tag and a canonical-form archive/debian/1.2.3-7 tag to a single central git depository, *.dgit.debian.org;
Record the git information in the Dgit field in .dsc so that clients can tell (using the ftpmaster API) that this was a git-based upload, what the corresponding git objects are, and where to find them.

This dependably conveys your git history to users and downstreams, in a standard, systematic and discoverable way. tag2upload and dgit are the only system which achieves this.

(The client is dgit clone, as advertised in e.g. dgit-user(7). For dput-based uploads, it falls back to importing the source package.)

Adopting tag2upload - the minimal change

tag2upload is a substantial incremental improvement to many existing workflows. git-debpush is a drop-in replacement for building, signing, and uploading the source package.

So, you can just adopt it without completely overhauling your packaging practices. You and your co-maintainers can even mix-and-match tag2upload, dgit, and traditional approaches, for the same package.

Start with the wiki page and git-debpush(1) (ideally from forky aka testing).

You don’t need to do any of the other things recommended in this article.

Overhauling your workflow, using advanced git-first tooling

The rest of this article is a guide to adopting the best and most advanced git-based tooling for Debian packaging.

Assumptions

Your current approach uses the “patches-unapplied” git branch format used with gbp pq and/or quilt, and often used with git-buildpackage. You previously used gbp import-orig.
You are fluent with git, and know how to use Merge Requests on gitlab (Salsa). You have your origin remote set to Salsa.
Your main Debian branch name on Salsa is master. Personally I think we should use main but changing your main branch name is outside the scope of this article.
You have enough familiarity with Debian packaging including concepts like source and binary packages, and NEW review.
Your co-maintainers are also adopting the new approach.

tag2upload and dgit (and git-debrebase) are flexible tools and can help with many other scenarios too, and you can often mix-and-match different approaches. But, explaining every possibility would make this post far too confusing.

Topics and tooling

This article will guide you in adopting:

tag2upload
Patches-applied git branch for your packaging
Either plain git merge or git-debrebase
dgit when a with-binaries uploaded is needed (NEW)
git-based sponsorship
Salsa (gitlab), including Debian Salsa CI

Choosing the git branch format

In Debian we need to be able to modify the upstream-provided source code. Those modifications are the Debian delta. We need to somehow represent it in git.

We recommend storing the delta as git commits to those upstream files, by picking one of the following two approaches.

rationale

Much traditional Debian tooling like quilt and gbp pq uses the “patches-unapplied” branch format, which stores the delta as patch files in debian/patches/, in a git tree full of unmodified upstream files. This is clumsy to work with, and can even be an alarming beartrap for Debian outsiders.

git merge

Option 1: simply use git, directly, including git merge.

Just make changes directly to upstream files on your Debian branch, when necessary. Use plain git merge when merging from upstream.

This is appropriate if your package has no or very few upstream changes. It is a good approach if the Debian maintainers and upstream maintainers work very closely, so that any needed changes for Debian are upstreamed quickly, and any desired behavioural differences can be arranged by configuration controlled from within debian/.

This is the approach documented more fully in our workflow tutorial dgit-maint-merge(7).

git-debrebase

Option 2: Adopt git-debrebase.

git-debrebase helps maintain your delta as linear series of commits (very like a “topic branch” in git terminology). The delta can be reorganised, edited, and rebased. git-debrebase is designed to help you carry a significant and complicated delta series.

The older versions of the Debian delta are preserved in the history. git-debrebase makes extra merges to make a fast-forwarding history out of the successive versions of the delta queue branch.

This is the approach documented more fully in our workflow tutorial dgit-maint-debrebase(7).

Examples of complex packages using this approach include src:xen and src:sbcl.

Determine upstream git and stop using upstream tarballs

We recommend using upstream git, only and directly. You should ignore upstream tarballs completely.

rationale

Many maintainers have been importing upstream tarballs into git, for example by using gbp import-orig. But in reality the upstream tarball is an intermediate build product, not (just) source code. Using tarballs rather than git exposes us to additional supply chain attacks; indeed, the key activation part of the xz backdoor attack was hidden only in the tarball!
git offers better traceability than so-called “pristine” upstream tarballs. (The word “pristine” is even a joke by the author of pristine-tar!)

First, establish which upstream git tag corresponds to the version currently in Debian. From the sake of readability, I’m going to pretend that upstream version is 1.2.3, and that upstream tagged it v1.2.3.

Edit debian/watch to contain something like this:

version=4
opts="mode=git" https://codeberg.org/team/package refs/tags/v(\d\S*)

You may need to adjust the regexp, depending on your upstream’s tag name convention. If debian/watch had a files-excluded, you’ll need to make a filtered version of upstream git.

git-debrebase

From now on we’ll generate our own .orig tarballs directly from git.

rationale

We need some “upstream tarball” for the 3.0 (quilt) source format to work with. It needs to correspond to the git commit we’re using as our upstream. We don’t need or want to use a tarball from upstream for this. The .orig is just needed so a nice legacy Debian source package (.dsc) can be generated.

Probably, the current .orig in the Debian archive, is an upstream tarball, which may be different to the output of git-archive and possibly even have different contents to what’s in git. The legacy archive has trouble with differing .origs for the “same upstream version”.

So we must — until the next upstream release — change our idea of the upstream version number. We’re going to add +git to Debian’s idea of the upstream version. Manually make a tag with that name:

git tag -m "Compatibility tag for orig transition" v1.2.3+git v1.2.3~0
git push origin v1.2.3+git

If you are doing the packaging overhaul at the same time as a new upstream version, you can skip this part.

Convert the git branch

git merge

Prepare a new branch on top of upstream git, containing what we want:

git branch -f old-master         # make a note of the old git representation
git reset --hard v1.2.3          # go back to the real upstream git tag
git checkout old-master :debian  # take debian/* from old-master
git commit -m "Re-import Debian packaging on top of upstream git"
git merge --allow-unrelated-histories -s ours -m "Make fast forward from tarball-based history" old-master
git branch -d old-master         # it's incorporated in our history now

If there are any patches, manually apply them to your main branch with git am, and delete the patch files (git rm -r debian/patches, and commit). (If you’ve chosen this workflow, there should be hardly any patches,)

rationale

These are some pretty nasty git runes, indeed. They’re needed because we want to restart our Debian packaging on top of a possibly quite different notion of what the upstream is.

git-debrebase

Convert the branch to git-debrebase format and rebase onto the upstream git:

git-debrebase -fdiverged convert-from-gbp upstream/1.2.3
git-debrebase -fdiverged -fupstream-not-ff new-upstream 1.2.3+git

If you had patches which patched generated files which are present only in the upstream tarball, and not in upstream git, you will encounter rebase conflicts. You can drop hunks editing those files, since those files are no longer going to be part of your view of the upstream source code at all.

rationale

The force option -fupstream-not-ff will be needed this one time because your existing Debian packaging history is (probably) not based directly on the upstream history. -fdiverged may be needed because git-debrebase might spot that your branch is not based on dgit-ish git history.

Manually make your history fast forward from the git import of your previous upload.

dgit fetch
git show dgit/dgit/sid:debian/changelog
# check that you have the same version number
git merge -s ours --allow-unrelated-histories -m 'Declare fast forward from pre-git-based history' dgit/dgit/sid

Change the source format

Delete any existing debian/source/options and/or debian/source/local-options.

git merge

Change debian/source/format to 1.0. Add debian/source/options containing -sn.

rationale

We are using the “1.0 native” source format. This is the simplest possible source format - just a tarball. We would prefer “3.0 (native)”, which has some advantages, but dpkg-source between 2013 (wheezy) and 2025 (trixie) inclusive unjustifiably rejects this configuration.
You may receive bug reports from over-zealous folks complaining about the use of the 1.0 source format. You should close such reports, with a reference to this article and to #1106402.

git-debrebase

Ensure that debian/source/format contains 3.0 (quilt).

Now you are ready to do a local test build.

Sort out the documentation and metadata

Edit README.source to at least mention dgit-maint-merge(7) or dgit-maint-debrebase(7), and to tell people not to try to edit or create anything in debian/patches/. Consider saying that uploads should be done via dgit or tag2upload.

Check that your Vcs-Git is correct in debian/control. Consider deleting or pruning debian/gbp.conf, since it isn’t used by dgit, tag2upload, or git-debrebase.

git merge

Add a note to debian/changelog about the git packaging change.

git-debrebase

git-debrebase new-upstream will have added a “new upstream version” stanza to debian/changelog. Edit that so that it instead describes the packaging change. (Don’t remove the +git from the upstream version number there!)

Configure Salsa Merge Requests

git-debrebase

In “Settings” / “Merge requests”, change “Squash commits when merging” to “Do not allow”.

rationale

Squashing could destroy your carefully-curated delta queue. It would also disrupt git-debrebase’s git branch structure.

Set up Salsa CI, and use it to block merges of bad changes

Caveat - the tradeoff

gitlab is a giant pile of enterprise crap. It is full of startling bugs, many of which reveal a fundamentally broken design. It is only barely Free Software in practice for Debian (in the sense that we are very reluctant to try to modify it). The constant-churn development approach and open-core business model are serious problems. It’s very slow (and resource-intensive). It can be depressingly unreliable. That Salsa works as well as it does is a testament to the dedication of the Debian Salsa team (and those who support them, including DSA).

However, I have found that despite these problems, Salsa CI is well worth the trouble. Yes, there are frustrating days when work is blocked because gitlab CI is broken and/or one has to keep mashing “Retry”. But, the upside is no longer having to remember to run tests, track which of my multiple dev branches tests have passed on, and so on. Automatic tests on Merge Requests are a great way of reducing maintainer review burden for external contributions, and helping uphold quality norms within a team. They’re a great boon for the lazy solo programmer.

The bottom line is that I absolutely love it when the computer thoroughly checks my work. This is tremendously freeing, precisely at the point when one most needs it — deep in the code. If the price is to occasionally be blocked by a confused (or broken) computer, so be it.

Setup procedure

Create debian/salsa-ci.yml containing

include:
  - https://salsa.debian.org/salsa-ci-team/pipeline/raw/master/recipes/debian.yml

In your Salsa repository, under “Settings” / “CI/CD”, expand “General Pipelines” and set “CI/CD configuration file” to debian/salsa-ci.yml.

rationale

Your project may have an upstream CI config in .gitlab-ci.yml. But you probably want to run the Debian Salsa CI jobs.
You can add various extra configuration to debian/salsa-ci.yml to customise it. Consult the Salsa CI docs.

git-debrebase

Add to debian/salsa-ci.yml:

.git-debrebase-prepare: &git-debrebase-prepare
  # install the tools we'll need
  - apt-get update
  - apt-get --yes install git-debrebase git-debpush
  # git-debrebase needs git user setup
  - git config user.email "salsa-ci@invalid.invalid"
  - git config user.name "salsa-ci"
  # run git-debrebase make-patches
  # https://salsa.debian.org/salsa-ci-team/pipeline/-/issues/371
  - git-debrebase --force
  - git-debrebase make-patches
  # make an orig tarball using the upstream tag, not a gbp upstream/ tag
  # https://salsa.debian.org/salsa-ci-team/pipeline/-/issues/541
  - git-deborig

.build-definition: &build-definition
  extends: .build-definition-common
  before_script: *git-debrebase-prepare

build source:
  extends: .build-source-only
  before_script: *git-debrebase-prepare

variables:
  # disable shallow cloning of git repository. This is needed for git-debrebase
  GIT_DEPTH: 0

rationale

Unfortunately the Salsa CI pipeline currently lacks proper support for git-debrebase (salsa-ci#371) and has trouble directly using upstream git for orig tarballs (#salsa-ci#541).
These runes were based on those in the Xen package. You should subscribe to the tickets #371 and #541 so that you can replace the clone-and-hack when proper support is merged.

Push this to salsa and make the CI pass.

If you configured the pipeline filename after your last push, you will need to explicitly start the first CI run. That’s in “Pipelines”: press “New pipeline” in the top right. The defaults will very probably be correct.

Block untested pushes, preventing regressions

In your project on Salsa, go into “Settings” / “Repository”. In the section “Branch rules”, use “Add branch rule”. Select the branch master. Set “Allowed to merge” to “Maintainers”. Set “Allowed to push and merge” to “No one”. Leave “Allow force push” disabled.

This means that the only way to land anything on your mainline is via a Merge Request. When you make a Merge Request, gitlab will offer “Set to auto-merge”. Use that.

gitlab won’t normally merge an MR unless CI passes, although you can override this on a per-MR basis if you need to.

(Sometimes, immediately after creating a merge request in gitlab, you will see a plain “Merge” button. This is a bug. Don’t press that. Reload the page so that “Set to auto-merge” appears.)

autopkgtests

Ideally, your package would have meaningful autopkgtests (DEP-8 tests) This makes Salsa CI more useful for you, and also helps detect and defend you against regressions in your dependencies.

The Debian CI docs are a good starting point. In-depth discussion of writing autopkgtests is beyond the scope of this article.

Day-to-day work

With this capable tooling, most tasks are much easier.

Making changes to the package

Make all changes via a Salsa Merge Request. So start by making a branch that will become the MR branch.

On your MR branch you can freely edit every file. This includes upstream files, and files in debian/.

For example, you can:

Make changes with your editor and commit them.
git cherry-pick an upstream commit.
git am a patch from a mailing list or from the Debian Bug System.
git revert an earlier commit, even an upstream one.

When you have a working state of things, tidy up your git branch:

git merge

Use git-rebase to squash/edit/combine/reorder commits.

git-debrebase

Use git-debrebase -i to squash/edit/combine/reorder commits. When you are happy, run git-debrebase conclude.

Do not edit debian/patches/. With git-debrebase, this is purely an output. Edit the upstream files directly instead. To reorganise/maintain the patch queue, use git-debrebase -i to edit the actual commits.

Push the MR branch (topic branch) to Salsa and make a Merge Request.

Set the MR to “auto-merge when all checks pass”. (Or, depending on your team policy, you could ask for an MR Review of course.)

If CI fails, fix up the MR branch, squash/tidy it again, force push the MR branch, and once again set it to auto-merge.

Test build

An informal test build can be done like this:

apt-get build-dep .
dpkg-buildpackage -uc -b

Ideally this will leave git status clean, with no modified or un-ignored untracked files. If it shows untracked files, add them to .gitignore or debian/.gitignore as applicable.

If it dirties the tree, consider trying to make it stop doing that. The easiest way is probably to build out-of-tree, if supported upstream. If this is too difficult, you can leave the messy build arrangements as they are, but you’ll need to be disciplined about always committing, using git clean and git reset, and so on.

For formal binaries builds, including for testing, use dgit sbuild as described below for uploading to NEW.

Uploading to Debian

Start an MR branch for the administrative changes for the release.

Document all the changes you’re going to release, in the debian/changelog.

git merge

gbp dch can help write the changelog for you:

dgit fetch sid
gbp dch --ignore-branch --since=dgit/dgit/sid --git-log=^upstream/main

rationale

--ignore-branch is needed because gbp dch wrongly thinks you ought to be running this on master, but of course you’re running it on your MR branch.
The --git-log=^upstream/main excludes all upstream commits from the listing used to generate the changelog. (I’m assuming you have an upstream remote and that you’re basing your work on their main branch.) If there was a new upstream version, you’ll usually want to write a single line about that, and perhaps summarise anything really important.

(For the first upload after switching to using tag2upload or dgit you need --since=debian/1.2.3-1, where 1.2.3-1 is your previous DEP-14 tag, because dgit/dgit/sid will be a dsc import, not your actual history.)

Change UNRELEASED to the target suite, and finalise the changelog. (Note that dch will insist that you at least save the file in your editor.)

dch -r
git commit -m 'Finalise for upload' debian/changelog

Make an MR of these administrative changes, and merge it. (Either set it to auto-merge and wait for CI, or if you’re in a hurry double-check that it really is just a changelog update so that you can be confident about telling Salsa to “Merge unverified changes”.)

Now you can perform the actual upload:

git checkout master
git pull --ff-only # bring the gitlab-made MR merge commit into your local tree

git merge

git-debpush

git-debrebase

git-debpush --quilt=linear

--quilt=linear is needed only the first time, but it is very important that first time, to tell the system the correct git branch layout.

Uploading a NEW package to Debian

If your package is NEW (completely new source, or has new binary packages) you can’t do a source-only upload. You have to build the source and binary packages locally, and upload those build artifacts.

Happily, given the same git branch you’d tag for tag2upload, and assuming you have sbuild installed and a suitable chroot, dgit can help take care of the build and upload for you:

Prepare the changelog update and merge it, as above. Then:

git-debrebase

Create the orig tarball and launder the git-derebase branch:

git-deborig
git-debrebase quick

rationale

Source package format 3.0 (quilt), which is what I’m recommending here for use with git-debrebase, needs an orig tarball; it would also be needed for 1.0-with-diff.

Build the source and binary packages, locally:

dgit sbuild
dgit push-built

rationale

You don’t have to use dgit sbuild, but it is usually convenient to do so, because unlike sbuild, dgit understands git. Also it works around a gitignore-related defect in dpkg-source.

New upstream version

Find the new upstream version number and corresponding tag. (Let’s suppose it’s 1.2.4.) Check the provenance:

git verify-tag v1.2.4

rationale

Not all upstreams sign their git tags, sadly. Sometimes encouraging them to do so can help. You may need to use some other method(s) to check that you have the right git commit for the release.

git merge

Simply merge the new upstream version and update the changelog:

git merge v1.2.4
dch -v1.2.4-1 'New upstream release.'

git-debrebase

Rebase your delta queue onto the new upstream version:

git debrebase mew-upstream 1.2.4

If there are conflicts between your Debian delta for 1.2.3, and the upstream changes in 1.2.4, this is when you need to resolve them, as part of git merge or git (deb)rebase.

After you’ve completed the merge, test your package and make any further needed changes. When you have it working in a local branch, make a Merge Request, as above.

Sponsorship

git-based sponsorship is super easy! The sponsee can maintain their git branch on Salsa, and do all normal maintenance via gitlab operations.

When the time comes to upload, the sponsee notifies the sponsor that it’s time. The sponsor fetches and checks out the git branch from Salsa, does their checks, as they judge appropriate, and when satisfied runs git-debpush.

As part of the sponsor’s checks, they might want to see all changes since the last upload to Debian:

dgit fetch sid
git diff dgit/dgit/sid..HEAD

Or to see the Debian delta of the proposed upload:

git verify-tag v1.2.3
git diff v1.2.3..HEAD ':!debian'

git-debrebase

Or to show all the delta as a series of commits:

git log -p v1.2.3..HEAD ':!debian'

Don’t look at debian/patches/. It can be absent or out of date.

Incorporating an NMU

Fetch the NMU into your local git, and see what it contains:

dgit fetch sid
git diff master...dgit/dgit/sid

If the NMUer used dgit, then git log dgit/dgit/sid will show you the commits they made.

Normally the best thing to do is to simply merge the NMU, and then do any reverts or rework in followup commits:

git merge dgit/dgit/sid

git-debrebase

You should git-debrebase quick at this stage, to check that the merge went OK and the package still has a lineariseable delta queue.

Then make any followup changes that seem appropriate. Supposing your previous maintainer upload was 1.2.3-7, you can go back and see the NMU diff again with:

git diff debian/1.2.3-7...dgit/dgit/sid

git-debrebase

The actual changes made to upstream files will always show up as diff hunks to those files. diff commands will often also show you changes to debian/patches/. Normally it’s best to filter them out with git diff ... ':!debian/patches'

If you’d prefer to read the changes to the delta queue as an interdiff (diff of diffs), you can do something like

git checkout debian/1.2.3-7
git-debrebase --force make-patches
git diff HEAD...dgit/dgit/sid -- :debian/patches

to diff against a version with debian/patches/ up to date. (The NMU, in dgit/dgit/sid, will necessarily have the patches already up to date.)

DFSG filtering (handling non-free files)

Some upstreams ship non-free files of one kind of another. Often these are just in the tarballs, in which case basing your work on upstream git avoids the problem. But if the files are in upstream’s git trees, you need to filter them out.

This advice is not for (legally or otherwise) dangerous files. If your package contains files that may be illegal, or hazardous, you need much more serious measures. In this case, even pushing the upstream git history to any Debian service, including Salsa, must be avoided. If you suspect this situation you should seek advice, privately and as soon as possible, from dgit-owner@d.o and/or the DFSG team. Thankfully, legally dangerous files are very rare in upstream git repositories, for obvious reasons.

Our approach is to make a filtered git branch, based on the upstream history, with the troublesome files removed. We then treat that as the upstream for all of the rest of our work.

rationale

Yes, this will end up including the non-free files in the git history, on official Debian servers. That’s OK. What’s forbidden is non-free material in the Debianised git tree, or in the source packages.

Initial filtering

git checkout -b upstream-dfsg v1.2.3
git rm nonfree.exe
git commit -m "upstream version 1.2.3 DFSG-cleaned"
git tag -s -m "upstream version 1.2.3 DFSG-cleaned" v1.2.3+ds1
git push origin upstream-dfsg

And now, use 1.2.3+ds1, and the filtered branch upstream-dfsg, as the upstream version, instead of 1.2.3 and upstream/main. Follow the steps for Convert the git branch or New upstream version, as applicable, adding +ds1 into debian/changelog.

If you missed something and need to filter out more a nonfree files, re-use the same upstream-dfsg branch and bump the ds version, eg v1.2.3+ds2.

Subsequent upstream releases

git checkout upstream-dfsg
git merge v1.2.4
git rm additional-nonfree.exe # if any
git commit -m "upstream version 1.2.4 DFSG-cleaned"
git tag -s -m "upstream version 1.2.4 DFSG-cleaned" v1.2.4+ds1
git push origin upstream-dfsg

Removing files by pattern

If the files you need to remove keep changing, you could automate things with a small shell script debian/rm-nonfree containing appropriate git rm commands. If you use git rm -f it will succeed even if the git merge from real upstream has conflicts due to changes to non-free files.

rationale

Ideally uscan, which has a way of representing DFSG filtering patterns in debian/watch, would be able to do this, but sadly the relevant functionality is entangled with uscan’s tarball generation.

Common issues

Tarball contents: If you are switching from upstream tarballs to upstream git, you may find that the git tree is significantly different.
It may be missing files that your current build system relies on. If so, you definitely want to be using git, not the tarball. Those extra files in the tarball are intermediate built products, but in Debian we should be building from the real source! Fixing this may involve some work, though.
gitattributes:
For Reasons the dgit and tag2upload system disregards and disables the use of .gitattributes to modify files as they are checked out.
Normally this doesn’t cause a problem so long as any orig tarballs are generated the same way (as they will be by tag2upload or git-deborig). But if the package or build system relies on them, you may need to institute some workarounds, or, replicate the effect of the gitattributes as commits in git.
git submodules: git submodules are terrible and should never ever be used. But not everyone has got the message, so your upstream may be using them.
If you’re lucky, the code in the submodule isn’t used in which case you can git rm the submodule.

February 14, 2026

Steinar H. Gunderson

A286874(15) >= 42

The following 42 15-bit values form a 2-disjunctive matrix (that is, no union of two values contain or equal a third value), or equivalently, a superimposed code:

000000000011111
000000011100011
000000101101100
000001010110100
000001101010001
000001110001010
000010011011000
000100100110010
000110010000110
000110100001001
000111001100000
001000110000101
001010000110001
001010101000010
001011000001100
001100001010100
001100010101000
001101000000011
010001000101001
010010001000101
010010110100000
010011000010010
010100001001010
010100010010001
010101100000100
011000000100110
011000100011000
011001011000000
100001001000110
100010000101010
100010100010100
100011010000001
100100000100101
100100111000000
100101000011000
101000001001001
101000010010010
101001100100000
110000001110000
110000010001100
110000100000011
111110000000000

This shows that A286874 a(15) >= 42.

If I had to make a guess, I'd say the equality holds, but I have nowhere near the computing resources to actually find the answer for sure. Stay tuned for news about a(14), though.

14 February, 2026 06:56PM

Bits from Debian

DebConf 26 Registration and Call for Proposals are open

Registration and the Call for Proposals for DebConf 26 are now open. The 27th edition of the Debian annual conference will be held from July 20th to July 25th, 2026, in Santa Fe, Argentina.

The conference days will be preceded by DebCamp, which will take place from July 13th to July 19th, 2026.

The registration form can be accessed on the DebConf 26 website. After creating an account, click "register" in the profile section.

As always, basic registration for DebConf is free of charge for attendees. If you are attending the conference in a professional capacity or as a representative of your company, we kindly ask that you consider registering in one of our paid categories to help cover the costs of organizing the conference and to support subsidizing other community members.

The last day to register with guaranteed swag is June 14th.

We also encourage eligible individuals to apply for a diversity bursary. Travel, food, and accommodation bursaries are also available. More details can be found on the bursary info page.

The last day to apply for a bursary is April 1st. Applicants should receive feedback on their bursary application by May 1st.

Call for proposals

The call for proposals for talks, discussions and other activities is also open. To submit a proposal you need to create an account on the website, and then use the "Submit Talk" button in the profile section.

The last day to submit and have your proposal be considered for the main conference schedule, with video coverage guaranteed, is April 1st.

Become a sponsor

DebConf 26 is also accepting sponsors. Interested companies and organizations may contact the DebConf team through sponsors@debconf.org or visit the DebConf 26 website.

See you in Santa Fe,

The DebConf 26 Team

14 February, 2026 12:15PM by Carlos Henrique Lima Melara, Santiago Ruano Rincón

February 13, 2026

Erich Schubert

Dogfood Generative AI

Current AI companies ignore licenses such as the GPL, and often train on anything they can scrape. This is not acceptable.

The AI companies ignore web conventions, e.g., they deep link images from your web sites (even adding ?utm_source=chatgpt.com to image URIs, I suggest that you return 403 on these requests), but do not direct visitors to your site. You do not get a reliable way of opting out from generative AI training or use. For example, the only way to prevent your contents from being used in “Google AI Overviews” is to use data-nosnippet and cripple the snippet preview in Google. The “AI” browsers such as Comet, Atlas do not identify as such, but rather pretend they are standard Chromium. There is no way to ban such AI use on your web site.

Generative AI overall is flooding the internet with garbage. It was estimated that 1/3rd of the content uploaded to YouTube is by now AI generated. This includes the same “veteran stories” crap in thousands of variants as well as brainrot content (that at least does not pretend to be authentic), some of which is among the most viewed recent uploads. Hence, these platforms even benefit from the AI slop. And don’t blame the “creators” – because you can currently earn a decent amount of money from such contents, people will generate brainrot content.

If you have recently tried to find honest reviews of products you considered buying, you will have noticed thousands of sites with AI generated fake product reviews, that all are financed by Amazon PartnerNet commissions. Often with hilarious nonsense such as recommending “sewing thread with German instructions” as tool for repairing a sewing machine. And on Amazon, there are plenty of AI generated product reviews – the use of emoji is a strong hint. And if you leave a negative product review, there is a chance they offer you a refund to get rid of it… And the majority of SPAM that gets through my filters is by now sent via Gmail and Amazon SES.

Partially because of GenAI, StackOverflow is pretty much dead – which used to be one of the most valuable programming resources. (While a lot of people complain about moderation, famous moderator Shog9 from the early SO days suggested that a change in Google’s ranking is also to blame, as it began favoring showing “new” content over the existing answered questions – causing more and more duplicates to be posted because people no longer found the existing good answers. In January 2026, there were around 3400 questions and 6000 answers posted, less than in the first month of SO of August 2008 (before the official launch).

Many open-source projects are suffering in many ways, e.g., false bug reports that caused curl to stop its bug bounty program. Wikipedia is also suffering badly from GenAI.

Science is also flooded with poor AI generated papers, often reviewed with help from AI. This is largely due to bad incentives – to graduate, you are expected to write many papers on certain “A” conferences, such as NeurIPS. On these conferences the number of submissions is growing insane, and the review quality plummets. All to often, the references in these papers are hallucinated, too; and libraries complain that they receive more and more requests to locate literature that does not appear to exist.

However, the worst effect (at least to me as an educator) is the noskilling effect (a rather novel term derived from deskilling, I have only seen it in this article by Weßels and Maibaum).

Instead of acquiring skills (writing, reading, summarizing, programming) by practising, too many people now outsource all this to AI, leading to them not learn the basics necessary to advance to a higher skill level. In my impression, this effect is dramatic. It is even worse than deskilling, as it does not mean losing an advanced skill that you apparently can replace, but often means not acquiring basic skills in the first place. And the earlier pupils start using generative AI, the less skills they acquire.

Dogfood the AI

Let’s dogfood the AI. Here’s an outline:

Get a list of programming topics, e.g., get a list of algorithms from Wikidata, get a StackOverflow data dump.
Generate flawed code examples for the algorithms / programming questions, maybe generate blog posts, too.
You do not need a high-quality model for this. Use something you can run locally or access for free.
Date everything back in time, remove typical indications of AI use.
Upload to Github, because Microsoft will feed this to OpenAI…

Here is an example prompt that you can use:

You are a university educator, preparing homework assignments in debugging.
The programming language used is {lang}.
The students are tasked to find bugs in given code.
Do not just call existing implementations from libraries, but implement the algorithm from scratch.
Make sure there are two mistakes in the code that need to be discovered by the students.
Do NOT repeat instructions. Do NOT add small-talk. Do NOT provide a solution.
The code may have (misleading) comments, but must NOT mention the bugs.
If you do not know how to implement the algorithm, output an empty response.
Output only the code for the assignment! Do not use markdown.
Begin with a code comment that indicates the algorithm name and idea.
If you indicate a bug, always use a comment with the keyword BUG

Generate a {lang} implementation (with bugs) of: {n} ({desc})

Remember to remove the BUG comments! If you pick some slighly less common programming languages (by quantity of available code, say Go or Rust) you have higher chances that this gets into the training data.

If many of us do this, we can feed GenAI its own garbage. If we generate thousands of bad code examples, this will poison their training data, and may eventually lead to an effect known as “model collapse”.

On the long run, we need to get back to an internet for people, not an internet for bots. Some kind of “internet 2.0”, but I do not have a clear vision on how to keep AI out – if AI can train on it, they will. And someone will copy and paste the AI generated crap back into whatever system we built. Hence I don’t think technology is the answere here, but human networks of trust.

13 February, 2026 10:29AM by Erich Schubert

February 12, 2026

Dirk Eddelbuettel

RcppSpdlog 0.0.27 on CRAN: C++20 Accommodations

Version 0.0.27 of RcppSpdlog arrived on CRAN moments ago, and will be uploaded to Debian and built for r2u shortly. The (nice) documentation site will be refreshed too. RcppSpdlog bundles spdlog, a wonderful header-only C++ logging library with all the bells and whistles you would want that was written by Gabi Melman, and also includes fmt by Victor Zverovich. You can learn more at the nice package documention site.

Brian Ripley has now turned C++20 on as a default for R-devel (aka R 4.6.0 ‘to be’), and this turned up misbehvior in packages using RcppSpdlog such as our spdl wrapper (offering a nicer interface from both R and C++) when relying on std::format. So for now, we turned this off and remain with fmt::format from the fmt library while we investigate further.

The NEWS entry for this release follows.

Changes in RcppSpdlog version 0.0.27 (2026-02-11)

Under C++20 or later, keep relying on fmt::format until issues experienced using std::format can be identified and resolved

Courtesy of my CRANberries, there is also a diffstat report detailing changes. More detailed information is on the RcppSpdlog page, or the package documention site.

This post by Dirk Eddelbuettel originated on his Thinking inside the box blog. If you like this or other open-source work I do, you can sponsor me at GitHub.

12 February, 2026 01:59PM

Freexian Collaborators

Debian Contributions: cross building, rebootstrap updates, Refresh of the patch tagging guidelines and more! (by Anupa Ann Joseph)

Debian Contributions: 2026-01

Contributing to Debian is part of Freexian’s mission. This article covers the latest achievements of Freexian and their collaborators. All of this is made possible by organizations subscribing to our Long Term Support contracts and consulting services.

cross building, by Helmut Grohne

In version 1.10.1, Meson merged a patch to make it call the correct g-ir-scanner by default thanks to Eli Schwarz. This problem affected more than 130 source packages. Helmut retried building them all and filed 69 patches as a result. A significant portion of those packages require another Meson change to call the correct vapigen. Another notable change is converting gnu-efi to multiarch, which ended up requiring changes to a number of other packages. Since Aurelien dropped the libcrypt-dev dependency from libc6-dev, this transition now is mostly complete and has resulted in most of the Perl ecosystem correctly expressing perl-xs-dev dependencies needed for cross building. It is these infrastructure changes affecting several client packages that this work targets. As a result of this continued work, about 66% of Debian’s source packages now have satisfiable cross Build-Depends in unstable and about 10000 (55%) actually can be cross built. There are now more than 500 open bug reports affecting more than 2000 packages most of which carry patches.

rebootstrap, by Helmut Grohne

Maintaining architecture cross-bootstrap requires continued effort for adapting to archive changes such as glib2.0 dropping a build profile or an e2fsprogs FTBFS. Beyond those generic problems, architecture-specific problems with e.g. musl-linux-any or sparc may arise. While all these changes move things forward on the surface, the bootstrap tooling has become a growing pile of patches. Helmut managed to upstream two changes to glibc for reducing its Build-Depends in the stage2 build profile and thanks Aurelien Jarno.

Refresh of the patch tagging guidelines, by Raphaël Hertzog

Debian Enhancement Proposal #3 (DEP-3) is named “Patch Tagging Guidelines” and standardizes meta-information that Debian contributors can put in patches included in Debian source packages. With the feedback received over the years, and with the change in the package management landscape, the need to refresh those guidelines became evident. As the initial driver of that DEP, I spent a good day reviewing all the feedback (that I kept in a folder) and producing a new version of the document. The changes aim to give more weight to the syntax that is compatible with git format-patch’s output, and also to clarify the expected uses and meanings of a couple of fields, including some algorithm that parsers should follow to define the state of the patch. After the announcement of the new draft on debian-devel, the revised DEP-3 received a significant number of comments that I still have to process.

Miscellaneous contributions

Helmut uploaded debvm making it work with unstable as a target distribution again.
Helmut modernized the code base backing dedup.debian.net significantly expanding the support for type checking.
Helmut fixed the multiarch hinter once more given feedback from Fabian Grünbichler.
Helmut worked on migrating the rocblas package to forky.
Raphaël fixed RC bug #1111812 in publican and did some maintenance for tracker.debian.org.
Carles added support in the festival Debian package for systemd socket activation and systemd service and socket units. Adapted the patch for upstream and created a merge request (also fixed a MacOS X building system error while working on it). Updated Orca Wiki documentation regarding festival. Discussed a 2007 bug/feature in festival which allowed having a local shell and that the new systemd socket activation has the same code path.
Carles using po-debconf-manager worked on Catalan translations: 7 reviewed and sent; 5 follow ups, 5 deleted packages.
Carls made some po-debconf-manager changes: now it attaches the translation file on follow ups, fixed bullseye compatibility issues.
Carles reviewed a new Catalan apt translation.
Carles investigated and reported a lxhotkey bug and sent a patch for the “abcde” package.
Carles made minor updates for Debian Wiki for different pages (lxde for dead keys, Ripping with abcde troubleshooting, VirtualBox troubleshooting).
Stefano renamed build-details.json in Python 3.14 to fix multiarch coinstallability.
Stefano audited the tooling and ignore lists for checking the contents of the python3.X-minimal packages, finding and fixing some issues in the process.
Stefano made a few uploads of python3-defaults and dh-python in support of Python 3.14-as-default in Ubuntu. Also investigated the risk of ignoring byte-compilation failures by default, and started down the road of implementing this.
Stefano did some sysadmin work on debian.social infrastructure.
Stefano and Santiago worked on preparations for DebConf 26. Especially to help the local team on opening the registration, and reviewing the budget to be presented for approval.
Stefano uploaded routine updates of python-virtualenv and python-flexmock.
Antonio collaborated with DSA on enabling a new proxy for salsa to prevent scrapers from taking the service down.
Antonio did miscellaneous salsa administrative tasks.
Antonio fixed a few Ruby packages towards the Ruby 3.4 transition.
Antonio started work on planned improvements to the DebConf registration system.
Santiago prepared unstable updates for the latest upstream versions of knot-dns and knot-resolver. The authoritative DNS server and DNS resolver software developed by CZ.NIC. It is worth highlighting that, given the separation of functionality compared to other implementations, knot-dns and knot-resolver are also less complex software, which results in advantages in terms of security: only three CVEs have been reported for knot-dns since 2011).
Santiago made some routine reviews of merge requests proposed for the Salsa CI’s pipeline. E.g. a proposal to fix how sbuild chooses the chroot when building a package for experimental.
Colin fixed lots of Python packages to handle Python 3.14 and to avoid using the deprecated pkg_resources module.
Colin added forky support to the images used in Salsa CI pipelines.
Colin began working on getting a release candidate of groff 1.24.0 (the first upstream release since mid-2023, so a very large set of changes) into experimental.
Lucas kept working on the preparation for Ruby 3.4 transition. Some packages fixed (support build against Ruby 3.3 and 3.4): ruby-rbpdf, jekyll, origami-pdf, ruby-kdl, ruby-twitter, ruby-twitter-text, ruby-globalid.
Lucas supported some potential mentors in the Google Summer of Code 26 program to submit their projects.
Anupa worked on the point release announcements for Debian 12.13 and 13.3 from the Debian publicity team side.
Anupa attended the publicity team meeting to discuss the team activities and to plan an online sprint in February.
Anupa attended meetings with the Debian India team to plan and coordinate the MinDebConf Kanpur and sent out related Micronews.
Emilio coordinated various transitions and helped get rid of llvm-toolchain-17 from sid.

12 February, 2026 12:00AM by Anupa Ann Joseph

February 10, 2026

Writing a new worker task for Debusine (by Carles Pina i Estany)

Debusine is a tool designed for Debian developers and Operating System developers in general. You can try out Debusine on debusine.debian.net, and follow its development on salsa.debian.org.

This post describes how to write a new worker task for Debusine. It can be used to add tasks to a self-hosted Debusine instance, or to submit to the Debusine project new tasks to add new capabilities to Debusine.

Tasks are the lower-level pieces of Debusine workflows. Examples of tasks are Sbuild, Lintian, Debdiff (see the available tasks).

This post will document the steps to write a new basic worker task. The example will add a worker task that runs reprotest and creates an artifact of the new type ReprotestArtifact with the reprotest log.

Tasks are usually used by workflows. Workflows solve high-level goals by creating and orchestrating different tasks (e.g. a Sbuild workflow would create different Sbuild tasks, one for each architecture).

Overview of tasks

A task usually does the following:

It receives structured data defining its input artifacts and configuration
Input artifacts are downloaded
A process is run by the worker (e.g. lintian, debdiff, etc.). In this blog post, it will run reprotest
The output (files, logs, exit code, etc.) is analyzed, artifacts and relations might be generated, and the work request is marked as completed, either with Success or Failure

If you want to follow the tutorial and add the Reprotest task, your Debusine development instance should have at least one worker, one user, a debusine client set up, and permissions for the client to create tasks. All of this can be setup following the steps in the Contribute section of the documentation.

This blog post shows a functional Reprotest task. This task is not currently part of Debusine. The Reprotest task implementation is simplified (no error handling, unit tests, specific view, docs, some shortcuts in the environment preparation, etc.). At some point, in Debusine, we might add a debrebuild task which is based on buildinfo files and uses snapshot.debian.org to recreate the binary packages.

Defining the inputs of the task

The input of the reprotest task will be a source artifact (a Debian source package). We model the input with pydantic in debusine/tasks/models.py:

class ReprotestData(BaseTaskDataWithExecutor):
   """Data for Reprotest task."""

   source_artifact: LookupSingle

class ReprotestDynamicData(BaseDynamicTaskDataWithExecutor):
   """Reprotest dynamic data."""

   source_artifact_id: int | None = None

The ReprotestData is what the user will input. A LookupSingle is a lookup that resolves to a single artifact.

We would also have configuration for the desired variations to test, but we have left that out of this example for simplicity. Configuring variations is left as an exercise for the reader.

Since ReprotestData is a subclass of BaseTaskDataWithExecutor it also contains environment where the user can specify in which environment the task will run. The environment is an artifact with a Debian image.

The ReprotestDynamicData holds the resolution of all lookups. These can be seen in the “Internals” tab of the work request view.

Add the new `Reprotest` artifact data class

In order for the reprotest task to create a new Artifact of the type DebianReprotest with the log and output metadata: add the new category to ArtifactCategory in debusine/artifacts/models.py:

    REPROTEST = "debian:reprotest"

In the same file add the DebianReprotest class:

class DebianReprotest(ArtifactData):
   """Data for debian:reprotest artifacts."""

   reproducible: bool | None = None

   def get_label(self) -> str:
       """Return a short human-readable label for the artifact."""
       return "reprotest analysis"

It could also include the package name or version.

In order to have the category listed in the work request output artifacts table, edit the file debusine/db/models/artifacts.py: In ARTIFACT_CATEGORY_ICON_NAMES add ArtifactCategory.REPROTEST: "folder", and in ARTIFACT_CATEGORY_SHORT_NAMES add ArtifactCategory.REPROTEST: "reprotest",.

Create the new Task class

In debusine/tasks/ create a new file reprotest.py.

reprotest.py

# Copyright © The Debusine Developers
# See the AUTHORS file at the top-level directory of this distribution
#
# This file is part of Debusine. It is subject to the license terms
# in the LICENSE file found in the top-level directory of this
# distribution. No part of Debusine, including this file, may be copied,
# modified, propagated, or distributed except according to the terms
# contained in the LICENSE file.

"""Task to use reprotest in debusine."""

from pathlib import Path
from typing import Any

from debusine import utils
from debusine.artifacts.local_artifact import ReprotestArtifact
from debusine.artifacts.models import (
    ArtifactCategory,
    CollectionCategory,
    DebianSourcePackage,
    DebianUpload,
    WorkRequestResults,
    get_source_package_name,
    get_source_package_version,
)
from debusine.client.models import RelationType
from debusine.tasks import BaseTaskWithExecutor, RunCommandTask
from debusine.tasks.models import ReprotestData, ReprotestDynamicData
from debusine.tasks.server import TaskDatabaseInterface


class Reprotest(
    RunCommandTask[ReprotestData, ReprotestDynamicData],
    BaseTaskWithExecutor[ReprotestData, ReprotestDynamicData],
):
    """Task to use reprotest in debusine."""

    TASK_VERSION = 1

    CAPTURE_OUTPUT_FILENAME = "reprotest.log"

    def __init__(
        self,
        task_data: dict[str, Any],
        dynamic_task_data: dict[str, Any] | None = None,
    ) -> None:
        """Initialize object."""
        super().__init__(task_data, dynamic_task_data)

        self._reprotest_target: Path | None = None

    def build_dynamic_data(
        self, task_database: TaskDatabaseInterface
    ) -> ReprotestDynamicData:
        """Compute and return ReprotestDynamicData."""
        input_source_artifact = task_database.lookup_single_artifact(
            self.data.source_artifact
        )

        assert input_source_artifact is not None
        self.ensure_artifact_categories(
            configuration_key="input.source_artifact",
            category=input_source_artifact.category,
            expected=(
                ArtifactCategory.SOURCE_PACKAGE,
                ArtifactCategory.UPLOAD,
            ),
        )
        assert isinstance(
            input_source_artifact.data, (DebianSourcePackage, DebianUpload)
        )
        subject = get_source_package_name(input_source_artifact.data)
        version = get_source_package_version(input_source_artifact.data)

        assert self.data.environment is not None

        environment = self.get_environment(
            task_database,
            self.data.environment,
            default_category=CollectionCategory.ENVIRONMENTS,
        )

        return ReprotestDynamicData(
            source_artifact_id=input_source_artifact.id,
            subject=subject,
            parameter_summary=f"{subject}_{version}",
            environment_id=environment.id,
        )

    def get_input_artifacts_ids(self) -> list[int]:
        """Return the list of input artifact IDs used by this task."""
        if not self.dynamic_data:
            return []

        return [
            self.dynamic_data.source_artifact_id,
            self.dynamic_data.environment_id,
        ]

    def fetch_input(self, destination: Path) -> bool:
        """Download the required artifacts."""
        assert self.dynamic_data

        artifact_id = self.dynamic_data.source_artifact_id
        assert artifact_id is not None
        self.fetch_artifact(artifact_id, destination)

        return True

    def configure_for_execution(self, download_directory: Path) -> bool:
        """
        Find a .dsc in download_directory.

        Install reprotest and other utilities used in _cmdline.
        Set self._reprotest_target to it.

        :param download_directory: where to search the files
        :return: True if valid files were found
        """
        self._prepare_executor_instance()

        if self.executor_instance is None:
            raise AssertionError("self.executor_instance cannot be None")

        self.run_executor_command(
            ["apt-get", "update"],
            log_filename="install.log",
            run_as_root=True,
            check=True,
        )
        self.run_executor_command(
            [
                "apt-get",
                "--yes",
                "--no-install-recommends",
                "install",
                "reprotest",
                "dpkg-dev",
                "devscripts",
                "equivs",
                "sudo",
            ],
            log_filename="install.log",
            run_as_root=True,
        )

        self._reprotest_target = utils.find_file_suffixes(
            download_directory, [".dsc"]
        )
        return True

    def _cmdline(self) -> list[str]:
        """
        Build the reprotest command line.

        Use configuration of self.data and self._reprotest_target.
        """
        target = self._reprotest_target
        assert target is not None

        cmd = [
            "bash",
            "-c",
            f"TMPDIR=/tmp ; cd /tmp ; dpkg-source -x {target} package/; "
            "cd package/ ; mk-build-deps ; apt-get install --yes ./*.deb ; "
            "rm *.deb ; "
            "reprotest --vary=-time,-user_group,-fileordering,-domain_host .",
        ]

        return cmd

    @staticmethod
    def _cmdline_as_root() -> bool:
        r"""apt-get install --yes ./\*.deb must be run as root."""
        return True

    def task_result(
        self,
        returncode: int | None,
        execute_directory: Path,  # noqa: U100
    ) -> WorkRequestResults:
        """
        Evaluate task output and return success.

        For a successful run of reprotest:
        -must have the output file
        -exit code is 0

        :return: WorkRequestResults.SUCCESS or WorkRequestResults.FAILURE.
        """
        reprotest_file = execute_directory / self.CAPTURE_OUTPUT_FILENAME

        if reprotest_file.exists() and returncode == 0:
            return WorkRequestResults.SUCCESS

        return WorkRequestResults.FAILURE

    def upload_artifacts(
        self, exec_directory: Path, *, execution_result: WorkRequestResults
    ) -> None:
        """Upload the ReprotestArtifact with the files and relationships."""
        if not self.debusine:
            raise AssertionError("self.debusine not set")

        assert self.dynamic_data is not None
        assert self.dynamic_data.parameter_summary is not None

        reprotest_artifact = ReprotestArtifact.create(
            reprotest_output=exec_directory / self.CAPTURE_OUTPUT_FILENAME,
            reproducible=execution_result == WorkRequestResults.SUCCESS,
            package=self.dynamic_data.parameter_summary,
        )

        uploaded = self.debusine.upload_artifact(
            reprotest_artifact,
            workspace=self.workspace_name,
            work_request=self.work_request_id,
        )

        assert self.dynamic_data is not None
        assert self.dynamic_data.source_artifact_id is not None
        self.debusine.relation_create(
            uploaded.id,
            self.dynamic_data.source_artifact_id,
            RelationType.RELATES_TO,
        )

Below are the main methods with some basic explanation.

In order for Debusine to discover the task, add "Reprotest" in the file debusine/tasks/__init__.py in the __all__ list.

Let’s explain the different methods of the Reprotest class:

`build_dynamic_data` method

The worker has no access to Debusine’s database. Lookups are all resolved before the task gets dispatched to a worker, so all it has to do is download the specified input artifacts.

build_dynamic_data method lookup the artifact, assert that is a valid category, extract the package name and version, and get the environment in which it will be executed.

The environment is needed to run the task (reprotest will run in a container using unshare, incus…).

    def build_dynamic_data(
        self, task_database: TaskDatabaseInterface
    ) -> ReprotestDynamicData:
        """Compute and return ReprotestDynamicData."""
        input_source_artifact = task_database.lookup_single_artifact(
            self.data.source_artifact
        )

        assert input_source_artifact is not None
        self.ensure_artifact_categories(
            configuration_key="input.source_artifact",
            category=input_source_artifact.category,
            expected=(
                ArtifactCategory.SOURCE_PACKAGE,
                ArtifactCategory.UPLOAD,
            ),
        )
        assert isinstance(
            input_source_artifact.data, (DebianSourcePackage, DebianUpload)
        )
        subject = get_source_package_name(input_source_artifact.data)
        version = get_source_package_version(input_source_artifact.data)

        assert self.data.environment is not None

        environment = self.get_environment(
            task_database,
            self.data.environment,
            default_category=CollectionCategory.ENVIRONMENTS,
        )

        return ReprotestDynamicData(
            source_artifact_id=input_source_artifact.id,
            subject=subject,
            parameter_summary=f"{subject}_{version}",
            environment_id=environment.id,
        )

`get_input_artifacts_ids` method

Used to list the task’s input artifacts in the web UI.

   def get_input_artifacts_ids(self) -> list[int]:
       """Return the list of input artifact IDs used by this task."""
       if not self.dynamic_data:
           return []

       assert self.dynamic_data.source_artifact_id is not None
       return [self.dynamic_data.source_artifact_id]

`fetch_input` method

Download the required artifacts on the worker.

    def fetch_input(self, destination: Path) -> bool:
        """Download the required artifacts."""
        assert self.dynamic_data

        artifact_id = self.dynamic_data.source_artifact_id
        assert artifact_id is not None
        self.fetch_artifact(artifact_id, destination)

        return True

`configure_for_execution` method

Install the packages needed by the task and set _reprotest_target, which is used to build the task’s command line.

   def configure_for_execution(self, download_directory: Path) -> bool:
       """
       Find a .dsc in download_directory.

       Install reprotest and other utilities used in _cmdline.
       Set self._reprotest_target to it.

       :param download_directory: where to search the files
       :return: True if valid files were found
       """
       self._prepare_executor_instance()

       if self.executor_instance is None:
           raise AssertionError("self.executor_instance cannot be None")

       self.run_executor_command(
           ["apt-get", "update"],
           log_filename="install.log",
           run_as_root=True,
           check=True,
       )
       self.run_executor_command(
           [
               "apt-get",
               "--yes",
               "--no-install-recommends",
               "install",
               "reprotest",
               "dpkg-dev",
               "devscripts",
               "equivs",
               "sudo",
           ],
           log_filename="install.log",
           run_as_root=True,
       )

       self._reprotest_target = utils.find_file_suffixes(
           download_directory, [".dsc"]
       )
       return True

`_cmdline` method

Return the command line to run the task.

In this case, and to keep the example simple, we will run reprotest directly in the worker’s executor VM/container, without giving it an isolated virtual server.

So, this command installs the build dependencies required by the package (so reprotest can build it) and runs reprotest itself.

   def _cmdline(self) -> list[str]:
       """
       Build the reprotest command line.

       Use configuration of self.data and self._reprotest_target.
       """
       target = self._reprotest_target
       assert target is not None

       cmd = [
           "bash",
           "-c",
           f"TMPDIR=/tmp ; cd /tmp ; dpkg-source -x {target} package/; "
           "cd package/ ; mk-build-deps ; apt-get install --yes ./*.deb ; "
           "rm *.deb ; "
           "reprotest --vary=-time,-user_group,-fileordering,-domain_host .",
       ]

       return cmd

Some reprotest variations are disabled. This is to keep the example simple with the set of packages to install and reprotest features.

`_cmdline_as_root` method

Since during the execution it’s needed to install packages, run it as root (in the container):

   @staticmethod
   def _cmdline_as_root() -> bool:
       r"""apt-get install --yes ./\*.deb must be run as root."""
       return True

`task_result` method

Task succeeded if a log is generated and the return code is 0.

    def task_result(
        self,
        returncode: int | None,
        execute_directory: Path,  # noqa: U100
    ) -> WorkRequestResults:
        """
        Evaluate task output and return success.

        For a successful run of reprotest:
        -must have the output file
        -exit code is 0

        :return: WorkRequestResults.SUCCESS or WorkRequestResults.FAILURE.
        """
        reprotest_file = execute_directory / self.CAPTURE_OUTPUT_FILENAME

        if reprotest_file.exists() and returncode == 0:
            return WorkRequestResults.SUCCESS

        return WorkRequestResults.FAILURE

`upload_artifacts` method

Create the ReprotestArtifact with the log and the reproducible boolean, upload it, and then add a relation between the ReprotestArtifact and the source package:

    def upload_artifacts(
        self, exec_directory: Path, *, execution_result: WorkRequestResults
    ) -> None:
        """Upload the ReprotestArtifact with the files and relationships."""
        if not self.debusine:
            raise AssertionError("self.debusine not set")

        assert self.dynamic_data is not None
        assert self.dynamic_data.parameter_summary is not None

        reprotest_artifact = ReprotestArtifact.create(
            reprotest_output=exec_directory / self.CAPTURE_OUTPUT_FILENAME,
            reproducible=execution_result == WorkRequestResults.SUCCESS,
            package=self.dynamic_data.parameter_summary,
        )

        uploaded = self.debusine.upload_artifact(
            reprotest_artifact,
            workspace=self.workspace_name,
            work_request=self.work_request_id,
        )

        assert self.dynamic_data is not None
        assert self.dynamic_data.source_artifact_id is not None
        self.debusine.relation_create(
            uploaded.id,
            self.dynamic_data.source_artifact_id,
            RelationType.RELATES_TO,
        )

Execution example

To run this task in a local Debusine (see steps to have it ready with an environment, permissions and users created) you can do:

$ python3 -m debusine.client artifact import-debian -w System http://deb.debian.org/debian/pool/main/h/hello/hello_2.10-5.dsc

(get the artifact ID from the output of that command)

The artifact can be seen in http://$DEBUSINE/debusine/System/artifact/$ARTIFACTID/.

Then create a reprotest.yaml:

$ cat <<EOF > reprotest.yaml
source_artifact: $ARTIFACT_ID
environment: "debian/match:codename=bookworm"
EOF

Instead of debian/match:codename=bookworm it could use the artifact ID.

Finally, create the work request to run the task:

$ python3 -m debusine.client create-work-request -w System reprotest --data reprotest.yaml

Using Debusine web you can see the work request, which should go to Running status, then Completed with Success or Failure (depending if reprotest could reproduce it or not). Clicking on the Output tab would have an artifact of type debian:reprotest with one file: the log. In the Metadata tab of the artifact it has Data: the package name and reproducible (true or false).

What is left to do?

This was a simple example of creating a task. Other things that could be done:

unit tests
documentation
configurable variations
running reprotest directly on the worker host, using the executor environment as a reprotest “virtual server”
in this specific example, the command line might be doing too many things that could maybe be done by other parts of the task, such as prepare_environment.
integrate it in a workflow so it’s easier to use (e.g. part of QaWorkflow)
extract more from the log than just pass/fail
display the output in a more useful way (implement an artifact specialized view)

10 February, 2026 12:00AM by Carles Pina i Estany

February 08, 2026

Colin Watson

Free software activity in January 2026

About 80% of my Debian contributions this month were sponsored by Freexian, as well as one direct donation via GitHub Sponsors (thanks!). If you appreciate this sort of work and are at a company that uses Debian, have a look to see whether you can pay for any of Freexian‘s services; as well as the direct benefits, that revenue stream helps to keep Debian development sustainable for me and several other lovely people.

You can also support my work directly via Liberapay or GitHub Sponsors.

Python packaging

New upstream versions:

django-macaddress (fixing use of pkg_resources)
fsspec (fixing a build failure with Python 3.14)
ipyparallel
pycodestyle
pyflakes (fixing a build failure with Python 3.14)
pyroma
pytest-golden (fixing a regression that broke markdown-callouts, which I reported upstream)
pytest-runner
python-auditwheel
python-b2sdk (fixing a build failure with Python 3.14)
python-certifi
python-django-imagekit (fixing a build failure with Python 3.14)
python-flake8 (fixing a build failure with a new pyflakes version)
python-ibm-cloud-sdk-core (contributed supporting fix upstream)
python-openapi-core (fixing a build failure with Python 3.14)
python-pdoc (fixing a build failure with Python 3.14)
python-pyfunceble
python-pytest-run-parallel
python-pytokens
python-weblogo (fixing use of pkg_resources)
python-wheezy.template
smart-open
sphinx-togglebutton
sqlobject
supervisor (fixing use of pkg_resources)
vcr.py (fixing a build failure with Python 3.14)
zope.interface (including a fix for a Python 3.14 failure in python-klein, which I contributed upstream)
zope.testrunner (fixing a build failure with Python 3.14)

Fixes for Python 3.14:

pdfposter (contributed upstream)
pexpect
poetry
pyhamcrest
pylint-gitlab
python-astor
python-easydev (contributed upstream)
python-forbiddenfruit
python-ibm-cloud-sdk-core
python-iniparse
python-libusb1
python-marshmallow-dataclass (contributed upstream)
python-marshmallow (NMU)
python-opentracing
python-opt-einsum-fx
python-spdx-tools
python-stopit
rich (NMU, also requiring an NMU of textual)
scikit-build-core
seqdiag
uncertainties
yarsync (contributed upstream, along with a supporting fix)

Fixes for pytest 9:

Porting away from the deprecated pkg_resources:

beaker
coreapi
cppy (no-change rebuild to remove a spurious dependency)
depthcharge-tools (contributed upstream)
errbot
gajim-antispam (removed unused dependency)
gajim-lengthnotifier (removed unused dependency)
gajim-openpgp (removed unused dependency)
gajim-pgp (removed unused dependency)
gajim-triggers (removed unused dependency)
grapefruit
impacket (contributed upstream)
jupyter-packaging (no-change rebuild to remove a spurious dependency)
khal
pipenv (no-change rebuild to remove a spurious dependency)
pyroma
pytest-runner
pytest-tornado
python-airr
python-aptly
python-docxcompose
python-hatch-mypyc (no-change rebuild to remove a spurious dependency)
python-pyfunceble
python-stopit
python-ttfautohint-py (removed unused dependency)
setuptools-scm (no-change rebuild to remove a spurious dependency)
slimit (removed unused dependency)
sphinx-togglebutton
topplot (contributed upstream)
valinor

Other build/test failures:

I investigated several more build failures and suggested removing the packages in question:

Other bugs:

Other bits and pieces

Alejandro Colomar reported that man(1) ignored the MANWIDTH environment variable in some circumstances. I investigated this and fixed it upstream.

I contributed an ubuntu-dev-tools patch to stop recommending sudo.

I added forky support to the images used in Salsa CI pipelines.

I began working on getting a release candidate of groff 1.24.0 into experimental, though haven’t finished that yet.

I worked on some lower-priority security updates for OpenSSH.

Code reviews

netcfg: Support SSIDs with /, write correct wifi to /etc/network/interfaces (merged and uploaded)
openssh: [INTL:zh] Chinese debconf templates translations (merged)
pymongo (sponsored upload for Aryan Karamtoth)
python-streamz (sponsored upload for Aryan Karamtoth)
smart-open: Please make the build reproducible (fixed in a different way)
uvloop: FTBFS on riscv64 with Python 3.14 as supported (uploaded)

08 February, 2026 07:30PM by Colin Watson

Dirk Eddelbuettel

chronometre: A new package (pair) demo for R and Python

Both R and Python make it reasonably easy to work with compiled extensions. But how to access objects in one environment from the other and share state or (non-trivial) objects remains trickier. Recently (and while r-forge was ‘resting’ so we opened GitHub Discussions) a question was asked concerning R and Python object pointer exchange.

This lead to a pretty decent discussion including arrow interchange demos (pretty ideal if dealing with data.frame-alike objects), but once the focus is on more ‘library-specific’ objects from a given (C or C++, say) library it is less clear what to do, or how involved it may get.

R has external pointers, and these make it feasible to instantiate the same object in Python. To demonstrate, I created a pair of (minimal) packages wrapping a lovely (small) class from the excellent spdlog library by Gabi Melman, and more specifically in an adapted-for-R version (to avoid some R CMD check nags) in my RcppSpdlog package. It is essentially a nicer/fancier C++ version of the tic() and tic() timing scheme. When an object is instantiated, it ‘starts the clock’ and when we accessing it later it prints the time elapsed in microsecond resolution. In Modern C++ this takes little more than keeping an internal chrono object.

Which makes for a nice, small, yet specific object to pass to Python. So the R side of the package pair instantiates such an object, and accesses its address. For different reasons, sending a ‘raw’ pointer across does not work so well, but a string with the address printed works fabulously (and is a paradigm used around other packages so we did not invent this). Over on the Python side of the package pair, we then take this string representation and pass it to a little bit of pybind11 code to instantiate a new object. This can of course also expose functionality such as the ‘show time elapsed’ feature, either formatted or just numerically, of interest here.

And that is all that there is! Now this can be done from R as well thanks to reticulate as the demo() (also shown on the package README.md) shows:

> library(chronometre)
> demo("chronometre", ask=FALSE)


        demo(chronometre)
        ---- ~~~~~~~~~~~

> #!/usr/bin/env r
> 
> stopifnot("Demo requires 'reticulate'" = requireNamespace("reticulate", quietly=TRUE))

> stopifnot("Demo requires 'RcppSpdlog'" = requireNamespace("RcppSpdlog", quietly=TRUE))

> stopifnot("Demo requires 'xptr'" = requireNamespace("xptr", quietly=TRUE))

> library(reticulate)

> ## reticulate and Python in general these days really want a venv so we will use one,
> ## the default value is a location used locally; if needed create one
> ## check for existing virtualenv to use, or else set one up
> venvdir <- Sys.getenv("CHRONOMETRE_VENV", "/opt/venv/chronometre")

> if (dir.exists(venvdir)) {
+ >     use_virtualenv(venvdir, required = TRUE)
+ > } else {
+ >     ## create a virtual environment, but make it temporary
+ >     Sys.setenv(RETICULATE_VIRTUALENV_ROOT=tempdir())
+ >     virtualenv_create("r-reticulate-env")
+ >     virtualenv_install("r-reticulate-env", packages = c("chronometre"))
+ >     use_virtualenv("r-reticulate-env", required = TRUE)
+ > }


> sw <- RcppSpdlog::get_stopwatch()                   # we use a C++ struct as example

> Sys.sleep(0.5)                                      # imagine doing some code here

> print(sw)                                           # stopwatch shows elapsed time
0.501220 

> xptr::is_xptr(sw)                                   # this is an external pointer in R
[1] TRUE

> xptr::xptr_address(sw)                              # get address, format is "0x...."
[1] "0x58adb5918510"

> sw2 <- xptr::new_xptr(xptr::xptr_address(sw))       # cloned (!!) but unclassed

> attr(sw2, "class") <- c("stopwatch", "externalptr") # class it .. and then use it!

> print(sw2)                                          # `xptr` allows us close and use
0.501597 

> sw3 <- ch$Stopwatch(  xptr::xptr_address(sw) )      # new Python object via string ctor

> print(sw3$elapsed())                                # shows output via Python I/O
datetime.timedelta(microseconds=502013)

> cat(sw3$count(), "\n")                              # shows double
0.502657 

> print(sw)                                           # object still works in R
0.502721 
>

The same object, instantiated in R is used in Python and thereafter again in R. While this object here is minimal in features, the concept of passing a pointer is universal. We could use it for any interesting object that R can access and Python too can instantiate. Obviously, there be dragons as we pass pointers so one may want to ascertain that headers from corresponding compatible versions are used etc but principle is unaffected and should just work.

Both parts of this pair of packages are now at the corresponding repositories: PyPI and CRAN. As I commonly do here on package (change) announcements, I include the (minimal so far) set of high-level changes for the R package.

Changes in version 0.0.2 (2026-02-05)

Removed replaced unconditional virtualenv use in demo given preceding conditional block

Updated README.md with badges and an updated demo

Changes in version 0.0.1 (2026-01-25)

Initial version and CRAN upload

Questions, suggestions, bug reports, … are welcome at either the (now awoken from the R-Forge slumber) Rcpp mailing list or the newer Rcpp Discussions.

This post by Dirk Eddelbuettel originated on his Thinking inside the box blog. If you like this or other open-source work I do, you can sponsor me at GitHub.

08 February, 2026 05:11PM

Vincent Bernat

Fragments of an adolescent web

I have unearthed a few old articles typed during my adolescence, between 1996 and 1998. Unremarkable at the time, these pages now compose, three decades later, the chronicle of a vanished era.¹

The word “blog” does not exist yet. Wikipedia remains to come. Google has not been born. AltaVista reigns over searches, while already struggling to embrace the nascent immensity of the web². To meet someone, you had to agree in advance and prepare your route on paper maps. 🗺️

The web is taking off. The CSS specification has just emerged, HTML tables still serve for page layout. Cookies and advertising banners are making their appearance. Pages are adorned with music and videos, forcing browsers to arm themselves with plugins. Netscape Navigator sits on 86% of the territory, but Windows 95 now bundles Internet Explorer to quickly catch up. Facing this offensive, Netscape opensource its browser.

France falls behind. Outside universities, Internet access remains expensive and laborious. Minitel still reigns, offering phone directory, train tickets, remote shopping. This was not yet possible with the Internet: buying a CD online was a pipe dream. Encryption suffers from inappropriate regulation: the DES algorithm is capped at 40 bits and cracked in a few seconds.

These pages bear the trace of the web’s adolescence. Thirty years have passed. The same battles continue: data selling, advertising, monopolies.

Most articles linked here are not translated from French to English. ↩︎
I recently noticed that Google no longer fully indexes my blog. For example, it is no longer possible to find the article on lanĉo. I assume this is a consequence of the explosion of AI-generated content or a change in priorities for Google. ↩︎

08 February, 2026 02:51PM by Vincent Bernat

Thorsten Alteholz

My Debian Activities in January 2026

Debian LTS/ELTS

This was my hundred-thirty-ninth month that I did some work for the Debian LTS initiative, started by Raphael Hertzog at Freexian (as the LTS- and ELTS-teams have been merged now, there is only one paragraph left for both activities).

During my allocated time I uploaded or worked on:

[DLA 4449-1] zvbi security update to fix five CVEs related to uninitialized pointers and integer overflows.
[DLA 4450-1] taglib security update to fix one CVE related to a segmentation violation.
[DLA 4451-1] shapelib security update to fix one CVE related to a double free.
[DLA 4454-1] libuev security update to fix one CVE related to a buffer overrun.
[ELA-1620-1] zvbi security update to fix five CVEs in Buster and Stretch related to uninitialized pointers and integer overflows.
[ELA-1621-1] taglib security update to fix one CVE in Buster and Stretch related to a segmentation violation.
[#1126167] bookworm-pu bug for zvbi to fix five CVEs in Bookworm.
[#1126273] bookworm-pu bug for taglib to fix one CVE in Bookworm.
[#1126370] bookworm-pu bug for libuev to fix one CVE in Bookworm.

I also attended the monthly LTS/ELTS meeting. While working on updates, I stumbled upon packages, whose CVEs have been postponed for a long time and their CVSS score was rather high. I wonder whether one should pay more attention to postponed issues, otherwise one could have already marked them as ignored.

Debian Printing

Unfortunately I didn’t found any time to work on this topic.

Debian Lomiri

This month I worked on unifying packaging on Debian and Ubuntu. This makes it easier to work on those packages independent of the used platform.

This work is generously funded by Fre(i)e Software GmbH!

Debian Astro

This month I uploaded a new upstream version or a bugfix version of:

… supernovas to unstable (sponsored upload).
… libahp-xc to unstable.
… c-munipack to unstable.

Debian IoT

Unfortunately I didn’t found any time to work on this topic.

Debian Mobcom

Unfortunately I didn’t found any time to work on this topic.

misc

This month I uploaded a new upstream version or a bugfix version of:

… liburjtag to unstable.

Unfortunately this month I was distracted from my normal Debian work by other unpleasant things, so that the paragraphs above are mostly empty. I now have to think about how many of my spare time I am able to dedicate to Debian in the future.

08 February, 2026 01:25PM by alteholz

Louis-Philippe Véronneau

Montreal Subway Foot Traffic Data, 2025 edition

Another year of data from Société de Transport de Montréal, Montreal's transit agency!

A few highlights this year:

Although the Saint-Michel station closed for emergency repairs in November 2024, traffic never bounced back to its pre-closure levels and is still stuck somewhere around 2022 Q2 levels. I wonder if this could be caused by the roadwork on Jean-Talon for the new Blue Line stations making it harder for folks in Montreal-Nord to reach the station by bus.
The effects of the opening of the Royalmount shopping center has had a durable impact on the traffic at the De la Savane station. I reported on this last year, but it seems this wasn't just a fad.
With the completion of the Deux-Montagnes branch of the Réseau express métropolitain (REM, a light-rail, above the surface transit network still in construction), the transfer stations to the Montreal subway have seen major traffic increases. The Édouard-Montpetit station has nearly reached its previous all-time record of 2015 and the McGill station has recovered from the general slump all the other stations have had in 2025.
The Assomption station, which used to have one of the lowest number of riders of the subway network, has had a tremendous growth in the past few years. This is mostly explained by the many high-rise projects that were built around the station since the end of the COVID-19 pandemic.
Although still affected by a very high seasonality, the Jean-Drapeau station broke its previous record of 2019, a testament of the continued attraction power of the various summer festivals taking place on the Sainte-Hélène et Notre-Dame islands.

More generally, it seems the Montreal subway has had a pretty bad year. Traffic had been slowly climbing back since the COVID-19 pandemic, but this is the first year since 2020 such a sharp decline can be witnessed. Even major stations like Jean-Talon or Lionel-Groulx are on a downward trend and it is pretty worrisome.

As for causes, a few things come to mind. First of all, as the number of Montrealers commuting to work by bike continues to rise¹, a modal shift from public transit to active mobility is to be expected. As local experts put it, this is not uncommon and has been seen in other cities before.

Another important factor that certainly turned people away from the subway this year has been the impacts of the continued housing crisis in Montreal. As more and more people get kicked out of their apartments, many have been seeking refuge in the subway stations to find shelter.

Sadly, this also brought a unprecedented wave of incivilities. As riders' sense of security sharply decreased, the STM eventually resorted to banning unhoused people from sheltering in the subway. This decision did bring back some peace to the network, but one can posit damage had already been done and many casual riders are still avoiding the subway for this reason.

Finally, the weekslong STM worker's strike in Q4 had an important impact on general traffic, as it severely reduced the opening hours of the subway. As for the previous item, once people find alternative ways to get around, it's always harder to bring them back.

Hopefully, my 2026 report will be a more cheerful one...

By clicking on a subway station, you'll be redirected to a graph of the station's foot traffic.

Licences

The subway map displayed on this page, the original dataset and my modified dataset are licenced under CCO 1.0: they are in the public domain.
The R code I wrote is licensed under the GPLv3+. It has not changed in a few years.

Mostly thanks to major improvements to the cycling network and the BIXI bikesharing program. ↩

08 February, 2026 05:00AM by Louis-Philippe Véronneau

February 06, 2026

Reproducible Builds

Reproducible Builds in January 2026

Welcome to the first monthly report in 2026 from the Reproducible Builds project!

These reports outline what we’ve been up to over the past month, highlighting items of news from elsewhere in the increasingly-important area of software supply-chain security. As ever, if you are interested in contributing to the Reproducible Builds project, please see the Contribute page on our website.

Flathub now testing for reproducibility

Flathub, the primary repository/app store for Flatpak-based applications, has begun checking for build reproducibility. According to a recent blog post:

We have started testing binary reproducibility of x86_64 builds targeting the stable repository. This is possible thanks to flathub-repro-checker, a tool doing the necessary legwork to recreate the build environment and compare the result of the rebuild with what is published on Flathub. While these tests have been running for a while now, we have recently restarted them from scratch after enabling S3 storage for diffoscope artifacts.

The test results and status is available on their reproducible builds page.

Reproducibility identifying software projects that will fail to build in 2038

Longtime Reproducible Builds developer Bernhard M. Wiedemann posted on Reddit on “Y2K38 commemoration day T-12” — that is to say, twelve years to the day before the UNIX Epoch will no longer fit into a signed 32-bit integer variable on 19th January 2038.

Bernhard’s comment succinctly outlines the problem as well as notes some of the potential remedies, as well as links to a discussion with the GCC developers regarding “adding warnings for int → time_t conversions”.

At the time of publication, Bernard’s topic had generated 50 comments in response.

Distribution work

Conda is language-agnostic package manager which was originally developed to help Python data scientists and is now a popular package manager for Python and R.

conda-forge, a community-led infrastructure for Conda recently revamped their dashboards to rebuild packages straight to track reproducibility. There have been changes over the past two years to make the conda-forge build tooling fully reproducible by embedding the ‘lockfile’ of the entire build environment inside the packages.

In Debian this month:

Scott Talbert uploaded a new version of dh-haskell (0.6.13), reverting parallel support as it broke reproducibility, thereby fixing Debian bug #1125000.
Vagrant Cascadian posted to our mailing list on the topic of “Duplicate Debian packages with matching name-version-arch problem”. The issue is that .buildinfo files only “record the package name, version and architecture of the build-dependencies (and perhaps a bit more), but there are corner cases where multiple artifacts have the same name, version and architecture”. This generated some discussion on the mailing list as well as elsewhere in Debian.
Roland Clobus also posted to our mailing list regarding Building Debian Live images from snapshot.debian.org. This surfaced an issue regarding the timestamps of the .deb file, leading to Roland filing Debian bug #1126000 to liaise with the developers of the snapshot.debian.org service.
A change was made to migrate away from using the results from tests.reproducible-builds.org in deciding whether a package is a suitable candidate for the Debian testing distribution (the staging area for the next stable Debian release) to use the results from reproduce.debian.net instead. This was, according to Paul Gevers’ merge request, because the former service “does so by building twice in a row with varying build environment. What we are actually interested in is if the binaries that we ship can be reproduced”. The information provided by reproduce.debian.net in future will be used to delay or speed up packages’ migration time based on their reproducibility status, and further in the future shall be used to block unreproducible packages from migrating entirely.
41 reviews of Debian packages were added, 7 were updated and 37 were removed this month adding to our knowledge about identified issues. Chris Lamb identified and added a new source_date_epoch_affected_by_timezone_by_d_compiler_gdc issue type, as well as timezone_variant_in_argparse_manpage.

In NixOS this month, it was announced that the GNU Guix Full Source Bootstrap was ported to NixOS as part of Wire Jansen bachelor’s thesis (PDF). At the time of publication, this change has landed in NiX’ stdev distribution.

Lastly, Bernhard M. Wiedemann posted another openSUSE monthly update for his work there.

Tool development

diffoscope is our in-depth and content-aware diff utility that can locate and diagnose reproducibility issues. This month, Chris Lamb made the following changes, including preparing and uploading versions, 310 and 311 to Debian.

Fix test compatibility with u-boot-tools version 2026-01. […]
Drop the implied Rules-Requires-Root: no entry in debian/control. […]
Bump Standards-Version to 4.7.3. […]
Reference the Debian ocaml package instead of ocaml-nox. (#1125094)
Apply a patch by Jelle van der Waa to adjust a test fixture match new lines. […]
Also the drop implied Priority: optional from debian/control. […]

In addition, Holger Levsen uploaded two versions of disorderfs, first updating the package from FUSE 2 to FUSE 3 as described in last months report, as well as updating the packaging to the latest Debian standards. A second upload (0.6.2-1) was subsequently made, with Holger adding instructions on how to add the upstream release to our release archive and incorporating changes by Roland Clobus to set _FILE_OFFSET_BITS on 32-bit platforms, fixing a build failure on 32-bit systems. Vagrant Cascadian updated diffoscope in GNU Guix to version 311-2-ge4ec97f7 and disorderfs to 0.6.2.

Two new academic papers

Julien Malka, Stefano Zacchiroli and Théo Zimmermann of Télécom Paris’ in-house research laboratory, the Information Processing and Communications Laboratory (LTCI) published a paper this month titled Docker Does Not Guarantee Reproducibility:

[…] While Docker is frequently cited in the literature as a tool that enables reproducibility in theory, the extent of its guarantees and limitations in practice remains under-explored. In this work, we address this gap through two complementary approaches. First, we conduct a systematic literature review to examine how Docker is framed in scientific discourse on reproducibility and to identify documented best practices for writing Dockerfiles enabling reproducible image building. Then, we perform a large-scale empirical study of 5,298 Docker builds collected from GitHub workflows. By rebuilding these images and comparing the results with their historical counterparts, we assess the real reproducibility of Docker images and evaluate the effectiveness of the best practices identified in the literature.

A PDF of their paper is available online.

Quentin Guilloteau, Antoine Waehren and Florina M. Ciorba of the University of Basel in Sweden also published a Docker-related paper, theirs called Longitudinal Study of the Software Environments Produced by Dockerfiles from Research Artifacts:

The reproducibility crisis has affected all scientific disciplines, including computer science (CS). To address this issue, the CS community has established artifact evaluation processes at conferences and in journals to evaluate the reproducibility of the results shared in publications. Authors are therefore required to share their artifacts with reviewers, including code, data, and the software environment necessary to reproduce the results. One method for sharing the software environment proposed by conferences and journals is to utilize container technologies such as Docker and Apptainer. However, these tools rely on non-reproducible tools, resulting in non-reproducible containers. In this paper, we present a tool and methodology to evaluate variations over time in software environments of container images derived from research artifacts. We also present initial results on a small set of Dockerfiles from the Euro-Par 2024 conference.

A PDF of their paper is available online.

Miscellaneous news

On our mailing list this month:

kpcyrd started a thread after they noticed that “SWHID (also known as ISO/IEC 18670:2025) was published 1.0 in 2022 and ISO standardized in 2025, but uses the insecure SHA-1 as core cryptographic primitive”, asking whether there have been any attempts to upgrade this to SHA-256 or similar.
Jan-Benedict Glaw asked about the Reproducibility for Libreoffice [when performing] ODT to PDF conversion after they observed that “simply calling libreoffice --convert-to pdf some.odt results in unreproducible output PDF. After some replies, Jan-Benedict wrote back to observe that it may be an issue with both timestamps and embedded fonts.

Lastly, kpcyrd added a Rust section to the Stable order for outputs page on our website. […]

Upstream patches

The Reproducible Builds project detects, dissects and attempts to fix as many currently-unreproducible packages as possible. We endeavour to send all of our patches upstream where appropriate. This month, we wrote a large number of such patches, including:

Bernhard M. Wiedemann:
- clamav
- kf6-kuserfeedback
- libaom
- Nim
- otp
- Switcheroo (by Khaleel Al-Adhami)
- uwsm
- ZEO
Chris Lamb:
- #1124697 filed against sqlalchemy-i18n.
- #1125671 filed against tea-cli.
- #1125725 filed against libimage-librsvg-perl.
- #1125727 filed against seer.
- #1125729 filed against grabix.
- #1126038 filed against hovercraft.
- #1126039 filed against lomiri-location-service.
- #1126092 filed against argparse-manpage.
- #1126454 filed against xarray-safe-rcm.
- #1126512 filed against gcc-15 (forwarded upstream).
Jochen Sprickerhof:
- #1124951 filed against rsyslog.
- #1125000 filed against dh-haskell.

Finally, if you are interested in contributing to the Reproducible Builds project, please visit our Contribute page on our website. However, you can get in touch with us via:

IRC: #reproducible-builds on irc.oftc.net.
Mastodon: @reproducible_builds@fosstodon.org
Mailing list: rb-general@lists.reproducible-builds.org

06 February, 2026 08:04PM

Birger Schacht

Status update, January 2026

January was a slow month, I only did three uploads to Debian unstable:

xdg-desktop-portal-wlr updated to 0.8.1-1
swayimg updated to 4.7-1
usbguard updated to 1.1.4+ds-2, which closed #1122733

I was very happy to see the new dfsg-new-queue and that there are more hands now processing the NEW queue. I also finally got one of the packages accepted that I uploaded after the Trixie release: wayback which I uploaded last August. There has been another release since then, I’ll try to upload that in the next few days.

There was a bug report for carl asking for Windows support. carl used the xdg create for looking up the XDG directories, but xdg does not support windows systems (and it seems this will not change) The reporter also provided a PR to replace the dependency with the directories crate which more system agnostic. I adapted the PR a bit and merged it and released version 0.6.0 of carl.

At my dayjob I refactored django-grouper. django-grouper is a package we use to find duplicate objects in our data. Our users often work with datasets of thousands of historical persons, places and institutions and in projects that run over years and ingest data from multiple sources, it happens that entries are created several times. I wrote the initial app in 2024, but was never really happy about the approach I used back then. It was based on this blog post that describes how to group spreadsheet text cells. It uses sklearns TfidfVectorizer with a custom analyzer and the library sparse_dot_topn for creating the matrix. All in all the module to calculate the clusters was 80 lines and with sparse_dot_topn it pulled in a rather niche Python library. I was pretty sure that this functionality could also be implemented with basic sklearn functionality and it was: we are now using DictVectorizer because in a Django app we are working with objects that can be mapped to dicts anyway. And for clustering the data, the app now uses the DBSCAN algorithm (with the manhattan distance as metric). The module is now only half the size and the whole app lost one dependency! I released those changes as version 0.3.0 of the app.

At the end of January together with friends I went to Brussels to attend FOSDEM. We took the night train but there were a couple of broken down trains so the ride took 26 hours instead of one night. It is a good thing we had a one day buffer and FOSDEM only started on Saturday. As usual there were too many talks to visit, so I’ll have to watch some of the recordings in the next few weeks.

Some examples of talks I found interesting so far:

a talk about supporting Python web deployments with Rust in the Rust Developer room
a talk about duckdb in the Python Developer room
an introduction to particleos in the Distributions Developer room

06 February, 2026 05:28AM

Reproducible Builds (diffoscope)

diffoscope 312 released

The diffoscope maintainers are pleased to announce the release of diffoscope version 312. This version includes the following changes:

[ Jelle van der Waa ]
* Adjust u-boot-tools/fit diff to match new lines.

You find out more by visiting the project homepage.

06 February, 2026 12:00AM

February 05, 2026

Dirk Eddelbuettel

rfoaas 2.3.3: Limited Rebirth

rfoaas greed example

The original FOAAS site provided a rather wide variety of REST access points, but it sadky is no more (while the old repo is still there). A newer replacement site FOASS is up and running, but with a somewhat reduced offering. (For example, the two accessors shown in the screenshot are no more. C’est la vie.)

Recognising that perfect may once again be the enemy of (somewhat) good (enough), we have rejigged the rfoaas package in a new release 2.3.3. (The precding version number 2.3.2 corresponded to the upstream version, indicating which API release we matched. Now we just went ‘+ 0.0.1’ but there is no longer a correspondence to the service version at FOASS.)

Accessor functions for each of the now available access points are provided, ans the random sampling accessor getRandomFO() now picks from that set.

My CRANberries service provides a comparison to the previous release. Questions, comments etc should go to the GitHub issue tracker. More background information is on the project page as well as on the github repo

This post by Dirk Eddelbuettel originated on his Thinking inside the box blog. If you like this or other open-source work I do, you can sponsor me at GitHub.

05 February, 2026 01:00AM

February 04, 2026

littler 0.3.23 on CRAN: More Features (and Fixes)

max-heap image

The twentythird release of littler as a CRAN package landed on CRAN just now, following in the now twenty year history (!!) as a (initially non-CRAN) package started by Jeff in 2006, and joined by me a few weeks later.

littler is the first command-line interface for R as it predates Rscript. It allows for piping as well for shebang scripting via #!, uses command-line arguments more consistently and still starts faster. It also always loaded the methods package which Rscript only began to do in later years.

littler lives on Linux and Unix, has its difficulties on macOS due to some-braindeadedness there (who ever thought case-insensitive filesystems as a default were a good idea?) and simply does not exist on Windows (yet – the build system could be extended – see RInside for an existence proof, and volunteers are welcome!). See the FAQ vignette on how to add it to your PATH. A few examples are highlighted at the Github repo:, as well as in the examples vignette.

This release, the first in about eleven months, once again brings two new helper scripts, and enhances six existing one. The release was triggered because it finally became clear why installGitHub.r ignored r2u when available: we forced the type argument to ‘source’ (so thanks to Iñaki for spotting this). One change was once again contributed by Michael which is again greatly appreciated.

The full change description follows.

Changes in littler version 0.3.22 (2026-02-03)

Changes in examples scripts

A new script busybees.r aggregates deadlined packages by maintainer

Several small updated have been made to the (mostly internal) 'r2u.r' script

The deadliners.r script has refined treatment for screen width

The install2.r script has new options --quiet and --verbose as proposed by Zivan Karaman

The rcc.r script passes build-args to 'rcmdcheck' to compact vignettes and save data

The installRub.r script now defaults to 'noble' and is more tolerant of inputs

The installRub.r script deals correctly with empty utils::osVersion thanks to Michael Chirico

New script checkPackageUrls.r inspired by how CRAN checks (with thanks to Kurt Hornik for the hint)

The installGithub.r script now adjusts to bspm and takes advantage of r2u binaries for its build dependencies

Changes in package

Environment variables (read at build time) can use double quotes

Continuous intgegration scripts received a minor update

My CRANberries service provides a comparison to the previous release. Full details for the littler release are provided as usual at the ChangeLog page, and also on the package docs website. The code is available via the GitHub repo, from tarballs and now of course also from its CRAN page and via install.packages("littler"). Binary packages are available directly in Debian as well as (in a day or two) Ubuntu binaries at CRAN thanks to the tireless Michael Rutter. Comments and suggestions are welcome at the GitHub repo.

This post by Dirk Eddelbuettel originated on his Thinking inside the box blog. If you like this or other open-source work I do, you can sponsor me at GitHub.

04 February, 2026 12:37PM

Ben Hutchings

FOSS activity in January 2026

Debian packages:
- dracut:
  - Bugs:
    - replied to and reassigned #1124400: update-initramfs no longer includes /lib/modules/<kver>/updates directory
- flash-kernel:
  - Bugs:
    - closed #1102690: A higher version (…) is still installed, no reflashing required
    - closed #1125327: since linux 6.18, flash-kernel fails to find dtbs in /usr/lib/linux-image-*
  - Uploads:
    - uploaded version 3.110 to unstable
    - uploaded version 3.110~bpo13+1 to trixie-backports
- kernel-sec:
  - Merge requests:
    - opened !30: scripts/import-korg-vulns: Ignore issues in unsupported architectures
- libvirt:
  - Bugs:
    - (LTS) opened and replied to #1124549: libvirt passes invalid flags for network interface deletion
- linux:
  - Bugs:
  - Merge requests:
    - reviewed !1784: Add breaks on reform-tools and flash-kernel versions before support for…
  - (LTS) updated the bullseye-security branch to 5.10.248, but did not upload it
- (LTS) linux-6.1:
  - uploaded version 6.1.159-1~deb11u1 to bullseye-security
- linux-base:
  - Bugs:
  - Uploads:
    - uploaded version 4.12.1 to trixie
    - uploaded version 4.15 to unstable
- ministat:
  - Bugs:
    - closed #1123854: ministat: Packaging vcs doesn’t work, upstream vcs unspecified
    - closed #1123856: ministat: ministat crashes given all-inf input
  - Uploads:
    - uploaded version 20251113-1 to unstable
    - uploaded version 20251113-2 to unstable
- wireless-regdb:
  - Merge requests:
    - merged !7: Drop unnecessary B-D m2crypto (Closes: #1126431)
Debian non-package bugs:
- release.debian.org:
  - opened #1126020: trixie-pu: package linux-base/4.12.1
Mailing lists:
- debian-kernel:
  - posted Agenda items for kernel-team meeting on 2026-01-07
  - replied to Questions on debdiff for linux-signed-{amd64,arm64} in trixie-backports
  - (LTS) replied to [regression 5.10.y] Libvirt can no longer delete macvtap devices …
  - posted cpp-httplib FTBFS in unstable
  - (LTS) replied to kernel 5.10.0-28-amd64: linux-headers needed
- debian-lts:
  - posted and replied to Regression update for libvirt in bullseye?
- debian-lts-announce:
  - posted [SECURITY] [DLA 4436-1] linux-6.1 security update
- stable:
  - (LTS) posted [5.10] net/sched: act_ife: convert comma to semicolon
  - (LTS) posted [5.10] regression: virtual consoles 2-12 unusable
  - (LTS) reviewed and replied to various patches for 5.10 … … … … … … … … … … … … … … … … … …

04 February, 2026 11:39AM by Ben Hutchings

February 03, 2026

Jonathan Dowland

FOSDEM 2026 talk recording available

FOSDEM 2026 was great! I hope to blog a proper postmortem in due course. But for now, The video of my talk is up, as are my slides with speaker notes and links.

03 February, 2026 04:21PM

Valhalla's Things

A Day Off

Today I had a day off. Some of it went great. Some less so.

I woke up, went out to pay our tribute to NotOurCat, and it was snowing! yay! And I had a day off, so if it had snowed enough that shovelling was needed, I had time to do it (it didn’t, it started to rain soon afterwards, but still, YAY snow!).

Then I had breakfast, with the fruit rye bread I had baked yesterday, and I treated myself to some of the strong Irish tea I have left, instead of the milder ones I want to finish before buying more of the Irish.

And then, I bought myself a fancy new expensive fountain pen. One that costs 16€! more than three times as much as my usual ones! I hope it will work as well, but I’m quite confident it should. I’ll find out when it arrives from Germany (together with a few ink samples that will result in a future blog post with some SCIENCE).

I decided to try and use bank transfers instead of my visa debit card when buying from online shops that give the option to do so: it’s a tiny bit more effort, but it means I’m paying 0.25€ to my bank¹ rather than the seller having to pay some unknown amount to an US based payment provider. Unluckily, the fountain pen website offered a huge number of payment methods, but not bank transfers. sigh.

And then, I could start working a bit on the connecting wires for the LED strips for our living room: I soldered two pieces, six wires each (it’s one RGB strip, 4 pins, and a warm white one requiring two more), then did a bit of tests, including writing some micropython code to add a test mode that lights up each colour in sequence, and the morning was almost gone. For some reason this project, as simple as it is, is taking forever. But it is showing progress.

There was a break, when the postman delivered a package of chemicals ² for a future project or two. There will be blog posts!

After lunch I spent some time finishing eyelets on the outfit I wanted to wear this evening, as I had not been able to finish it during fosdem. This one will result in two blog posts!

Meanwhile, in the morning I didn’t remember the name of the program I used to load software on micropython boards such as the one that will control the LED strips (that’s thonny), and while searching for it in the documentation, I found that there is also a command line program I can use, mpremote, and that’s a much better fit for my preferences!

I mentioned it in an xmpp room full of nerds, and one of them mentioned that he could try it on his Inkplate, when he had time, and I was nerd-sniped into trying it on mine, which had been sitting unused showing the temperatures in our old house on the last day it spent there and needs to be updated for the sensors in the new house.

And that lead to the writing of some notes on how to set it up from the command line (good), and to the opening on one upstream issue (bad), because I have an old model, and the board-specific library isn’t working. at all.

And that’s when I realized that it was 17:00, I still had to cook the bread I had been working on since yesterday evening (ciabatta, one of my favourites, but it needs almost one hour in the oven), the outfit I wanted to wear in the evening was still not wearable, the table needed cleaning and some panicking was due. Thankfully, my mother was cooking dinner, so I didn’t have to do that too.

I turned the oven on, sewed the shoulder seams of the bodice while spraying water on the bread every 5 minutes, and then while it was cooking on its own, started to attach a closure to the skirt, decided that a safety pin was a perfectly reasonable closure for the first day an outfit is worn, took care of the table, took care of the bread, used some twine to close the bodice, because I still haven’t worked out what to use for laces, realized my bodkin is still misplaced, used a long and sharp and big needle meant for sewing mattresses instead of a bodkin, managed not to stab myself, and less than half an hour late we could have dinner.

There was bread, there was Swedish crispbread, there were spreads (tuna, and beans), and vegetables, and then there was the cake that caused my mother to panic when she added her last honey to the milk and it curdled (my SO and I tried it, it had no odd taste, we decided it could be used) and it was good, although I had to get a second slice just to be 100% sure of it.

And now I’m exhausted, and I’ve only done half of the things I had planned to do, but I’d still say I’ve had quite a good day.

Banca Etica, so one that avoids any investment in weapons and a number of other problematic things.↩︎
not food grade, except for one, but kitchen-safe.↩︎

03 February, 2026 12:00AM

February 02, 2026

Isoken Ibizugbe

How Open Source Contributions Define Your Career Path

Hi there, I’m more than halfway through (8 weeks) my Outreachy internship with Debian, working on the openQA project to test Live Images.

My journey into tech began as a software engineering trainee, during which I built a foundation in Bash scripting, C programming, and Python. Later, I worked for a startup as a Product Manager. As is common in startups, I wore many hats, but I found myself drawn most to the Quality Assurance team. Testing user flows and edge-case scenarios sparked my curiosity, and that curiosity is exactly what led me to the Debian Live Image testing project.

From Manual to Automated

In my previous roles, I was accustomed to manual testing, simulating user actions one by one. While effective, I quickly realized it could be a bottleneck in fast-paced environments. This internship has been a masterclass in removing that bottleneck. I’ve learned that automating repetitive actions makes life (and engineering) much easier. Life’s too short for manual testing .

One of my proudest technical wins so far has been creating “Synergy” across desktop environments. I proposed a solution to group common applications so we could use a single Perl script to handle tests for multiple desktop environments. With my mentor’s guidance, we implemented this using symbolic links, which significantly reduced code redundancy.

Expanding My Technical Toolkit

Over the last 8 weeks, my technical toolkit has expanded significantly:

Perl & openQA: I’ve learnt writing with Perl for automation within the openQA framework and I’ve successfully automated apps_startstop tests for Cinnamon and LXQt
Technical Documentation: I authored a contributor guide. This required paying close attention to detail, ensuring that new contributors can have faster reviews and merged contributions
Ansible: I am learning that testing doesn’t happen in a vacuum. To ensure new tests are truly automated, they must be integrated into the system’s configuration.

Working on this project has shaped my perspective on where I fit in the tech ecosystem. In Open Source, my “resume” isn’t just a PDF, it’s a public trail of merged code, technical proposals, and collaborative discussions.

As my mentor recently pointed out, this is my “proof-of-work.” It’s a transparent record of what I am capable of and where my interests lie.

Finally, I’ve grown as a team player. Working with a global team across different time zones has taught me the importance of asynchronous communication and respecting everyone’s time. Whether I am proposing a new logic or documenting a process, I am learning that open communication is just as vital as clean code.

02 February, 2026 09:49PM by Isoken Ibizugbe

Patryk Cisek

Bitwarden Secrets Manager With Ansible

If you’d like to have a simple solution for managing all the secrets you’re using in your Ansible Playbooks, keep reading on. Bitwarden’s Secrets Manager provides an Ansible collection, which makes it very easy to use this particular Secrets Manager in Ansible Playbooks. I’ll show you how to set up a free Secrets Manager account in Bitwarden. Then I’ll walk you through the setup in an example Ansible Playbook.

YouTube Video version

I’ve also recorded a video version of this article. If you prefer a video, you can find it here.

02 February, 2026 09:00PM

Hellen Chemtai

Career Growth Through Open Source: A Personal Journey

Hello world ! I am an intern at Outreachy working with the Debian OpenQA team on images testing. We get to know what career opportunities awaits us when we work on open source projects. In open source, we are constantly learning. The community has different sets of skills and a large network of people.

So, how did I start off in this internship

I entered the community with the these skills:

MERN (Mongo DB, Express JS , React JS and Node JS) – for web development
Linux and Shell Scripting – for some administrative purposes
Containerization using Google Cloud
Operating Systems
A learning passion for Open Source – I contributed to some open source work in the past but it was in terms of documentation and bug hunting

I was a newbie at OpenQA but, I had a month to learn and contribute. Time is a critical resource but so is understanding what you are doing. I followed the installations instructions given but whenever I got errors, I had to research why I got the errors. I took time to understand errors I was solving then continued on with the tasks I wanted to do. I communicated my logic and understanding while working on the task and awaited reviews and feedback. Within a span of two months I had learned a lot by practicing and testing.

The skills I gained

As of today, I gained these technical skills from my work with Debian OpenQA team.

Perl – the tests that we run are written in this language
Ansible configuration – ansible configurations and settings for the machines the team runs
Git – this is needed for code versioning and diving tasks into different branches
Linux – shell scripting and working with the Debian Operating system
Virtual Machines and Operating Systems – I constantly view how different operating systems are booted and run on virtual machines during testing
Testing – I keep watch of needles and ensure the tests work as required
Debian – I use a Debian system to run my Virtual Machines
OpenQA – the tool that is used to automate testing of Images

With open source comes the need of constant communication. The community is diverse and the team is usually on different time zones. These are some of the soft / social skills I gained when working with the team

Communication – this is essential especially in taking tasks with confidence, talking about issues encountered and stating the progress of the tasks
Interpersonal skills – this is for general communication within the community
Flexibility – we have to adapt to changes because we are a community of different people with different skills

With these skills and the willingness to learn , open source is a great area to focus on . Aside from your career you will extend your network. My interests are set on open source and Linux in general. Working with a wider network has really skilled me up and I will continue learning. Working with the Debian OpenQA team has been very great. The team is great at communication and I learn every day. The knowledge I gain from the team is helping me build a great career in open source.

02 February, 2026 03:30PM by hellen chemtai tay

Paul Tagliamonte

Paging all Radio Curious Hackers

After years of thinking about and learning about how radios work, I figured it was high-time to start to more aggressively share the things i’ve been learning. I had a ton of fun at DistrictCon year 0, so it was a pretty natural place to pitch an RF-focused introductory talk.

I was selected for Year 1, and able to give my first ever RF related talk about how to set off restaurant pagers (including one on stage!) by reading and writing IQ directly using a little bit of stdlib only Python.

This talk is based around the work I’ve written about previously (here, here and here), but the “all-in-one” form factor was something I was hoping would help encourage folks out there to take a look under the hood of some of the gear around them.

(In case the iframe above isn’t working, direct link to the YouTube video recording is here)

I’ve posted my slides from the talk at PARCH.pdf to hopefully give folks some time to flip through them directly.

All in all, the session was great – It was truely humbling to see so many folks interested in hearing me talk about radios. I had a bit of an own-goal in picking a 20 minute form-factor, so the talk is paced wrong (it feels like it went way too fast). Hopefully being able to see the slides and pause the video is helpful.

We had a short ad-hoc session after where I brought two sets of pagers and my power switch; but unfortunately we didn’t have anyone who was able to trigger any of the devices on their own (due to a mix of time between sessions and computer set-up). Hopefully it was enough to get folks interested in trying this on their own!

02 February, 2026 02:50PM

February 01, 2026

Benjamin Mako Hill

What do people do when they edit Wikipedia through Tor?

One popular approach to protecting our privacy online is to use the Tor network. Tor protects users from being identified by their IP address, which can be tied to a physical location. However, if you’d like to contribute to Wikipedia using Tor, you’ll run into a problem. Although most IP addresses can edit without an account, Tor users are blocked from editing.

Other research by my team has shown that Wikipedia’s attempt to block Tor is imperfect and that some people have been able to edit despite the ban. As part of this work, we built a dataset of more than 11,000 contributions to Wikipedia via Tor and used quantitative analysis to show that contributions from Tor were of about the same quality as contributions from other new editors and other contributors without accounts. Of course, given the unusual circumstances Tor-based contributors face, we wondered whether a deeper look at the content of their edits might reveal more about their motives and the kinds of contributions they seek to make. Kaylea Champion (then a student, now faculty at UW Bothell) led a qualitative investigation to explore these questions.

Given the challenges of studying anonymity seekers, we designed a novel “forensic” qualitative approach inspired by techniques common in computer security and criminal investigation. We applied this new technique to a sample of 500 editing sessions and categorized each session based on what the editor seemed to be intending to do.

Most of the contributions we found fell into one of the two following categories:

Many contributions were quotidian attempts to add to the encyclopedia. Tor-based editors added facts, fixed typos, and updated train schedules. There’s no way to know whether these individuals knew they were just getting lucky in their ability to edit or were patiently reloading to evade the ban.
Second, we found harassing comments and vandalism. Unwelcome conduct is common in online environments, and it is sometimes more common when the likelihood of being identified decreases. Some of the harassing comments we observed were direct responses to being banned as a Tor user.

Although these were most of what we observed, we also found evidence of several types of contributor intent:

We observed activism: when a contributor tried to draw attention to journalistic accounts of environmental and human rights abuses committed by a mining company, only to have editors linked to the mining company repeatedly remove their edits. Another example involved an editor trying to diminish the influence of proponents of alternative medicine.
We also observed quality maintenance activities when editors used Wikipedia’s rules on appropriate sourcing to remove personal websites being cited in conspiracy theories.
We saw edit wars with Tor editors participating in a back-and-forth removal and replacement of content as part of a dispute, in some cases countering the work of an experienced Wikipedia editor whom even other experienced editors had gauged to be biased.
Finally, we saw Tor-based editors participating in non-article discussions, such as investigations into administrator misconduct and protests against the Wikipedia platform’s mistrust of Tor editors.

In all, these themes led us to reflect on how the risks individuals face when contributing to online communities sometimes diverge from the risks the communities face in accepting their work. Expressing minoritized perspectives, maintaining community standards even when you may be targeted by the rulebreaker, highlighting injustice, or acting as a whistleblower can be very risky for an individual, and may not be possible without privacy protections. Of course, in platforms seeking to support the public good, such knowledge and accountability may be crucial.

This work was published as a paper at CSCW: Kaylea Champion, Nora McDonald, Stephanie Bankes, Joseph Zhang, Rachel Greenstadt, Andrea Forte, and Benjamin Mako Hill. 2019. A Forensic Qualitative Analysis of Contributions to Wikipedia from Anonymity Seeking Users. Proceedings of the ACM on Human-Computer Interaction. 3, CSCW, Article 53 (November 2019), 26 pages. https://doi.org/10.1145/3359155

This project was conducted by Kaylea Champion, Nora McDonald, Stephanie Bankes, Joseph Zhang, Rachel Greenstadt, Andrea Forte, and Benjamin Mako Hill. This work was supported by the National Science Foundation (awards CNS-1703736 and CNS-1703049) and included the work of two undergraduates supported through an NSF REU supplement.

01 February, 2026 12:19PM by Benjamin Mako Hill

Junichi Uekawa

Got rid of documents I had for last year's Tax return.

Got rid of documents I had for last year's Tax return. Now I have the least document in my bookshelf out of the year.

01 February, 2026 05:54AM by Junichi Uekawa

Russ Allbery

Review: Paladin's Faith

Review: Paladin's Faith, by T. Kingfisher

Series:	The Saint of Steel #4
Publisher:	Red Wombat Studio
Copyright:	2023
ISBN:	1-61450-614-0
Format:	Kindle
Pages:	515

Paladin's Faith is the fourth book in T. Kingfisher's loosely connected series of fantasy novels about the berserker former paladins of the Saint of Steel. You could read this as a standalone, but there are numerous (spoilery) references to the previous books in the series.

Marguerite, who was central to the plot of the first book in the series, Paladin's Grace, is a spy with a problem. An internal power struggle in the Red Sail, the organization that she's been working for, has left her a target. She has a plan for how to break their power sufficiently that they will hopefully leave her alone, but to pull it off she's going to need help. As the story opens, she is working to acquire that help in a very Marguerite sort of way: breaking into the office of Bishop Beartongue of the Temple of the White Rat.

The Red Sail, the powerful merchant organization Marguerite worked for, makes their money in the salt trade. Marguerite has learned that someone invented a cheap and reproducible way to extract salt from sea water, thus making the salt trade irrelevant. The Red Sail wants to ensure that invention never sees the light of day, and has forced the artificer into hiding. Marguerite doesn't know where they are, but she knows where she can find out: the Court of Smoke, where the artificer has a patron.

Having grown up in Anuket City, Marguerite was familiar with many clockwork creations, not to mention all the ways that they could go horribly wrong. (Ninety-nine times out of a hundred, it was an explosion. The hundredth time, it ran amok and stabbed innocent bystanders, and the artificer would be left standing there saying, "But I had to put blades on it, or how would it rake the leaves?" while the gutters filled up with blood.)

All Marguerite needs to put her plan into motion is some bodyguards so that she's not constantly distracted and anxious about being assassinated. Readers of this series will be unsurprised to learn that the bodyguards she asks Beartongue for are paladins, including a large broody male one with serious self-esteem problems.

This is, like the other books in this series, a slow-burn romance with infuriating communication problems and a male protagonist who would do well to seek out a sack of hammers as a mentor. However, it has two things going for it that most books in this series do not: a long and complex plot to which the romance takes a back seat, and Marguerite, who is not particularly interested in playing along with the expected romance developments. There are also two main paladins in this story, not just one, and the other is one of the two female paladins of the Saint of Steel and rather more entertaining than Shane.

I generally like court intrigue stories, which is what fills most of this book. Marguerite is an experienced operative, so the reader gets some solid competence porn, and the paladins are fish out of water but are also unexpectedly dangerous, which adds both comedy and satisfying table-turning. I thoroughly enjoyed the maneuvering and the culture clashes. Marguerite is very good at what she does, knows it, and is entirely uninterested in other people's opinions about that, which short-circuits a lot of Shane's most annoying behavior and keeps the story from devolving into mopey angst like some of the books in this series have done.

The end of this book takes the plot in a different direction that adds significantly to the world-building, but also has a (thankfully short) depths of despair segment that I endured rather than enjoyed. I am not really in the mood for bleak hopelessness in my fiction at the moment, even if the reader is fairly sure it will be temporary. But apart from that, I thoroughly enjoyed this book from beginning to end. When we finally meet the artificer, they are an absolute delight in that way that Kingfisher is so good at. The whole story is infused with the sense of determined and competent people refusing to stop trying to fix problems. As usual, the romance was not for me and I think the book would have been better without it, but it's less central to the plot and therefore annoyed me less than any of the books in this series so far.

My one major complaint is the lack of gnoles, but we get some new and intriguing world-building to make up for it, along with a setup for a fifth book that I am now extremely curious about.

By this point in the series, you probably know if you like the general formula. Compared to the previous book, Paladin's Hope, I thought Paladin's Faith was much stronger and more interesting, but it's clearly of the same type. If, like me, you like the plots but not the romance, the plot here is more substantial. You will have to decide if that makes up for a romance in the typical T. Kingfisher configuration.

Personally, I enjoyed this quite a bit, except for the short bleak part, and I'm back to eagerly awaiting the next book in the series.

Rating: 8 out of 10

01 February, 2026 04:54AM

January 31, 2026

Michael Prokop

apt, SHA-1 keys + 2026-02-01

You might have seen Policy will reject signature within a year warnings in apt(-get) update runs like this:

root@424812bd4556:/# apt update
Get:1 http://foo.example.org/debian demo InRelease [4229 B]
Hit:2 http://deb.debian.org/debian trixie InRelease
Hit:3 http://deb.debian.org/debian trixie-updates InRelease
Hit:4 http://deb.debian.org/debian-security trixie-security InRelease
Get:5 http://foo.example.org/debian demo/main amd64 Packages [1097 B]
Fetched 5326 B in 0s (43.2 kB/s)
All packages are up to date.
Warning: http://foo.example.org/debian/dists/demo/InRelease: Policy will reject signature within a year, see --audit for details

root@424812bd4556:/# apt --audit update
Hit:1 http://foo.example.org/debian demo InRelease
Hit:2 http://deb.debian.org/debian trixie InRelease
Hit:3 http://deb.debian.org/debian trixie-updates InRelease
Hit:4 http://deb.debian.org/debian-security trixie-security InRelease
All packages are up to date.    
Warning:  http://foo.example.org/debian/dists/demo/InRelease: Policy will reject signature within a year, see --audit for details
Audit:  http://foo.example.org/debian/dists/demo/InRelease: Sub-process /usr/bin/sqv returned an error code (1), error message is:
   Signing key on 54321ABCD6789ABCD0123ABCD124567ABCD89123 is not bound:
              No binding signature at time 2024-06-19T10:33:47Z
     because: Policy rejected non-revocation signature (PositiveCertification) requiring second pre-image resistance
     because: SHA1 is not considered secure since 2026-02-01T00:00:00Z
Audit: The sources.list(5) entry for 'http://foo.example.org/debian' should be upgraded to deb822 .sources
Audit: Missing Signed-By in the sources.list(5) entry for 'http://foo.example.org/debian'
Audit: Consider migrating all sources.list(5) entries to the deb822 .sources format
Audit: The deb822 .sources format supports both embedded as well as external OpenPGP keys
Audit: See apt-secure(8) for best practices in configuring repository signing.
Audit: Some sources can be modernized. Run 'apt modernize-sources' to do so.

If you ignored this for the last year, I would like to tell you that 2026-02-01 is not that far away (hello from the past if you’re reading this because you’re already affected).

Let’s simulate the future:

root@424812bd4556:/# apt --update -y install faketime
[...]
root@424812bd4556:/# export LD_PRELOAD=/usr/lib/x86_64-linux-gnu/faketime/libfaketime.so.1 FAKETIME="2026-08-29 23:42:11" 
root@424812bd4556:/# date
Sat Aug 29 23:42:11 UTC 2026

root@424812bd4556:/# apt update
Get:1 http://foo.example.org/debian demo InRelease [4229 B]
Hit:2 http://deb.debian.org/debian trixie InRelease                                 
Err:1 http://foo.example.org/debian demo InRelease
  Sub-process /usr/bin/sqv returned an error code (1), error message is: Signing key on 54321ABCD6789ABCD0123ABCD124567ABCD89123 is not bound:            No binding signature at time 2024-06-19T10:33:47Z   because: Policy rejected non-revocation signature (PositiveCertification) requiring second pre-image resistance   because: SHA1 is not considered secure since 2026-02-01T00:00:00Z
[...]
Warning: An error occurred during the signature verification. The repository is not updated and the previous index files will be used. OpenPGP signature verification failed: http://foo.example.org/debian demo InRelease: Sub-process /usr/bin/sqv returned an error code (1), error message is: Signing key on 54321ABCD6789ABCD0123ABCD124567ABCD89123 is not bound:            No binding signature at time 2024-06-19T10:33:47Z   because: Policy rejected non-revocation signature (PositiveCertification) requiring second pre-image resistance   because: SHA1 is not considered secure since 2026-02-01T00:00:00Z
[...]
root@424812bd4556:/# echo $?
100

Now, the proper solution would have been to fix the signing key underneath (via e.g. sq cert lint &dash&dashfix &dash&dashcert-file $PRIVAT_KEY_FILE > $PRIVAT_KEY_FILE-fixed).

If you don’t have access to the according private key (e.g. when using an upstream repository that has been ignoring this issue), you’re out of luck for a proper fix.

But there’s a workaround for the apt situation (related see apt commit 0989275c2f7afb7a5f7698a096664a1035118ebf):

root@424812bd4556:/# cat /usr/share/apt/default-sequoia.config
# Default APT Sequoia configuration. To overwrite, consider copying this
# to /etc/crypto-policies/back-ends/apt-sequoia.config and modify the
# desired values.
[asymmetric_algorithms]
dsa2048 = 2024-02-01
dsa3072 = 2024-02-01
dsa4096 = 2024-02-01
brainpoolp256 = 2028-02-01
brainpoolp384 = 2028-02-01
brainpoolp512 = 2028-02-01
rsa2048  = 2030-02-01

[hash_algorithms]
sha1.second_preimage_resistance = 2026-02-01    # Extend the expiry for legacy repositories
sha224 = 2026-02-01

[packets]
signature.v3 = 2026-02-01   # Extend the expiry

Adjust this according to your needs:

root@424812bd4556:/# mkdir -p /etc/crypto-policies/back-ends/

root@424812bd4556:/# cp /usr/share/apt/default-sequoia.config /etc/crypto-policies/back-ends/apt-sequoia.config

root@424812bd4556:/# $EDITOR /etc/crypto-policies/back-ends/apt-sequoia.config

root@424812bd4556:/# cat /etc/crypto-policies/back-ends/apt-sequoia.config
# APT Sequoia override configuration
[asymmetric_algorithms]
dsa2048 = 2024-02-01
dsa3072 = 2024-02-01
dsa4096 = 2024-02-01
brainpoolp256 = 2028-02-01
brainpoolp384 = 2028-02-01
brainpoolp512 = 2028-02-01
rsa2048  = 2030-02-01

[hash_algorithms]
sha1.second_preimage_resistance = 2026-09-01    # Extend the expiry for legacy repositories
sha224 = 2026-09-01

[packets]
signature.v3 = 2026-02-01   # Extend the expiry

Then we’re back into the original situation, being a warning instead of an error:

root@424812bd4556:/# apt update
Hit:1 http://deb.debian.org/debian trixie InRelease
Get:2 http://foo.example.org/debian demo InRelease [4229 B]
Hit:3 http://deb.debian.org/debian trixie-updates InRelease
Hit:4 http://deb.debian.org/debian-security trixie-security InRelease
Warning: http://foo.example.org/debian/dists/demo/InRelease: Policy will reject signature within a year, see --audit for details
[..]

Please note that this is a workaround, and not a proper solution.

31 January, 2026 01:57PM by mika

Benjamin Mako Hill

Dialogue

Me: Do you want your coffee in a Japanese or Western style tea cup?

M: Yunomi.

Me: Apparently not as well as you think I do!

31 January, 2026 10:59AM by Benjamin Mako Hill

Russ Allbery

Review: Dragon Pearl

Review: Dragon Pearl, by Yoon Ha Lee

Series:	Thousand Worlds #1
Publisher:	Rick Riordan Presents
Copyright:	2019
ISBN:	1-368-01519-0
Format:	Kindle
Pages:	315

Dragon Pearl is a middle-grade space fantasy based on Korean mythology and the first book of a series.

Min is a fourteen-year-old girl living on the barely-terraformed world of Jinju with her extended family. Her older brother Jun passed the entrance exams for the Academy and left to join the Thousand Worlds Space Forces, and Min is counting the years until she can do the same. Those plans are thrown into turmoil when an official investigator appears at their door claiming that Jun deserted to search for the Dragon Pearl. A series of impulsive fourteen-year-old decisions lead to Min heading for a spaceport alone, determined to find her brother and prove his innocence.

This would be a rather improbable quest for a young girl, but Min is a gumiho, one of the supernaturals who live in the Thousand Worlds alongside non-magical humans. Unlike the more respectable dragons, tigers, goblins, and shamans, gumiho are viewed with suspicion and distrust because their powers are useful for deception. They are natural shapeshifters who can copy the shapes of others, and their Charm ability lets them influence people's thoughts and create temporary illusions of objects such as ID cards. It will take all of Min's powers, and some rather lucky coincidences, to infiltrate the Space Forces and determine what happened to her brother.

It's common for reviews of this book to open with a caution that this is a middle-grade adventure novel and you should not expect a story like Ninefox Gambit. I will be boring and repeat that caution. Dragon Pearl has a single first-person viewpoint and a very linear and straightforward plot. Adult readers are unlikely to be surprised by plot twists; the fun is the world-building and seeing how Min manages to work around plot obstacles.

The world-building is enjoyable but not very rigorous. Min uses and abuses Charm with the creative intensity of a Dungeons & Dragons min-maxer. Each individual event makes sense given the implication that Min is unusually powerful, but I'm dubious about the surrounding society and lack of protections against Charm given what Min is able to do. Min does say that gumiho are rare and many people think they're extinct, which is a bit of a fig leaf, but you'll need to bring your urban fantasy suspension of disbelief skills to this one.

I did like that the world-building conceit went more than skin deep and influenced every part of the world. There are ghosts who are critical to the plot. Terraforming is done through magic, hence the quest for the Dragon Pearl and the miserable state of Min's home planet due to its loss. Medical treatment involves the body's meridians, as does engineering: The starships have meridians similar to those of humans, and engineers partly merge with those meridians to adjust them. This is not the sort of book that tries to build rigorous scientific theories or explain them to the reader, and I'm not sure everything would hang together if you poked at it too hard, but Min isn't interested in doing that poking and the story doesn't try to justify itself. It's mostly a vibe, but it's a vibe that I enjoyed and that is rather different than other space fantasy I've read.

The characters were okay but never quite clicked for me, in part because proper character exploration would have required Min take a detour from her quest to find her brother and that was not going to happen. The reader gets occasional glimpses of a military SF cadet story and a friendship on false premises story, but neither have time to breathe because Min drops any entanglement that gets in the way of her quest. She's almost amoral in a way that I found believable but not quite aligned with my reading mood. I also felt a bit wrong-footed by how her friendships developed; saying too much more would be a spoiler, but I was expecting more human connection than I got.

I think my primary disappointment with this book was something I knew going in, not in any way its fault, and part of the reason why I'd put off reading it: This is pitched at young teenagers and didn't have quite enough plot and characterization complexity to satisfy me. It's a linear, somewhat episodic adventure story with some neat world-building, and it therefore glides over the spots where an adult novel would have added political and factional complexity. That is exactly as advertised, so it's up to you whether that's the book you're in the mood for.

One warning: The text of this book opens with an introduction by Rick Riordan that is just fluff marketing and that spoils the first few chapters of the book. It is unmarked as such at the beginning and tricked me into thinking it was the start of the book proper, and then deeply annoyed me. If you do read this book, I recommend skipping the utterly pointless introduction and going straight to chapter one.

Followed by Tiger Honor.

Rating: 6 out of 10

31 January, 2026 05:26AM

January 30, 2026

Joey Hess

the local weather

Snow coming. I'm tuned into the local 24 hour slop weather stream. AI generated, narrated, up to the minute radar and forecast graphics. People popping up on the live weather map with questions "snow soon?" (They pay for the privilege.) LLM generating reply that riffs on their name. Tuned to keep the urgency up, something is always happening somewhere, scanners are pulling the police reports, live webcam description models add verisimilitude to the description of the morning commute. Weather is happening.

In the subtext, climate change is happening. Weather is a growth industry. The guy up in Kentucky coal country who put this thing together is building an empire. He started as just another local news greenscreener. Dropped out and went twitch weather stream. Hyping up tornado days and dicy snow forecasts. Nowcasting, hyper individualized, interacting with chat. Now he's automated it all. On big days when he's getting real views, the bot breaks into his live streams, gives him a break.

Only a few thousand watching this morning yet. Perfect 2026 grade slop. Details never quite right, but close enough to keep on in the background all day. Nobody expects a perfect forecast after all, and it's fed from the National Weather Center discussion too. We still fund those guys? Why bother when a bot can do it?

He knows why he's big in these states, these rural areas. Understands the target audience. Airbrushed AI aesthetics are ok with them, receive no pushback. Flying more under the radar coastally, but weather is big there and getting bigger. The local weather will come for us all.

(Not fiction FYI.)

30 January, 2026 01:05PM

Utkarsh Gupta

FOSS Activites in January 2026

Here’s my monthly but brief update about the activities I’ve done in the FOSS world.

Debian

Whilst I didn’t get a chance to do much, here are still a few things that I worked on:

A few discussions with the new DFSG team, et al.
Assited a few folks in getting their patches submitted via Salsa.
Reviewing pyenv MR for Ujjwal.
Mentoring for newcomers.
Moderation of -project mailing list.

Ubuntu

I joined Canonical to work on Ubuntu full-time back in February 2021.

Whilst I can’t give a full, detailed list of things I did, here’s a quick TL;DR of what I did:

Successfully released Resolute Snapshot 3!
- This one was also done without the ISO tracker and cdimage access.
- We also worked very hard to build and promote all the image in due time.
Worked further on the whole artifact signing story for cdimage.
Assisted a bunch of folks with my Archive Admin and Release team hats to:
- Helped in EOL’ing Plucky.
- Starting to help with the upcoming 24.04.4 release.
With that, the mid-cycle sprints are around the corner, so quite busy preparing for that.

Debian (E)LTS

This month I have worked 59 hours on Debian Long Term Support (LTS) and on its sister Extended LTS project and did the following things:

Released Security Updates

adminer: Server-side request forgery and redirection vulnerabilities in HTTP drivers.
- [ELTS]: Fixed CVE-2023-45195 and CVE-2023-45196 via 4.7.1-1+deb10u2 for buster. This has been released as ELA 1605-1.
u-boot: Improper sanity checks in FAT filesystem handling.
- [ELTS]: Fixed CVE-2025-24857 via 2016.11+dfsg1-4+deb9u2 for stretch. This has been released as ELA 1608-1.
ruby-rmagick: Memory leak in Magick::Draw with ImageMagick 6.
- [LTS]: Fixed CVE-2023-5349 via 2.16.0-7+deb11u1 for bullseye. This has been released as DLA 4433-1.
libsodium: Invalid point validation in Ed25519 implementation.
- [LTS]: Fixed CVE-2025-69277 via 1.0.18-1+deb11u1 for bullseye. This has been released as DLA 4435-1.
- [ELTS]: Fixed CVE-2025-69277 via 1.0.17-1+deb10u1 for buster. This has been released as ELA 1631-1.
ceph: Improper validation of HTTP_X_AMZ_COPY_SOURCE header.
- [LTS]: Fixed CVE-2024-47866 and CVE-2022-0670 via 14.2.21-1+deb11u2 for bullseye. This has been released as DLA 4460-1.
- [ELTS]: Fixed CVE-2024-47866 via 12.2.11+dfsg1-2.1+deb10u3 for buster and 10.2.11-2+deb9u4 for stretch. This has been released as ELA 1632-1.
modsecurity-apache: Invalid request handling vulnerability.
- [ELTS]: Fixed CVE-2025-54571 via 2.9.1-2+deb9u5 for stretch. This has been released as ELA 1633-1.
pyasn1: Improper continuation octet limits in OID decoder.
- [LTS]: Fixed CVE-2026-23490 via 0.4.8-1+deb11u1 for bullseye. This has been released as DLA 4463-1.
- [ELTS]: Fixed CVE-2026-23490 via 0.4.2-3+deb10u1 for buster and 0.1.9-2+deb9u1 for stretch. This has been released as ELA 1634-1.
node-lodash: Prototype pollution in baseUnset function.
- [unstable]: Fixed CVE-2025-13465 via 4.17.21+dfsg+~cs8.31.198.20210220-10. This has been uploaded to unstable. DLA to follow once this has settled in sid and stable releases.

Work in Progress

knot-resolver: Affected by CVE-2023-26249, CVE-2023-46317, and CVE-2022-40188, leading to Denial of Service.
- [LTS]: Some back and forth discussion with maintainers on the best way to proceed for the bullseye upload.
  - Git repository for bullseye: https://salsa.debian.org/lts-team/packages/knot-resolver/-/tree/debian/bullseye.
ruby-rack: There were multiple vulnerabilities reported in Rack, leading to DoS (memory exhaustion) and proxy bypass.
- [ELTS]: After completing the work for LTS myself, Bastien picked it up for ELTS and reached out about an upstream regression and we’ve been doing some exchanges. Bastien has done most of the work backporting the patches but needs a review and help backporting CVE-2025-61771. Haven’t made much progress since last month and will carry it over.
node-lodash: Affected by CVE-2025-13465, lrototype pollution in baseUnset function.
- [stable]: The patch for trixie and bookworm are ready but haven’t been uploaded yet as I’d like for the unstable upload to settle a bit before I proceed with stable uploads.
- [LTS]: The bullseye upload will follow once the stable uploads are in and ACK’d by the SRMs.
xrdp: Affected by CVE-2025-68670, leading to a stack-based buffer overflow.
- [LTS]: Start to prep the work for bullseye and uploaded to Debusine: https://debusine.debian.net/debian/developers/work-request/367666. ELTS to follow.

Other Activities

[ELTS] Helped Bastien Roucaries debug a tomcat9 regression for buster.
- I spent quite a lot of time trying to help Bastien (with Markus and Santiago involved via mail thread) by reproducing the regression that the user(s) reported.
- I also helped suggest a path forward by vendoring everything, which I was then requested to also help perform.
- Whilst doing that, I noticed circular dependency hellhole and suggested another path forward by backporting bnd and its dependencies as separate NEW packages.
- Bastien liked the idea and is going to work on that but preferred to revert the update to remedy the immediate regressions reported. I further helped him in reviewing his update. This conversation happened on #debian-elts IRC channel.
[LTS] Assisted Ben Hutchings with his question about the next possible steps with a plausible libvirt regression caused by the Linux kernel update. This was a thread on debian-lts@ mailing list.
[LTS] Attended the monthly LTS meeting on IRC. Summary here.
[E/LTS] Monitored discussions on mailing lists, IRC, and all the documentation updates.

Until next time.
:wq for today.

30 January, 2026 05:41AM

January 29, 2026

C.J. Collier

Part 3: Building the Keystone – Dataproc Custom Images for Secure Boot & GPUs

Part
3: Building the Keystone – Dataproc Custom Images for Secure Boot &
GPUs

In Part 1, we established a secure, proxy-only network. In Part 2, we
explored the enhanced install_gpu_driver.sh initialization
action. Now, in Part 3, we’ll focus on using the LLC-Technologies-Collier/custom-images
repository (branch proxy-exercise-2025-11) to build the
actual custom Dataproc images embedded with NVIDIA drivers signed for
Secure Boot, all within our proxied environment.

Why Custom Images?

To run NVIDIA GPUs on Shielded VMs with Secure Boot enabled, the
NVIDIA kernel modules must be signed with a key trusted by the VM’s EFI
firmware. Since standard Dataproc images don’t include these
custom-signed modules, we need to build our own. This process also
allows us to pre-install a full stack of GPU-accelerated software.

The
`custom-images` Toolkit
(`examples/secure-boot`)

The examples/secure-boot directory within the
custom-images repository contains the necessary scripts and
configurations, refined through significant development to handle proxy
and Secure Boot challenges.

Key Components & Development Insights:

env.json: The central configuration
file (as used in Part 1) for project, network, proxy, and bucket
details. This became the single source of truth to avoid configuration
drift.
create-key-pair.sh: Manages the Secure
Boot signing keys (PK, KEK, DB) in Google Secret Manager, essential for
the module signing.
build-and-run-podman.sh: Orchestrates
the image build process in an isolated Podman container. This was
introduced to standardize the build environment and encapsulate
dependencies, simplifying what the user needs to install locally.
pre-init.sh: Sets up the build
environment within the container and calls
generate_custom_image.py. It crucially passes metadata
derived from env.json (like proxy settings and Secure Boot
key secret names) to the temporary build VM.
generate_custom_image.py: The core
Python script that automates GCE VM creation, runs the customization
script, and creates the final GCE image.
gce-proxy-setup.sh: This script from
startup_script/ is vital. It’s injected into the temporary
build VM and runs first to configure the OS, package
managers (apt, dnf), tools (curl, wget, GPG), Conda, and Java to use the
proxy settings passed in the metadata. This ensures the entire build
process is proxy-aware.
install_gpu_driver.sh: Used as the
--customization-script within the build VM. As detailed in
Part 2, this script handles the driver/CUDA/ML stack installation and
signing, now able to function correctly due to the proxy setup by
gce-proxy-setup.sh.

Layered Image Strategy:

The pre-init.sh script employs a layered approach:

secure-boot Image: Base image with
Secure Boot certificates injected.
tf Image: Based on
secure-boot, this image runs the full
install_gpu_driver.sh within the proxy-configured build VM
to install NVIDIA drivers, CUDA, ML libraries (TensorFlow, PyTorch,
RAPIDS), and sign the modules. This is the primary target image for our
use case.

(Note: secure-proxy and proxy-tf layers
were experiments, but the -tf image combined with runtime
metadata emerged as the most effective solution for 2.2-debian12).

Build Steps:

Clone Repos & Configure
env.json: Ensure you have the
custom-images and cloud-dataproc repos and a
complete env.json as described in Part 1.
Run the Build:
bash # Example: Build a 2.2-debian12 based image set # Run from the custom-images repository root bash examples/secure-boot/build-and-run-podman.sh 2.2-debian12
This command will build the layered images, leveraging the proxy
settings from env.json via the metadata injected into the
build VM. Note the final image name produced (e.g.,
dataproc-2-2-deb12-YYYYMMDD-HHMMSS-tf).

Conclusion of Part 3

Through an iterative process, we’ve developed a robust workflow
within the custom-images repository to build Secure
Boot-compatible GPU images in a proxy-only environment. The key was
isolating the build in Podman, ensuring the build VM is fully
proxy-aware using gce-proxy-setup.sh, and leveraging the
enhanced install_gpu_driver.sh from Part 2.

In Part 4, we’ll bring it all together, deploying a Dataproc cluster
using this custom -tf image within the secure network, and
verifying the end-to-end functionality.

29 January, 2026 09:08AM by C.J. Collier

Bits from Debian

New Debian Developers and Maintainers (November and December 2025)

The following contributors got their Debian Developer accounts in the last two months:

Aquila Macedo (aquila)
Peter Blackman (peterb)
Kiran S Kunjumon (hacksk)
Ben Westover (bjw)

The following contributors were added as Debian Maintainers in the last two months:

Vladimir Petko
Antonin Delpeuch
Nadzeya Hutsko
Aryan Karamtoth
Carl Keinath
Richard Nelson

Congratulations!

29 January, 2026 09:00AM by Jean-Pierre Giraud

January 28, 2026

C.J. Collier

Part 2: Taming the Beast – Deep Dive into the Proxy-Aware GPU Initialization Action

Part
2: Taming the Beast – Deep Dive into the Proxy-Aware GPU Initialization
Action

In Part 1 of this series, we laid the network foundation for running
secure Dataproc clusters. Now, let’s zoom in on the core component
responsible for installing and configuring NVIDIA GPU drivers and the
associated ML stack in this restricted environment: the
install_gpu_driver.sh script from the LLC-Technologies-Collier/initialization-actions
repository (branch gpu-202601).

This isn’t just any installation script; it has been significantly
enhanced to handle the nuances of Secure Boot and to operate seamlessly
behind an HTTP/S proxy.

The
Challenge: Installing GPU Drivers Without Direct Internet

Our goal was to create a Dataproc custom image with NVIDIA GPU
drivers, sign the kernel modules for Secure Boot, and ensure the entire
process works seamlessly when the build VM and the eventual cluster
nodes have no direct internet access, relying solely on an HTTP/S proxy.
This involved:

Proxy-Aware Build: Ensuring all build steps within
the custom image creation process (package downloads, driver downloads,
GPG keys, etc.) correctly use the customer’s proxy.
Secure Boot Signing: Integrating kernel module
signing using keys managed in GCP Secret Manager, especially when
drivers are built from source.
Conda Environment: Reliably and speedily installing
a complex Conda environment with PyTorch, TensorFlow, Rapids, and other
GPU-accelerated libraries through the proxy.
Dataproc Integration: Making sure the custom image
works correctly with Dataproc’s own startup, agent processes, and
cluster-specific configurations like YARN.

The
Development Journey: Key Enhancements in
`install_gpu_driver.sh`

To address these challenges, the script incorporates several key
features:

Robust Proxy Handling (set_proxy
function):
- Challenge: Initial script versions had spotty proxy
  support. Many tools like apt, curl,
  gpg, and even gsutil failed in proxy-only
  environments.
- Enhancements: The set_proxy function
  (also used in gce-proxy-setup.sh) was completely overhauled
  to parse various proxy metadata (http-proxy,
  https-proxy, proxy-uri,
  no-proxy). Critically, environment variables
  (HTTP_PROXY, HTTPS_PROXY,
  NO_PROXY) are now set before any network
  operations. NO_PROXY is carefully set to include
  .google.com and .googleapis.com to allow
  direct access to Google APIs via Private Google Access. System-wide
  trust stores (OS, Java, Conda) are updated with the proxy’s CA
  certificate if provided via http-proxy-pem-uri.
  gcloud, apt, dnf, and
  dirmngr are also configured to use the proxy.
Reliable GPG Key Fetching (import_gpg_keys
function):
- Challenge: Importing GPG keys for repositories
  often failed as keyservers use non-HTTP ports (e.g., 11371) blocked by
  firewalls, and gpg --recv-keys is not proxy-friendly.
- Solution: A new import_gpg_keys
  function now fetches keys over HTTPS using curl, which
  respects the environment’s proxy settings. This replaced all direct
  gpg --recv-keys calls.
GCS Caching is King:
- Challenge: Repeatedly downloading large files
  (drivers, CUDA, source code) through a proxy is slow and
  inefficient.
- Solution: Implemented extensive GCS caching for
  NVIDIA drivers, CUDA runfiles, NVIDIA Open Kernel Module source
  tarballs, compiled kernel modules, and even packed Conda environments.
  Scripts now check a GCS bucket (dataproc-temp-bucket)
  before hitting the internet.
- Impact: Dramatically speeds up subsequent runs and
  init action execution times on cluster nodes after the cache is
  warmed.
Conda Environment Stability & Speed:
- Challenge: Large Conda environments are prone to
  solver conflicts and slow installation times.
- Solution: Integrated Mamba for faster package
  solving. Refined package lists for better compatibility. Added logic to
  force-clean and rebuild the Conda environment cache on GCS and locally
  if inconsistencies are detected (e.g., driver installed but Conda env
  not fully set up).
Secure Boot & Kernel Module Signing:
- Challenge: Custom-compiled kernel modules must be
  signed to load when Secure Boot is enabled.
- Solution: The script integrates with GCP Secret
  Manager to fetch signing keys. The build_driver_from_github
  function now includes robust steps to compile, sign (using
  sign-file), install, and verify the signed modules.
Custom Image Workflow & Deferred Configuration:
- Challenge: Cluster-specific settings (like YARN GPU
  configuration) should not be baked into the image.
- Solution: The install_gpu_driver.sh
  script detects when it’s run during image creation
  (--metadata invocation-type=custom-images). In this mode,
  it defers cluster-specific setups to a systemd service
  (dataproc-gpu-config.service) that runs on the first boot
  of a cluster instance. This ensures that YARN and Spark configurations
  are applied in the context of the running cluster, not at image build
  time.

Conclusion of Part 2

The install_gpu_driver.sh initialization action is more
than just an installer; it’s a carefully crafted tool designed to handle
the complexities of secure, proxied environments. Its robust proxy
support, comprehensive GCS caching, refined Conda management, Secure
Boot signing capabilities, and awareness of the custom image build
lifecycle make it a critical enabler.

In Part 3, we’ll explore how the LLC-Technologies-Collier/custom-images
repository (branch proxy-exercise-2025-11) uses this
initialization action to build the complete, ready-to-deploy Secure Boot
GPU custom images.

28 January, 2026 10:45AM by C.J. Collier

Dataproc GPUs, Secure Boot, & Proxies

Part
1: Building a Secure Network Foundation for Dataproc with GPUs &
SWP

Welcome to the first post in our series on running GPU-accelerated
Dataproc workloads in secure, enterprise-grade environments. Many
organizations need to operate within VPCs that have no direct internet
egress, instead routing all traffic through a Secure Web Proxy (SWP).
Additionally, security mandates often require the use of Shielded VMs
with Secure Boot enabled. This series will show you how to meet these
requirements for your Dataproc GPU clusters.

In this post, we’ll focus on laying the network foundation using
tools from the LLC-Technologies-Collier/cloud-dataproc
repository (branch proxy-sync-2026-01).

The Challenge: Network
Isolation & Control

Before we can even think about custom images or GPU drivers, we need
a network environment that:

Prevents direct internet access from Dataproc cluster nodes.
Forces all egress traffic through a manageable and auditable
SWP.
Provides the necessary connectivity for Dataproc to function and for
us to build images later.
Supports Secure Boot for all VMs.

The Toolkit:
`LLC-Technologies-Collier/cloud-dataproc`

To make setting up and tearing down these complex network
environments repeatable and consistent, we’ve developed a set of bash
scripts within the gcloud directory of the
cloud-dataproc repository. These scripts handle the
creation of VPCs, subnets, firewall rules, service accounts, and the
Secure Web Proxy itself.

Key Script:
gcloud/bin/create-dpgce-private

This script is the cornerstone for creating the private, proxied
environment. It automates:

VPC and Subnet creation (for the cluster, SWP, and management).
Setup of Certificate Authority Service and Certificate Manager for
SWP TLS interception.
Deployment of the SWP Gateway instance.
Configuration of a Gateway Security Policy to control egress.
Creation of necessary firewall rules.
Result: Cluster nodes in this VPC have NO default
internet route and MUST use the SWP.

Configuration via env.json

We use a single env.json file to drive the
configuration. This file will also be used by the
custom-images scripts in Part 3. This env.json
should reside in your custom-images repository clone, and
you’ll symlink it into the cloud-dataproc/gcloud
directory.

Running the Setup:

# Assuming you have cloud-dataproc and custom-images cloned side-by-side
# And your env.json is in the custom-images root
cd cloud-dataproc/gcloud
# Symlink to the env.json in custom-images
ln -sf ../../custom-images/env.json env.json
# Run the creation script, but don't create a cluster yet
bash bin/create-dpgce-private --no-create-cluster
cd ../../custom-images

Node
Configuration: The Metadata Startup Script for Runtime

For the Dataproc cluster nodes to function correctly in this proxied
environment, they need to be configured to use the SWP on boot. We
achieve this using a GCE metadata startup script.

The script startup_script/gce-proxy-setup.sh (from the
custom-images repository) is designed to be run on each
cluster node at boot. It reads metadata like http-proxy and
http-proxy-pem-uri (which our cluster creation scripts in
Part 4 will pass) to configure the OS environment, package managers, and
other tools to use the SWP.

Upload this script to your GCS bucket:

# Run from the custom-images repository root
gsutil cp startup_script/gce-proxy-setup.sh gs://$(jq -r .BUCKET env.json)/custom-image-deps/

This script is essential for the runtime behavior of the
cluster nodes.

Conclusion of Part 1

With the cloud-dataproc scripts, we’ve laid the
groundwork by provisioning a secure VPC with controlled egress through
an SWP. We’ve also prepared the essential node-level proxy configuration
script (gce-proxy-setup.sh) in GCS, ready to be used by our
clusters.

Stay tuned for Part 2, where we’ll dive into the
install_gpu_driver.sh initialization action from the
LLC-Technologies-Collier/initialization-actions repository
(branch gpu-202601) and how it’s been adapted to install
all GPU-related software through the proxy during the image build
process.

28 January, 2026 10:37AM by C.J. Collier

Sven Hoexter

Decrypt TLS Connection with wireshark and curl

With TLS 1.3 more parts of the handshake got encrypted (e.g. the certificate), but sometimes it's still helpful to look at the complete handshake.

curl uses the somewhat standardized env variable for the key log file called SSLKEYLOGFILE, which is also supported by Firefox and Chrome. wireshark hides the setting in the UI behind Edit -> Preferences -> Protocols -> TLS -> (Pre)-Master-Secret log filename which is uncomfortable to reach. Looking up the config setting in the Advanced settings one can learn that it's called internally tls.keylog_file. Thus we can set it up with:

sudo wireshark -o "tls.keylog_file:/home/sven/curl.keylog"

SSLKEYLOGFILE=/home/sven/curl.keylog curl -v https://www.cloudflare.com/cdn-cgi/trace

Depending on the setup root might be unable to access the wayland session, that can be worked around by letting sudo keep the relevant env variables:

$ cat /etc/sudoers.d/wayland 
Defaults   env_keep += "XDG_RUNTIME_DIR"
Defaults   env_keep += "WAYLAND_DISPLAY"

Or setup wireshark properly and use the wireshark group to be able to dump traffic. Might require a sudo dpkg-reconfigure wireshark-common.

Regarding curl: In some situations it could be desirable to force a specific older TLS version for testing, which requires a minimal and maximal version. E.g. to force TLS 1.2 only:

curl -v --tlsv1.2 --tls-max 1.2 https://www.cloudflare.com/cdn-cgi/trace

28 January, 2026 10:32AM

January 27, 2026

Sergio Cipriano

Query Debian changelogs by keyword with the FTP-Master API

In my post about tracking my Debian uploads, I used the ProjectB database directly to retrieve how many uploads I had so far.

I was pleasantly surprised to receive a message from Joerg Jaspert, who introduced me to the Debian Archive Kit web API (dak), also known as the FTP-Master API.

Joerg gave the idea of integrating the query I had written into the dak API, so that anyone could obtain the same results without needing to use the mirror host, with a simple http request.

I liked the idea and I decided to work on it. The endpoint is already available and you can try by yourself by doing something like this:

$ curl https://api.ftp-master.debian.org/changelogs?search_term=almeida+cipriano

⚠️ WARNING: Check v2: https://people.debian.org/~gladk/blog/posts/202601_ftp-master-changelog-v2/

The query provides a way to search through the changelogs of all Debian packages currently published. The source code is available at Salsa.

I'm already using it to track my uploads, I made this page that updates every day. If you want to setup something similar, you can use my script and just change the search_term to the name you use in your changelog entries.

I’m running it using a systemd timer. Here’s what I’ve got:

# .config/systemd/user/track-uploads.service
[Unit]
Description=Track my uploads using the dak API
StopWhenUnneeded=yes

[Service]
Type=oneshot
WorkingDirectory=/home/cipriano/public_html/uploads
ExecStart=/usr/bin/python3 generate.py

# .config/systemd/user/track-uploads.timer
[Unit]
Description=Run track-uploads script daily

[Timer]
OnCalendar=daily
Persistent=true

[Install]
WantedBy=timers.target

After placing every file in the right place you just need to run:

$ systemctl --user daemon-reload
$ systemctl --user enable --now track-uploads.timer
$ systemctl --user start track-uploads.service # generates the html now

If you want to get a bit fancier, I’m also using an Ansible playbook for that. The source code is available on my GitLab repository.

If you want to learn more about dak, there is a web docs available.

I’d like to thank Joerg once again for suggesting the idea and for reviewing and merging the change so quickly.

27 January, 2026 05:20PM

Elana Hashman

A beginner's guide to improving your digital security

In 2017, I led a series of workshops aimed at teaching beginners a better understanding of encryption, how the internet works, and their digital security. Nearly a decade later, there is still a great need to share reliable resources and guides on improving these skills.

I have worked professionally in computer security one way or another for well over a decade, at many major technology companies and in many open source software projects. There are many inaccurate and unreliable resources out there on this subject, put together by well-meaning people without a background in security, which can lead to sharing misinformation, exaggeration and fearmongering.

I hope that I can offer you a trusted, curated list of high impact things that you can do right now, using whichever vetted guide you prefer. In addition, I also include how long it should take, why you should do each task, and any limitations.

This guide is aimed at improving your personal security, and does not apply to your work-owned devices. Always assume your company can monitor all of your messages and activities on work devices.

What can I do to improve my security right away?

I put together this list in order of effort, easiest tasks first. You should be able to complete many of the low effort tasks in a single hour. The medium to high effort tasks are very much worth doing, but may take you a few days or even weeks to complete them.

Low effort (<15 minutes)

Upgrade your software to the latest versions

Why? I don't know anyone who hasn't complained about software updates breaking features, introducing bugs, and causing headaches. If it ain't broke, why upgrade, right? Well, alongside all of those annoying bugs and breaking changes, software updates also include security fixes, which will protect your device from being exploited by bad actors. Security issues can be found in software at any time, even software that's been available for many years and thought to be secure. You want to install these as soon as they are available.

Recommendation: Turn on automatic upgrades and always keep your devices as up-to-date as possible. If you have some software you know will not work if you upgrade it, at least be sure to upgrade your laptop and phone operating system (iOS, Android, Windows, etc.) and web browser (Chrome, Safari, Firefox, etc.). Do not use devices that do not receive security support (e.g. old Android or iPhones).

Guides:

Activist Checklist: Install the latest software updates
Consumer Reports: Update your Mac, Windows PC, Chromebook, Android phone, iOS device
Apple: Obsolete products (obsolete devices do not receive security updates)
Google: How long you'll get Pixel updates
Samsung: Devices that receive security updates
Other brands: check the manufacturer's website

Limitations: This will prevent someone from exploiting known security issues on your devices, but it won't help if your device was already compromised. If this is a concern, doing a factory reset, upgrade, and turning on automatic upgrades may help. This also won't protect against all types of attacks, but it is a necessary foundation.

Use Signal

Why? Signal is a trusted, vetted, secure messaging application that allows you to send end-to-end encrypted messages and make video/phone calls. This means that only you and your intended recipient can decrypt the messages and someone cannot intercept and read your messages, in contrast to texting (SMS) and other insecure forms of messaging. Other applications advertise themselves as end-to-end encrypted, but Signal provides the strongest protections.

Recommendation: I recommend installing the Signal app and using it! My mom loves that she can video call me on Wi-Fi on my Android phone. It also supports group chats. I use it as a secure alternative to texting (SMS) and other chat platforms. I also like Signal's "disappearing messages" feature which I enable by default because it automatically deletes messages after a certain period of time. This avoids your messages taking up too much storage.

Guides:

Activist Checklist: Use Signal
Activist Checklist: Turn on disappearing messages
Electronic Frontier Foundation: How to use Signal
Consumer Reports: Communicate privately with Signal
Signal: Enabling Incognito Keyboard (Android) to provide slightly more privacy

Limitations: Signal is only able to protect your messages in transit. If someone has access to your phone or the phone of the person you sent messages to, they will still be able to read them. As a rule of thumb, if you don't want someone to read something, don't write it down! Meet in person or make an encrypted phone call where you will not be overheard. If you are talking to someone you don't know, assume your messages are as public as posting on social media.

Set passwords and turn on device encryption

Why? Passwords ensure that someone else can't unlock your device without your consent or knowledge. They also are required to turn on device encryption, which protects your information on your device from being accessed when it is locked. Biometric (fingerprint or face ID) locking provides some privacy, but your fingerprint or face ID can be used against your wishes, whereas if you are the only person who knows your password, only you can use it.

Recommendation: Always set passwords and have device encryption enabled in order to protect your personal privacy. It may be convenient to allow kids or family members access to an unlocked device, but anyone else can access it, too! Use strong passwords that cannot be guessed—avoid using names, birthdays, phone numbers, addresses, or other public information. Using a password manager will make creating and managing passwords even easier. Disable biometric unlock, or at least know how to disable it. Most devices will enable disk encryption by default, but you should double-check.

Guides:

Electronic Frontier Foundation: Creating strong passwords
Electronic Frontier Foundation: Remove fingerprint or face unlock
How-To Geek: Temporarily disable biometric unlock on Android and iOS
Electronic Frontier Foundation: How to encrypt your Windows, Mac, or Linux computer, your iPhone, Android Privacy and Security settings
Consumer Reports: Protect your Mac, Windows PC, Android phone, iPhone devices with encryption

Limitations: If your device is unlocked, the password and encryption will provide no protections; the device must be locked for this to protect your privacy. It is possible, though unlikely, for someone to gain remote access to your device (for example through malware or stalkerware), which would bypass these protections. Some forensic tools are also sophisticated enough to work with physical access to a device that is turned on and locked, but not a device that is turned off/freshly powered on and encrypted. If you lose your password or disk encryption key, you may lose access to your device. For this reason, Windows and Apple laptops can make a cloud backup of your disk encryption key. However, a cloud backup can potentially be disclosed to law enforcement.

Install an ad blocker

Why? Online ad networks are often exploited to spread malware to unsuspecting visitors. If you've ever visited a regular website and suddenly seen an urgent, flashing pop-up claiming your device was hacked, it is often due to a bad ad. Blocking ads provides an additional layer of protection against these kinds of attacks.

Recommendation: I recommend everyone uses an ad blocker at all times. Not only are ads annoying and disruptive, but they can even result in your devices being compromised!

Guides:

Consumer Reports: Add an ad blocker
uBlock Origin, a highly recommended browser-based ad blocker (Firefox, Chrome)
AdGuard Ad Blocker is multi-platform and also supports Mac/iOS

Limitations: Sometimes the use of ad blockers can break functionality on websites, which can be annoying, but you can temporarily disable them to fix the problem. These may not be able to block all ads or all tracking, but they make browsing the web much more pleasant and lower risk! Some people might also be concerned that blocking ads might impact the revenue of their favourite websites or creators. In this case, I recommend either donating directly or sharing the site with a wider audience, but keep using the ad blocker for your safety.

Enable HTTPS-Only Mode

Why? The "S" in "HTTPS" stands for "secure". This feature, which can be enabled on your web browser, ensures that every time you visit a website, your connection is always end-to-end encrypted (just like when you use Signal!) This ensures that someone can't intercept what you search for, what pages on websites you visit, and any information you or the website share such as your banking details.

Recommendation: I recommend enabling this for everyone, though with improvements in web browser security and adoption of HTTPS over the years, your devices will often do this by default! There is a small risk you will encounter some websites that do not support HTTPS, usually older sites.

Guides:

Consumer Reports: Set Up HTTPS-Only Mode on your browser

Limitations: HTTPS protects the information on your connection to a website. It does not hide or protect the fact that you visited that website, only the information you accessed. If the website is malicious, HTTPS does not provide any protection. In certain settings, like when you use a work-managed computer that was set up for you, it can still be possible for your IT Department to see what you are browsing, even over an HTTPS connection, because they have administrator access to your computer and the network.

Medium to high effort (1+ hours)

These tasks require more effort but are worth the investment.

Set up a password manager

Why? It is not possible for a person to remember a unique password for every single website and app that they use. I have, as of writing, 556 passwords stored in my password manager. Password managers do three important things very well:

They generate secure passwords with ease. You don't need to worry about getting your digits and special characters just right; the app will do it for you, and generate long, secure passwords.
They remember all your passwords for you, and you just need to remember one password to access all of them. The most common reason people's accounts get hacked online is because they used the same password across multiple websites, and one of the websites had all their passwords leaked. When you use a unique password on every website, it doesn't matter if your password gets leaked!
They autofill passwords based on the website you're visiting. This is important because it helps prevent you from getting phished. If you're tricked into visiting an evil lookalike site, your password manager will refuse to fill the password.

Recommendation: These benefits are extremely important, and setting up a password manager is often one of the most impactful things you can do for your digital security. However, they take time to get used to, and migrating all of your passwords into the app (and immediately changing them!) can take a few minutes at a time... over weeks. I recommend you prioritize the most important sites, such as your email accounts, banking/financial sites, and cellphone provider. This process will feel like a lot of work, but you will get to enjoy the benefits of never having to remember new passwords and the autofill functionality for websites. My recommended password manager is 1Password, but it stores passwords in the cloud and costs money. There are some good free options as well if cost is a concern. You can also use web browser- or OS-based password managers, but I do not prefer these.

Guides:

Limitations: Many people are concerned about the risk of using a password manager causing all of their passwords to be compromised. For this reason, it's very important to use a vetted, reputable password manager that has passed audits, such as 1Password or Bitwarden. It is also extremely important to choose a strong password to unlock your password manager. 1Password makes this easier by generating a secret to strengthen your unlock password, but I recommend using a long, memorable password in any case. Another risk is that if you forget your password manager's password, you will lose access to all your passwords. This is why I recommend 1Password, which has you set up an Emergency Kit to recover access to your account.

Set up two-factor authentication (2FA) for your accounts

Why? If your password is compromised in a website leak or due to a phishing attack, two-factor authentication will require a second piece of information to log in and potentially thwart the intruder. This provides you with an extra layer of security on your accounts.

Recommendation: You don't necessarily need to enable 2FA on every account, but prioritize enabling it on your most important accounts (email, banking, cellphone, etc.) There are typically a few different kinds: email-based (which is why your email account's security is so important), text message or SMS-based (which is why your cell phone account's security is so important), app-based, and hardware token-based. Email and text message 2FA are fine for most accounts. You may want to enable app- or hardware token-based 2FA for your most sensitive accounts.

Guides:

Activist Checklist: Enable two-factor authentication
Electronic Frontier Foundation: How to enable two-factor authentication
Consumer Reports: Set up multifactor authentication
Apps: There are many different choices available. The linked guides recommend the open source app Ente. Other options include Google and Microsoft Authenticator, Duo, etc.
Hardware tokens: Common choices include Yubikey and Google's Titan Security Key

Limitations: The major limitation is that if you lose access to 2FA, you can be locked out of an account. This can happen if you're travelling abroad and can't access your usual cellphone number, if you break your phone and you don't have a backup of your authenticator app, or if you lose your hardware-based token. For this reason, many websites will provide you with "backup tokens"—you can print them out and store them in a secure location or use your password manager. I also recommend if you use an app, you choose one that will allow you to make secure backups, such as Ente. You are also limited by the types of 2FA a website supports; many don't support app- or hardware token-based 2FA.

Remove your information from data brokers

Why? This is a problem that mostly affects people in the US. It surprises many people that information from their credit reports and other public records is scraped and available (for free or at a low cost) online through "data broker" websites. I have shocked friends who didn't believe this was an issue by searching for their full names and within 5 minutes being able to show them their birthday, home address, and phone number. This is a serious privacy problem!

Recommendation: Opt out of any and all data broker websites to remove this information from the internet. This is especially important if you are at risk of being stalked or harassed.

Guides:

Consumer Reports: Remove your contact information from people-search sites
Electronic Frontier Foundation: Manage your digital footprint
Big Ass Data Broker Opt Out List (BADBOOL), maintained by Yael Grauer
State-specific tools for residents of: California, Oregon

Limitations: It can take time for your information to be removed once you opt out, and unfortunately search engines may have cached your information for a while longer. This is also not a one-and-done process. New data brokers are constantly popping up and some may not properly honour your opt out, so you will need to check on a regular basis (perhaps once or twice a year) to make sure your data has been properly scrubbed. This also cannot prevent someone from directly searching public records to find your information, but that requires much more effort.

"Recommended security measures" I think beginners should avoid

We've covered a lot of tasks you should do, but I also think it's important to cover what not to do. I see many of these tools recommended to security beginners, and I think that's a mistake. For each tool, I will explain my reasoning around why I don't think you should use it, and the scenarios in which it might make sense to use.

"Secure email"

What is it? Many email providers, such as Proton Mail, advertise themselves as providing secure email. They are often recommended as a "more secure" alternative to typical email providers such as GMail.

What's the problem? Email is fundamentally insecure by design. The email specification (RFC-3207) states that any publicly available email server MUST NOT require the use of end-to-end encryption in transit. Email providers can of course provide additional security by encrypting their copies of your email, and providing you access to your email by HTTPS, but the messages themselves can always be sent without encryption. Some platforms such as Proton Mail advertise end-to-end encrypted emails so long as you email another Proton user. This is not truly email, but their own internal encrypted messaging platform that follows the email format.

What should I do instead? Use Signal to send encrypted messages. NEVER assume the contents of an email are secure.

Who should use it? I don't believe there are any major advantages to using a service such as this one. Even if you pay for a more "secure" email provider, the majority of your emails will still be delivered to people who don't. Additionally, while I don't use or necessarily recommend their service, Google offers an Advanced Protection Program for people who may be targeted by state-level actors.

PGP/GPG Encryption

What is it? PGP ("Pretty Good Privacy") and GPG ("GNU Privacy Guard") are encryption and cryptographic signing software. They are often recommended to encrypt messages or email.

What's the problem? GPG is decades old and its usability has always been terrible. It is extremely easy to accidentally send a message that you thought was encrypted without encryption! The problems with PGP/GPG have been extensively documented.

What should I do instead? Use Signal to send encrypted messages. Again, NEVER use email for sensitive information.

Who should use it? Software developers who contribute to projects where there is a requirement to use GPG should continue to use it until an adequate alternative is available. Everyone else should live their lives in PGP-free bliss.

Installing a "secure" operating system (OS) on your phone

What is it? There are a number of self-installed operating systems for Android phones, such as GrapheneOS, that advertise as being "more secure" than using the version of the Android operating system provided by your phone manufacturer. They often remove core Google APIs and services to allow you to "de-Google" your phone.

What's the problem? These projects are relatively niche, and don't have nearly enough resourcing to be able to respond to the high levels of security pressure Android experiences (such as against the forensic tools I mentioned earlier). You may suddenly lose security support with no notice, as with CalyxOS. You need a high level of technical know-how and a lot of spare time to maintain your device with a custom operating system, which is not a reasonable expectation for the average person. By stripping all Google APIs such as Google Play Services, some useful apps can no longer function. And some law enforcement organizations have gone as far as accusing people who install GrapheneOS on Pixel phones to be engaging in criminal activity.

What should I do instead? For the best security on an Android device, use a phone manufactured by Google or Samsung (smaller manufacturers are more unreliable), or consider buying an iPhone. Make sure your device is receiving security updates and up-to-date.

Who should use it? These projects are great for tech enthusiasts who are interested in contributing to and developing them further. They can be used to give new life to old phones that are not receiving security or software updates. They are also great for people with an interest in free and open source software and digital autonomy. But these tools are not a good choice for a general audience, nor do they provide more practical security than using an up-to-date Google or Samsung Android phone.

Virtual Private Network (VPN) Services

What is it? A virtual private network or VPN service can provide you with a secure tunnel from your device to the location that the VPN operates. This means that if I am using my phone in Seattle connected to a VPN in Amsterdam, if I access a website, it appears to the website that my phone is located in Amsterdam.

What's the problem? VPN services are frequently advertised as providing security or protection from nefarious bad actors, or helping protect your privacy. These benefits are often far overstated, and there are predatory VPN providers that can actually be harmful. It costs money and resources to provide a VPN, so free VPN services are especially suspect. When you use a VPN, the VPN provider knows the websites you are visiting in order to provide you with the service. Free VPN providers may sell this data in order to cover the cost of providing the service, leaving you with less security and privacy. The average person does not have the knowledge to be able to determine if a VPN service is trustworthy or not. VPNs also don't provide any additional encryption benefits if you are already using HTTPS. They may provide a small amount of privacy benefit if you are connected to an untrusted network with an attacker.

What should I do instead? Always use HTTPS to access websites. Don't connect to untrusted internet providers—for example, use cellphone network data instead of a sketchy Wi-Fi access point. Your local neighbourhood coffee shop is probably fine.

Who should use it? There are three main use cases for VPNs. The first is to bypass geographic restrictions. A VPN will cause all of your web traffic to appear to be coming from another location. If you live in an area that has local internet censorship policies, you can use a VPN to access the internet from a location that lacks such policies. The second is if you know your internet service provider is actively hostile or malicious. A trusted VPN will protect the visibility of all your traffic, including which websites you visit, from your internet service provider, and the only thing they will be able to see is that you are accessing a VPN. The third use case is to access a network that isn't connected to the public internet, such as a corporate intranet. I strongly discourage the use of VPNs for "general-purpose security."

Tor

What is it? Tor, "The Onion Router", is a free and open source software project that provides anonymous networking. Unlike with a VPN, where the VPN provider knows who you are and what websites you are requesting, Tor's architecture makes it extremely difficult to determine who sent a request.

What's the problem? Tor is difficult to set up properly; similar to PGP-encrypted email, it is possible to accidentally not be connected to Tor and not know the difference. This usability has improved over the years, but Tor is still not a good tool for beginners to use. Due to the way Tor works, it is also extremely slow. If you have used cable or fiber internet, get ready to go back to dialup speeds. Tor also doesn't provide perfect privacy and without a strong understanding of its limitations, it can be possible to deanonymize someone despite using it. Additionally, many websites are able to detect connections from the Tor network and block them.

What should I do instead? If you want to use Tor to bypass censorship, it is often better to use a trusted VPN provider, particularly if you need high bandwidth (e.g. for streaming). If you want to use Tor to access a website anonymously, Tor itself might not be enough to protect you. For example, if you need to provide an email address or personal information, you can decline to provide accurate information and use a masked email address. A friend of mine once used the alias "Nunya Biznes" 🥸

Who should use it? Tor should only be used by people who are experienced users of security tools and understand its strengths and limitations. Tor also is best used on a purpose-built system, such as Tor Browser or Freedom of the Press Foundation's SecureDrop.

I want to learn more!

I hope you've found this guide to be a useful starting point. I always welcome folks reaching out to me with questions, though I might take a little bit of time to respond. You can always email me.

If there's enough interest, I might cover the following topics in a future post:

Threat modelling, which you can get started with by reading the EFF's or VCW's guides
Browser addons for privacy, which Consumer Reports has a tip for
Secure DNS, which you can read more about here

Stay safe out there! 🔒

27 January, 2026 02:00AM by Elana Hashman

January 26, 2026

Otto Kekäläinen

Ubuntu Pro subscription - should you pay to use Linux?

Ubuntu Pro is a subscription offering for Ubuntu users who want to pay for the assurance of getting quick and high-quality security updates for Ubuntu. I tested it out to see how it works in practice, and to evaluate how well it works as a commercial open source service model for Linux.

Anyone running Ubuntu can subscribe to it at ubuntu.com/pro/subscribe by selecting the setup type “Desktops” for the price of $25 per year (+applicable taxes) for Enterprise users. There is also a free version for personal use. Once you have an account, you can find your activation token at ubuntu.com/pro/dashboard, and use it to activate Ubuntu Pro on your desktop or laptop Ubuntu machine by running sudo pro attach <token>:

$ sudo pro attach aabbcc112233aabbcc112233
Enabling default service esm-apps
Updating package lists
Ubuntu Pro: ESM Apps enabled
Enabling default service esm-infra
Updating package lists
Ubuntu Pro: ESM Infra enabled
Enabling default service livepatch
Installing canonical-livepatch snap
Canonical livepatch enabled.
Unable to determine current instance-id
This machine is now attached to 'Ubuntu Pro Desktop'

You can at any time confirm the Ubuntu Pro status by running:

$ sudo pro status --all
SERVICE ENTITLED STATUS DESCRIPTION
anbox-cloud yes disabled Scalable Android in the cloud
cc-eal yes n/a Common Criteria EAL2 Provisioning Packages
esm-apps yes enabled Expanded Security Maintenance for Applications
esm-infra yes enabled Expanded Security Maintenance for Infrastructure
fips yes n/a NIST-certified FIPS crypto packages
fips-preview yes n/a Preview of FIPS crypto packages undergoing certification with NIST
fips-updates yes disabled FIPS compliant crypto packages with stable security updates
landscape yes enabled Management and administration tool for Ubuntu
livepatch yes disabled Canonical Livepatch service
realtime-kernel yes disabled Ubuntu kernel with PREEMPT_RT patches integrated
├ generic yes disabled Generic version of the RT kernel (default)
├ intel-iotg yes n/a RT kernel optimized for Intel IOTG platform
└ raspi yes n/a 24.04 Real-time kernel optimised for Raspberry Pi
ros yes n/a Security Updates for the Robot Operating System
ros-updates yes n/a All Updates for the Robot Operating System
usg yes disabled Security compliance and audit tools
Enable services with: pro enable <service>
Account: Otto Kekalainen
Subscription: Ubuntu Pro Desktop
Valid until: Thu Mar 3 08:08:38 2026 PDT
Technical support level: essential

For a regular desktop/laptop user the most relevant service is the esm-apps, which delivers extended security updates to many applications typically used on desktop systems.

Another relevant command to confirm the current subscription status is:

$ sudo pro security-status
2828 packages installed:
2143 packages from Ubuntu Main/Restricted repository
660 packages from Ubuntu Universe/Multiverse repository
13 packages from third parties
12 packages no longer available for download
To get more information about the packages, run
pro security-status --help
for a list of available options.
This machine is receiving security patching for Ubuntu Main/Restricted
repository until 2029.
This machine is attached to an Ubuntu Pro subscription.
Ubuntu Pro with 'esm-infra' enabled provides security updates for
Main/Restricted packages until 2034.
Ubuntu Pro with 'esm-apps' enabled provides security updates for
Universe/Multiverse packages until 2034. You have received 26 security
updates.

This confirms the scope of the security support. You can even run sudo pro security-status --esm-apps to get a detailed breakdown of the installed software packages in scope for Expanded Security Maintenance (ESM).

Experiences from using Ubuntu Pro for over a year

Personally I have been using it on two laptop systems for well over a year now and everything seems to have worked well. I see apt is downloading software updates from https://esm.ubuntu.com/apps/ubuntu, but other than that there aren’t any notable signs of Ubuntu Pro being in use. That is a good thing – after all one is paying for assurance that everything works with minimum disruptions, so the system that enables smooth sailing should stay in the background and not make too much noise of itself.

Using Landscape to manage multiple Ubuntu laptops

Landscape portal reports showing security update status and resource utilization

Landscape.canonical.com is a fleet management system that shows information like security update status and resource utilization for the computers you administer. Ubuntu Pro attached systems under one’s account are not automatically visible in Landscape, but have to be enrolled in it.

To enroll an Ubuntu Pro attached desktop/laptop to Landscape, first install the required package with sudo apt install landscape-client and then run sudo landscape-config --account-name <account name> to start the configuration wizard. You can find your account name in the Landscape portal. On the last wizard question Request a new registration for this computer now? [y/N] hit y to accept. If successful, the new computer will be visible on the Landscape portal page “Pending computers”, from where you can click to accept it.

Landscape portal page showing pending computer registration

If I had a large fleet of computers, Landscape might come in useful. Also it is obvious Landscape is intended primarily for managing server systems. For example, the default alarm trigger on systems being offline, which is common for laptops and desktop computers, is an alert-worthy thing only on server systems.

It is good to know that Landscape exists, but on desktop systems I would probably skip it, and only stick to the security updates offered by Ubuntu Pro without using Landscape.

Landscape is evolving

The screenshots above are from the current Landscape portal which I have been using so far. Recently Canonical has also launched a new web portal, with a fresh look:

New Landscape dashboard with fresh look

This shows Canonical is actively investing in the service and it is likely going to sit at the center of their business model for years to come.

Other offerings by Canonical for individual users

Canonical, the company behind the world’s most popular desktop Linux distribution Ubuntu, has been offering various commercial support services for corporate customers since the company launched back in 2005, but there haven’t been any offerings available to individual users since Ubuntu One, with file syncing, a music store and more, was wound down back in 2014. Canonical and the other major Linux companies, Red Hat and SUSE, have always been very enterprise-oriented, presumably because achieving economies of scale is much easier when maintaining standardized corporate environments compared to dealing with a wide range of custom configurations that individual consumer customers might have. I remember some years ago Canonical offered desktop support under the Ubuntu Advantage product name, but the minimum subscription was for 5 desktop systems, which typically isn’t an option for a regular home consumer.

I am glad to see Ubuntu Pro is now available and I honestly hope people using Ubuntu will opt into it. The more customers it has, the more it incentivizes Canonical to develop and maintain features that are important for desktop and home users.

Pay for Linux because you can, not because you have to

Open source is a great software development model for rapid innovation and adoption, but I don’t think the business models in the space are yet quite mature. Users who get long-term value should participate more in funding open source maintenance work. While some donation platforms like GitHub Sponsors, OpenCollective and the like have gained popularity in recent years, none of them seem to generate recurring revenue comparable to the scale of how popular open source software is now in 2026.

I welcome more paid schemes, such as Ubuntu Pro, as I believe it is beneficial for the whole ecosystem. I also expect more service providers to enter this space and experiment with different open source business models and various forms of decentralized funding. Linux and open source are primarily free as in speech, but as a side effect license fees are hard to enforce and many use Linux without paying for it. The more people, corporations and even countries rely on it to stay sovereign in the information society, the more users should think about how they want to use Linux and who they want to pay to maintain it and other critical parts of the open source ecosystem.

26 January, 2026 12:00AM

January 25, 2026

Anton Gladky

Introducing v2/changelogs FTP-Master API

v2/changelogs – FTP-Master API released and how can it be used to track your uploads

25 January, 2026 05:50PM

January 24, 2026

Gunnar Wolf

Finally some light for those who care about Debian on the Raspberry Pi

Finally, some light at the end of the tunnel!

As I have said in this blog and elsewhere, after putting quite a bit of work into generating the Debian Raspberry Pi images between late 2018 and 2023, I had to recognize I don’t have the time and energy to properly care for it.

I even registered a GSoC project for it. I mentored Kurva Prashanth, who did good work on the vmdb2 scripts we use for the image generation — but in the end, was unable to push them to be built in Debian infrastructure. Maybe a different approach was needed! While I adopted the images as they were conceived by Michael Stapelberg, sometimes it’s easier to start from scratch and build a fresh approach.

So, I’m not yet pointing at a stable, proven release, but to a good promise. And I hope I’m not being pushy by making this public: in the #debian-raspberrypi channel, waldi has shared the images he has created with the Debian Cloud Team’s infrastructure.

So, right now, the images built so far support Raspberry Pi families 4 and 5 (notably, not the 500 computer I have, due to a missing Device Tree, but I’ll try to help figure that bit out… Anyway, p400/500/500+ systems are not that usual). Work is underway to get the 3B+ to boot (some hackery is needed, as it only understands MBR partition schemes, so creating a hybrid image seems to be needed).

Debian Cloud images for Raspberries

Sadly, I don’t think the effort will be extended to cover older, 32-bit-only systems (RPi 0, 1 and 2).

Anyway, as this effort stabilizes, I will phase out my (stale!) work on raspi.debian.net, and will redirect it to point at the new images.

Comments

Andrea Pappacoda tachi@d.o 2026-01-26 17:39:14 GMT+1

Are there any particular caveats compared to using the regular Raspberry Pi OS?

Are they documented anywhere?

Gunnar Wolf gwolf.blog@gwolf.org 2026-01-26 11:02:29 GMT-6

Well, the Raspberry Pi OS includes quite a bit of software that’s not packaged in Debian for various reasons — some of it because it’s non-free demo-ware, some of it because it’s RPiOS-specific configuration, some of it… I don’t care, I like running Debian wherever possible 😉

Andrea Pappacoda tachi@d.o 2026-01-26 18:20:24 GMT+1

Thanks for the reply! Yeah, sorry, I should’ve been more specific. I also just care about the Debian part. But: are there any hardware issues or unsupported stuff, like booting from an SSD (which I’m currently doing)?

Gunnar Wolf gwolf.blog@gwolf.org 2026-01-26 12:16:29 GMT-6

That’s… beyond my knowledge 😉 Although I can tell you that:

Raspberry Pi OS has hardware support as soon as their new boards hit the market. The ability to even boot a board can take over a year for the mainline Linux kernel (at least, it has, both in the cases of the 4 and the 5 families).
Also, sometimes some bits of hardware are not discovered by the Linux kernels even if the general family boots because they are not declared in the right place of the Device Tree (i.e. the wireless network interface in the 02W is in a different address than in the 3B+, or the 500 does not fully boot while the 5B now does). Usually it is a matter of “just” declaring stuff in the right place, but it’s not a skill many of us have.
Also, many RPi “hats” ship with their own Device Tree overlays, and they cannot always be loaded on top of mainline kernels.

Andrea Pappacoda tachi@d.o 2026-01-26 19:31:55 GMT+1

That’s… beyond my knowledge 😉 Although I can tell you that:

Raspberry Pi OS has hardware support as soon as their new boards hit the market. The ability to even boot a board can take over a year for the mainline Linux kernel (at least, it has, both in the cases of the 4 and the 5 families).

Yeah, unfortunately I’m aware of that… I’ve also been trying to boot OpenBSD on my rpi5 out of curiosity, but been blocked by my somewhat unusual setup involving an NVMe SSD as the boot drive :/

Also, sometimes some bits of hardware are not discovered by the Linux kernels even if the general family boots because they are not declared in the right place of the Device Tree (i.e. the wireless network interface in the 02W is in a different address than in the 3B+, or the 500 does not fully boot while the 5B now does). Usually it is a matter of “just” declaring stuff in the right place, but it’s not a skill many of us have.

At some point in my life I had started reading a bit about device trees and stuff, but got distracted by other stuff before I could develop any familiarity with it. So I don’t have the skills either :)

Also, many RPi “hats” ship with their own Device Tree overlays, and they cannot always be loaded on top of mainline kernels.

I’m definitely not happy to hear this!

Guess I’ll have to try, and maybe report back once some page for these new builds materializes.

24 January, 2026 04:24PM

January 23, 2026

Reproducible Builds (diffoscope)

diffoscope 311 released

The diffoscope maintainers are pleased to announce the release of diffoscope version 311. This version includes the following changes:

[ Chris Lamb ]
* Fix test compatibility with u-boot-tools 2026-01. Thanks, Jelle!
* Bump Standards-Version to 4.7.3.
* Drop implied "Priority: optional" from debian/control.
* Also drop implied "Rules-Requires-Root: no" entry in debian/control.
* Update copyright years.

You find out more by visiting the project homepage.

23 January, 2026 12:00AM

January 22, 2026

Steinar H. Gunderson

Rewriting Git merge history, part 2

In part 1, we discovered the problem of rewriting git history in the presence of nontrivial merges. Today, we'll discuss the workaround I chose.

As I previously mentioned, and as Julia Evans' excellent data model document explains, a git commit is just a snapshot of a tree (suitably deduplicated by means of content hashes), a commit message and a (possibly empty) set of parents. So fundamentally, we don't really need to mess with diffs; if we can make the changes we want directly to the tree (well, technically, make a new tree that looks like what we want, and a new commit using that tree), we're good. (Diffs in git are, generally, just git diff looking at two trees and trying to make sense of it. This has the unfortunate result that there is no solid way of representing a rename; there are heuristics, but if you rename a file and change it in the same commit, they may fail and stuff like git blame or git log may be broken, depending on flags. Gerrit doesn't even seem to understand a no-change copy.)

In earlier related cases, I've taken this to the extreme by simply hand-writing a commit using git commit-tree. Create exactly the state that you want by whatever means, commit it in some dummy commit and then use that commit's tree with some suitable commit message and parent(s); voila. But it doesn't help us with history; while we can fix up an older commit in exactly the way we'd like, we also need the latter commits to have our new fixed-up commit as parent.

Thus, enter git filter-branch. git filter-branch comes with a suitable set of warnings about eating your repository and being deprecated (I never really figured out its supposed replacement git filter-repo, so I won't talk much about it), but it's useful when all else fails.

In particular, git filter-branch allows you to do arbitrary changes to the tree of a series of commits, updating the parent commit IDs as rewrites happen. So if you can express your desired changes in a way that's better than “run the editor” (or if you're happy running the editor and making the same edit manually 300 times!), you can just run that command over all commits in the entire branch (forgive me for breaking lines a bit):

git filter-branch -f --tree-filter \
  '! [ -f src/cluster.cpp ] || sed -i "s/if (mi.rank != 0)/if (mi.rank != 0
    \&\& mi.rank == rank())/" src/cluster.cpp' \
  665155410753978998c8080c813da660fc64bbfe^..cluster-master

This is suitably terrible. Remember, if we only did this for one commit, the change wouldn't be there in the next one (git diff would show that it was immediately reverted), so filter-branch needs to do this over and over again, once for each commit (tree) in the branch. And I wanted multiple fixups, so I had a bunch of these; some of them were as simple as “copy this file from /tmp” and some were shell scripts that did things like running clang-format.

You can do similar things for commit messages; at some point, I figured I should write “cluster” (the official name for the branch) and not “cluster-master” (my local name) in the merge messages, so I could just do

git filter-branch \
  --commit-msg-filter 'sed s/cluster-master/cluster/g' \
  665155410753978998c8080c813da660fc64bbfe^..cluster-master

I also did a bunch of them to fix up my email address (GIT_COMMITTER_EMAIL wasn't properly set), although I cannot honestly remember whether I used --env-filter or something else. Perhaps that was actually with git rebase and `-r --exec 'git commit --amend --no-edit --author …'` or similar. There are many ways to do ugly things. :-)

Eventually, I had the branch mostly in a state where I thought it would be ready for review, but after uploading to GitHub, one reviewer commented that some of my merges against master were commits that didn't exist in master. Huh? That's… surprising.

It took a fair bit of digging to figure out what had happened: git filter-branch had rewritten some commits that it didn't actually have to; the merge sources from upstream. This is normally harmless, since git hashes are deterministic, but these commits were signed by the author! And filter-branch (or perhaps fast-export, upon which it builds?) generally assumes that it can't sign stuff with other people's keys, so it just strips the signatures, deeming that better than having invalid ones sitting around. Now, of course, these commit signatures would still be valid since we didn't change anything, but evidently, filter-branch doesn't have any special code for that.

Removing an object like this (a “gpgsig” attribute, it seems) changes the commit hash, which is where the phantom commits came from. I couldn't get filter-branch to turn it off… but again, parents can be freely changed, diffs don't exist anyway. So I wrote a little script that took in parameters suitable for git commit-tree (mostly the parent list), rewrote known-bad parents to known-good parents, gave the script to git filter-branch --commit-filter, and that solved the problem. (I guess --parent-filter would also have worked; I don't think I saw it in the man page at the time.)

So, well, I won't claim this is an exercise in elegancy. (Perhaps my next adventure will be figuring out how this works in jj, which supposedly has conflicts as more of a first-class concept.) But it got the job done in a couple of hours after fighting with rebase for a long time, the PR was reviewed, and now the Stockfish cluster branch is a little bit more alive.

22 January, 2026 07:45AM

January 21, 2026

Evgeni Golov

Validating cloud-init configs without being root

Somehow this whole DevOps thing is all about generating the wildest things from some (usually equally wild) template.

And today we're gonna generate YAML from ERB, what could possibly go wrong?!

Well, actually, quite a lot, so one wants to validate the generated result before using it to break systems at scale.

The YAML we generate is a cloud-init cloud-config, and while checking that we generated a valid YAML document is easy (and we were already doing that), it would be much better if we could check that cloud-init can actually use it.

Enter cloud-init schema, or so I thought. Turns out running cloud-init schema is rather broken without root privileges, as it tries to load a ton of information from the running system. This seems like a bug (or multiple), as the data should not be required for the validation of the schema itself. I've not found a way to disable that behavior.

Luckily, I know Python.

Enter evgeni-knows-better-and-can-write-python:

#!/usr/bin/env python3

import sys
from cloudinit.config.schema import get_schema, validate_cloudconfig_file, SchemaValidationError

try:
    valid = validate_cloudconfig_file(config_path=sys.argv[1], schema=get_schema())
    if not valid:
        raise RuntimeError("Schema is not valid")
except (SchemaValidationError, RuntimeError) as e:
    print(e)
    sys.exit(1)

The canonical¹ version if this lives in the Foreman git repo, so go there if you think this will ever receive any updates.

The hardest part was to understand thevalidate_cloudconfig_file API, as it will sometimes raise an SchemaValidationError, sometimes a RuntimeError and sometimes just return False. No idea why. But the above just turns it into a couple of printed lines and a non zero exit code, unless of course there are no problems, then you get peaceful silence.

"canonical", not "Canonical" ↩

21 January, 2026 07:42PM by evgeni

January 20, 2026

Sahil Dhiman

Conferences, why?

Back in December, I was working to help organize multiple different conferences. One has already happened; the rest are still works in progress. That’s when the thought struck me: why so many conferences, and why do I work for them?

I have been fairly active in the scene since 2020. For most conferences, I usually arrive late in the city on the previous day and usually leave the city on conference close day. Conferences for me are the place to meet friends and new folks and hear about them, their work, new developments, and what’s happening in their interest zones. I feel naturally happy talking to folks. In this case, people inspire me to work. Nothing can replace a passionate technical and social discussion, which stretches way into dinner parties and later.

For most conference discussions now, I just show up without a set role (DebConf is probably an exception to it). It usually involves talking to folks, suggesting what needs to be done, doing a bit of it myself, and finishing some last-minute stuff during the actual thing.

Having more of these conferences and helping make them happen naturally gives everyone more places to come together, meet, talk, and work on something.

No doubt, one reason for all these conferences is evangelism for, let’s say Free Software, OpenStreetMap, Debian etc. which is good and needed for the pipeline. But for me, the primary reason would always be meeting folks.

20 January, 2026 02:27AM

January 19, 2026

Isoken Ibizugbe

Mid-Point Project Progress

Halfway There

Hurray! I have officially reached the 6-week mark, the halfway point of my Outreachy internship. The time has flown by incredibly fast, yet it feels short because there is still so much exciting work to do.

I remember starting this journey feeling overwhelmed, trying to gain momentum. Today, I feel much more confident. I began with the apps_startstop task during the contribution period, writing manual test steps and creating preparation Perl scripts for the desktop environments. Since then, I’ve transitioned into full automation and taken a liking to reading openQA upstream documentation when I have issues or for reference.

In all of this, I’ve committed over 30 hours a week to the project. This dedicated time has allowed me to look in-depth into the Debian ecosystem and automated quality assurance.

The Original Roadmap vs. Reality

Reviewing my 12-week goal, which included extending automated tests for “live image testing,” “installer testing,” and “documentation,” I am happy to report that I am right on track. My work on desktop apps tests has directly improved the quality of both the Live Images and the netinst (network installer) ISOs.

Accomplishments

I have successfully extended the apps_startstop tests for two Desktop Environments (DEs): Cinnamon and LXQt. These tests ensure that common and DE specific apps launch and close correctly across different environments.

Merged Milestone: My Cinnamon tests have been officially merged into the upstream repository! [MR !84]
LXQt & Adaptability: I am in the final stages of the LXQt tests. Interestingly, I had to update these tests mid-way through because of a version update in the DE. This required me to update the needles (image references) to match the new UI, a great lesson in software maintenance.

Solving for “Synergy”

One of my favorite challenges was suggested by my mentor, Roland: synergizing the tests to reduce redundancy. I observed that some applications (like Firefox and LibreOffice) behave identically across different desktops. Instead of duplicating Perl scripts/code for every single DE, I used symbolic links. This allows the use of the same Perl script and possibly the same needles, making the test suite lighter and much easier to maintain.

The Contributor Guide

During the contribution phase, I noticed how rigid the documentation and coding style requirements are. While this ensures high standards and uniformity, it can be intimidating for newcomers and time-consuming for reviewers.

To help, I created a contributor guide [MR !97]. This guide addresses the project’s writing style. My goal is to reduce the back-and-forth during reviews, making the process more efficient for everyone and helping new contributors.

Looking Forward

For the second half of the internship, I plan to:

Assist others: Help new contributors extend apps start-stop tests to even more desktop environments.
Explore new coverage: Move beyond start-stop tests into deeper functional testing.

This journey has been an amazing experience of learning and connecting with the wider open-source community, especially Debian Women and the Linux QA team.

I am deeply grateful to my mentors, Tassia Camoes Araujo, Roland Clobus, and Philip Hands, for their constant guidance and for believing in my ability to take on this project.

Here’s to the next 6 weeks

19 January, 2026 09:15PM by Isoken Ibizugbe

Hellen Chemtai

Internship Highlights at Outreachy: My Journey with Debian OpenQA

Highlights

Hello world . I am an intern here at Outreachy working with Debian OpenQA Image testing team. The work consists of testing Images with OpenQA. The internship has reached midpoint and here are some of the highlights that I have had so far.

The mentors : Roland Clobus, Tassia Camoes and Philip Hands are very good mentors. I like the constant communication and the help I get while working on the project. I enjoy working with this team.
The community : The contributors, mentors and the greater SUSE OpenQA community are constantly in communication. I learn a lot from these meetings.
The women network : The women of Debian meet and network . The meetings are interactive and we are encouraged to interact.
The project : We are making progress one step at a time. Isoken Ibizugbe is my fellow intern working on start-stop tests. I am working on live installers tests.

Communication

I have learned a lot during my internship. I have always been on the silent path of life with little communication. I once told myself being a developer would hide me behind a computer to avoid socializing. Being in open source especially this internship has helped me out with communication and networking. The team work in the project has helped me a lot

My mentors encourage communication. Giving project updates and stating when we get stuck.
My mentors have scheduled weekly meetings to communicate about the project
We are constantly invited to the SUSE meetings by mentors or by Sam Thursfield who is part of the team.
Female contributors are encouraged to join Debian women monthly meetings for networking

Lessons so far

I have had challenges , solved problems and learned new skills all this while

I have learned Perl, OpenQA configuration, needle editing and improved my Linux and Git skills
I have known how various Images are installed , booted and run through live viewing of tests
I have solved many test errors and learned to work with applications that are needed in the OS installations. e.g. rufus
I have learned how virtual machines work and how to solve errors in regards to them

So far so good. I am grateful to be a contributor towards the project and hope to continue learning.

19 January, 2026 03:28PM by hellen chemtai tay

Jonathan Dowland

FOSDEM 2026

I'm going to FOSDEM 2026!

I'm presenting in the Containers dev room. My talk is Java Memory Management in Containers and it's scheduled as the first talk on the first day. I'm the warm-up act!

The Java devroom has been a stalwart at FOSDEM since 2004 (sometimes in other forms), but sadly there's no Java devroom this year. There's a story about that, but it's not mine to tell.

Please recommend to me any interesting talks! Here's a few that caught my eye:

Debian/related:

Containers:

Who’s reproducing the reproducible images?

Research:

Other:

19 January, 2026 02:12PM

Francesco Paolo Lovergine

A Terramaster NAS with Debian, take two.

After experimenting at home, the very first professional-grade NAS from Terramaster arrived at work, too, with 12 HDD bays and possibly a pair of M2s. NVME cards. In this case, I again installed a plain Debian distribution, but HDD monitoring required some configuration adjustments to run smartd properly.

A decent approach to data safety is to run regularly scheduled short and long SMART tests on all disks to detect potential damage. Running such tests on all disks at once isn't ideal, so I set up a script to create a staggered configuration and test multiple groups of disks at different times. Note that it is mandatory to read the devices at each reboot because their names and order can change.

Of course, the same principle (short/long test at regular intervals along the week) should be applied for a simpler configuration, as in the case of my home NAS with a pair of RAID1 devices.

What follows is a simple script to create a staggered smartd.conf at boot time:

#!/bin/bash
#
# Save this as /usr/local/bin/create-smartd-conf.sh
#
# Dynamically generate smartd.conf with staggered SMART test scheduling
# at boot time based on discovered ATA devices

# HERE IS A LIST OF DIRECTIVES FOR THIS CONFIGURATION FILE.
# PLEASE SEE THE smartd.conf MAN PAGE FOR DETAILS
#
#   -d TYPE Set the device type: ata, scsi[+TYPE], nvme[,NSID],
#           sat[,auto][,N][+TYPE], usbcypress[,X], usbjmicron[,p][,x][,N],
#           usbprolific, usbsunplus, sntasmedia, sntjmicron[,NSID], sntrealtek,
#           ... (platform specific)
#   -T TYPE Set the tolerance to one of: normal, permissive
#   -o VAL  Enable/disable automatic offline tests (on/off)
#   -S VAL  Enable/disable attribute autosave (on/off)
#   -n MODE No check if: never, sleep[,N][,q], standby[,N][,q], idle[,N][,q]
#   -H      Monitor SMART Health Status, report if failed
#   -s REG  Do Self-Test at time(s) given by regular expression REG
#   -l TYPE Monitor SMART log or self-test status:
#           error, selftest, xerror, offlinests[,ns], selfteststs[,ns]
#   -l scterc,R,W  Set SCT Error Recovery Control
#   -e      Change device setting: aam,[N|off], apm,[N|off], dsn,[on|off],
#           lookahead,[on|off], security-freeze, standby,[N|off], wcache,[on|off]
#   -f      Monitor 'Usage' Attributes, report failures
#   -m ADD  Send email warning to address ADD
#   -M TYPE Modify email warning behavior (see man page)
#   -p      Report changes in 'Prefailure' Attributes
#   -u      Report changes in 'Usage' Attributes
#   -t      Equivalent to -p and -u Directives
#   -r ID   Also report Raw values of Attribute ID with -p, -u or -t
#   -R ID   Track changes in Attribute ID Raw value with -p, -u or -t
#   -i ID   Ignore Attribute ID for -f Directive
#   -I ID   Ignore Attribute ID for -p, -u or -t Directive
#   -C ID[+] Monitor [increases of] Current Pending Sectors in Attribute ID
#   -U ID[+] Monitor [increases of] Offline Uncorrectable Sectors in Attribute ID
#   -W D,I,C Monitor Temperature D)ifference, I)nformal limit, C)ritical limit
#   -v N,ST Modifies labeling of Attribute N (see man page)
#   -P TYPE Drive-specific presets: use, ignore, show, showall
#   -a      Default: -H -f -t -l error -l selftest -l selfteststs -C 197 -U 198
#   -F TYPE Use firmware bug workaround:
#           none, nologdir, samsung, samsung2, samsung3, xerrorlba
#   -c i=N  Set interval between disk checks to N seconds
#    #      Comment: text after a hash sign is ignored
#    \      Line continuation character
# Attribute ID is a decimal integer 1 <= ID <= 255
# except for -C and -U, where ID = 0 turns them off.

set -euo pipefail

# Test schedule configuration
BASE_SCHEDULE="L/../../6"  # Long test on Saturdays
TEST_HOURS=(01 03 05 07)   # 4 time slots: 1am, 3am, 5am, 7am

DEVICES_PER_GROUP=3

main() {
    # Get array of device names (e.g., sda, sdb, sdc)
    mapfile -t devices < <(ls -l /dev/disk/by-id/ | grep ata | awk '{print $11}' | grep sd | cut -d/ -f3 | sort -u)

    if [[ ${#devices[@]} -eq 0 ]]; then
        exit 1
    fi

    # Start building config file
    cat << EOF
# smartd.conf - Auto-generated at boot
# Generated: $(date '+%Y-%m-%d %H:%M:%S')
#
# Staggered SMART test scheduling to avoid concurrent disk load
# Long tests run on Saturdays at different times per group
#
EOF

    # Process devices into groups
    local group=0
    local count_in_group=0

    for i in "${!devices[@]}"; do
        local dev="${devices[$i]}"
        local hour="${TEST_HOURS[$group]}"

        # Add group header at start of each group
        if [[ $count_in_group -eq 0 ]]; then
            echo ""
            echo "# Group $((group + 1)) - Tests at ${hour}:00 on Saturdays"
        fi

        # Add device entry
        #echo "/dev/${dev} -a -o on -S on -s (${BASE_SCHEDULE}/${hour}) -m root"
        echo "/dev/${dev} -a -o on -S on -s (L/../../6/${hour}) -s (S/../.././$(((hour + 12) % 24))) -m root"

        # Move to next group when current group is full
        count_in_group=$((count_in_group + 1))
        if [[ $count_in_group -ge $DEVICES_PER_GROUP ]]; then
            count_in_group=0
            group=$(((group + 1) % ${#TEST_HOURS[@]}))
        fi
    done
}

main "$@"

To run such a script at boot, add a unit file to the systemd configuration.

sudo systemctl  edit --full /etc/systemd/system/regenerate-smartd-conf.service
sudo systemctl enable regenerate-smartd-conf.service

Where the unit service is the following:

[Unit]
Description=Generate smartd.conf with staggered SMART test scheduling
# Wait for all local filesystems and udev device detection
After=local-fs.target systemd-udev-settle.service
Before=smartd.service
Wants=systemd-udev-settle.service
DefaultDependencies=no

[Service]
Type=oneshot
# Only generate the config file, don't touch smartd here
ExecStart=/bin/bash -c '/usr/local/bin/create-smartd-config.sh > /etc/smartd.conf'
StandardOutput=journal
StandardError=journal
RemainAfterExit=yes

[Install]
WantedBy=multi-user.target

19 January, 2026 01:00PM by Francesco P. Lovergine (mbox@lovergine.com)