October 02, 2025

Dirk Eddelbuettel

tinythemes 0.0.4 at CRAN: Micro Maintenance

tinythemes demo

A ‘tiniest of tiny violins’ micro maintenance release 0.0.4 of our tinythemes arrived on CRAN today. tinythemes provides the theme_ipsum_rc() function from hrbrthemes by Bob Rudis in a zero (added) dependency way. A simple example is (also available as a demo inside the package) contrasts the default style (on the left) with the one added by this package (on the right):

This version adjusts to the fact that hrbrthemes is no longer on CRAN so the help page cannot link to its documentation. No other changes were made.

The set of changes since the last release follows.

Changes in tinythemes version 0.0.4 (2025-10-02)

No longer \link{} to now-archived hrbrthemes

Courtesy of my CRANberries, there is a diffstat report relative to previous release. More detailed information is on the repo where comments and suggestions are welcome.

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.

02 October, 2025 04:17PM

John Goerzen

A Twisty Maze of Ill-Behaved Bots

Like many, bot traffic has been causing significant issues for my hosted server recently. I’ve been noticing a dramatic increase in bots that do not respect robots.txt, especially the crawl-delay I have set there. Not only that, but many of them are sending user-agent strings that are quite precisely matching what desktop browsers send. That is, they don’t identify themselves.

They posed a particular problem on two sites: my blog, and the lists.complete.org archives.

The list archives is a completely static site, but it has many pages, so the bots that are ill-behaved absolutely hammer it following links.

My blog runs WordPress. It has fewer pages, but by using PHP, doesn’t need as many hits to start to bog down. Also, there is a Mastodon thundering herd problem, and since I participate on Mastodon, this hits my server.

The solution was one of layers.

I had already added a crawl-delay line to robots.txt. It helped a bit, but many bots these days aren’t well-behaved. Next, I added WP Super Cache to my WordPress installation. I also enabled APCu in PHP and installed APCu Manager. Again, each step helped. Again, not quite enough.

Finally, I added Anubis. Installing it (especially if using the Docker container) was under-documented, but I figured it out. By default, it is designed to block AI bots and try to challenge everything with “Mozilla” in its user-agent (which is most things) with a Javascript challenge.

That’s not quite what I want. If a bot is well-behaved, AI or otherwise, it will respect my robots.txt and I can more precisely control it there. Also, I intentionally support non-Javascript browsers on many of the sites I host, so I wanted to be judicious. Eventually I configured Anubis to only challenge things that present a user-agent that looks fully like a real browser. In other words, real browsers should pass right through, and bad bots pretending to be real browsers will fail.

That was quite effective. It reduced load further to the point where things are ordinarily fairly snappy.

I had previously been using mod_security to block some bots, but it seemed to be getting in the way of the Fediverse at times. When I disabled it, I observed another increase in speed. Anubis was likely going to get rid of those annoying bots itself anyhow.

As a final step, I migrated to a faster hosting option. This post will show me how well it survives the Mastodon thundering herd!

Update: Yes, it handled it quite nicely now.

02 October, 2025 03:01AM by John Goerzen

October 01, 2025

Dirk Eddelbuettel

#052: Running r-ci with Coverage

Welcome to post 52 in the R⁴ series.

Following up on the post #51 yesterday and its stated intent of posting some more here… The r-ci setup (which was introduced in post #32 and updated in post #45) offers portable continuous integration which can take advantage of different backends: Github Actions, Azure Pipelines, GitLab, BitBuckets, … and possibly as it only requires a basic Ubuntu shell after which it customizes itself and runs via shell script. Portably. Now, most of us, I suspect still use it with GitHub Actions but it is reassuring to know that one can take it elsewhere should the need or desire arise.

One thing many repos did, and which stopped working reliably is coverage analysis. This is made easy by the covr package, and made ‘fast, easy, reliable’ (as we quip) thanks to r2u. But transmission to codecov stopped working a while back so I had mostly commented it out in my repos, rendering the reports more and more stale. Which is not ideal.

A few weeks ago I gave this another look, and it turns that that codecov now requires an API token to upload. Which one can generate in the user -> settings menu on their website under the ‘access’ tab. Which in turn then needs to be stored in each repo wanting to upload. For Github, this is under settings -> secrets and variables -> actions as a ‘repository secret’. I suggest using CODECOV_TOKEN for its name.

After that the three-line block in the yaml file can reference it as a secret as in the following snippet, now five lines, taken from one of my ci.yaml files:

      - name: Coverage
        if: ${{ matrix.os == 'ubuntu-latest' }}
        run: ./run.sh coverage
        env:
          CODECOV_TOKEN: ${{ secrets.CODECOV_TOKEN }}

It assigns the secret we stored on the website, references it by prefix secrets. and assigns it to the environment variable CODECOV_TOKEN. After this reports flow as one can see on repositories where I re-enabled this as for example here for RcppArmadillo.

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 now sponsor me at GitHub.

01 October, 2025 08:49PM

Ben Hutchings

FOSS activity in September 2025

Last month I attended and spoke at Kangrejos, for which I will post a separate report later. Besides that, here’s the usual categorised list of work:

Debian packages:
- firmware-nonfree:
  - Uploads:
    - uploaded version 20250808-1~bpo13+1 to trixie-backports
- initramfs-tools:
  - Merge requests:
    - closed !188: Use portable pathnames
- iw:
  - Bugs:
  - Uploads:
    - uploaded version 6.17-1 to unstable
- linux:
  - Bugs:
  - Merge requests:
  - Uploads:
    - uploaded version 6.12.43-1~bpo12+1 to bookworm-backports
    - uploaded version 6.16.3-1~bpo13+1 to trixie-backports
    - (LTS) uploaded version 5.10.244-1 to bullseye-security
- (LTS) linux-6.1:
  - Uploads:
    - uploaded version 6.1.148-1~deb11u1 to bullseye-security
    - uploaded version 6.1.153-1~deb11u1 to bullseye-security
- linux-base:
  - Bugs:
    - closed #1114659: linux-run-hooks depends on recent run-parts
- wireless-regdb:
  - Uploads:
    - (LTS) uploaded version 2025.07.10-1~deb11u1 to bullseye-security
Mailing lists:
- debian-devel:
  - replied to Inquiry about armel support for Debian upgrades post-Trixie
- debian-kernel:
  - posted Agenda items for kernel-team meeting on 2025-09-24
  - replied to Clarification on Subpackage Mapping for CVE Fixes in Debian Linux Kernel
  - replied to [RFC] Reorganizing Linux packages
- debian-lts-announce:
  - posted [SECURITY] [DLA 4293-1] wireless-regdb new upstream version
- debian-rust:
  - posted and replied to Questions about Rust team for Kangrejos
- debian-www:
  - replied to Stale copy of Debian Kernel Handbook
- stable:
  - replied to [PATCH 5.10 26/52] e1000e: fix heap overflow in e1000_set_eeprom

01 October, 2025 03:24PM by Ben Hutchings

Birger Schacht

Status update, September 2025

Regarding Debian packaging this was a rather quiet month. I uploaded version 1.24.0-1 of foot and version 2.8.0-1 of git-quick-stats. I took the opportunity and started migrating my packages to the new version 5 watch file format, which I think is much more readable than the previous format.

I also uploaded version 0.1.1-1 of libscfg to NEW. libscfg is a C implementation of the scfg configuration file format and it is a dependency of recent version of kanshi. kanshi is a tool similar to autorandr which allows you define output profiles and kanshi switches to the correct output profile on hotplug events. Once libscfg is in unstable I can finally update kanshi to the latest version.

A lot of time this month in finalizing a redesign of the output rendering of carl. carl is a small rust program I wrote that provides a calendar view similar to cal, but it comes with colors and ical file integration. That means that you can not only display a simple calendar, but also colorize/highlight dates based on various attributes or based on events on that day. In the initial versions of carl the output rendering was simply hardcoded into the app.

Screenshot of carl

This was a bit cumbersome to maintain and not configurable for users. I am using templating languages on a daily basis, so I decided I would reimplement the output generation of carl to use templates. I chose the minijinja Rust library which is “based on the syntax and behavior of the Jinja2 template engine for Python”. There are others out there, like tera, but minijinja seems to be more active in development currently. I worked on this implementation on and off for the last year and finally had the time to finish it up and write some additional tests for the outputs. It is easier to maintain templates than Rust code that uses write!() to format the output. I also implemented a configuration option for users to override the templates.

Additional to the output refactoring I also fixed couple of bugs and finally released v0.4.0 of carl.

In my dayjob I released version 0.53 of apis-core-rdf which contains the place lookup field which I implemented in August. A couple of weeks later we released version 0.54 which comes with a middleware to show pass on messages from the Django messages framework via response header to HTMX to trigger message popups. This implementation is based on the blog post Using the Django messages framework with HTMX. Version 0.55 was the last release in September. It contained preparations for refactoring the import logic as well as a couple of UX improvements.

01 October, 2025 05:28AM

September 30, 2025

Junichi Uekawa

Start of fourth quarter of the year.

Start of fourth quarter of the year. The end of year is feeling close!

30 September, 2025 11:25PM by Junichi Uekawa

Jonathan McDowell

Local Voice Assistant Step 5: Remote Satellite

The last (software) piece of sorting out a local voice assistant is tying the openWakeWord piece to a local microphone + speaker, and thus back to Home Assistant. For that we use wyoming-satellite.

I’ve packaged that up - https://salsa.debian.org/noodles/wyoming-satellite - and then to run I do something like:

$ wyoming-satellite --name 'Living Room Satellite' \
    --uri 'tcp://[::]:10700' \
    --mic-command 'arecord -r 16000 -c 1 -f S16_LE -t raw -D plughw:CARD=CameraB409241,DEV=0' \
    --snd-command 'aplay -D plughw:CARD=UACDemoV10,DEV=0 -r 22050 -c 1 -f S16_LE -t raw' \
    --wake-uri tcp://[::1]:10400/ \
    --debug

That starts us listening for connections from Home Assistant on port 10700, uses the openWakeWord instance on localhost port 10400, uses aplay/arecord to talk to the local microphone and speaker, and gives us some debug output so we can see what’s going on.

And it turns out we need the debug. This setup is a bit too flaky for it to have ended up in regular use in our household. I’ve had some problems with reliable audio setup; you’ll note the Python is calling out to other tooling to grab audio, which feels a bit clunky to me and I don’t think is the actual problem, but the main audio for this host is hooked up to the TV (it’s a media box), so the setup for the voice assistant needs to be entirely separate. That means not plugging into Pipewire or similar, and instead giving direct access to wyoming-satellite. And sometimes having to deal with how to make the mixer happy + non-muted manually.

I’ve also had some issues with the USB microphone + speaker; I suspect a powered USB hub would help, and that’s on my list to try out.

When it does work I have sometimes found it necessary to speak more slowly, or enunciate my words more clearly. That’s probably something I could improve by switching from the base.en to small.en whisper.cpp model, but I’m waiting until I sort out the audio hardware issue before poking more.

Finally, the wake word detection is a little bit sensitive sometimes, as I mentioned in the previous post. To be honest I think it’s possible to deal with that, if I got the rest of the pieces working smoothly.

This has ended up sounding like a more negative post than I meant it to. Part of the issue in a resolution is finding enough free time to poke things (especially as it involves taking over the living room and saying “Hey Jarvis” a lot), part of it is no doubt my desire to actually hook up the pieces myself and understand what’s going on. Stay tuned and see if I ever manage to resolve it all!

30 September, 2025 06:23PM

Dirk Eddelbuettel

#051: A Neat Little Rcpp Trick

Welcome to post 51 in the R⁴ series.

A while back I realized I should really just post a little more as not all post have to be as deep and introspective as for example the recent-ish ‘two cultures’ post #49.

So this post is a neat little trick I (somewhat belatedly) realized somewhat recently. The context is the ongoing transition from (Rcpp)Armadillo 14.6.3 and earlier to (Rcpp)Armadillo 15.0.2 or later. (I need to write a bit more about that, but that may require a bit more time.) (And there are a total of seven (!!) issue tickets managing the transition with issue #475 being the main ‘parent’ issue, please see there for more details.)

In brief, the newer and current Armadillo no longer allows C++11 (which also means it no longer allowes suppression of deprecation warnings …). It so happens that around a decade ago packages were actively encouraged to move towards C++11 so many either set an explicit SystemRequirements: for it, or set CXX_STD=CXX11 in src/Makevars{.win}. CRAN has for some time now issued NOTEs asking for this to be removed, and more recently enforced this with actual deadlines. In RcppArmadillo I opted to accomodate old(er) packages (using this by-now anti-pattern) and flip to Armadillo 14.6.3 during a transition period. That is what the package does now: It gives you either Armadillo 14.6.3 in case C++11 was detected (or this legacy version was actively selected via a compile-time #define), or it uses Armadillo 15.0.2 or later.

So this means we can have either one of two versions, and may want to know which one we have. Armadillo carries its own version macros, as many libraries or projects do (R of course included). Many many years ago (git blame points to sixteen and twelve for a revision) we added the following helper function to the package (full source here, we show it here without the full roxygen2 comment header)

// [[Rcpp::export]]
Rcpp::IntegerVector armadillo_version(bool single) {

    // These are declared as constexpr in Armadillo which actually does not define them
    // They are also defined as macros in arma_version.hpp so we just use that
    const unsigned int major = ARMA_VERSION_MAJOR;
    const unsigned int minor = ARMA_VERSION_MINOR;
    const unsigned int patch = ARMA_VERSION_PATCH;

    if (single) {
        return Rcpp::wrap(10000 * major + 100 * minor + patch) ;
    } else {
        return Rcpp::IntegerVector::create(Rcpp::Named("major") = major,
                                           Rcpp::Named("minor") = minor,
                                           Rcpp::Named("patch") = patch);
    }
}

It either returns a (named) vector of the standard ‘major’, ‘minor’, ‘patch’ form of the common package versioning pattern, or a single integer which can used more easily in C(++) via preprocessor macros. And this being an Rcpp-using package, we can of course access either easily from R:

> library(RcppArmadillo)
> armadillo_version(FALSE)
major minor patch 
   15     0     2 
> armadillo_version(TRUE)
[1] 150002
>

Perfectly valid and truthful. But … cumbersome at the R level. So when preparing for these (Rcpp)Armadillo changes in one of my package, I realized I could alter such a function and set the S3 type to package_version. (Full version of one such variant here)

// [[Rcpp::export]]
Rcpp::List armadilloVersion() {
    // create a vector of major, minor, patch
    auto ver = Rcpp::IntegerVector::create(ARMA_VERSION_MAJOR, ARMA_VERSION_MINOR, ARMA_VERSION_PATCH);
    // and place it in a list (as e.g. packageVersion() in R returns)
    auto lst = Rcpp::List::create(ver);
    // and class it as 'package_version' accessing print() etc methods
    lst.attr("class") = Rcpp::CharacterVector::create("package_version", "numeric_version");
    return lst;
}

Three statements each to

create the integeer vector of known dimensions and compile-time known value
embed it in a list (as that is what the R type expects)
set the S3 class which is easy because Rcpp accesses attributes and create character vectors

and return the value. And now in R we can operate more easily on this (using three dots as I didn’t export it from this package):

> RcppDE:::armadilloVersion()
[1] ‘15.0.2’
> RcppDE:::armadilloVersion() >= "15.0.0"
[1] TRUE
>

An object of class package_version inheriting from numeric_version can directly compare against a (human- but not normally machine-readable) string like “15.0.0” because the simple S3 class defines appropriate operators, as well as print() / format() methods as the first expression shows. It is these little things that make working with R so smooth, and we can easily (three statements !!) do so from Rcpp-based packages too.

The underlying object really is merely a list containing a vector:

> unclass(RcppDE:::armadilloVersion())
[[1]]
[1] 15  0  2

>

but the S3 “glue” around it makes it behave nicely.

So next time you are working with an object you plan to return to R, consider classing it to take advantage of existing infrastructure (if it exists, of course). It’s easy enough to do, and may smoothen the experience at the R side.

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 now sponsor me at GitHub.

30 September, 2025 03:14PM

Antoine Beaupré

Proper services

During 2025-03-21-another-home-outage, I reflected upon what's a properly ran service and blurted out what turned out to be something important I want to outline more. So here it is, again, on its own for my own future reference.

Typically, I tend to think of a properly functioning service as having four things:

backups
documentation
monitoring
automation
high availability (HA)

Yes, I miscounted. This is why you need high availability.

A service doesn't properly exist if it doesn't at least have the first 3 of those. It will be harder to maintain without automation, and inevitably suffer prolonged outages without HA.

The five components of a proper service

Backups

Duh. If data is maliciously or accidentally destroyed, you need a copy somewhere. Preferably in a way that malicious Joe can't get to.

This is harder than you think.

Documentation

I have an entire template for this. Essentially, it boils down to using https://diataxis.fr/ and this "audit" guide. For me, the most important parts are:

disaster recovery (includes backups, probably)
playbook
install/upgrade procedures (see automation)

You probably know this is hard, and this is why you're not doing it. Do it anyways, you'll think it sucks, it will grow out of sync with reality, but you'll be really grateful for whatever scraps you wrote when you're in trouble.

Any docs, in other words, is better than no docs, but are no excuse for doing the work correctly.

Monitoring

If you don't have monitoring, you'll know it fails too late, and you won't know it recovers. Consider high availability, work hard to reduce noise, and don't have machine wake people up, that's literally torture and is against the Geneva convention.

Consider predictive algorithm to prevent failures, like "add storage within 2 weeks before this disk fills up".

This is also harder than you think.

Automation

Make it easy to redeploy the service elsewhere.

Yes, I know you have backups. That is not enough: that typically restores data and while it can also include configuration, you're going to need to change things when you restore, which is what automation (or call it "configuration management" if you will) will do for you anyways.

This also means you can do unit tests on your configuration, otherwise you're building legacy.

This is probably as hard as you think.

High availability

Make it not fail when one part goes down.

Eliminate single points of failures.

This is easier than you think, except for storage and DNS ("naming things" not "HA DNS", that is easy), which, I guess, means it's harder than you think too.

Assessment

In the above 5 items, I currently check two in my lab:

backups
documentation

And barely: I'm not happy about the offsite backups, and my documentation is much better at work than at home (and even there, I have a 15 year backlog to catchup on).

I barely have monitoring: Prometheus is scraping parts of the infra, but I don't have any sort of alerting -- by which I don't mean "electrocute myself when something goes wrong", I mean "there's a set of thresholds and conditions that define an outage and I can look at it".

Automation is wildly incomplete. My home server is a random collection of old experiments and technologies, ranging from Apache with Perl and CGI scripts to Docker containers running Golang applications. Most of it is not Puppetized (but the ratio is growing). Puppet itself introduces a huge attack vector with kind of catastrophic lateral movement if the Puppet server gets compromised.

And, fundamentally, I am not sure I can provide high availability in the lab. I'm just this one guy running my home network, and I'm growing older. I'm thinking more about winding things down than building things now, and that's just really sad, because I feel we're losing (well that escalated quickly).

Side note about Tor

The above applies to my personal home lab, not work!

At work, of course, it's another (much better) story:

all services have backups
lots of services are well documented, but not all
most services have at least basic monitoring
most services are Puppetized, but not crucial parts (DNS, LDAP, Puppet itself), and there are important chunks of legacy coupling between various services that make the whole system brittle
most websites, DNS and large parts of email are highly available, but key services like the the Forum, GitLab and similar applications are not HA, although most services run under replicated VMs that can trivially survive a total, single-node hardware failure (through Ganeti and DRBD)

30 September, 2025 02:59PM

Russell Coker

Links September 2025

Werdahias wrote an informative blog post about Dark Mode for QT programs on non-QT environments (mostly GNOME based), we need more blog posts about this sort of thing [1].

Astral Codex Ten has an interesting blog post about the rise of Christianity, trying to work out why it took over so quickly [2].

Frances Haugen’s whistleblower statement about Facebook is worth reading, Facebook seems to be one of the most evil companies in the world [3].

Interesting blog post by Philip Bennett about trying to repair a 28 player Galaxian game from 1990 [4].

Bruce Schneier and Nathan E. Sanders wrote an insightful article about AI in Government [5].

Krebs has an interesting analysis of Conservatives whinging about alleged discrimination due to their use of spam lists [6].

Nick Cheesman wrote an insightful article on the failures of Meritocracy with ANU as a case study [7]. I am mystified as to why ABC categorised it under Religion.

David Brin wrote an interesting short SciFi story about dealing with blackmail [8].

Charles Stross has an interesting take on AI economics etc [9].

Corey Doctorow wrote an interesting blog post about the impending economic crash becuase of all the money tied up in AI investments [10].

[1] https://tinyurl.com/2dztdg77
[2] https://tinyurl.com/2b2yvgfx
[3] https://tinyurl.com/yeppy78q
[4] https://philwip.com/2025/04/14/galaxian-3-project-revival/
[5] https://tinyurl.com/25ylubnc
[6] https://tinyurl.com/27jnzjkt
[7] https://tinyurl.com/29fl4q39
[8] https://tinyurl.com/2ye367yn
[9] https://tinyurl.com/24bx8nds
[10] https://pluralistic.net/2025/09/27/econopocalypse/

30 September, 2025 01:26PM by etbe

Russ Allbery

Review: Deep Black

Review: Deep Black, by Miles Cameron

Series:	Arcana Imperii #2
Publisher:	Gollancz
Copyright:	2024
ISBN:	1-3996-1506-8
Format:	Kindle
Pages:	509

Deep Black is a far-future science fiction novel and the direct sequel to Artifact Space. You do not want to start here. I regretted not reading the novels closer together and had to refresh my memory of what happened in the first book.

The shorter fiction in Beyond the Fringe takes place between the two series novels and leads into some of the events in this book, although reading it is optional.

Artifact Space left Marca Nbaro at the farthest point of the voyage of the Greatship Athens, an unexpected heroine and now well-integrated into the crew. On a merchant ship, however, there's always more work to be done after a heroic performance. Deep Black opens with that work: repairs from the events of the first book, the never-ending litany of tasks required to keep the ship running smoothly, and of course the trade with aliens that drew them so far out into the Deep Black.

We knew early in the first book that this wouldn't be the simple, if long, trading voyage that most of the crew of the Athens was expecting, but now they have to worry about an unsettling second group of aliens on top of a potential major war between human factions. They don't yet have the cargo they came for, they have to reconstruct their trading post, and they're a very long way from home. Marca also knows, at this point in the story, that this voyage had additional goals from the start. She will slowly gain a more complete picture of those goals during this novel.

Artifact Space was built around one of the most satisfying plots in military science fiction (at least to me): a protagonist who benefits immensely from the leveling effect and institutional inclusiveness of the military slowly discovering that, when working at its best, the military can be a true meritocracy. (The merchant marine of the Athens is not military, precisely, since it's modeled on the trading ships of Venice, but it's close enough for the purposes of this plot.) That's not a plot that lasts into a sequel, though, so Cameron had to find a new spine for the second half of the story. He chose first contact (of a sort) and space battle.

The space battle parts are fine. I read a ton of children's World War II military fiction when I was a boy, and I always preferred the naval battles to the land battles. This part of Deep Black reminded me of those naval battles, particularly a book whose title escapes me about the Arctic convoys to the Soviet Union. I'm more interested in character than military adventure these days, but every once in a while I enjoy reading about a good space battle. This was not an exemplary specimen of the genre, but it delivered on all the required elements.

The first contact part was more original, in part because Cameron chose an interesting medium ground between total incomprehensibility and universal translators. He stuck with the frustrations of communication for considerably longer than most SF authors are willing to write, and it worked for me. This is the first book I've read in a while where superficial alien fluency with the mere words of a human language masks continuing profound mutual incomprehension. The communication difficulties are neither malicious nor a setup for catastrophic misunderstanding, but an intrinsic part of learning about a truly alien species. I liked this, even though it makes for slower and more frustrating progress. It felt more believable than a lot of first contact, and it forced the characters to take risks and act on hunches and then live with the consequences.

One of the other things that Cameron does well is maintain the steady rhythm of life on a working ship as a background anchor to the story. I've read a lot of science fiction that shows the day-to-day routine only until something more interesting and plot-focused starts happening and then seems to forget about it entirely. Not here. Marca goes through intense and adrenaline-filled moments requiring risk and fast reactions, and then has to handle promotion write-ups, routine watches, and studying for advancement. Cameron knows that real battles involve long periods of stressful waiting and incorporates them into the book without making them too boring, which requires a lot of writing skill.

I prefer the emotional magic of finding a place where one belongs, so I was not as taken with Deep Black as I was with Artifact Space, but that's the inevitable result of plot progression and not really a problem with this book. Marca is absurdly central to the story in ways that have a whiff of "chosen one" dynamics, but if one can suspend one's disbelief about that, the rest of the book is solid. This is, fundamentally, a book about large space battles, so save it when you're in the mood for that sort of story, but it was a satisfying continuation of the series. I will definitely keep reading.

Recommended if you enjoyed Artifact Space. If you didn't, Deep Black isn't going to change your mind.

Followed by Whalesong, which is not yet released (and is currently in some sort of limbo for pre-orders in the US, which I hope will clear up).

Rating: 7 out of 10

30 September, 2025 04:12AM

September 29, 2025

Thomas Lange

Updates on FAIme service: Linux Mint 22.2 and trixie backports available

The FAIme service [1] now offers to build customized installation images for Xfce edition of Linux Mint 22.2 'Zara'.

For Debian 13 installations, you can select the kernel from backports for the trixie release, which is currently version 6.16. This will support newer hardware.

[1]: https://fai-project.org/FAIme

29 September, 2025 10:04AM

Russ Allbery

Review: The Incandescent

Review: The Incandescent, by Emily Tesh

Publisher:	Tor
Copyright:	2025
ISBN:	1-250-83502-X
Format:	Kindle
Pages:	417

The Incandescent is a stand-alone magical boarding school fantasy.

Your students forgot you. It was natural for them to forget you. You were a brief cameo in their lives, a walk-on character from the prologue. For every sentimental my teacher changed my life story you heard, there were dozens of my teacher made me moderately bored a few times a week and then I got through the year and moved on with my life and never thought about them again.

They forgot you. But you did not forget them.

Doctor Saffy Walden is Director of Magic at Chetwood, an elite boarding school for prospective British magicians. She has a collection of impressive degrees in academic magic, a specialization in demonic invocation, and a history of vague but lucrative government job offers that go with that specialty. She turned them down to be a teacher, and although she's now in a mostly administrative position, she's a good teacher, with the usual crop of promising, lazy, irritating, and nervous students.

As the story opens, Walden's primary problem is Nikki Conway. Or, rather, Walden's primary problem is protecting Nikki Conway from the Marshals, and the infuriating Laura Kenning in particular.

When Nikki was seven, she summoned a demon who killed her entire family and left her a ward of the school. To Laura Kenning, that makes her a risk who should ideally be kept far away from invocation. To Walden, that makes Nikki a prodigious natural talent who is developing into a brilliant student and who needs careful, professional training before she's tempted into trying to learn on her own.

Most novels with this setup would become Nikki's story. This one does not. The Incandescent is Walden's story.

There have been a lot of young-adult magical boarding school novels since Harry Potter became a mass phenomenon, but most of them focus on the students and the inevitable coming-of-age story. This is a story about the teachers: the paperwork, the faculty meetings, the funding challenges, the students who repeat in endless variations, and the frustrations and joys of attempting to grab the interest of a young mind. It's also about the temptation of higher-paying, higher-status, and less ethical work, which however firmly dismissed still nibbles around the edges.

Even if you didn't know Emily Tesh is herself a teacher, you would guess that before you get far into this novel. There is a vividness and a depth of characterization that comes from being deeply immersed in the nuance and tedium of the life that your characters are living. Walden's exasperated fondness for her students was the emotional backbone of this book for me. She likes teenagers without idealizing the process of being a teenager, which I think is harder to pull off in a novel than it sounds.

It was hard to quantify the difference between a merely very intelligent student and a brilliant one. It didn't show up in a list of exam results. Sometimes, in fact, brilliance could be a disadvantage — when all you needed to do was neatly jump the hoop of an examiner's grading rubric without ever asking why. It was the teachers who knew, the teachers who could feel the difference. A few times in your career, you would have the privilege of teaching someone truly remarkable; someone who was hard work to teach because they made you work harder, who asked you questions that had never occurred to you before, who stretched you to the very edge of your own abilities. If you were lucky — as Walden, this time, had been lucky — your remarkable student's chief interest was in your discipline: and then you could have the extraordinary, humbling experience of teaching a child whom you knew would one day totally surpass you.

I also loved the world-building, and I say this as someone who is generally not a fan of demons. The demons themselves are a bit of a disappointment and mostly hew to one of the stock demon conventions, but the rest of the magic system is deep enough to have practitioners who approach it from different angles and meaty enough to have some satisfying layered complexity. This is magic, not magical science, so don't expect a fully fleshed-out set of laws, but the magical system felt substantial and satisfying to me.

Tesh's first novel, Some Desperate Glory, was by far my favorite science fiction novel of 2023. This is a much different book, which says good things about Tesh's range and the potential of her work yet to come: adult rather than YA, fantasy rather than science fiction, restrained and subtle in places where Some Desperate Glory was forceful and pointed. One thing the books do have in common, though, is some structure, particularly the false climax near the midpoint of the book. I like the feeling of uncertainty and possibility that gives both books, but in the case of The Incandescent, I was not quite in the mood for the second half of the story.

My problem with this book is more of a reader preference than an objective critique: I was in the mood for a story about a confident, capable protagonist who was being underestimated, and Tesh was writing a novel with a more complicated and fraught emotional arc. (I'm being intentionally vague to avoid spoilers.) There's nothing wrong with the story that Tesh wanted to tell, and I admire the skill with which she did it, but I got a tight feeling in my stomach when I realized where she was going. There is a satisfying ending, and I'm still very happy I read this book, but be warned that this might not be the novel to read if you're in the mood for a purer competence porn experience.

Recommended, and I am once again eagerly awaiting the next thing Emily Tesh writes (and reminding myself to go back and read her novellas).

Content warnings: Grievous physical harm, mind control, and some body horror.

Rating: 8 out of 10

29 September, 2025 04:45AM

September 28, 2025

Review: Echoes of the Imperium

Review: Echoes of the Imperium, by Nicholas & Olivia Atwater

Series:	Tales of the Iron Rose #1
Publisher:	Starwatch Press
Copyright:	2024
ISBN:	1-998257-04-5
Format:	Kindle
Pages:	547

Echoes of the Imperium is a steampunk fantasy adventure novel, the first of a projected series. There is another novella in the series, A Matter of Execution, that takes place chronologically before this novel, but which I am told that you should read afterwards. (I have not yet read it.) If Olivia Atwater's name sounds familiar, it's probably for the romantic fantasy Half a Soul. Nicholas Atwater is her husband.

William Blair, a goblin, was a child sailor on the airship HMS Caliban during the final battle that ended the Imperium, and an eyewitness to the destruction of the capital. Like every imperial solider, that loss made him an Oathbreaker; the fae Oath that he swore to defend the Imperium did not care that nothing a twelve-year-old boy could have done would have changed the result of the battle. He failed to kill himself with most of the rest of the crew, and thus was taken captive by the Coalition.

Twenty years later, William Blair is the goblin captain of the airship Iron Rose. It's an independent transport ship that takes various somewhat-dodgy contracts and has to avoid or fight through pirates. The crew comes from both sides of the war and has built their own working truce. Blair himself is a somewhat manic but earnest captain who doesn't entirely believe he deserves that role, one who tends more towards wildly risky plans and improvisation than considered and sober decisions. The rest of the crew are the sort of wild mix of larger-than-life personality quirks that populate swashbuckling adventure books but leave me dubious that stuffing that many high-maintenance people into one ship would go as well as it does.

I did appreciate the gunnery knitting circle, though.

Echoes of the Imperium is told in the first person from Blair's perspective in two timelines. One follows Blair in the immediate aftermath of the war, tracing his path to becoming an airship captain and meeting some of the people who will later be part of his crew. The other is the current timeline, in which Blair gets deeper and deeper into danger by accepting a risky contract with unexpected complications.

Neither of these timelines are in any great hurry to arrive at some destination, and that's the largest problem with this book. Echoes of the Imperium is long, sprawling, and unwilling to get anywhere near any sort of a point until the reader is deeply familiar with the horrific aftermath of the war, the mountains guilt and trauma many of the characters carry around, and Blair's impostor syndrome and feelings of inadequacy. For the first half of this book, I was so bored. I almost bailed out; only a few flashes of interesting character interactions and hints of world-building helped me drag myself through all of the tedious setup.

What saves this book is that the world-building is a delight. Once the characters finally started engaging with it in earnest, I could not put it down. Present-time Blair is no longer an Oathbreaker because he was forgiven by a fairy; this will become important later. The sites of great battles are haunted by ghostly echoes of the last moments of the lives of those who died (hence the title); this will become very important later. Blair has a policy of asking no questions about people's pasts if they're willing to commit to working with the rest of the crew; this, also, will become important later. All of these tidbits the authors drop into the story and then ignore for hundreds of pages do have a payoff if you're willing to wait for it.

As the reader (too) slowly discovers, the Atwaters' world is set in a war of containment by light fae against dark fae. Instead of being inscrutable and separate, the fae use humans and human empires as tools in that war. The fallen Imperium was a bastion of fae defense, and the war that led to the fall of that Imperium was triggered by the price its citizens paid for that defense, one that the fae could not possibly care less about. The creatures may be out of epic fantasy and the technology from the imagined future of Victorian steampunk, but the politics are that of the Cold War and containment strategies. This book has a lot to say about colonialism and empire, but it says those things subtly and from a fantasy slant, in a world with magical Oaths and direct contact with powers that are both far beyond the capabilities of the main characters and woefully deficient in in humanity and empathy. It has a bit of the feel of Greek mythology if the gods believed in an icy realpolitik rather than embodying the excesses of human emotion.

The second half of this book was fantastic. The found-family vibe among a crew of high-maintenance misfits that completely failed to cohere for me in the first half of the book, while Blair was wallowing in his feelings and none of the events seemed to matter, came together brilliantly as soon as the crew had a real problem and some meaty world-building and plot to sink their teeth into. There is a delightfully competent teenager, some satisfying competence porn that Blair finally stops undermining, and a sharp political conflict that felt emotionally satisfying, if perhaps not that intellectually profound. In short, it turns into the fun, adventurous romp of larger-than-life characters that the setting promises. Even the somewhat predictable mid-book reveal worked for me, in part because the emotions of the characters around that reveal sold its impact.

If you're going to write a book with a bad half and a good half, it's always better to put the good half second. I came away with very positive feelings about Echoes of the Imperium and a tentative willingness to watch for the sequel. (It reaches a fairly satisfying conclusion, but there are a lot of unresolved plot hooks.) I'm a bit hesitant to recommend it, though, because the first half was not very fun. I want to say that about 75% of the first half of the book could have been cut and the book would have been stronger for it. I'm not completely sure I'm right, since the Atwaters were laying the groundwork for a lot of payoff, but I wish that groundwork hadn't been as much of a slog.

Tentatively recommended, particularly if you're in the mood for steampunk fae mythology, but know that this book requires some investment.

Technically, A Matter of Execution comes first, but I plan to read it as a sequel.

Rating: 8 out of 10

28 September, 2025 04:32AM

September 27, 2025

Bits from Debian

New Debian Developers and Maintainers (July and August 2025)

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

Francesco Ballarin (ballarin)
Roland Clobus (rclobus)
Antoine Le Gonidec (vv221)
Guilherme Puida Moreira (puida)
NoisyCoil (noisycoil)
Akash Santhosh (akash)
Lena Voytek (lena)

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

Andrew James Bower
Kirill Rekhov
Alexandre Viard
Manuel Traut
Harald Dunkel

Congratulations!

27 September, 2025 04:00PM by Jean-Pierre Giraud

Julian Andres Klode

Dependency Tries

As I was shopping groceries I had a shocking realization: The active dependencies of packages in a solver actually form a trie (a dependency A|B - “A or B” - of a package X is considered active if we marked X for install).

Consider the dependencies A|B|C, A|B, B|X. In most package managers these just express alternatives, that is, the “or” relationship, but in Debian packages, it also expresses a preference relationship between its operands, so in A|B|C, A is preferred over B and B over C (and A transitively over C).

This means that we can convert the three dependencies into a trie as follows:

Dependency trie of the three dependencies

Solving the dependency here becomes a matter of trying to install the package referenced by the first edge of the root, and seeing if that sticks. In this case, that would be ‘a’. Let’s assume that ‘a’ failed to install, the next step is to remove the empty node of a, and merging its children into the root.

Reduced dependency trie with “not A” containing b, b|c, b|x

For ease of visualisation, we remove “a” from the dependency nodes as well, leading us to a trie of the dependencies “b”, “b|c”, and “b|x”.

Presenting the Debian dependency problem, or the positive part of it as a trie allows us for a great visualization of the problem but it may not proof to be an effective implementation choice.

In the real world we may actually store this as a priority queue that we can delete from. Since we don’t actually want to delete from the queue for real, our queue items are pairs of a pointer to dependency and an activitity level, say A|B@1. Whenever a variable is assigned false, we look at its reverse dependencies and bump their activity, and reinsert them (the priority of the item being determined by the leftmost solution still possible, it has now changed). When we iterate the queue, we remove items with a lower activity level:

Our queue is A|B@1, A|B|C@1, B|X@1
Rejecting A bump the activity for its reverse dependencies and reinset them: Our queue is A|B@1, A|B|C@1, (A|)B@2, (A|)B|C@2, B|X@1
We visit A|B@1 but see the activity of the underlying dependency is now 2 and remove it Our queue is A|B|C@1, (A|)B@2, (A|)B|C@2, B|X@1
We visit A|B|C@1 but see the activity of the underlying dependency is now 2 and remove it Our queue is (A|)B@2, (A|)B|C@2, B|X@1
We visit A|B@2, see the activity matches and find B is the solution.

27 September, 2025 02:32PM

September 25, 2025

Dirk Eddelbuettel

tint 0.1.6 on CRAN: Maintenance

A new version 0.1.6 of the tint package arrived at CRAN today. tint provides a style ‘not unlike Tufte’ for use in html and pdf documents created from markdown. The github repo shows several examples in its README, more as usual in the package documentation.

This release addresses a small issue where in pdf mode, pandoc (3.2.1 or newer) needs a particular macros defined when static (premade) images or figure files are included. No other changes.

Changes in tint version 0.1.6 (2025-09-25)

An additional LaTeX command needed by pandoc (>= 3.2.1) has been defined for the two pdf variants.

Courtesy of my CRANberries, there is a diffstat report relative to previous release. More information is on the tint page. For questions or comments use the issue tracker off 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.

25 September, 2025 10:37PM

Steinar H. Gunderson

Negative result: Branch-free sparse bitset iteration

Sometimes, it's nice to write up something that was a solution to an interesting problem but that didn't work; perhaps someone else can figure out a crucial missing piece, or perhaps their needs are subtly different. Or perhaps they'll just find it interesting. This is such a post.

The problem in question is that I have a medium-sized sparse bitset (say, 1024 bits) and some of those bits (say, 20–50, but may be more and may be less) are set. I want to iterate over those bits, spending as little time as possible on the rest.

The standard formulation (as far as I know, anyway?), given modern CPUs, is to treat them as a series of 64-bit unsigned integers, and then use a double for loop like this (C++20, but should be easily adaptable to any low-level enough language):

// Assume we have: uint64_t arr[1024 / 64];

for (unsigned block = 0; block < 1024 / 64; ++block) {
   for (unsigned bits = arr[block]; bits != 0; bits &= bits - 1) {
       unsigned idx = 64 * block + std::countr_zero(bits);
       // do something with idx here
   }
}

The building blocks are simple enough if you're familiar with bit manipulation; std::countr_zero() invokes a bit-scan instruction, and

bits &= bits - 1

clears the lowest set bit.

This is roughly proportional to the number of set bits in the bit set, except that if you have lots of zeros, you'll spend time skipping over empty blocks. That's fine. What's not fine is that this is a disaster for the branch predictor, and my code was (is!) spending something like 20% of its time in the CPU handling mispredicted branches. The structure of the two loops is just so irregular; what we'd like is a branch-free way of iterating.

Now, we can of course never be fully branch-free; in particular, we need to end the loop at some point, and that branch needs to be predicted. So call it branch…less? Less branchy. Perhaps.

(As an aside; of course you could just test the bits one by one, but that means you always get work proportional to the number of total bits, and you still get really difficult branch prediction, so I'm not going to discuss that option.)

Now, here are a bunch of things I tried to make this work that didn't.

First, there's a way to splat the bit set into uint8_t indexes using AVX512 (after which you can iterate over them using a normal for loop); it's based on setting up a full adder-like structure and then using compressed writes. I tried it, and it was just way too slow. Geoff Langdale has the code (in a bunch of different formulations) if you'd like to look at it yourself.

So, the next natural attempt is to try to make larger blocks. If we had an uint128_t and could use that just like we did with uint64_t, we'd make life easier for the branch predictor since there would be, simply put, fewer times the inner loop would end. You can do it branch-free by means of conditional moves and such (e.g., do two bit scans, switch between them based on whether the lowest word is zero or not—similar for the other operations), and there is some support from the compiler (__uint128_t on GCC-like platforms), but in the end, going to 128 was just not enough to end up net positive.

Going to 256 or 512 wasn't easily workable; you don't have bit-scan instructions over the entire word, nor really anything like whole word subtraction. And moving data between the SIMD and integer pipes typically has a cost in itself.

So I started thinking; isn't this much of what a decompressor does? We don't really care about the higher bits of the word; as long as we can get the position of the lowest one, we don't care whether we have few or many left. So perhaps we can look at the input more like a bit stream (or byte stream) than a series of blocks; have a loop where we find the lowest bit, shift everything we just skipped or processed out, and then refill bits from the top. As always, Fabian Giesen has a thorough treatise on the subject. I wasn't concerned with squeezing every last drop out, and my data order was largely fixed anyway, so I only tried two different ways, really:

The first option is what a typical decompressor would do, except byte-based; once I've got a sufficient number of zero bits at the bottom, shift them out and reload bytes at the top. This can be done largely branch-free, so in a sense, you only have a single loop, you just keep reloading and reloading until the end. (There are at least two ways to do this reloading; you can reload only at the top, or you can reload the entire 64-bit word and mask out the bits you just read. They seemed fairly equivalent in my case.) There is a problem with the ending, though; you can read past the end. This may or may not be a problem; it was for me, but it wasn't the biggest problem (see below), so I let it be.

The other variant is somewhat more radical; I always read exactly the next 64 bits (after the previously found bit). This is done by going back to the block idea; a 64-bit word will overlap exactly one or two blocks, so we read 128 bits (two consecutive blocks) and shift the right number of bits to the right. x86 has 128-bit shifts (although they're not that fast), so this makes it fairly natural, and you can use conditional moves to make sure the second read never goes past the end of the buffer, so this feels overall like a slightly saner option.

However: None of them were faster than the normal double-loop. And I think (but never found the energy to try to positively prove) that comes down to an edge case: If there's not a single bit set in the 64-bit window, we need to handle that specially. So there we get back a fairly unpredictable branch after all—or at least, in my data set, this seems to happen fairly often. If you've got a fairly dense bit set, this won't be an issue, but then you probably have more friendly branch behavior in the loop, too. (For the reference, I have something like 3% branch misprediction overall, which is really bad when most of the stuff that I do involves ANDing bit vectors with each other!)

So, that's where I ended up. It's back to the double-loop. But perhaps someone will be able to find a magic trick that I missed. Email is welcome if you ever got this to work. :-)

25 September, 2025 09:52PM

kpcyrd

Release: rebuilderd v0.25.0

rebuilderd v0.25.0 was recently released, this version has improved in-toto support for cryptographic attestations that this blog post briefly outlines. 😺

As a quick recap, rebuilderd is an automatic build scheduler that emerged in 2019/2020 from the Reproducible Builds project doing the following:

Track binary packages available in a Linux distribution
Attempt to compile the official binary packages from their (alleged) source code
Check if the package we compiled is bit-for-bit identical
1. If so, mark it GOOD, issue an attestation
2. In every other case, mark it BAD, generate a diffoscope

The binary packages in question are explicitly the packages users would also fetch and install.

This project has caught the attention of Arch Linux, Debian and Fedora.

Before this version

The original in-toto integration was added 4 years ago by Joy Liu during GSoC 2021, with help from Santiago Torres and Aditya Sirish (shoutout to the real ones!). Each rebuilderd-worker had its own cryptographic key and included a signed attestation along with the build result that could then be fetched from /api/v0/builds/{id}/attestation.

Since these workers are potentially ephemeral, and the list of worker public keys wasn’t publicly known, it was difficult to make use of those signatures.

Since this version

This version introduces the following:

The rebuilderd daemon itself generates a long-term signing key
All attestations signed by a trusted worker also get signed by the rebuilderd daemon
The rebuilderd daemon gets a new endpoint that can be used to query the public-key this instance identifies with: /api/v0/public-keys

An example of this new endpoint can be found here:

https://reproducible.archlinux.org/api/v0/public-keys

The response looks something like this (this is the real long-term signing key used by reproducible.archlinux.org):

{
    "current": [
        "-----BEGIN PUBLIC KEY-----\r\nMCwwBwYDK2VwBQADIQBLNcEcgErQ1rZz9oIkUnzc3fPuqJEALr22rNbrBK7iqQ==\r\n-----END PUBLIC KEY-----\r\n"
    ]
}

It’s a list so keys can potentially be rolled over time, and in future versions it should also list the public keys the instance has used in the past.

I haven’t develop any integrations for this yet (partially also to allow deployments to catch up with the new release), but I’m planning to do so using the in-toto crate.

Closing words

To give credit where credit is due (and because people pointed out I tend to end my blog posts too abruptly), rebuilderd is only the scheduler software, the actual build in the correct build-environment is outsourced to external tooling like archlinux-repro and debrebuild.

For further reading on applied reproducible builds, see also my previous blogpost Disagreeing rebuilders and what that means.

Also, there are currently efforts by the European Commission to outlaw unregulated end-to-end encrypted chat, so this may be a good time to prepare for (potential) impact and check what tools you have available to reduce unchecked trust in (open source) software authorities, to keep them operating honest and accountable.

Never lose the plot~

Sincerely yours

25 September, 2025 12:00AM

September 24, 2025

Matthew Garrett

Investigating a forged PDF

I had to rent a house for a couple of months recently, which is long enough in California that it pushes you into proper tenant protection law. As landlords tend to do, they failed to return my security deposit within the 21 days required by law, having already failed to provide the required notification that I was entitled to an inspection before moving out. Cue some tedious argumentation with the letting agency, and eventually me threatening to take them to small claims court.

This post is not about that.

Now, under Californian law, the onus is on the landlord to hold and return the security deposit - the agency has no role in this. The only reason I was talking to them is that my lease didn't mention the name or address of the landlord (another legal violation, but the outcome is just that you get to serve the landlord via the agency). So it was a bit surprising when I received an email from the owner of the agency informing me that they did not hold the deposit and so were not liable - I already knew this.

The odd bit about this, though, is that they sent me another copy of the contract, asserting that it made it clear that the landlord held the deposit. I read it, and instead found a clause reading SECURITY: The security deposit will secure the performance of Tenant’s obligations. IER may, but will not be obligated to, apply all portions of said deposit on account of Tenant’s obligations. Any balance remaining upon termination will be returned to Tenant. Tenant will not have the right to apply the security deposit in payment of the last month’s rent. Security deposit held at IER Trust Account., where IER is International Executive Rentals, the agency in question. Why send me a contract that says you hold the money while you're telling me you don't? And then I read further down and found this:

Text reading ENTIRE AGREEMENT: The foregoing constitutes the entire agreement between the parties and may bemodified only in writing signed by all parties. This agreement and any modifications, including anyphotocopy or facsimile, may be signed in one or more counterparts, each of which will be deemed anoriginal and all of which taken together will constitute one and the same instrument. The followingexhibits, if checked, have been made a part of this Agreement before the parties’ execution:۞Exhibit 1:Lead-Based Paint Disclosure (Required by Law for Rental Property Built Prior to 1978)۞Addendum 1 The security deposit will be held by (name removed) and applied, refunded, or forfeited in accordance with the terms of this lease agreement.

Ok, fair enough, there's an addendum that says the landlord has it (I've removed the landlord's name, it's present in the original).

Except. I had no recollection of that addendum. I went back to the copy of the contract I had and discovered:
The same text as the previous picture, but addendum 1 is empty

The same text as the previous picture, but addendum 1 is empty

Huh! But obviously I could just have edited that to remove it (there's no obvious reason for me to, but whatever), and then it'd be my word against theirs. However, I'd been sent the document via RightSignature, an online document signing platform, and they'd added a certification page that looked like this:
A Signature Certificate, containing a bunch of data about the document including a checksum or the original

A Signature Certificate, containing a bunch of data about the document including a checksum or the original

Interestingly, the certificate page was identical in both documents, including the checksums, despite the content being different. So, how do I show which one is legitimate? You'd think given this certificate page this would be trivial, but RightSignature provides no documented mechanism whatsoever for anyone to verify any of the fields in the certificate, which is annoying but let's see what we can do anyway.

First up, let's look at the PDF metadata. pdftk has a dump_data command that dumps the metadata in the document, including the creation date and the modification date. My file had both set to identical timestamps in June, both listed in UTC, corresponding to the time I'd signed the document. The file containing the addendum? The same creation time, but a modification time of this Monday, shortly before it was sent to me. This time, the modification timestamp was in Pacific Daylight Time, the timezone currently observed in California. In addition, the data included two ID fields, ID0 and ID1. In my document both were identical, in the one with the addendum ID0 matched mine but ID1 was different.

These ID tags are intended to be some form of representation (such as a hash) of the document. ID0 is set when the document is created and should not be modified afterwards - ID1 initially identical to ID0, but changes when the document is modified. This is intended to allow tooling to identify whether two documents are modified versions of the same document. The identical ID0 indicated that the document with the addendum was originally identical to mine, and the different ID1 that it had been modified.

Well, ok, that seems like a pretty strong demonstration. I had the "I have a very particular set of skills" conversation with the agency and pointed these facts out, that they were an extremely strong indication that my copy was authentic and their one wasn't, and they responded that the document was "re-sealed" every time it was downloaded from RightSignature and that would explain the modifications. This doesn't seem plausible, but it's an argument. Let's go further.

My next move was pdfalyzer, which allows you to pull a PDF apart into its component pieces. This revealed that the documents were identical, other than page 3, the one with the addendum. This page included tags entitled "touchUp_TextEdit", evidence that the page had been modified using Acrobat. But in itself, that doesn't prove anything - obviously it had been edited at some point to insert the landlord's name, it doesn't prove whether it happened before or after the signing.

But in the process of editing, Acrobat appeared to have renamed all the font references on that page into a different format. Every other page had a consistent naming scheme for the fonts, and they matched the scheme in the page 3 I had. Again, that doesn't tell us whether the renaming happened before or after the signing. Or does it?

You see, when I completed my signing, RightSignature inserted my name into the document, and did so using a font that wasn't otherwise present in the document (Courier, in this case). That font was named identically throughout the document, except on page 3, where it was named in the same manner as every other font that Acrobat had renamed. Given the font wasn't present in the document until after I'd signed it, this is proof that the page was edited after signing.

But eh this is all very convoluted. Surely there's an easier way? Thankfully yes, although I hate it. RightSignature had sent me a link to view my signed copy of the document. When I went there it presented it to me as the original PDF with my signature overlaid on top. Hitting F12 gave me the network tab, and I could see a reference to a base.pdf. Downloading that gave me the original PDF, pre-signature. Running sha256sum on it gave me an identical hash to the "Original checksum" field. Needless to say, it did not contain the addendum.

Why do this? The only explanation I can come up with (and I am obviously guessing here, I may be incorrect!) is that International Executive Rentals realised that they'd sent me a contract which could mean that they were liable for the return of my deposit, even though they'd already given it to my landlord, and after realising this added the addendum, sent it to me, and assumed that I just wouldn't notice (or that, if I did, I wouldn't be able to prove anything). In the process they went from an extremely unlikely possibility of having civil liability for a few thousand dollars (even if they were holding the deposit it's still the landlord's legal duty to return it, as far as I can tell) to doing something that looks extremely like forgery.

There's a hilarious followup. After this happened, the agency offered to do a screenshare with me showing them logging into RightSignature and showing the signed file with the addendum, and then proceeded to do so. One minor problem - the "Send for signature" button was still there, just below a field saying "Uploaded: 09/22/25". I asked them to search for my name, and it popped up two hits - one marked draft, one marked completed. The one marked completed? Didn't contain the addendum.

comments

24 September, 2025 10:22PM

Philipp Kern

PSA: APT::Default-Release might be holding back updates from you

If you are like me that you are installing machines with testing and then go and flip them over to the current stable for a while using APT::Default-Release, you might not be receiving all relevant updates. In fact this setting is kind of discouraged in favor of more extensive pinning configuration.

However, the field does support regexps, so instead of just specifying, say, "trixie", you can put this in place:

APT::Default-Release "/^trixie(|-security|-proposed-updates|-updates)$/";

That should bring the security and stable updates back in.

It feels like we are recently learning a lot about the drawbacks of these overlays and how they need to be configured properly...

24 September, 2025 09:07AM by Philipp Kern (noreply@blogger.com)

September 23, 2025

Ravi Dwivedi

Singapore Trip

In December 2024, I went on a trip through four countries - Singapore, Malaysia, Brunei, and Vietnam - with my friend Badri. This post covers our experiences in Singapore.

I took an IndiGo flight from Delhi to Singapore, with a layover in Chennai. At the Chennai airport, I was joined by Badri. We had an early morning flight from Chennai that would land in Singapore in the afternoon. Within 48 hours of our scheduled arrival in Singapore, we submitted an arrival card online. At immigration, we simply needed to scan our passports at the gates, which opened automatically to let us through, and then give our address to an official nearby. The process was quick and smooth, but it unfortunately meant that we didn’t get our passports stamped by Singapore.

Before I left the airport, I wanted to visit the nature-themed park with a fountain I saw in pictures online. It is called Jewel Changi, and it took quite some walking to get there. After reaching the park, we saw a fountain that could be seen from all the levels. We roamed around for a couple of hours, then proceeded to the airport metro station to get to our hotel.

There were four ATMs on the way to the metro station, but none of them provided us with any cash. This was the first country (outside India, of course!) where my card didn’t work at ATMs.

To use the metro, one can tap the EZ-Link card or bank cards at the AFC gates to get in. You cannot buy tickets using cash. Before boarding the metro, I used my credit card to get Badri an EZ-Link card from a vending machine. It was 10 Singapore dollars (₹630) - 5 for the card, and 5 for the balance. I had planned to use my Visa credit card to pay for my own fare. I was relieved to see that my card worked, and I passed through the AFC gates.

We had booked our stay at a hostel named Campbell’s Inn, which was the cheapest we could find in Singapore. It was ₹1500 per night for dorm beds. The hostel was located in Little India. While Little India has an eponymous metro station, the one closest to our hostel was Rochor.

On the way to the hostel, we found out that our booking had been canceled.

We had booked from the Hostelworld website, opting to pay the deposit in advance and to pay the balance amount in person upon reaching. However, Hostelworld still tried to charge Badri’s card again before our arrival. When the unauthorized charge failed, they sent an automatic message saying “we tried to charge” and to contact them soon to avoid cancellation, which we couldn’t do as we were in the plane.

Despite this, we went to the hostel to check the status of our booking.

The trip from the airport to Rochor required a couple of transfers. It was 2 Singapore dollars (approx. ₹130) and took approximately an hour.

Upon reaching the hostel, we were informed that our booking had indeed been canceled, and were not given any reason for the cancelation. Furthermore, no beds were available at the hostel for us to book on the spot.

We decided to roam around and look for accommodation at other hostels in the area. Soon, we found a hostel by the name of Snooze Inn, which had two beds available. It was 36 Singapore dollars per person (around ₹2300) for a dormitory bed. Snooze Inn advertised supporting RuPay cards and UPI. Some other places in that area did the same. We paid using my card. We checked in and slept for a couple of hours after taking a shower.

By the time we woke up, it was dark. We met Praveen’s friend Sabeel to get my FLX1 phone. We also went to Mustafa Center nearby to exchange Indian rupees for Singapore dollars. Mustafa Center also had a shopping center with shops selling electronic items and souvenirs, among other things. When we were dropping off Sabeel at a bus stop, we discovered that the bus stops in Singapore had a digital board mentioning the bus routes for the stop and the number of minutes each bus was going to take.

In addition to an organized bus system, Singapore had good pedestrian infrastructure. There were traffic lights and zebra crossings for pedestrians to cross the roads. Unlike in Indian cities, rules were being followed. Cars would stop for pedestrians at unmanaged zebra crossings; pedestrians would in turn wait for their crossing signal to turn green before attempting to walk across. Therefore, walking in Singapore was easy.

Traffic rules were taken so seriously in Singapore I (as a pedestrian) was afraid of unintentionally breaking them, which could get me in trouble, as breaking rules is dealt with heavy fines in the country. For example, crossing roads without using a marked crossing (while being within 50 meters of it) - also known as jaywalking - is an offence in Singapore.

Moreover, the streets were litter-free, and cleanliness seemed like an obsession.

After exploring Mustafa Center, we went to a nearby 7-Eleven to top up Badri’s EZ-Link card. He gave 20 Singapore dollars for the recharge, which credited the card by 19.40 Singapore dollars (0.6 dollars being the recharge fee).

When I was planning this trip, I discovered that the World Chess Championship match was being held in Singapore. I seized the opportunity and bought a ticket in advance. The next day - the 5th of December - I went to watch the 9th game between Gukesh Dommaraju of India and Ding Liren of China. The venue was a hotel on Sentosa Island, and the ticket was 70 Singapore dollars, which was around ₹4000 at the time.

We checked out from our hostel in the morning, as we were planning to stay with Badri’s aunt that night. We had breakfast at a place in Little India. Then we took a couple of buses, followed by a walk to Sentosa Island. Paying the fare for the buses was similar to the metro - I tapped my credit card in the bus, while Badri tapped his EZ-Link card. We also had to tap it while getting off.

If you are tapping your credit card to use public transport in Singapore, keep in mind that the total amount of all the trips taken on a day is deducted at the end. This makes it hard to determine the cost of individual trips. For example, I could take a bus and get off after tapping my card, but I would have no way to determine how much this journey cost.

When you tap in, the maximum fare amount gets deducted. When you tap out, the balance amount gets refunded (if it’s a shorter journey than the maximum fare one). So, there is incentive for passengers not to get off without tapping out. Going by your card statement, it looks like all that happens virtually, and only one statement comes in at the end. Maybe this combining only happens for international cards.

We got off the bus a kilometer away from Sentosa Island and walked the rest of the way. We went on the Sentosa Boardwalk, which is itself a tourist attraction. I was using Organic Maps to navigate to the hotel Resorts World Sentosa, but Organic Maps’ route led us through an amusement park. I tried asking the locals (people working in shops) for directions, but it was a Chinese-speaking region, and they didn’t understand English. Fortunately, we managed to find a local who helped us with the directions.

Following the directions, we somehow ended up having to walk on a road which did not have pedestrian paths. Singapore is a country with strict laws, so we did not want to walk on that road. Avoiding that road led us to the Michael Hotel. There was a person standing at the entrance, and I asked him for directions to Resorts World Sentosa. The person told me that the bus (which was standing at the entrance) would drop me there! The bus was a free service for getting to Resorts World Sentosa. Here I parted ways with Badri, who went to his aunt’s place.

I got to the Resorts Sentosa and showed my ticket to get in. There were two zones inside - the first was a room with a glass wall separating the audience and the players. This was the room to watch the game physically, and resembled a zoo or an aquarium. :) The room was also a silent room, which means talking or making noise was prohibited. Audiences were only allowed to have mobile phones for the first 30 minutes of the game - since I arrived late, I could not bring my phone inside that room.

The other zone was outside this room. It had a big TV on which the game was being broadcast along with commentary by David Howell and Jovanka Houska - the official FIDE commentators for the event. If you don’t already know, FIDE is the authoritative international chess body.

I spent most of the time outside that silent room, giving me an opportunity to socialize. A lot of people were from Singapore. I saw there were many Indians there as well. Moreover, I had a good time with Vasudevan, a journalist from Tamil Nadu who was covering the match. He also asked questions to Gukesh during the post-match conference. His questions were in Tamil to lift Gukesh’s spirits, as Gukesh is a Tamil speaker.

Tea and coffee were free for the audience. I also bought a T-shirt from their stall as a souvenir.

After the game, I took a shuttle bus from Resorts World Sentosa to a metro station, then travelled to Pasir Ris by metro, where Badri was staying with his aunt. I thought of getting something to eat, but could not find any cafés or restaurants while I was walking from the Pasir Ris metro station to my destination, and was positively starving when I got there.

Badri’s aunt’s place was an apartment in a gated community. On the gate was a security guard who asked me the address of the apartment. Upon entering, there were many buildings. To enter the building, you need to dial the number of the apartment you want to go to and speak to them. I had seen that in the TV show Seinfeld, where Jerry’s friends used to dial Jerry to get into his building.

I was afraid they might not have anything to eat because I told them I was planning to get something on the way. This was fortunately not the case, and I was relieved to not have to sleep with an empty stomach.

Badri’s uncle gave us an idea of how safe Singapore is. He said that even if you forget your laptop in a public space, you can go back the next day to find it right there in the same spot. I also learned that owning cars was discouraged in Singapore - the government imposes a high registration fee on them, while also making public transport easy to use and affordable. I also found out that 7-Eleven was not that popular among residents in Singapore, unlike in Malaysia or Thailand.

The next day was our third and final day in Singapore. We had a bus in the evening to Johor Bahru in Malaysia. We got up early, had breakfast, and checked out from Badri’s aunt’s home. A store by the name of Cat Socrates was our first stop for the day, as Badri wanted to buy some stationery. The plan was to take the metro, followed by the bus. So we got to Pasir Ris metro station. Next to the metro station was a mall. In the mall, Badri found an ATM where our cards worked, and we got some Singapore dollars.

It was noon when we reached the stationery shop mentioned above. We had to walk a kilometer from the place where the bus dropped us. It was a hot, sunny day in Singapore, so walking was not comfortable. We had to go through residential areas in Singapore. We saw some non-touristy parts of Singapore.

After we were done with the stationery shop, we went to a hawker center to get lunch. Hawker centers are unique to Singapore. They have a lot of shops that sell local food at cheap prices. It is similar to a food court. However, unlike the food courts in malls, hawker centers are open-air and can get quite hot.

To have something, you just need to buy it from one of the shops and find a table. After you are done, you need to put your tray in the tray-collecting spots. I had a kaya toast with chai, since there weren’t many vegetarian options. I also bought a persimmon from a nearby fruit vendor. On the other hand, Badri sampled some local non-vegetarian dishes.

A sign saying, 'No table littering, by law.'

Next, we took a metro to Raffles Place, as we wanted to visit Merlion, the icon of Singapore. It is a statue having the head of a lion and the body of a fish. While getting through the AFC gates, my card was declined. Therefore, I had to buy an EZ-Link card, which I had been avoiding because the card itself costs 5 Singapore dollars.

From the Raffles Place metro station, we walked to Merlion. The place also gave a nice view of Marina Bay Sands. It was filled with tourists clicking pictures, and we also did the same.

After this, we went to the bus stop to catch our bus to the border city of Johor Bahru, Malaysia. The bus was more than an hour late, and we worried that we had missed the bus. I asked an Indian woman at the stop who also planned to take the same bus, and she told us that the bus was late. Finally, our bus arrived, and we set off for Johor Bahru.

Before I finish, let me give you an idea of my expenditure. Singapore is an expensive country, and I realized that expenses could go up pretty quickly. Overall, my stay in Singapore for 3 days and 2 nights was approx. 5500 rupees. That too, when we stayed one night at Badri’s aunt’s place (so we didn’t have to pay for accomodation for one of the nights) and didn’t have to pay for a couple of meals. This amount doesn’t include the ticket for the chess game, but includes the costs of getting there. If you are in Singapore, it is likely you will pay a visit to Sentosa Island anyway.

Stay tuned for our experiences in Malaysia!

Credits: Thanks to Dione, Sahil, Badri and Contrapunctus for reviewing the draft. Thanks to Bhe for spotting a duplicate sentence.

23 September, 2025 11:35AM

September 22, 2025

David Bremner

Hibernate on the pocket reform 12/n

Context

See hibernate-pocket, hibernate-pocket-2, hibernate-pocket-3, hibernate-pocket-4,hibernate-pocket-5, hibernate-pocket-6, hibernate-pocket-7, hibernate-pocket-8, hibernate-pocket-9 hibernate-pocket-10 hibernate-pocket-11

Update to latest rockchip-devel

For some reason I decided to try re-applying the PCI series. Good news: the pci series finally applies cleanly.

$ git fetch collabora && git switch -c tmp collabora  # [1]
$ b4 am 20250715-pci-port-reset-v6-0-6f9cce94e7bb@oss.qualcomm.com
$ git switch reform-patches  # [2]
$ git rebase -i tmp

https://gitlab.collabora.com/hardware-enablement/rockchip-3588/linux.git#rockchip-devel
https://salsa.debian.org/bremner/collabora-rockchip-3588#reform-patches

Rebuild the kernel

$ cp /boot/config-6.17.0-rc7+ .config
$ make olddefconfig
$ yes '' | make localmodconfig
$ make KBUILD_IMAGE=arch/arm64/boot/Image bindeb-pkg -j$(nproc)

try the hibernation test, again

Running the following test script

set -x
echo platform >  /sys/power/pm_test
echo reboot > /sys/power/disk
sleep 2
rmmod mt76x2u
sleep 2
echo disk >  /sys/power/state
sleep 2
modprobe mt76x2u

Initially there is some output like this

[  151.752683] rockchip-dw-pcie a40c00000.pcie: Failed to receive PME_TO_Ack
[  151.754035] PM: hibernation: hibernation debug: Waiting for 5 second(s).
[  157.821584] rockchip-dw-pcie a40c00000.pcie: Phy link never came up
[  157.822139] rockchip-dw-pcie a40c00000.pcie: fail to resume
[  157.822636] rockchip-dw-pcie a40c00000.pcie: PM: dpm_run_callback(): genpd_restore_noirq returns -110
[  157.823442] rockchip-dw-pcie a40c00000.pcie: PM: failed to restore noirq: error -110

A small amount of detective work suggests that a40c00000.pcie corresponds to the first PCI bridge on the rk3588 SOC.

$ ls -l /sys/bus/pci/devices
total 0
lrwxrwxrwx 1 root root 0 Sep 23 10:32 0003:30:00.0 -> ../../../devices/platform/a40c00000.pcie/pci0003:30/0003:30:00.0
lrwxrwxrwx 1 root root 0 Sep 23 10:32 0004:40:00.0 -> ../../../devices/platform/a41000000.pcie/pci0004:40/0004:40:00.0
lrwxrwxrwx 1 root root 0 Sep 23 10:32 0004:41:00.0 -> ../../../devices/platform/a41000000.pcie/pci0004:40/0004:40:00.0/0004:41:00.0

Then after a pause,

[ 1032.039237] watchdog: CPU5: Watchdog detected hard LOCKUP on cpu 6
[ 1032.039778] Modules linked in: xt_CHECKSUM xt_tcpudp nft_chain_nat xt_MASQUERADE nf_nat nf_conntrack nf_defrag_ipv6 nf_defrag_ipv4 nft_compat x_tables bridge stp llc nf_tables aes_neon_bs aes_neon_blk ccm dwmac_rk binfmt_misc mt76x2_common mt76x02_usb mt76_usb mt76x02_lib mt76 rk805_pwrkey snd_soc_tlv320aic31xx snd_soc_simple_card mac80211 rockchip_saradc reform2_lpc(OE) industrialio_triggered_buffer libarc4 kfifo_buf cfg80211 industrialio rockchip_thermal rockchip_rng cdc_acm rfkill snd_soc_rockchip_i2s_tdm hantro_vpu rockchip_rga panthor v4l2_vp9 v4l2_jpeg snd_soc_audio_graph_card videobuf2_dma_sg v4l2_h264 drm_gpuvm snd_soc_simple_card_utils drm_exec evdev joydev dm_mod nvme_fabrics efi_pstore configfs nfnetlink autofs4 ext4 crc16 mbcache jbd2 btrfs blake2b_generic xor xor_neon raid6_pq mali_dp snd_soc_meson_axg_toddr snd_soc_meson_axg_fifo snd_soc_meson_codec_glue panfrost drm_shmem_helper gpu_sched ao_cec_g12a meson_vdec(C) videobuf2_dma_contig videobuf2_memops v4l2_mem2mem videobuf2_v4l2 videodev
[ 1032.039834]  videobuf2_common mc dw_hdmi_i2s_audio meson_drm meson_canvas meson_dw_mipi_dsi meson_dw_hdmi mxsfb mux_mmio panel_edp imx_dcss ti_sn65dsi86 nwl_dsi mux_core pwm_imx27 hid_generic usbhid hid onboard_usb_dev nvme nvme_core nvme_keyring nvme_auth snd_soc_hdmi_codec snd_soc_core xhci_plat_hcd xhci_hcd snd_pcm_dmaengine snd_pcm snd_timer snd soundcore rtc_pcf8523 fan53555 micrel phy_package stmmac_platform stmmac pcs_xpcs phylink mdio_devres rk808_regulator of_mdio sdhci_of_dwcmshc fixed_phy sdhci_pltfm fwnode_mdio libphy sdhci phy_rockchip_usbdp dw_mmc_rockchip dw_mmc_pltfm typec phy_rockchip_naneng_combphy pwm_rockchip dw_wdt phy_rockchip_samsung_hdptx dwc3 cqhci dw_mmc mdio_bus rockchip_dfi ehci_platform rockchipdrm ulpi ehci_hcd dw_hdmi_qp ohci_platform udc_core ohci_hcd analogix_dp dw_mipi_dsi i2c_rk3x cpufreq_dt usbcore phy_rockchip_inno_usb2 dw_mipi_dsi2 drm_dp_aux_bus usb_common [last unloaded: mt76x2u]
[ 1032.039886] Sending NMI from CPU 5 to CPUs 6:

previous episode

22 September, 2025 05:20PM

Evgeni Golov

Booting Vagrant boxes with UEFI on Fedora: Permission denied

If you're still using Vagrant (I am) and try to boot a box that uses UEFI (like boxen/debian-13), a simple vagrant init boxen/debian-13 and vagrant up will entertain you with a nice traceback:

% vagrant up
Bringing machine 'default' up with 'libvirt' provider...
==> default: Checking if box 'boxen/debian-13' version '2025.08.20.12' is up to date...
==> default: Creating image (snapshot of base box volume).
==> default: Creating domain with the following settings...
==> default:  -- Name:              tmp.JV8X48n30U_default
==> default:  -- Description:       Source: /tmp/tmp.JV8X48n30U/Vagrantfile
==> default:  -- Domain type:       kvm
==> default:  -- Cpus:              1
==> default:  -- Feature:           acpi
==> default:  -- Feature:           apic
==> default:  -- Feature:           pae
==> default:  -- Clock offset:      utc
==> default:  -- Memory:            2048M
==> default:  -- Loader:            /home/evgeni/.vagrant.d/boxes/boxen-VAGRANTSLASH-debian-13/2025.08.20.12/libvirt/OVMF_CODE.fd
==> default:  -- Nvram:             /home/evgeni/.vagrant.d/boxes/boxen-VAGRANTSLASH-debian-13/2025.08.20.12/libvirt/efivars.fd
==> default:  -- Base box:          boxen/debian-13
==> default:  -- Storage pool:      default
==> default:  -- Image(vda):        /home/evgeni/.local/share/libvirt/images/tmp.JV8X48n30U_default.img, virtio, 20G
==> default:  -- Disk driver opts:  cache='default'
==> default:  -- Graphics Type:     vnc
==> default:  -- Video Type:        cirrus
==> default:  -- Video VRAM:        16384
==> default:  -- Video 3D accel:    false
==> default:  -- Keymap:            en-us
==> default:  -- TPM Backend:       passthrough
==> default:  -- INPUT:             type=mouse, bus=ps2
==> default:  -- CHANNEL:             type=unix, mode=
==> default:  -- CHANNEL:             target_type=virtio, target_name=org.qemu.guest_agent.0
==> default: Creating shared folders metadata...
==> default: Starting domain.
==> default: Removing domain...
==> default: Deleting the machine folder
/usr/share/gems/gems/fog-libvirt-0.13.1/lib/fog/libvirt/requests/compute/vm_action.rb:7:in 'Libvirt::Domain#create': Call to virDomainCreate failed: internal error: process exited while connecting to monitor: 2025-09-22T10:07:55.081081Z qemu-system-x86_64: -blockdev {"driver":"file","filename":"/home/evgeni/.vagrant.d/boxes/boxen-VAGRANTSLASH-debian-13/2025.08.20.12/libvirt/OVMF_CODE.fd","node-name":"libvirt-pflash0-storage","auto-read-only":true,"discard":"unmap"}: Could not open '/home/evgeni/.vagrant.d/boxes/boxen-VAGRANTSLASH-debian-13/2025.08.20.12/libvirt/OVMF_CODE.fd': Permission denied (Libvirt::Error)
    from /usr/share/gems/gems/fog-libvirt-0.13.1/lib/fog/libvirt/requests/compute/vm_action.rb:7:in 'Fog::Libvirt::Compute::Shared#vm_action'
    from /usr/share/gems/gems/fog-libvirt-0.13.1/lib/fog/libvirt/models/compute/server.rb:81:in 'Fog::Libvirt::Compute::Server#start'
    from /usr/share/vagrant/gems/gems/vagrant-libvirt-0.11.2/lib/vagrant-libvirt/action/start_domain.rb:546:in 'VagrantPlugins::ProviderLibvirt::Action::StartDomain#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-libvirt-0.11.2/lib/vagrant-libvirt/action/set_boot_order.rb:22:in 'VagrantPlugins::ProviderLibvirt::Action::SetBootOrder#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-libvirt-0.11.2/lib/vagrant-libvirt/action/share_folders.rb:22:in 'VagrantPlugins::ProviderLibvirt::Action::ShareFolders#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-libvirt-0.11.2/lib/vagrant-libvirt/action/prepare_nfs_settings.rb:21:in 'VagrantPlugins::ProviderLibvirt::Action::PrepareNFSSettings#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/builtin/synced_folders.rb:87:in 'Vagrant::Action::Builtin::SyncedFolders#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/builtin/delayed.rb:19:in 'Vagrant::Action::Builtin::Delayed#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/builtin/synced_folder_cleanup.rb:28:in 'Vagrant::Action::Builtin::SyncedFolderCleanup#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/plugins/synced_folders/nfs/action_cleanup.rb:25:in 'VagrantPlugins::SyncedFolderNFS::ActionCleanup#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-libvirt-0.11.2/lib/vagrant-libvirt/action/prepare_nfs_valid_ids.rb:14:in 'VagrantPlugins::ProviderLibvirt::Action::PrepareNFSValidIds#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:127:in 'block in Vagrant::Action::Warden#finalize_action'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/builder.rb:180:in 'Vagrant::Action::Builder#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/runner.rb:101:in 'block in Vagrant::Action::Runner#run'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/util/busy.rb:19:in 'Vagrant::Util::Busy.busy'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/runner.rb:101:in 'Vagrant::Action::Runner#run'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/builtin/call.rb:53:in 'Vagrant::Action::Builtin::Call#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:127:in 'block in Vagrant::Action::Warden#finalize_action'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/builder.rb:180:in 'Vagrant::Action::Builder#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/runner.rb:101:in 'block in Vagrant::Action::Runner#run'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/util/busy.rb:19:in 'Vagrant::Util::Busy.busy'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/runner.rb:101:in 'Vagrant::Action::Runner#run'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/builtin/call.rb:53:in 'Vagrant::Action::Builtin::Call#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-libvirt-0.11.2/lib/vagrant-libvirt/action/create_network_interfaces.rb:197:in 'VagrantPlugins::ProviderLibvirt::Action::CreateNetworkInterfaces#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-libvirt-0.11.2/lib/vagrant-libvirt/action/create_networks.rb:40:in 'VagrantPlugins::ProviderLibvirt::Action::CreateNetworks#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-libvirt-0.11.2/lib/vagrant-libvirt/action/create_domain.rb:452:in 'VagrantPlugins::ProviderLibvirt::Action::CreateDomain#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-libvirt-0.11.2/lib/vagrant-libvirt/action/resolve_disk_settings.rb:143:in 'VagrantPlugins::ProviderLibvirt::Action::ResolveDiskSettings#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-libvirt-0.11.2/lib/vagrant-libvirt/action/create_domain_volume.rb:97:in 'VagrantPlugins::ProviderLibvirt::Action::CreateDomainVolume#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-libvirt-0.11.2/lib/vagrant-libvirt/action/handle_box_image.rb:127:in 'VagrantPlugins::ProviderLibvirt::Action::HandleBoxImage#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/builtin/handle_box.rb:56:in 'Vagrant::Action::Builtin::HandleBox#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-libvirt-0.11.2/lib/vagrant-libvirt/action/handle_storage_pool.rb:63:in 'VagrantPlugins::ProviderLibvirt::Action::HandleStoragePool#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-libvirt-0.11.2/lib/vagrant-libvirt/action/set_name_of_domain.rb:34:in 'VagrantPlugins::ProviderLibvirt::Action::SetNameOfDomain#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/builtin/provision.rb:80:in 'Vagrant::Action::Builtin::Provision#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-libvirt-0.11.2/lib/vagrant-libvirt/action/cleanup_on_failure.rb:21:in 'VagrantPlugins::ProviderLibvirt::Action::CleanupOnFailure#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:127:in 'block in Vagrant::Action::Warden#finalize_action'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/builder.rb:180:in 'Vagrant::Action::Builder#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/runner.rb:101:in 'block in Vagrant::Action::Runner#run'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/util/busy.rb:19:in 'Vagrant::Util::Busy.busy'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/runner.rb:101:in 'Vagrant::Action::Runner#run'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/builtin/call.rb:53:in 'Vagrant::Action::Builtin::Call#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/builtin/box_check_outdated.rb:93:in 'Vagrant::Action::Builtin::BoxCheckOutdated#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/builtin/config_validate.rb:25:in 'Vagrant::Action::Builtin::ConfigValidate#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/warden.rb:48:in 'Vagrant::Action::Warden#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/builder.rb:180:in 'Vagrant::Action::Builder#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/runner.rb:101:in 'block in Vagrant::Action::Runner#run'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/util/busy.rb:19:in 'Vagrant::Util::Busy.busy'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/action/runner.rb:101:in 'Vagrant::Action::Runner#run'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/machine.rb:248:in 'Vagrant::Machine#action_raw'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/machine.rb:217:in 'block in Vagrant::Machine#action'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/environment.rb:631:in 'Vagrant::Environment#lock'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/machine.rb:203:in 'Method#call'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/machine.rb:203:in 'Vagrant::Machine#action'
    from /usr/share/vagrant/gems/gems/vagrant-2.3.4/lib/vagrant/batch_action.rb:86:in 'block (2 levels) in Vagrant::BatchAction#run'

The important part here is

Call to virDomainCreate failed: internal error: process exited while connecting to monitor:
2025-09-22T10:07:55.081081Z qemu-system-x86_64: -blockdev {"driver":"file","filename":"/home/evgeni/.vagrant.d/boxes/boxen-VAGRANTSLASH-debian-13/2025.08.20.12/libvirt/OVMF_CODE.fd","node-name":"libvirt-pflash0-storage","auto-read-only":true,"discard":"unmap"}:
Could not open '/home/evgeni/.vagrant.d/boxes/boxen-VAGRANTSLASH-debian-13/2025.08.20.12/libvirt/OVMF_CODE.fd': Permission denied (Libvirt::Error)

Of course we checked that the file permissions on this file are correct (I'll save you the ls output), so what's next? Yes, of course, SELinux!

# ausearch -m AVC
time->Mon Sep 22 12:07:55 2025
type=AVC msg=audit(1758535675.080:1613): avc:  denied  { read } for  pid=257204 comm="qemu-system-x86" name="OVMF_CODE.fd" dev="dm-2" ino=1883946 scontext=unconfined_u:unconfined_r:svirt_t:s0:c352,c717 tcontext=unconfined_u:object_r:user_home_t:s0 tclass=file permissive=0

A process in the svirt_t domain tries to access something in the user_home_t domain and is denied by the kernel. So far, SELinux is both working as designed and preventing us from doing our work, nice.

For "normal" (non-UEFI) boxes, Vagrant uploads the image to libvirt, which stores it in ~/.local/share/libvirt/images/ and boots fine from there. For UEFI boxen, one also needs loader and nvram files, which Vagrant keeps in ~/.vagrant.d/boxes/<box_name> and that's what explodes in our face here.

As ~/.local/share/libvirt/images/ works well, and is labeled svirt_home_t let's see what other folders use that label:

# semanage fcontext -l |grep svirt_home_t
/home/[^/]+/\.cache/libvirt/qemu(/.*)?             all files          unconfined_u:object_r:svirt_home_t:s0
/home/[^/]+/\.config/libvirt/qemu(/.*)?            all files          unconfined_u:object_r:svirt_home_t:s0
/home/[^/]+/\.libvirt/qemu(/.*)?                   all files          unconfined_u:object_r:svirt_home_t:s0
/home/[^/]+/\.local/share/gnome-boxes/images(/.*)? all files          unconfined_u:object_r:svirt_home_t:s0
/home/[^/]+/\.local/share/libvirt/boot(/.*)?       all files          unconfined_u:object_r:svirt_home_t:s0
/home/[^/]+/\.local/share/libvirt/images(/.*)?     all files          unconfined_u:object_r:svirt_home_t:s0

Okay, that all makes sense, and it's just missing the Vagrant-specific folders!

# semanage fcontext -a -t svirt_home_t '/home/[^/]+/\.vagrant.d/boxes(/.*)?'

Now relabel the Vagrant boxes:

% restorecon -rv ~/.vagrant.d/boxes/boxen-VAGRANTSLASH-debian-13
Relabeled /home/evgeni/.vagrant.d/boxes/boxen-VAGRANTSLASH-debian-13 from unconfined_u:object_r:user_home_t:s0 to unconfined_u:object_r:svirt_home_t:s0
Relabeled /home/evgeni/.vagrant.d/boxes/boxen-VAGRANTSLASH-debian-13/metadata_url from unconfined_u:object_r:user_home_t:s0 to unconfined_u:object_r:svirt_home_t:s0
Relabeled /home/evgeni/.vagrant.d/boxes/boxen-VAGRANTSLASH-debian-13/2025.08.20.12 from unconfined_u:object_r:user_home_t:s0 to unconfined_u:object_r:svirt_home_t:s0
Relabeled /home/evgeni/.vagrant.d/boxes/boxen-VAGRANTSLASH-debian-13/2025.08.20.12/libvirt from unconfined_u:object_r:user_home_t:s0 to unconfined_u:object_r:svirt_home_t:s0
Relabeled /home/evgeni/.vagrant.d/boxes/boxen-VAGRANTSLASH-debian-13/2025.08.20.12/libvirt/box_0.img from unconfined_u:object_r:user_home_t:s0 to unconfined_u:object_r:svirt_home_t:s0
Relabeled /home/evgeni/.vagrant.d/boxes/boxen-VAGRANTSLASH-debian-13/2025.08.20.12/libvirt/metadata.json from unconfined_u:object_r:user_home_t:s0 to unconfined_u:object_r:svirt_home_t:s0
Relabeled /home/evgeni/.vagrant.d/boxes/boxen-VAGRANTSLASH-debian-13/2025.08.20.12/libvirt/Vagrantfile from unconfined_u:object_r:user_home_t:s0 to unconfined_u:object_r:svirt_home_t:s0
Relabeled /home/evgeni/.vagrant.d/boxes/boxen-VAGRANTSLASH-debian-13/2025.08.20.12/libvirt/OVMF_CODE.fd from unconfined_u:object_r:user_home_t:s0 to unconfined_u:object_r:svirt_home_t:s0
Relabeled /home/evgeni/.vagrant.d/boxes/boxen-VAGRANTSLASH-debian-13/2025.08.20.12/libvirt/OVMF_VARS.fd from unconfined_u:object_r:user_home_t:s0 to unconfined_u:object_r:svirt_home_t:s0
Relabeled /home/evgeni/.vagrant.d/boxes/boxen-VAGRANTSLASH-debian-13/2025.08.20.12/libvirt/box_update_check from unconfined_u:object_r:user_home_t:s0 to unconfined_u:object_r:svirt_home_t:s0
Relabeled /home/evgeni/.vagrant.d/boxes/boxen-VAGRANTSLASH-debian-13/2025.08.20.12/libvirt/efivars.fd from unconfined_u:object_r:user_home_t:s0 to unconfined_u:object_r:svirt_home_t:s0

And it works!

% vagrant up
Bringing machine 'default' up with 'libvirt' provider...
==> default: Checking if box 'boxen/debian-13' version '2025.08.20.12' is up to date...
==> default: Creating image (snapshot of base box volume).
==> default: Creating domain with the following settings...
==> default:  -- Name:              tmp.JV8X48n30U_default
==> default:  -- Description:       Source: /tmp/tmp.JV8X48n30U/Vagrantfile
==> default:  -- Domain type:       kvm
==> default:  -- Cpus:              1
==> default:  -- Feature:           acpi
==> default:  -- Feature:           apic
==> default:  -- Feature:           pae
==> default:  -- Clock offset:      utc
==> default:  -- Memory:            2048M
==> default:  -- Loader:            /home/evgeni/.vagrant.d/boxes/boxen-VAGRANTSLASH-debian-13/2025.08.20.12/libvirt/OVMF_CODE.fd
==> default:  -- Nvram:             /home/evgeni/.vagrant.d/boxes/boxen-VAGRANTSLASH-debian-13/2025.08.20.12/libvirt/efivars.fd
==> default:  -- Base box:          boxen/debian-13
==> default:  -- Storage pool:      default
==> default:  -- Image(vda):        /home/evgeni/.local/share/libvirt/images/tmp.JV8X48n30U_default.img, virtio, 20G
==> default:  -- Disk driver opts:  cache='default'
==> default:  -- Graphics Type:     vnc
==> default:  -- Video Type:        cirrus
==> default:  -- Video VRAM:        16384
==> default:  -- Video 3D accel:    false
==> default:  -- Keymap:            en-us
==> default:  -- TPM Backend:       passthrough
==> default:  -- INPUT:             type=mouse, bus=ps2
==> default:  -- CHANNEL:             type=unix, mode=
==> default:  -- CHANNEL:             target_type=virtio, target_name=org.qemu.guest_agent.0
==> default: Creating shared folders metadata...
==> default: Starting domain.
==> default: Domain launching with graphics connection settings...
==> default:  -- Graphics Port:      5900
==> default:  -- Graphics IP:        127.0.0.1
==> default:  -- Graphics Password:  Not defined
==> default:  -- Graphics Websocket: 5700
==> default: Waiting for domain to get an IP address...
==> default: Waiting for machine to boot. This may take a few minutes...
    default: SSH address: 192.168.124.157:22
    default: SSH username: vagrant
    default: SSH auth method: private key
    default:
    default: Vagrant insecure key detected. Vagrant will automatically replace
    default: this with a newly generated keypair for better security.
    default:
    default: Inserting generated public key within guest...
    default: Removing insecure key from the guest if it's present...
    default: Key inserted! Disconnecting and reconnecting using new SSH key...
==> default: Machine booted and ready!

22 September, 2025 10:37AM by evgeni

Russell Coker

More About the Colmi P80

The FOSS Android program for communicating with smart watches is Gadget Bridge which now has support for the Colmi P80 [1].

I first blogged about the Colmi P80 just over a month ago [2]. Now I have a couple of relatives using it happily on Android with the proprietary app. I couldn’t use it myself because I require more control over which apps have their notifications go to the watch than the Colmi app offers. Also I’m trying to move away from non-free software.

Yesterday the f-droid repository informed me that there was a new version of Gadget Bridge and the changelog indicated support for the Colmi P80 so I connected the P80 and disconnected the PineTime.

The first problem I noticed is that the vibrator on the P80 when on it’s maximum setting is much weaker than that on the PineTime, so weak that I often didn’t notice it. Maybe if I wore it for a few weeks I would teach myself to notice it but it should just be able to work with me on this. If it could be set to have multiple bursts of vibrating then that would work.

The next problem is that the P80 by default does not turn the screen on when there’s a notification and there seems to be no way to configure it to do so. I configured it to turn on when I raise my arm which can mostly work but that still relies on me noticing the vibration. Vibration and the screen light turning on would be harder to miss than vibration on it’s own.

I don’t recall seeing any review of smart watches ever that stated whether the screen would turn on when there’s a notification or whether the vibration was easy to notice.

One problem with both the PineTime (running InfiniTime) and the P80 is that when the screen is turned on (through gesture, pushing the button, or a notification in the case of the Pinetime) it is active for swiping to change the settings. I would like to have some other action required before settings can be changed so that if the screen turns on when I’m asleep my watch won’t brush against something and change it’s settings (which has happened).

It’s neat how Gadget Bridge supports talking to multiple smart watches at the same time. One useful feature for that would be to have different notification settings for each watch. I can imagine someone changing between a watch for jogging and a watch for work and wanting different settings.

Colmi P80 Problems

No authentication for Bluetooth connections.

Runs non-free software so no chance to fix things.

Battery life worse than PineTime (but not really bad).

Vibration weak.

Screen doesn’t turn on when notification is sent.

Conclusion

I’m using the PineTime as my daily driver again. While it works well enough for some people (even with the Colmi proprietary app) it doesn’t do what I want. It is however a good test device for FOSS work on the phone side, it has a decent feature set and is cheap.

Apart from lack of authentication and running non-free software the problems are mostly a matter of taste. Some people might think it’s great the way it works.

22 September, 2025 08:39AM by etbe

Vincent Bernat

Akvorado release 2.0

Akvorado 2.0 was released today! Akvorado collects network flows with IPFIX and sFlow. It enriches flows and stores them in a ClickHouse database. Users can browse the data through a web console. This release introduces an important architectural change and other smaller improvements. Let’s dive in! 🤿

$ git diff --shortstat v1.11.5
 493 files changed, 25015 insertions(+), 21135 deletions(-)

New “outlet” service

The major change in Akvorado 2.0 is splitting the inlet service into two parts: the inlet and the outlet. Previously, the inlet handled all flow processing: receiving, decoding, and enrichment. Flows were then sent to Kafka for storage in ClickHouse:

Akvorado flow processing before the change: flows are received and processed by the inlet, sent to Kafka and stored in ClickHouse

Network flows reach the inlet service using UDP, an unreliable protocol. The inlet must process them fast enough to avoid losing packets. To handle a high number of flows, the inlet spawns several sets of workers to receive flows, fetch metadata, and assemble enriched flows for Kafka. Many configuration options existed for scaling, which increased complexity for users. The code needed to avoid blocking at any cost, making the processing pipeline complex and sometimes unreliable, particularly the BMP receiver.¹ Adding new features became difficult without making the problem worse.²

In Akvorado 2.0, the inlet receives flows and pushes them to Kafka without decoding them. The new outlet service handles the remaining tasks:

Akvorado flow processing after the change: flows are received by the inlet, sent to Kafka, processed by the outlet and inserted in ClickHouse

This change goes beyond a simple split:³ the outlet now reads flows from Kafka and pushes them to ClickHouse, two tasks that Akvorado did not handle before. Flows are heavily batched to increase efficiency and reduce the load on ClickHouse using ch-go, a low-level Go client for ClickHouse. When batches are too small, asynchronous inserts are used (e20645). The number of outlet workers scales dynamically (e5a625) based on the target batch size and latency (50,000 flows and 5 seconds by default).

This new architecture also allows us to simplify and optimize the code. The outlet fetches metadata synchronously (e20645). The BMP component becomes simpler by removing cooperative multitasking (3b9486). Reusing the same RawFlow object to decode protobuf-encoded flows from Kafka reduces pressure on the garbage collector (8b580f).

The effect on Akvorado’s overall performance was somewhat uncertain, but a user reported 35% lower CPU usage after migrating from the previous version, plus resolution of the long-standing BMP component issue. 🥳

Other changes

This new version includes many miscellaneous changes, such as completion for source and destination ports (f92d2e), and automatic restart of the orchestrator service (0f72ff) when configuration changes to avoid a common pitfall for newcomers.

Let’s focus on some key areas for this release: observability, documentation, CI, Docker, Go, and JavaScript.

Observability

Akvorado exposes metrics to provide visibility into the processing pipeline and help troubleshoot issues. These are available through Prometheus HTTP metrics endpoints, such as /api/v0/inlet/metrics. With the introduction of the outlet, many metrics moved. Some were also renamed (4c0b15) to match Prometheus best practices. Kafka consumer lag was added as a new metric (e3a778).

If you do not have your own observability stack, the Docker Compose setup shipped with Akvorado provides one. You can enable it by activating the profiles introduced for this purpose (529a8f).

The prometheus profile ships Prometheus to store metrics and Alloy to collect them (2b3c46, f81299, and 8eb7cd). Redis and Kafka metrics are collected through the exporter bundled with Alloy (560113). Other metrics are exposed using Prometheus metrics endpoints and are automatically fetched by Alloy with the help of some Docker labels, similar to what is done to configure Traefik. cAdvisor was also added (83d855) to provide some container-related metrics.

The loki profile ships Loki to store logs (45c684). While Alloy can collect and ship logs to Loki, its parsing abilities are limited: I could not find a way to preserve all metadata associated with structured logs produced by many applications, including Akvorado. Vector replaces Alloy (95e201) and features a domain-specific language, VRL, to transform logs. Annoyingly, Vector currently cannot retrieve Docker logs from before it was started.

Finally, the grafana profile ships Grafana, but the shipped dashboards are broken. This is planned for a future version.

Documentation

The Docker Compose setup provided by Akvorado makes it easy to get the web interface up and running quickly. However, Akvorado requires a few mandatory steps to be functional. It ships with comprehensive documentation, including a chapter about troubleshooting problems. I hoped this documentation would reduce the support burden. It is difficult to know if it works. Happy users rarely report their success, while some users open discussions asking for help without reading much of the documentation.

In this release, the documentation was significantly improved.

$ git diff --shortstat v1.11.5 -- console/data/docs
 10 files changed, 1873 insertions(+), 1203 deletions(-)

The documentation was updated (fc1028) to match Akvorado’s new architecture. The troubleshooting section was rewritten (17a272). Instructions on how to improve ClickHouse performance when upgrading from versions earlier than 1.10.0 was added (5f1e9a). An LLM proofread the entire content (06e3f3). Developer-focused documentation was also improved (548bbb, e41bae, and 871fc5).

From a usability perspective, table of content sections are now collapsable (c142e5). Admonitions help draw user attention to important points (8ac894).

Admonition in Akvorado documentation to ask a user not to open an issue or start a discussion before reading the documentation

Continuous integration

This release includes efforts to speed up continuous integration on GitHub. Coverage and race tests run in parallel (6af216 and fa9e48). The Docker image builds during the tests but gets tagged only after they succeed (8b0dce).

GitHub workflow for CI with many jobs, some of them running in parallel, some not

End-to-end tests (883e19) ensure the shipped Docker Compose setup works as expected. Hurl runs tests on various HTTP endpoints, particularly to verify metrics (42679b and 169fa9). For example:

## Test inlet has received NetFlow flows
GET http://127.0.0.1:8080/prometheus/api/v1/query
[Query]
query: sum(akvorado_inlet_flow_input_udp_packets_total{job="akvorado-inlet",listener=":2055"})
HTTP 200
[Captures]
inlet_receivedflows: jsonpath "$.data.result[0].value[1]" toInt
[Asserts]
variable "inlet_receivedflows" > 10

## Test inlet has sent them to Kafka
GET http://127.0.0.1:8080/prometheus/api/v1/query
[Query]
query: sum(akvorado_inlet_kafka_sent_messages_total{job="akvorado-inlet"})
HTTP 200
[Captures]
inlet_sentflows: jsonpath "$.data.result[0].value[1]" toInt
[Asserts]
variable "inlet_sentflows" >= {{ inlet_receivedflows }}

Docker

Akvorado ships with a comprehensive Docker Compose setup to help users get started quickly. It ensures a consistent deployment, eliminating many configuration-related issues. It also serves as a living documentation of the complete architecture.

This release brings some small enhancements around Docker:

an example to configure Traefik for TLS with Let’s Encrypt (1a27bb),
HTTP compression (bee9a5), and
support of IPv6 (a74a41).

Previously, many Docker images were pulled from the Bitnami Containers library. However, VMWare acquired Bitnami in 2019 and Broadcom acquired VMWare in 2023. As a result, Bitnami images were deprecated in less than a month. This was not really a surprise⁴. Previous versions of Akvorado had already started moving away from them. In this release, the Apache project’s Kafka image replaces the Bitnami one (1eb382). Thanks to the switch to KRaft mode, Zookeeper is no longer needed (0a2ea1, 8a49ca, and f65d20).

Akvorado’s Docker images were previously compiled with Nix. However, building AArch64 images on x86-64 is slow because it relies on QEMU userland emulation. The updated Dockerfile uses multi-stage and multi-platform builds: one stage builds the JavaScript part on the host platform, one stage builds the Go part cross-compiled on the host platform, and the final stage assembles the image on top of a slim distroless image (268e95 and d526ca).

# This is a simplified version
FROM --platform=$BUILDPLATFORM node:20-alpine AS build-js
RUN apk add --no-cache make
WORKDIR /build
COPY console/frontend console/frontend
COPY Makefile .
RUN make console/data/frontend

FROM --platform=$BUILDPLATFORM golang:alpine AS build-go
RUN apk add --no-cache make curl zip
WORKDIR /build
COPY . .
COPY --from=build-js /build/console/data/frontend console/data/frontend
RUN go mod download
RUN make all-indep
ARG TARGETOS TARGETARCH TARGETVARIANT VERSION
RUN make

FROM gcr.io/distroless/static:latest
COPY --from=build-go /build/bin/akvorado /usr/local/bin/akvorado
ENTRYPOINT [ "/usr/local/bin/akvorado" ]

When building for multiple platforms with --platform linux/amd64,linux/arm64,linux/arm/v7, the build steps until the highlighted line execute only once for all platforms. This significantly speeds up the build. 🚅

Akvorado now ships Docker images for these platforms: linux/amd64, linux/amd64/v3, linux/arm64, and linux/arm/v7. When requesting ghcr.io/akvorado/akvorado, Docker selects the best image for the current CPU. On x86-64, there are two choices. If your CPU is recent enough, Docker downloads linux/amd64/v3. This version contains additional optimizations and should run faster than the linux/amd64 version. It would be interesting to ship an image for linux/arm64/v8.2, but Docker does not support the same mechanism for AArch64 yet (792808).

Go

This release includes many changes related to Go but not visible to the users.

Toolchain

In the past, Akvorado supported the two latest Go versions, preventing immediate use of the latest enhancements. The goal was to allow users of stable distributions to use Go versions shipped with their distribution to compile Akvorado. However, this became frustrating when interesting features, like go tool, were released. Akvorado 2.0 requires Go 1.25 (77306d) but can be compiled with older toolchains by automatically downloading a newer one (94fb1c).⁵ Users can still override GOTOOLCHAIN to revert this decision. The recommended toolchain updates weekly through CI to ensure we get the latest minor release (5b11ec). This change also simplifies updates to newer versions: only go.mod needs updating.

Thanks to this change, Akvorado now uses wg.Go() (77306d) and I have started converting some unit tests to the new test/synctest package (bd787e, 7016d8, and 159085).

Testing

When testing equality, I use a helper function Diff() to display the differences when it fails:

got := input.Keys()
expected := []int{1, 2, 3}
if diff := helpers.Diff(got, expected); diff != "" {
    t.Fatalf("Keys() (-got, +want):\n%s", diff)
}

This function uses kylelemons/godebug. This package is no longer maintained and has some shortcomings: for example, by default, it does not compare struct private fields, which may cause unexpectedly successful tests. I replaced it with google/go-cmp, which is stricter and has better output (e2f1df).

Another package for Kafka

Another change is the switch from Sarama to franz-go to interact with Kafka (756e4a and 2d26c5). The main motivation for this change is to get a better concurrency model. Sarama heavily relies on channels and it is difficult to understand the lifecycle of an object handed to this package. franz-go uses a more modern approach with callbacks⁶ that is both more performant and easier to understand. It also ships with a package to spawn fake Kafka broker clusters, which is more convenient than the mocking functions provided by Sarama.

Improved routing table for BMP

To store its routing table, the BMP component used kentik/patricia, an implementation of a patricia tree focused on reducing garbage collection pressure. gaissmai/bart is a more recent alternative using an adaptation of [Donald Knuth’s ART algorithm][] that promises better performance and delivers it: 90% faster lookups and 27% faster insertions (92ee2e and fdb65c).

Unlike kentik/patricia, gaissmai/bart does not help efficiently store values attached to each prefix. I adapted the same approach as kentik/patricia to store route lists for each prefix: store a 32-bit index for each prefix, and use it to build a 64-bit index for looking up routes in a map. This leverages Go’s efficient map structure.

gaissmai/bart also supports a lockless routing table version, but this is not simple because we would need to extend this to the map storing the routes and to the interning mechanism. I also attempted to use Go’s new unique package to replace the intern package included in Akvorado, but performance was worse.⁷

Miscellaneous

Previous versions of Akvorado were using a custom Protobuf encoder for performance and flexibility. With the introduction of the outlet service, Akvorado only needs a simple static schema, so this code was removed. However, it is possible to enhance performance with planetscale/vtprotobuf (e49a74, and 8b580f). Moreover, the dependency on protoc, a C++ program, was somewhat annoying. Therefore, Akvorado now uses buf, written in Go, to convert a Protobuf schema into Go code (f4c879).

Another small optimization to reduce the size of the Akvorado binary by 10 MB was to compress the static assets embedded in Akvorado in a ZIP file. It includes the ASN database, as well as the SVG images for the documentation. A small layer of code makes this change transparent (b1d638 and e69b91).

JavaScript

Recently, two large supply-chain attacks hit the JavaScript ecosystem: one affecting the popular packages chalk and debug and another impacting the popular package @ctrl/tinycolor. These attacks also exist in other ecosystems, but JavaScript is a prime target due to heavy use of small third-party dependencies. The previous version of Akvorado relied on 653 dependencies.

npm-run-all was removed (3424e8, 132 dependencies). patch-package was removed (625805 and e85ff0, 69 dependencies) by moving missing TypeScript definitions to env.d.ts. eslint was replaced with oxlint, a linter written in Rust (97fd8c, 125 dependencies, including the plugins).

I switched from npm to Pnpm, an alternative package manager (fce383). Pnpm does not run install scripts by default⁸ and prevents installing packages that are too recent. It is also significantly faster.⁹ Node.js does not ship Pnpm but it ships Corepack, which allows us to use Pnpm without installing it. Pnpm can also list licenses used by each dependency, removing the need for license-compliance (a35ca8, 42 dependencies).

For additional speed improvements, beyond switching to Pnpm and Oxlint, Vite was replaced with its faster Rolldown version (463827).

After these changes, Akvorado “only” pulls 225 dependencies. 😱

Next steps

I would like to land three features in the next version of Akvorado:

Add Grafana dashboards to complete the observability stack. See issue #1906 for details.
Integrate OVH’s Grafana plugin by providing a stable API for such integrations. Akvorado’s web console would still be useful for browsing results, but if you want to build and share dashboards, you should switch to Grafana. See issue #1895.
Move some work currently done in ClickHouse (custom dictionaries, GeoIP and IP enrichment) back into the outlet service. This should give more flexibility for adding features like the one requested in issue #1030.

I started working on splitting the inlet into two parts more than one year ago. I found more motivation in recent months, partly thanks to Claude Code, which I used as a rubber duck. Almost none of the produced code was kept:¹⁰ it is like an intern who does not learn. 🦆

Many attempts were made to make the BMP component both performant and not blocking. See for example PR #254, PR #255, and PR #278. Despite these efforts, this component remained problematic for most users. See issue #1461 as an example. ↩︎
Some features have been pushed to ClickHouse to avoid the processing cost in the inlet. See for example PR #1059. ↩︎

This is the biggest commit:

$ git show --shortstat ac68c5970e2c | tail -1
231 files changed, 6474 insertions(+), 3877 deletions(-)

↩︎

Broadcom is known for its user-hostile moves. Look at what happened with VMWare. ↩︎
As a Debian developer, I dislike these mechanisms that circumvent the distribution package manager. The final straw came when Go 1.25 spent one month in the Debian NEW queue, an arbitrary mechanism I don’t like at all. ↩︎
In the early years of Go, channels were heavily promoted. Sarama was designed during this period. A few years later, a more nuanced approach emerged. See notably “Go channels are bad and you should feel bad.” ↩︎
This should be investigated further, but my theory is that the intern package uses 32-bit integers, while unique uses 64-bit pointers. See commit 74e5ac. ↩︎
This is also possible with npm. See commit dab2f7. ↩︎
An even faster alternative is Bun, but it is less available. ↩︎
The exceptions are part of the code for the admonition blocks, the code for collapsing the table of content, and part of the documentation. ↩︎

22 September, 2025 08:12AM by Vincent Bernat

September 21, 2025

Gunnar Wolf

We, Programmers A Chronicle of Coders from Ada to AI

This post is an unpublished review for We, Programmers A Chronicle of Coders from Ada to AI

When this book was presented as available to review, I jumped for it: who does not love reading a nice bit of computing history, as told by a well-known author (affectionaly known as “Uncle Bob”), one that has been immersed in computing since forever… What is not to like there?

Reading on, the book does not disappoint. Much to the contrary, it digs into details absent in most computer history books that, being an Operating Systems and Computer Architecture geek, I absolutely enjoyed. But let me first address the book’s organization.

The book is split in four parts. Part 1, “Setting the stage” is a short introduction, answering the questioun “Who are we?” (addressing “we” as the programmers, of course), describing the fascination most of us has ever felt when realizing the computer was there to obey us, to do our bidding, and we could absolutely control it.

Part 2, “The Giants”, talks about the Giants our computing world owes to, and on whose shoulders we stand on. It digs with a level of detail I had never seen before in the personal life and technical contributions (as well as the hoops they had to jump through to get their work done). Nine chapters cover “Giants” ranging chronologically from Charles Babbage and Ada Lovelace to Ken Thompson, Dennis Richie and Brian Kernighan (of course, several giants who did their contribution together are grouped in the same chapter). This is the part with most historic technical details often overlooked — What was the word size in the first computers, before even the concept of a “byte” had been brought into regular use? What was the register structure of early CPUs, and why did it lead to requiring self-modifying code to be able to execute loops?

Then, just as Unix and C get invented, Part 3 skips to computer history as seen by the eyes of “Uncle Bob”. I must admit the change of rhythm initially startled me, but it went through quite well. The focus was no longer in the Giants of the field, but on one particular person who… Casts a very long shadow. The narrative follows the author’s career, since being a boy given access to electronics by his father’s line of work, until he becomes a computing industry leader in the early 2000s with Extreme Programming and becoming among the first producers of training material in video format, something today might be recognized as an “influencer”. This first-person narrative reaches year 2023.

But the book is not just a historical overview of the computing world, of course. “Uncle Bob” has a final section with his thoughts for the future of computing. Being this a book for programmers, it is fitting to start by talking about changes in programming languages we should expect to see towards the future and where such changes are prone to take place. Second, the unavoidable topic of Artificial Intelligence is presented: What is it and what does it spell for computing, and in particular, for programming? Third, what does the future of hardware development look like? Fourth, mostly to my surprise, what is prone to be the evolution of the World Wide Web, and finally, what is the future of programming — and programmers.

At 480 pages, the book is a volume to be taken seriously. But space is very well used with this text. The material is easy to read, often funny, but always informative. If you enjoy computer history and understanding the little details in the implementations, it might very well be the book you want.

21 September, 2025 08:07PM

Dirk Eddelbuettel

rcppmlpackexamples 0.0.1 on CRAN: New Package

mlpack is a fabulous project providing countless machine learning algorithms in clean and performant C++ code as a header-only library. This gives both high performance and the ability to run the code in resource-constrained environment such as embedded systems. Bindings to a number of other languages are available, and an examples repo provides examples.

The project also has a mature R package on CRAN which offers the various algorithms directly in R. Sometimes, however, one might want to use the header-only C++ code in another R package. How to do that was not well documented. A user alerted me by email to this fact a few weeks ago, and this lead to both an updated mlpack release at CRAN and this package.

In short, we show via three complete examples how to access the mlpack code in C++ code in this package, offering a re-usable stanza to start a different package from. The only other (header-only) dependencies are provided by CRAN packages RcppArmadillo and RcppEnsmallen wrapping, respectively, the linear algebra and optimization libraries used by mlpack.

Courtesy of my CRANberries, there is also a a ‘new package’ note (no diffstat report yet). More detailed information is on the rcppmlpackexamples page, or 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.

21 September, 2025 05:07PM

Joey Hess

cheap DIY solar fence design

A year ago I installed a 4 kilowatt solar fence. I'm revisiting it this Sun Day, to share the design, now that I have prooved it out.

The solar fence and some other ground and pole mount solar panels, seen through leaves.

Solar fencing manufacturers have some good simple designs, but it's hard to buy for a small installation. They are selling to utility scale solar mostly. And those are installed by driving metal beams into the ground, which requires heavy machinery.

Since I have experience with Ironridge rails for roof mount solar, I decided to adapt that system for a vertical mount. Which is something it was not designed for. I combined the Ironridge hardware with regular parts from the hardware store.

The cost of mounting solar panels nowadays is often higher than the cost of the panels. I hoped to match the cost, and I nearly did. The solar panels cost $100 each, and the fence cost $110 per solar panel. This fence was significantly cheaper than conventional ground mount arrays that I considered as alternatives, and made a better use of a difficult hillside location.

I used 7 foot long Ironridge XR-10 rails, which fit 2 solar panels per rail. (Longer rails would need a center post anyway, and the 7 foot long rails have cheaper shipping, since they do not need to be shipped freight.)

For the fence posts, I used regular 4x4" treated posts. 12 foot long, set in 3 foot deep post holes, with 3x 50 lb bags of concrete per hole and 6 inches of gravel on the bottom.

detail of how the rails are mounted to the posts, and the panels to the rails

To connect the Ironridge rails to the fence posts, I used the Ironridge LFT-03-M1 slotted L-foot bracket. Screwed into the post with a 5/8” x 3 inch hot-dipped galvanized lag screw. Since a treated post can react badly with an aluminum bracket, there needs to be some flashing between the post and bracket. I used Shurtape PW-100 tape for that. I see no sign of corrosion after 1 year.

The rest of the Ironridge system is a T-bolt that connects the rail to the L-foot (part BHW-SQ-02-A1), and Ironridge solar panel fasteners (UFO-CL-01-A1 and UFO-STP-40MM-M1). Also XR-10 end caps and wire clips.

Since the Ironridge hardware is not designed to hold a solar panel at a 90 degree angle, I was concerned that the panels might slide downward over time. To help prevent that, I added some additional support brackets under the bottom of the panels. So far, that does not seem to have been a problem though.

I installed Aptos 370 watt solar panels on the fence. They are bifacial, and while the posts block the back partially, there is still bifacial gain on cloudy days. I left enough space under the solar panels to be able to run a push mower under them.

Me standing in front of the solar fence at end of construction

I put pairs of posts next to one-another, so each 7 foot segment of fence had its own 2 posts. This is the least elegant part of this design, but fitting 2 brackets next to one-another on a single post isn't feasible. I bolted the pairs of posts together with some spacers. A side benefit of doing it this way is that treated lumber can warp as it dries, and this prevented much twisting of the posts.

Using separate posts for each segment also means that the fence can traverse a hill easily. And it does not need to be perfectly straight. In fact, my fence has a 30 degree bend in the middle. This means it has both south facing and south-west facing panels, so can catch the light for longer during the day.

After building the fence, I noticed there was a slight bit of sway at the top, since 9 feet of wooden post is not entirely rigid. My worry was that a gusty wind could rattle the solar panels. While I did not actually observe that happening, I added some diagonal back bracing for peace of mind.

view of rear upper corner of solar fence, showing back bracing connection

Inspecting the fence today, I find no problems after the first year. I hope it will last 30 years, with the lifespan of the treated lumber being the likely determining factor.

As part of my larger (and still ongoing) ground mount solar install, the solar fence has consistently provided great power. The vertical orientation works well at latitude 36. It also turned out that the back of the fence was useful to hang conduit and wiring and solar equipment, and so it turned into the electrical backbone of my whole solar field. But that's another story..

solar fence parts list

quantity	cost per unit	description
10	$27.89	7 foot Ironridge XR-10 rail
12	$20.18	12 foot treated 4x4
30	$4.86	Ironridge UFO-CL-01-A1
20	$0.87	Ironridge UFO-STP-40MM-M1
1	$12.62	Ironridge XR-10 end caps (20 pack)
20	$2.63	Ironridge LFT-03-M1
20	$1.69	Ironridge BHW-SQ-02-A1
22	$2.65	5/8” x 3 inch hot-dipped galvanized lag screw
10	$0.50	6” gravel per post
30	$6.91	50 lb bags of quickcrete
1	$15.00	Shurtape PW-100 Corrosion Protection Pipe Wrap Tape
N/A	$30	other bolts and hardware (approximate)

$1100 total

(Does not include cost of panels, wiring, or electrical hardware.)

21 September, 2025 04:15PM

Jonathan Dowland

Lavalamps (things that spark joy)

photograph of a Mathmos Telstar rocket lava lamp with red wax and purple water

Life can sometimes be tricky, and it's useful to know that there are some simple things to take pleasure from. Amongst them for me are lava lamps.

At some point in the late 90s, my brother and I somehow had 6 lavalamps between us. I'm not sure what happened to them (and the gallery of photos I had of them has long disappeared from my site.)

More recently, I stumbled across a Mathmos "Telstar" rocket-shaped lava lamp in a charity shop: silver metal; purple water; red wax.

It now adorns my study desk.

21 September, 2025 12:21PM

Bits from Debian

Bits From Argentina - August 2025

DebConf26 is already in the air in Argentina. Organizing DebConf26 give us the opportunity to talk about Debian in our country again. This is not the first time that Debian has come here, previously Argentina has hosted DebConf 8 in Mar del Plata.

In August, Nattie Mayer-Hutchings and Stefano Rivera from DebConf Committee visited the venue where the next DebConf will take place. They came to Argentina in order to see what it is like to travel from Buenos Aires to Santa Fe (the venue of the next DebConf). In addition, they were able to observe the layout and size of the classrooms and halls, as well as the infrastructure available at the venue, which will be useful for the Video Team.

But before going to Santa Fe, on the August 27th, we organized a meetup in Buenos Aires at GCoop, where we hosted some talks:

¿Qué es Debian? - Pablo Gonzalez (sultanovich) / Emmanuel Arias
Cooperativismo y Software Libre - Osiux (gcoop)
Debian and DebConf (Stefano Rivera)

GCoop Talks

On August 28th, we had the opportunity to get to know the Venue. We walked around the city and, obviously, sampled some of the beers from Santa Fe.

On August 29th we met with representatives of the University and local government who were all very supportive. We are very grateful to them for opening their doors to DebConf.

UNL Meeting

In the afternoon we met some of the local free software community at an event we held in ATE Santa Fe. The event included several talks:

¿Qué es Debian? - Pablo (sultanovich) / Emmanuel Arias
Ciberrestauradores: Gestores de basura electrónica - Programa RAEES Acutis
Debian and DebConf (Stefano Rivera/Nattie Mayer-Hutchings)

ATE Talks

Thanks to Debian Argentina, and all the people who will make DebConf26 possible.

Thanks to Nattie Mayer-Hutchings and Stefano Rivera for reviewing an earlier version of this article.

21 September, 2025 11:05AM by Emmanuel Arias

September 20, 2025

Thomas Goirand

Real-Time OpenStack Packaging Status with Event-Driven Automation

tl;dr: https://osbpo.debian.net/deb-status is now real-time updated and much better than it used to, helping the OpenStack packaging team be a way more efficient.

How it used to be

For years, the Debian OpenStack team has relied on automated tools to track the status of OpenStack packages across Debian releases. Our goal has always been simple: transparency, efficiency, accuracy.

We used to use a tool called os-version-checker, written by Michal Arbet, which generated a static status page at https://osbpo.debian.net/deb-status. It was functional and served us well — but it had limitations:

It ran on a cron job, not on demand
It processed all OpenStack releases at once, making it slow
The rsync from Jenkins hosts to osbpo.debian.net was also cron-driven
No immediate feedback after a package build

This meant that when a developer pushed a new package to salsa (the Debian GitLab instance) in the team’s repository, the following would happen:

Jenkins would build the backport
Store it in a local repository
Wait up to 30 minutes (or more) for the cron job to run rsync + status update
Only then would the status page reflect the new version

For maintainers actively working on a new release, this delay was frustrating. You’d fix a bug, push, build — and still see your package marked as “missing” or “out of date” for minutes. You had no real-time feedback. This was also an annoyance for testing, because when fixing a bug, I often had to trigger the rsync manually in order to not wait for it, so I could do my tests. Now, osbpo is always up-to-date a few seconds after the build of the package.

The New Way: Event-Driven, Real-Time Updates

We’ve rebuilt the system from the ground up to be fast, responsive, and event-driven. Now, the workflow is:

Developer git push → triggers Jenkins
Jenkins builds the package → publishes to local repo
Jenkins immediately triggers a webhook on osbpo.debian.net

The webhook on osbpo does:

rsyncs the new package to the central Debian repo
Pulls the latest OpenStack releases from git and use its YAML data (instead of parsing the release HTML pages)
Regenerates the status page, comparing what upstream released and what’s in Debian

No more cron. No more waiting…

How it works

The central osbpo.debian.net server runs:

webhook — to receive secure, HMAC-verified triggers that it processes in an async way
Apache — to serve the status pages and the Debian OpenStack repositories
Custom scripts — to rsync packages, validate, and generate reports

Jenkins instances are configured to curl the webhook on successful build. The status page is generated by openstack-debian-release-manager, a new tool I’ve packaged and deployed. The dashboard uses AJAX to load content dynamically (like when browsing from one release to another), with sorting, metadata, and real-time auto-refresh every 10 seconds.

openstack-debian-release-manager is easy to deploy and configure, and will do most (if not all) of the needed configuration. Uploading it to Debian is probably not needed, and a bit over-kill, so I believe I’ll just keep it in Salsa for the moment, unless there’s a way to make it more generic so it can help someone else (another team?) in Debian.

Room for improvement

There’s still things I want to add. Namely:

Add status for Debian stable (ie: without the osbpo.debian.net add-on repository), which we used to have with os-version-checker.
Add a per-release config file option to be able to mask not packaged project on a per OpenStack release granularity

Special thanks to Michal Arbet for the original os-version-checker that served me for years, helping me to never forget a missing OpenStack package release.

20 September, 2025 07:59PM by Goirand Thomas

September 18, 2025

Gunnar Wolf

Still use Twitter/X? Consider dropping it...

Many people that were once enthusiast Twitter users have dropped as a direct or indirect effect of its ownership change and the following policy changes. Given ~~Twitter~~ X is getting each time more irrelevant, it is less interesting and enciting for more and more people… But also, its current core users (mostly, hate-apologists of the right-wing mindset that finds conspiration theories everywhere) are becoming more commonplace, and by sheer probability (if not for algorithmic bias), every time it becomes more likely a given piece of content will be linked to what their authors would classify as crap.

So, there has been in effect an X exodus. This has been reported in media outlets as important as Reuters, or The Guardianresearch institutes such as Berkeley, even media that no matter how hard you push cannot be identified as the radical left Mr. Trump is so happy to blame for everything, such as Forbes…

Today I read a short note in a magazine I very much enjoy, Communications of the ACM, where SIGDOC (the ACM’s Special Interest Group on Design of Communication) is officially closing their X account. The reasoning is crystal clear. They have the mission to create and study User Experience (UX) implementations and report on it, «focused on making communication clearer and more human centered». That is no longer, for many reasons, a goal that can be furthered by the means of an X account.

(BTW, and… How many people are actually angry that Mr. Musk took the X11 old logo and made it his? I am sure it is now protected under too many layers of legalese, even though I am aware of it since at least 30 years ago…)

18 September, 2025 07:57PM

John Goerzen

Running an Accurate 80×25 DOS-Style Console on Modern Linux Is Possible After All

Here, in classic Goerzen deep dive fashion, is more information than you knew you wanted about a topic you’ve probably never thought of. I found it pretty interesting, because it took me down a rabbit hole of subsystems I’ve never worked with much and a mishmash of 1980s and 2020s tech.

I had previously tried and failed to get an actual 80x25 Linux console, but I’ve since figured it out!

This post is about the Linux text console – not X or Wayland. We’re going to get the console right without using those systems. These instructions are for Debian trixie, but should be broadly applicable elsewhere also. The end result can look like this:

Photo of a color VGA monitor displaying a BBS login screen

(That’s a Wifi Retromodem that I got at VCFMW last year in the Hayes modem case)

What’s a pixel?

How would you define a “pixel” these days? Probably something like “a uniquely-addressable square dot in a two-dimensional grid”.

In the world of VGA and CRTs, that was just a logical abstraction. We got an API centered around that because it was convenient. But, down the VGA cable and on the device, that’s not what a pixel was.

A pixel, back then, was a time interval. On a multisync monitor, which were common except in the very early days of VGA, the timings could be adjusted which produced logical pixels of different sizes. Those screens often had a maximum resolution but not necessarily a “native resolution” in the sense that an LCD panel does. Different timings produced different-sized pixels with equal clarity (or, on cheaper monitors, equal fuzziness).

A side effect of this was that pixels need not be square. And, in fact, in the standard DOS VGA 80x25 text mode, they weren’t.

You might be seeing why DVI, DisplayPort, and HDMI replaced VGA for LCD monitors: with a VGA cable, you did a pixel-to-analog-timings conversion, then the display did a timings-to-pixels conversion, and this process could be a bit lossy. (Hence why you sometimes needed to fill the screen with an image and push the “center” button on those older LCD screens)

(Note to the pedantically-inclined: yes I am aware that I have simplified several things here; for instance, a color LCD pixel is made up of approximately 3 sub-dots of varying colors, and that things like color eInk displays have two pixel grids with different sizes of pixels layered atop each other, and printers are another confusing thing altogether, and and and…. MOST PEOPLE THINK OF A PIXEL AS A DOT THESE DAYS, OK?)

What was DOS text mode?

We think of this as the “standard” display: 80 columns wide and 25 rows tall. 80x25. By the time Linux came along, the standard Linux console was VGA text mode – something like the 4th incarnation of text modes on PCs (after CGA, MDA, and EGA). VGA also supported certain other sizes of characters giving certain other text dimensions, but if I cover all of those, this will explode into a ridiculously more massive page than it already is.

So to display text on an 80x25 DOS VGA system, ultimately characters and attributes were written into the text buffer in memory. The VGA system then rendered it to the display as a 720x400 image (at 70Hz) with non-square pixels such that the result was approximately a 4:3 aspect ratio.

The font used for this rendering was a bitmapped one using 8x16 cells. You might do some math here and point out that 8 * 80 is only 640, and you’d be correct. The fonts were 8x16 but the rendered cells were 9x16. The extra pixel was normally used for spacing between characters. However, in line graphics mode, characters 0xC0 through 0xDF repeated the 8th column in the position of the 9th, allowing the continuous line-drawing characters we’re used to from TUIs.

Problems rendering DOS fonts on modern systems

By now, you’re probably seeing some of the issues we have rendering DOS screens on more modern systems. These aren’t new at all; I remember some of these from back in the days when I ran OS/2, and I think also saw them on various terminals and consoles in OS/2 and Windows.

Some issues you’d encounter would be:

Incorrect aspect ratio caused by using the original font and rendering it using 1:1 square pixels (resulting in a squashed appearance)
Incorrect aspect ratio for ANOTHER reason, caused by failing to render column 9, resulting in text that is overall too narrow
Characters appearing to be touching each other when they shouldn’t (failing to render column 9; looking at you, dosbox)
Gaps between line drawing characters that should be continuous, caused by rendering column 9 as empty space in all cases

Character set issues

DOS was around long before Unicode was. In the DOS world, there were codepages that selected the glyphs for roughly the high half of the 256 possible characters. CP437 was the standard for the USA; others existed for other locations that needed different characters. On Unix, the USA pre-Unicode standard was Latin-1. Same concept, but with different character mappings.

Nowadays, just about everything is based on UTF-8. So, we need some way to map our CP437 glyphs into Unicode space. If we are displaying DOS-based content, we’ll also need a way to map CP437 characters to Unicode for display later, and we need these maps to match so that everything comes out right. Whew.

So, let’s get on with setting this up!

Selecting the proper video mode

As explained in my previous post, proper hardware support for DOS text mode is limited to x86 machines that do not use UEFI. Non-x86 machines, or x86 machines with UEFI, simply do not contain the necessary support for it. As these are now standard, most of the time, the text console you see on Linux is actually the kernel driving the video hardware in graphics mode, and doing the text rendering in software.

That’s all well and good, but it makes it quite difficult to actually get an 80x25 console.

First, we need to be running at 720x400. This is where I ran into difficulty last time. I realized that my laptop’s LCD didn’t advertise any video modes other than its own native resolution. However, almost all external monitors will, and 720x400@70 is a standard VGA mode from way back, so it should be well-supported.

You need to find the Linux device name for your device. You can look at the possible devices with ls -l /sys/class/drm. If you also have a GUI, xrandr may help too. But in any case, each directory under /sys/class/drm has a file named modes, and if you cat them all, you will eventually come across one with a bunch of modes defined. Drop the leading “card0” or whatever from the directory name, and that’s your device. (Verify that 720x400 is in modes while you’re at it.)

Now, you’re going to edit /etc/default/grub and add something like this to GRUB_CMDLINE_LINUX_DEFAULT:

video=DP-1:720x400@70

Of course, replace DP-1 with whatever your device is.

Now you can run update-grub and reboot. You should have a 720x400 display.

At first, I thought I had succeeded by using Linux’s built-in VGA font with that mode. But it looked too tall. After noticing that repeated 0s were touching, I got suspicious about the missing 9th column in the cells. stty -a showed that my screen was 90x25, which is exactly what it would show if I was using 8x16 instead of 9x16 cells. Sooo…. I need to prepare a 9x16 font.

Preparing a font

Here’s where it gets complicated.

I’ll give you the simple version and the hard mode.

The simple mode is this: Download https://www.complete.org/downloads/CP437-VGA.psf.gz and stick it in /usr/local/etc, then skip to the “Activating the font” section below.

The font assembled here is based on the Ultimate Oldschool PC Font Pack v2.2, which is (c) 2016-2020 VileR and licensed under Creative Commons Attribution-ShareAlike 4.0 International License. My psf file is derived from this using the instructions below.

Building it yourself

First, install some necessary software: apt-get install fontforge bdf2psf

Start by going to the Oldschool PC Font Pack Download page. Download oldschool_pc_font_pack_v2.2_FULL.zip and unpack it.

The file we’re interested in is otb - Bm (linux bitmap)/Bm437_IBM_VGA_9x16.otb. Open it in fontforge by running fontforge BmPlus_IBM_VGA_9x16.otb. When it asks if you will load the bitmap fonts, hit select all, then yes. Go to File -> generate fonts. Save in a BDF, no need for outlines, and use “guess” for resolution.

Now you have a file such as Bm437_IBM_VGA_9x16-16.bdf. Excellent.

Now we need to generate a Unicode map file. We will make sure this matches the system’s by enumerating every character from 0x00 to 0xFF, converting it from CP437 to Unicode, and writing the appropriate map.

Here’s a Python script to do that:

for i in range(0, 256):
    cp437b = b'%c' % i
    uni = ord(cp437b.decode('cp437'))
    print(f"U+{uni:04x}")

Save that file as genmap.py and run python3 genmap.py > cp437-uni.

Now, we’re ready to build the psf file:

bdf2psf --fb Bm437_IBM_VGA_9x16-16.bdf \
  /dev/null cp437-uni 256 CP437-VGA.psf

By convention, we normally store these files gzipped, so gzip CP437-VGA.psf.

You can test it on the console with setfont CP437-VGA.psf.gz.

Now copy this file into /usr/local/etc.

Activating the font

Now, edit /etc/default/console-setup. It should look like this:

# CONFIGURATION FILE FOR SETUPCON

# Consult the console-setup(5) manual page.

ACTIVE_CONSOLES="/dev/tty[1-6]"

CHARMAP="UTF-8"

CODESET="Lat15"
FONTFACE="VGA"
FONTSIZE="8x16"
FONT=/usr/local/etc/CP437-VGA.psf.gz

VIDEOMODE=

# The following is an example how to use a braille font
# FONT='lat9w-08.psf.gz brl-8x8.psf'

At this point, you should be able to reboot. You should have a proper 80x25 display! Log in and run stty -a to verify it is indeed 80x25.

Using and testing CP437

Part of the point of CP437 is to be able to access BBSs, ANSI art, and similar.

Now, remember, the Linux console is still in UTF-8 mode, so we have to translate CP437 to UTF-8, then let our font map translate it back to CP437. A weird trip, but it works.

Let’s test it using the Textfiles ANSI art collection. In the artworks section, I randomly grabbed a file near the top: borgman.ans. Download that, and display with:

clear; iconv -f CP437 -t UTF-8 < borgman.ans

You should see something similar to – but actually more accurate than – the textfiles PNG rendering of it, which you’ll note has an incorrect aspect ratio and some rendering issues. I spot-checked with a few others and they seemed to look good. belinda.ans in particular tries quite a few characters and should give you a good sense if it is working.

Use with interactive programs

That’s all well and good, but you’re probably going to want to actually use this with some interactive program that expects CP437. Maybe Minicom, Kermit, or even just telnet?

For this, you’ll want to apt-get install luit. luit maps CP437 (or any other encoding) to UTF-8 for display, and then of course the Linux console maps UTF-8 back to the CP437 font.

Here’s a way you can repeat the earlier experiment using luit to run the cat program:

clear; luit -encoding CP437 cat borgman.ans

You can run any command under luit. You can even run luit -encoding CP437 bash if you like. If you do this, it is probably a good idea to follow my instructions on generating locales on my post on serial terminals, and then within luit, set LANG=en_us.IBM437. But note especially that you can run programs like minicom and others for accessing BBSs under luit.

Final words

This gave you a nice DOS-type console. Although it doesn’t have glyphs for many codepoints, it does run in UTF-8 mode and therefore is compatible with modern software.

You can achieve greater compatibility with more UTF-8 codepoints with the DOS font, at the expense of accuracy of character rendering (especially for the double-line drawing characters) by using /usr/share/bdf2psf/standard.equivalents instead of /dev/null in the bdf2psf command.

Or you could go for another challenge, such as using the DEC vt-series fonts for coverage of ISO-8859-1. But just using fonts extracted from DEC ROM won’t work properly, because DEC terminals had even more strangeness going on than DOS fonts.

18 September, 2025 12:58PM by John Goerzen

September 17, 2025

Installing and Using Debian With My Decades-Old Genuine DEC vt510 Serial Terminal

Six years ago, I was inspired to buy a DEC serial terminal. Since then, my collection has grown to include several DEC models, an IBM 3151, a Wyse WY-55, a Televideo 990, and a few others.

When you are running a terminal program on Linux or MacOS, what you are really running is a terminal emulator. In almost all cases, the terminal emulator is emulating one of the DEC terminals in the vt100 through vt520 line, which themselves use a command set based on an ANSI standard.

In short, you spend all day using a program designed to pretend to be the exact kind of physical machine I’m using for this experiment!

I have long used my terminals connected to a Raspberry Pi 4, but due to the difficulty of entering a root filesystem encryption password using a serial console on a Raspberry Pi, I am switching to an x86 Mini PC (with a N100 CPU).

While I have used a terminal with the Pi, I’ve never before used it as a serial console all the way from early boot, and I have never installed Debian using the terminal to run the installer. A serial terminal gives you a login prompt. A serial console gives you access to kernel messages, the initrd environment, and sometimes even the bootloader.

This might be fun, I thought.

I selected one of my vt510 terminals for this. It is one of my newer ones, having been built in 1993. But it has a key feature: I can remap Ctrl to be at the caps lock position, something I do on every other system I use anyhow. I could have easily selected an older one from the 1980s.

Kernel configuration

To enable a serial console for Linux, you need to pass a parameter on the kernel command line. See the kernel documentaiton for more. I very frequently see instructions that are incomplete; they particularly omit flow control, which is most definitely needed for these real serial terminals.

I run my terminal at 57600 bps, so the parameter I need is console=ttyS0,57600n8r. The “r” means to use hardware flow control (ttyS0 corresponds to the first serial port on the system; use ttyS1 or something else as appropriate for your situation). While booting the Debian installer, according to Debian’s instructions, it may be useful to also add TERM=vt102 (the installer doesn’t support the vt510 terminal type directly). The TERM parameter should not be specified on a running system after instlalation.

Booting the Debian installer

When you start the Debian installer, to get it into serial mode, you have a couple of options:

You can use a traditional display and keyboard just long enough to input the kernel parameters described above
You can edit the bootloader configuration on the installer’s filesystem prior to booting from it

Option 1 is pretty easy. Option 2 is hard mode, but not that bad.

On x86, the Debian installer boots in at least two different ways: it uses GRUB if you’re booting under UEFI (which is most systems these days), or ISOLINUX if you are booting from the BIOS.

If using GRUB, the file to edit on the installer image is boot/grub/grub.cfg.

Near the top, add these lines:

serial --unit=0 --speed=57600 --word=8 --parity=no --stop=1
terminal_input console serial
terminal_output console serial

Unit 0 corresponds to ttyS0 as above.

GRUB’s serial command does not support flow control. If your terminal gets corrupted during the GRUB stage, you may need to configure it to a slower speed.

Then, find the “linux” line under the “Install” menuentry. Edit it to insert console=ttyS0,57600n8r TERM=vt102 right after the vga=788.

Save, unmount, and boot. You should see the GRUB screen displayed on your serial terminal. Select the Install option and the installer begins.

If you are using BIOS boot, I’m sure you can do something similar with the files in the isolinux directory, but haven’t researched it.

Now, you can install Debian like usual!

Configuring the System

I was pleasantly surprised to find that Debian’s installer took care of many, but not all, of the things I want to do in order to make the system work nicely with a serial terminal. You can perform these steps from a chroot under the installer environment before a reboot, or later in the running system.

First, while Debian does set up a getty (the program that displays the login prompt) on the serial console by default, it doesn’t enable hardware flow control. So let’s do that.

Configuring the System: agetty with systemd

Run systemctl edit serial-getty@ttyS0.service. This opens an editor that lets you customize the systemd configuration for a given service without having to edit the file directly. All you really need to do is modify the agetty command, so we just override it. At the top, in the designated area, write:

[Service]
ExecStart=
ExecStart=-/sbin/agetty --wait-cr -8 -h -L=always %I 57600 vt510

The empty ExecStart= line is necessary to tell systemd to remove the existing ExecStart command (otherwise, it will logically contain two ExecStart lines, which is an error).

These arguments say:

–wait-cr means to wait for the user to press Return at the terminal before attempting to display the login prompt
-8 tells it to assume 8-bit mode on the serial line
-h enables hardware flow control
-L=always enables local line mode, disabling monitoring of modem control lines
%I substitutes the name of the port from systemd
57600 gives the desired speed, and vt510 gives the desired setting for the TERM environment variable

The systemd documentation refers to this page about serial consoles, which gives more background. However, I think it is better to use the systemctl edit method described here, rather than just copying the config file, since this lets things like new configurations with new Debian versions take effect.

Configuring the System: Kernel and GRUB

Your next stop is the /etc/default/grub file. Debian’s installer automatically makes some changes here. There are three lines you want to change. First, near the top, edit GRUB_CMDLINE_LINUX_DEFAULT and add console=tty0 console=ttyS0,57600n8r. By specifying console twice, you allow output to go both to the standard display and to the serial console. By specifying the serial console last, you make it be the preferred one for things like entering the root filesystem password.

Next, towards the bottom, make sure these two lines look like this:

GRUB_TERMINAL="console serial"
GRUB_SERIAL_COMMAND="serial --unit=0 --speed=57600 --word=8 --parity=no --stop=1"

Finally, near the top, you may want to raise the GRUB_TIMEOUT to somewhere around 10 to 20 seconds since things may be a bit slower than you’re used to.

Save the file and run update-grub.

Now, GRUB will display on both your standard display and the serial console. You can edit the boot command from either. If you have a VGA or HDMI monitor attached, for instance, and need to not use the serial console, you can just edit the Linux command line in GRUB and remove the reference to ttyS0 for one boot. Easy!

That’s it. You now have a system that is fully operational from a serial terminal.

My original article from 2019 has some additional hints, including on how to convert from UTF-8 for these terminals.

Update 2025-09-17: It is also useful to set up proper locales. To do this, first edit /etc/locale.gen. Make sure to add, or uncomment:

en_US ISO-8859-1
en_US.IBM437 IBM437
en_US.UTF-8 UTF-8

Then run locale-gen. Normally, your LANG will be set to en_us.UTF-8, which will select the appropriate encoding. Plain en_US will select ISO-8859-1, which you need for the vt510. Then, add something like this to your ~/.bashrc:

if [ `tty` = "/dev/ttyS0" -o "$TERM" = "vt510" ]; then
        stty -iutf8
        # might add ixon ixoff
        export LANG=en_US
        export MANOPT="-E ascii"
        stty rows 25
fi

if [ "$TERM" = "screen" -o "$TERM" = "vt100" ]; then
    export LANG=en_US.utf8
fi

Finally, in my ~/.screenrc, I have this. It lets screen convert between UTF-8 and ISO-8859-1:

defencoding UTF-8
startup_message off
vbell off
termcapinfo * XC=B%,‐-,
maptimeout 5
bindkey -k ku stuff ^[OA
bindkey -k kd stuff ^[OB
bindkey -k kr stuff ^[OC
bindkey -k kl stuff ^[OD

17 September, 2025 12:49PM by John Goerzen

September 16, 2025

Raju Devidas

Building Debian 13 Trixie Vagrant Image

I sometimes use Vagrant to deploy my VM&aposs and recently when I tried to deploy one for Trixie, I could see one available. So I checked the official Debian images on Vagrant cloud at https://portal.cloud.hashicorp.com/vagrant/discover/debian and could not find an image for trixie on Vagrant cloud.

Also looked at other cloud image sources like Docker hub, and I could see an image their for Trixie. So I looked into how I can generate a Vagrant image locally for Debian to use.

make install-build-deps

Searched on Salsa and stumbled upon https://salsa.debian.org/cloud-team/debian-vagrant-images

Cloned the repo from salsa

$ git clone https://salsa.debian.org/cloud-team/debian-vagrant-images.git

Install the build dependencies

$ make install-build-deps

this will install some dependency packages, will ask for sudo password if need to install something not already installed.

Let&aposs call make help

$ make help
To run this makefile, run:
   make <DIST>-<CLOUD>-<ARCH>
  WHERE <DIST> is bullseye, buster, stretch, sid or testing
    And <CLOUD> is azure, ec2, gce, generic, genericcloud, nocloud, vagrant, vagrantcontrib
    And <ARCH> is amd64, arm64, ppc64el
Set DESTDIR= to write images to given directory.

$ make trixie-vagrant-amd64
umask 022; \
./bin/debian-cloud-images build \
  trixie vagrant amd64 \
  --build-id vagrant-cloud-images-master \
  --build-type official
usage: debian-cloud-images build
debian-cloud-images build: error: argument RELEASE: invalid value: trixie
make: *** [Makefile:22: trixie-vagrant-amd64] Error 2

As you can see, trixie is not even in the available options and it is not building as well. Before trying to look at updating the codebase, I looked at the pending MR&aposs on Salsa and found Michael Ablassmeier&aposs pending merge request at https://salsa.debian.org/cloud-team/debian-vagrant-images/-/merge_requests/18

So let me test that commit and see if I can build trixie locally from Michael&aposs MR

$ git clone https://salsa.debian.org/debian/debian-vagrant-images.git
Cloning into &aposdebian-vagrant-images&apos...
remote: Enumerating objects: 5310, done.
remote: Counting objects: 100% (256/256), done.
remote: Compressing objects: 100% (96/96), done.
remote: Total 5310 (delta 141), reused 241 (delta 135), pack-reused 5054 (from 1)
Receiving objects: 100% (5310/5310), 629.81 KiB | 548.00 KiB/s, done.
Resolving deltas: 100% (2875/2875), done.

$ cd debian-vagrant-images/

$ git checkout 8975eb0 #the commit id of MR

Now let&aposs see if we can build trixie now

$ make help
To run this makefile, run:
   make <DIST>-<CLOUD>-<ARCH>
  WHERE <DIST> is bullseye, buster, stretch, sid or testing
    And <CLOUD> is azure, ec2, gce, generic, genericcloud, nocloud, vagrant, vagrantcontrib
    And <ARCH> is amd64, arm64, ppc64el
Set DESTDIR= to write images to given directory.



$ make trixie-vagrant-amd64
umask 022; \
./bin/debian-cloud-images build \
  trixie vagrant amd64 \
  --build-id vagrant-cloud-images-master \
  --build-type official
2025-09-17 00:36:25,919 INFO Adding class DEBIAN
2025-09-17 00:36:25,919 INFO Adding class CLOUD
2025-09-17 00:36:25,919 INFO Adding class TRIXIE
2025-09-17 00:36:25,920 INFO Adding class VAGRANT
2025-09-17 00:36:25,920 INFO Adding class AMD64
2025-09-17 00:36:25,920 INFO Adding class LINUX_IMAGE_BASE
2025-09-17 00:36:25,920 INFO Adding class GRUB_PC
2025-09-17 00:36:25,920 INFO Adding class LAST
2025-09-17 00:36:25,921 INFO Running FAI: sudo env PYTHONPATH=/home/rajudev/dev/salsa/michael/debian-vagrant-images/src/debian_cloud_images/build/../.. CLOUD_BUILD_DATA=/home/rajudev/dev/salsa/michael/debian-vagrant-images/src/debian_cloud_images/data CLOUD_BUILD_INFO={"type": "official", "release": "trixie", "release_id": "13", "release_baseid": "13", "vendor": "vagrant", "arch": "amd64", "build_id": "vagrant-cloud-images-master", "version": "20250917-1"} CLOUD_BUILD_NAME=debian-trixie-vagrant-amd64-official-20250917-1 CLOUD_BUILD_OUTPUT_DIR=/home/rajudev/dev/salsa/michael/debian-vagrant-images CLOUD_RELEASE_ID=vagrant CLOUD_RELEASE_VERSION=20250917-1 fai-diskimage --verbose --hostname debian --class DEBIAN,CLOUD,TRIXIE,VAGRANT,AMD64,LINUX_IMAGE_BASE,GRUB_PC,LAST --size 100G --cspace /home/rajudev/dev/salsa/michael/debian-vagrant-images/src/debian_cloud_images/build/fai_config debian-trixie-vagrant-amd64-official-20250917-1.raw

..... continued

Although we can now build the images, we just don&apost see an option for it in the help text, not even for bookworm. Just the text in Makefile is outdated, but I can build and trixie Vagrant box now. Thanks to Michael for the fix.

16 September, 2025 09:14PM by Raju Vindane

John Goerzen

I just want an 80×25 console, but that’s no longer possible

Update 2025-09-18: I figured out how to do this, at least for many non-laptop screens. This post still contains a lot of good background detail, however.

Somehow along the way, a feature that I’ve had across DOS, OS/2, FreeBSD, and Linux — and has been present on PCs for more than 40 years — is gone.

That feature, of course, is the 80×25 text console.

Linux has, for awhile now, rendered its text console using graphic modes. You can read all about it here. This has been necessary because only PCs really had the 80×25 text mode (Raspberry Pis, for instance, never did), and even they don’t have it when booted with UEFI.

I’ve lately been annoyed that:

The console is a different size on every screen — both in terms of size of letters and the dimensions of it
If a given machine has more than one display, one or both of them will have parts of the console chopped off
My system seems to run with three different resolutions or fonts at different points of the boot process. One during the initrd, and two different ones during the remaining boot.

And, I wanted to run some software on the console that was designed with 80×25 in mind. And I’d like to be able to plug in an old VGA monitor and have it just work if I want to do that.

That shouldn’t be so hard, right? Well, the old vga= option that you are used to doesn’t work when you booted from UEFI or on non-x86 platforms. Most of the tricks you see online for changing resolutions, etc., are no longer relevant. And things like setting a resolution with GRUB are useless for systems that don’t use GRUB (including ARM).

VGA text mode uses 8×16 glyphs in 9×16 cells, where the pixels are non-square, giving a native resolution of 720×400 (which historically ran at 70Hz), which should have streched pixels to make a 4:3 image.

While it is possible to select a console font, and 8×16 fonts are present and supported in Linux, it appears to be impossible to have a standard way to set 720×400 so that they present in a reasonable size, at the correct aspect ratio, with 80×25.

Tricks like nomodeset no longer work on UEFI or ARM systems. It’s possible that kmscon or something like it may help, but I’m not even certain of that (video=eDP1:720×400 produced an error saying that 720×400 wasn’t a supported mode, so I’m unsure kmscon would be any better.) Not that it matters; all the kmscon options to select a font or zoom are broken, and it doesn’t offer mode selection anyhow.

I think I’m going to have to track down an old machine.

Sigh.

16 September, 2025 01:53AM by John Goerzen

September 15, 2025

Sven Hoexter

HaProxy: Configuring SNI for a TLS Proxy

If you use HaProxy to e.g. terminate TLS on the frontend and connect via TLS to a backend, one has to take care of sending the SNI (server name indication) extension in the TLS handshake sort of manually.

Even if you use host names to address the backend server, e.g.

server foobar foobar.example:2342 ssl verify required ca-file /etc/haproxy/ca/foo.crt

HaProxy will try to establish the connection without SNI. You manually have to enforce SNI here, e.g.

server foobar foobar.example:2342 ssl verify required ca-file /etc/haproxy/ca/foo.crt sni str(foobar.example)

The surprising thing here was that it requires an expression, so you can not just write sni foobar.example, you've to wrap it in an expression. The simplest one is making sure it's a string.

Update: Might be noteworthy that you've to configure SNI for the health check separately, and in that case it's a string not an expression. E.g.

server foobar foobar.example:2342 check check-ssl check-sni foobar.example ssl verify required ca-file /etc/haproxy/ca/foo.crt sni str(foobar.example)

The ca-file is shared between the ssl context and the check-ssl.

15 September, 2025 12:44PM

Google Cloud: When the Load Balancer Frontend Hands you an F

If someone hands you an IP:Port of a Google Cloud load balancer, and tells you to connect there with TLS, but all you receive in return is an F (and a few other bytes with none printable characters) on running openssl s_client -connect ..., you might be missing SNI (server name indication). Sadly the other side was not transparent enough to explain in detail which exact type of Google Cloud load balancer they used, but the conversation got more detailed and up to a working TLS connection when the missing -servername foobar.host.name was added. I could not find any sort of official documentation on the responses of the GFE (the frontend part) when TLS parameters do not match the expectations. Also you won't have anything in the logs, because logging at Google Cloud is a backend function, and as long as your requests do not reach the backend, there are no logs. That makes it rather unpleasant to debug such cases, when one end says "I do not see anything in the logs", and the other one says "you reject my connection and just reply F".

15 September, 2025 12:32PM

September 14, 2025

Ian Jackson

tag2upload in the first month of forky

tl;dr: tag2upload (beta) is going well so far, and is already handling around one in 13 uploads to Debian.

Introduction and some stats

We announced tag2upload’s open beta in mid-July. That was in the middle of the the freeze for trixie, so usage was fairly light until the forky floodgates opened.

Since then the service has successfully performed 637 uploads, of which 420 were in the last 32 days. That’s an average of about 13 per day. For comparison, during the first half of September up to today there have been 2475 uploads to unstable. That’s about 176/day.

So, tag2upload is already handling around 7.5% of uploads. This is very gratifying for a service which is advertised as still being in beta!

Sean and I are very pleased both with the uptake, and with the way the system has been performing.

Recent UI/UX improvements

During this open beta period we have been hard at work. We have made many improvements to the user experience.

Current git-debpush in forky, or trixie-backports, is much better at detecting various problems ahead of time.

When uploads do fail on the service the emailed error reports are now more informative. For example, anomalies involving orig tarballs, which by definition can’t be detected locally (since one point of tag2upload is not to have tarballs locally) now generally result in failure reports containing a diffstat, and instructions for a local repro.

Why we are still in beta

There are a few outstanding work items that we currently want to complete before we declare the end of the beta.

Retrying on Salsa-side failures

The biggest of these is that the service should be able to retry when Salsa fails. Sadly, Salsa isn’t wholly reliable, and right now if it breaks when the service is trying to handle your tag, your upload can fail.

We think most of these failures could be avoided. Implementing retries is a fairly substantial task, but doesn’t pose any fundamental difficulties. We’re working on this right now.

Other notable ongoing work

We want to support pristine-tar, so that pristine-tar users can do a new upstream release. Andrea Pappacoda is working on that with us. See #1106071. (Note that we would generally recommend against use of pristine-tar within Debian. But we want to support it.)

We have been having conversations with Debusine folks about what integration between tag2upload and Debusine would look like. We’re making some progress there, but a lot is still up in the air.

We are considering how best to provide tag2upload pre-checks as part of Salsa CI. There are several problems detected by the tag2upload service that could be detected by Salsa CI too, but which can’t be detected by git-debpush.

Common problems

We’ve been monitoring the service and until very recently we have investigated every service-side failure, to understand the root causes. This has given us insight into the kinds of things our users want, and the kinds of packaging and git practices that are common. We’ve been able to improve the system’s handling of various anomalies and also improved the documentation.

Right now our failure rate is still rather high, at around 7%. Partly this is because people are trying out the system on packages that haven’t ever seen git tooling with such a level of rigour.

There are two classes of problem that are responsible for the vast majority of the failures that we’re still seeing:

Reuse of version numbers, and attempts to re-tag

tag2upload, like git (and like dgit), hates it when you reuse a version number, or try to pretend that a (perhaps busted) release never happened.

git tags aren’t namespaced, and tend to spread about promiscuously. So replacing a signed git tag, with a different tag of the same name, is a bad idea. More generally, reusing the same version number for a different (signed!) package is poor practice. Likewise, it’s usually a bad idea to remove changelog entries for versions which were actually released, just because they were later deemed improper.

We understand that many Debian contributors have gotten used to this kind of thing. Indeed, tools like dcut encourage it. It does allow you to make things neat-looking, even if you’ve made mistakes - but really it does so by covering up those mistakes!

The bottom line is that tag2upload can’t support such history-rewriting. If you discover a mistake after you’ve signed the tag, please just burn the version number and add a new changelog stanza.

One bonus of tag2upload’s approach is that it will discover if you are accidentally overwriting an NMU, and report that as an error.

Discrepancies between git and orig tarballs

tag2upload promises that the source package that it generates corresponds precisely to the git tree you tag and sign.

Orig tarballs make this complicated. They aren’t present on your laptop when you git-debpush. When you’re not uploading a new upstream version, the tag2upload service reuses existing orig tarballs from the archive. If your git and the archive’s orig don’t agree, the tag2upload service will report an error, rather than upload a package with contents that differ from your git tag.

With the most common Debian workflows, everything is fine:

If you base everything on upstream git, and make your orig tarballs with git archive (or git deborig), your orig tarballs are the same as the git, by construction. We recommend usually ignoring upstream tarballs: most upstreams work in git, and their tarballs can contain weirdness that we don’t want. (At worst, the tarball can contain an attack that isn’t visible in git, as with xz!)

Alternatively, if you use gbp import-orig, the differences (including an attack like Jia Tan’s) are imported into git for you. Then, once again, your git and the orig tarball will correspond.

But there are other workflows where this correspondence may not hold. Those workflows are hazardous, because the thing you’re probably working with locally for your routine development is the git view. Then, when you upload, your work is transplanted onto the orig tarball, which might be quite different - so what you upload isn’t what you’ve been working on!

This situation is detected by tag2upload, precisely because tag2upload checks that it’s keeping its promise: the source package is identical to the git view. (dgit push makes the same promise.)

Get involved

Of course the easiest way to get involved is to start using tag2upload.

We would love to have more contributors. There are some easy tasks to get started with, in bugs we’ve tagged “newcomer” — mostly UX improvements such as detecting certain problems earlier, in git-debpush.

More substantially, we are looking for help with sbuild: we’d like it to be able to work directly from git, rather than needing to build source packages: #868527.

comments

14 September, 2025 03:36PM

Otto Kekäläinen

Zero-configuration TLS and password management best practices in MariaDB 11.8

Locking down database access is probably the single most important thing for a system administrator or software developer to prevent their application from leaking its data. As MariaDB 11.8 is the first long-term supported version with a few new key security features, let’s recap what the most important things are every DBA should know about MariaDB in 2025.

Back in the old days, MySQL administrators had a habit of running the clumsy mysql-secure-installation script, but it has long been obsolete. A modern MariaDB database server is already secure by default and locked down out of the box, and no such extra scripts are needed. On the contrary, the database administrator is expected to open up access to MariaDB according to the specific needs of each server. Therefore, it is important that the DBA can understand and correctly configure three things:

Separate application-specific users with granular permissions allowing only necessary access and no more.
Distributing and storing passwords and credentials securely
Ensuring all remote connections are properly encrypted

For holistic security, one should also consider proper auditing, logging, backups, regular security updates and more, but in this post we will focus only on the above aspects related to securing database access.

How encrypting database connections with TLS differs from web server HTTP(S)

Even though MariaDB (and other databases) use the same SSL/TLS protocol for encrypting remote connections as web servers and HTTPS, the way it is implemented is significantly different, and the different security assumptions are important for a database administrator to grasp.

Firstly, most HTTP requests to a web server are unauthenticated, meaning the web server serves public web pages and does not require users to log in. Traditionally, when a user logs in over a HTTP connection, the username and password were transmitted in plaintext as a HTTP POST request. Modern TLS, which was previously called SSL, does not change how HTTP works but simply encapsulates it. When using HTTPS, a web browser and a web server will start an encrypted TLS connection as the very first thing, and only once established, do they send HTTP requests and responses inside it. There are no passwords or other shared secrets needed to form the TLS connection. Instead, the web server relies on a trusted third party, a Certificate Authority (CA), to vet that the TLS certificate offered by the web server can be trusted by the web browser.

For a database server like MariaDB, the situation is quite different. All users need to first authenticate and log in to the server before getting being allowed to run any SQL and getting any data out of the server. The database server and client programs have built-in authentication methods, and passwords are not, and have never been, sent in plaintext. Over the years, MySQL and its successor, MariaDB, have had multiple password authentication methods: the original SHA-1-based hashing, later double SHA-1-based mysql_native_password, followed by sha256_password and caching_sha256_password in MySQL and ed25519 in MariaDB. The MariaDB.org blog post by Sergei Golubchik recaps the history of these well.

Even though most modern MariaDB installations should be using TLS to encrypt all remote connections in 2025, having the authentication method be as secure as possible still matters, because authentication is done before the TLS connection is fully established.

To further harden the authentication agains man-in-the-middle attacks, a new password the authentication method PARSEC was introduced in MariaDB 11.8, which builds upon the previous ed25519 public-key-based verification (similar to how modern SSH does), and also combines key derivation with PBKDF2 with hash functions (SHA512,SHA256) and a high iteration count.

At first it may seem like a disadvantage to not wrap all connections in a TLS tunnel like HTTPS does, but actually not having the authentication done in a MitM resistant way regardless of the connection encryption status allows a clever extra capability that is now available in MariaDB: as the database server and client already have a shared secret that is being used by the server to authenticate the user, it can also be used by the client to validate the server’s TLS certificate and no third parties like CAs or root certificates are needed. MariaDB 11.8 was the first LTS version to ship with this capability for zero-configuration TLS.

Note that the zero-configuration TLS also works on older password authentication methods and does not require users to have PARSEC enabled. As PARSEC is not yet the default authentication method in MariaDB, it is recommended to enable it in installations that use zero-configuration TLS encryption to maximize the security of the TLS certificate validation.

Why the ‘root’ user in MariaDB has no password and how it makes the database more secure

Relying on passwords for security is problematic, as there is always a risk that they could leak, and a malicious user could access the system using the leaked password. It is unfortunately far too common for database passwords to be stored in plaintext in configuration files that are accidentally committed into version control and published on GitHub and similar platforms. Every application or administrative password that exists should be tracked to ensure only people who need it know it, and rotated at regular intervals to ensure old employees etc won’t be able to use old passwords. This password management is complex and error-prone.

Replacing passwords with other authentication methods is always advisable when possible. On a database server, whoever installed the database by running e.g. apt install mariadb-server, and configured it with e.g. nano /etc/mysql/mariadb.cnf, already has full root access to the operating system, and asking them for a password to access the MariaDB database shell is moot, since they could circumvent any checks by directly accessing the files on the system anyway. Therefore, MariaDB, since version 10.4 stopped requiring the root user to enter a password when connecting locally, and instead checks using socket authentication whether the user is the operating-system root user or equivalent (e.g. running sudo). This is an elegant way to get rid of a password that was actually unnecessary to begin with. As there is no root password anymore, the risk of an external user accessing the database as root with a leaked password is fully eliminated.

Note that socket authentication only works for local connections on the same server. If you want to access a MariaDB server remotely as the root user, you would need to configure a password for it first. This is not generally recommended, as explained in the next section.

Create separate database users for normal use and keep ‘root’ for administrative use only

Out of the box a MariaDB installation is already secure by default, and only the local root user can connect to it. This account is intended for administrative use only, and for regular daily use you should create separate database users with access limited to the databases they need and the permissions required.

The most typical commands needed to create a new database for an app and a user the app can use to connect to the database would be the following:

sql

CREATE DATABASE app_db;
CREATE USER 'app_user'@'%' IDENTIFIED BY 'your_secure_password';
GRANT ALL PRIVILEGES ON app_db.* TO 'app_user'@'%';
FLUSH PRIVILEGES;

Alternatively, if you want to use the parsec authentication method, run this to create the user:

sql

CREATE OR REPLACE USER 'app_user'@'%'
 IDENTIFIED VIA parsec
 USING PASSWORD('your_secure_password');

Note that the plugin auth_parsec is not enabled by default. If you see the error message ERROR 1524 (HY000): Plugin 'parsec' is not loaded fix this by running INSTALL SONAME 'auth_parsec';.

In the CREATE USER statements, the @'%' means that the user is allowed to connect from any host. This needs to be defined, as MariaDB always checks permissions based on both the username and the remote IP address or hostname of the user, combined with the authentication method. Note that it is possible to have multiple user@remote combinations, and they can have different authentication methods. A user could, for example, be allowed to log in locally using the socket authentication and over the network using a password.

If you are running a custom application and you know exactly what permissions are sufficient for the database users, replace the ALL PRIVILEGES with a subset of privileges listed in the MariaDB documentation.

For new permissions to take effect, restart the database or run FLUSH PRIVILEGES.

Allow MariaDB to accept remote connections and enforce TLS

Using the above 'app_user'@'%' is not enough on its own to allow remote connections to MariaDB. The MariaDB server also needs to be configured to listen on a network interface to accept remote connections. As MariaDB is secure by default, it only accepts connections from localhost until the administrator updates its configuration. On a typical Debian/Ubuntu system, the recommended way is to drop a new custom config in e.g. /etc/mysql/mariadb.conf.d/99-server-customizations.cnf, with the contents:

[mariadbd]
# Listen for connections from anywhere
bind-address = 0.0.0.0
# Only allow TLS encrypted connections
require-secure-transport = on

For settings to take effect, restart the server with systemctl restart mariadb. After this, the server will accept connections on any network interface. If the system is using a firewall, the port 3306 would additionally need to be allow-listed.

To confirm that the settings took effect, run e.g. mariadb -e "SHOW VARIABLES LIKE 'bind_address';" , which should now show 0.0.0.0.

When allowing remote connections, it is important to also always define require-secure-transport = on to enforce that only TLS-encrypted connections are allowed. If the server is running MariaDB 11.8 and the clients are also MariaDB 11.8 or newer, no additional configuration is needed thanks to MariaDB automatically providing TLS certificates and appropriate certificate validation in recent versions.

On older long-term-supported versions of the MariaDB server one would have had to manually create the certificates and configure the ssl_key, ssl_cert and ssl_ca values on the server, and distribute the certificate to the clients as well, which was cumbersome, so good it is not required anymore. In MariaDB 11.8 the only additional related config that might still be worth setting is tls_version = TLSv1.3 to ensure only the latest TLS protocol version is used.

Finally, test connections to ensure they work and to confirm that TLS is used by running e.g.:

shell

mariadb --user=app_user --password=your_secure_password \
 --host=192.168.1.66 -e '\s'

The result should show something along:

--------------
mariadb from 11.8.3-MariaDB, client 15.2 for debian-linux-gnu (x86_64)
...
Current user: app_user@192.168.1.66
SSL: Cipher in use is TLS_AES_256_GCM_SHA384, cert is OK
...

If running a Debian/Ubuntu system, see the bundled README with zcat /usr/share/doc/mariadb-server/README.Debian.gz to read more configuration tips.

Should TLS encryption be used also on internal networks?

If a database server and app are running on the same private network, the chances that the connection gets eavesdropped on or man-in-the-middle attacked by a malicious user are low. However, it is not zero, and if it happens, it can be difficult to detect or prove that it didn’t happen. The benefit of using end-to-end encryption is that both the database server and the client can validate the certificates and keys used, log it, and later have logs audited to prove that connections were indeed encrypted and show how they were encrypted.

If all the computers on an internal network already have centralized user account management and centralized log collection that includes all database sessions, reusing existing SSH connections, SOCKS proxies, dedicated HTTPS tunnels, point-to-point VPNs, or similar solutions might also be a practical option. Note that the zero-configuration TLS only works with password validation methods. This means that systems configured to use PAM or Kerberos/GSSAPI can’t use it, but again those systems are typically part of a centrally configured network anyway and are likely to have certificate authorities and key distribution or network encryption facilities already set up.

In a typical software app stac however, the simplest solution is often the best and I recommend DBAs use the end-to-end TLS encryption in MariaDB 11.8 in most cases.

Hopefully with these tips you can enjoy having your MariaDB deployments both simpler and more secure than before!

14 September, 2025 12:00AM

September 12, 2025

Christoph Berg

The Cost of TDE and Checksums in PGEE

It's been a while since the last performance check of Transparent Data Encryption (TDE) in Cybertec's PGEE distribution - that was in 2016. Of course, the question is still interesting, so I did some benchmarks.

Since the difference is really small between running without any extras, with data checksums turned on, and with both encryption and checksums turned on, we need to pick a configuration that will stress-test these features the most. So in the spirit of making PostgreSQL deliberately run slow, I went with only 1MB of shared_buffers with a pgbench workload of scale factor 50. The 770MB of database size will easily fit into RAM. However, having such a small buffer cache setting will cause a lot of cache misses with pages re-read from the OS disk cache, checksums checked, and the page decrypted again. To further increase the effect, I ran pgbench --skip-some-updates so the smaller, in-cache-anyway pgbench tables are not touched. Overall, this yields a pretty consistent buffer cache hit rate of only 82.8%.

Here are the PGEE 17.6 tps (transactions per second) numbers averaged over a few 1-minute 3-client pgbench runs for different combinations of data checksums on/off, TDE off, and the various supported key bit lengths:

	no checksums		data checksums
no TDE	2455,6	100,00 %	2449,7	99,76 %
128 bits	2440,9	99,40 %	2443,3	99,50 %
192 bits	2439,6	99,35 %	2446,1	99,61 %
256 bits	2450,3	99,78 %	2443,1	99,49 %

There is a lot of noise in the individual runtimes before averaging, so the numbers must be viewed with some care (192-bit TDE is certainly not faster with checksums than without), but if we dare to interpret these tiny differences, we can conclude the following:

The cost of enabling data checksums on this bad-cache-ratio workload is about 0.25 %.
The cost of enabling both TDE encryption and data checksums on this workload is about 0.5%.

Any workload with a better shared_buffers cache hit rate would see a lower penalty of enabling checksums and TDE than that.

The post The Cost of TDE and Checksums in PGEE appeared first on CYBERTEC PostgreSQL | Services & Support.

12 September, 2025 06:00AM by Christoph Berg

Freexian Collaborators

Using JavaScript in Debusine without depending on JavaScript (by Enrico Zini)

Debusine is a tool designed for Debian developers and Operating System developers in general. This posts describes our approach to the use of JavaScript, and some practical designs we came up with to integrate it with Django with minimal effort.

Debusine web UI and JavaScript

Debusine currently has 3 user interfaces: a client on the command line, a RESTful API, and a Django-based Web UI.

Debusine’s web UI is a tool to interact with the system, and we want to spend most of our efforts in creating a system that works and works well, rather than chasing the latest and hippest of the frontend frameworks for the web.

Also, Debian as a community has an aversion to having parts of the JavaScript ecosystem in the critical path of its core infrastructure, and in our professional experience this aversion is not at all unreasonable.

This leads to having some interesting requirements for the web UI, that (rather surprisingly, one would think) one doesn’t usually find advertised in many projects:

Straightforward to create and maintain.
Well integrated with Django.
Easy to package in Debian, with as little vendoring as possible, which helps mitigate supply chain attacks
Usable without JavaScript whenever possible, for progressive enhancement rather than core functionality.

The idea is to avoid growing the technical complexity and requirements of the web UI, both server-side and client-side, for functionality that is not needed for this kind of project, with tools that do not fit well in our ecosystem.

Also, to limit the complexity of the JavaScript portions that we do develop, we choose to limit our JavaScript browser supports to the main browser versions packaged in Debian Stable, plus recent oldstable.

This makes JavaScript easier to write and maintain, and it also makes it less needed, as modern HTML plus modern CSS interfaces can go a long way with less scripting interventions.

We recently encoded JavaScript practices and tradeoffs in a JavaScript Practices chapter of Debusine’s documentation.

How we use JavaScript

From the start we built the UI using Bootstrap, which helps in having responsive layouts that can also work on mobile devices.

When we started having large select fields, we introduced Select2 to make interaction more efficient, and which degrades gracefully to working HTML.

Both Bootstrap and Select2 are packaged in Debian.

Form validation is done server-side by Django, and we do not reimplement it client-side in JavaScript, as we prefer the extra round trip through a form submission to the risk of mismatches between the two validations.

In those cases where a UI task is not at all possible without JavaScript, we can make its support mandatory as long as the same goal can be otherwise achieved using the debusine client command.

Django messages as Bootstrap toasts

Django has a Messages framework that allows different parts of a view to push messages to the user, and it is useful to signal things like a successful form submission, or warnings on unexpected conditions.

Django messages integrate well with Bootstrap toasts, which use a recognisable notification language, are nicely dismissible and do not invade the rest of the page layout.

Since toasts require JavaScript to work, we added graceful degradation. to Bootstrap alerts

Doing so was surprisingly simple: we handle the toasts as usual, and also render the plain alerts inside a <noscript> tag.

This is precisely the intended usage of the <noscript> tag, and it works perfectly: toasts are displayed by JavaScript when it’s available, or rendered as alerts when not.

The resulting Django template is something like this:

<div aria-live="polite" aria-atomic="true" class="position-relative">
    <div class="toast-container position-absolute top-0 end-0 p-3">
    {% for message in messages %}
        <div class="toast" role="alert" aria-live="assertive" aria-atomic="true">
            <div class="toast-header">
                <strong class="me-auto">{{ message.level_tag|capfirst }}</strong>
                <button type="button"
                        class="btn-close"
                        data-bs-dismiss="toast"
                        aria-label="Close"></button>
            </div>
            <div class="toast-body">{{ message }}</div>
        </div>
    {% endfor %}
    </div>
</div>

<!-- … -->

{% if messages %}
<noscript>
    {% for message in messages %}
        <div class="alert alert-primary" role="alert">
            {{ message }}
        </div>
    {% endfor %}
</noscript>
{% endif %}

We have a webpage to test the result.

JavaScript incremental improvement of formsets

Debusine is built around workspaces, which are, among other things, containers for resources.

Workspaces can inherit from other workspaces, which act as fallback lookups for resources. This allows, for example, to maintain an experimental package to be built on Debian Unstable, without the need to copy the whole Debian Unstable workspace. A workspace can inherit from multiple others, which are looked up in order.

When adding UI to configure workspace inheritance, we faced the issue that plain HTML forms do not have a convenient way to perform data entry of an ordered list.

We initially built the data entry around Django formsets, which support ordering using an extra integer input field to enter the ordering position. This works, and it’s good as a fallback, but we wanted something more appropriate, like dragging and dropping items to reorder them, as the main method of interaction.

Our final approach renders the plain formset inside a <noscript> tag, and the JavaScript widget inside a display: none element, which is later shown by JavaScript code.

As the workspace inheritance is edited, JavaScript serializes its state into <form type='hidden'> fields that match the structure used by the formset, so that when the form is submitted, the view performs validation and updates the server state as usual without any extra maintenance burden.

Serializing state as hidden form fields looks a bit vintage, but it is an effective way of preserving the established data entry protocol between the server and the browser, allowing us to do incremental improvement of the UI while minimizing the maintenance effort.

More to come

Debusine is now gaining significant adoption and is still under active development, with new features like personal archives coming soon.

This will likely mean more user stories for the UI, so this is a design space that we are going to explore again and again in the coming future.

Meanwhile, you can try out Debusine on debusine.debian.net, and follow its development on salsa.debian.org!

12 September, 2025 12:00AM by Enrico Zini

Michael Ablassmeier

qmpbackup and proxmox 9

The latest Proxmox release introduces a new Qemu machine version that seems to behave differently for how it addresses the virtual disk configuration.

Also, the regular “query-block” qmp command doesn’t list the created bitmaps as usual.

If the virtual machine version is set to “9.2+pve”, everything seems to work out of the box.

I’ve released Version 0.50 with some small changes so its compatible with the newer machine versions.

12 September, 2025 12:00AM

September 11, 2025

Jonathan Wiltshire

Debian stable updates explained: security, updates, and point releases

Please consider supporting my work in Debian and elsewhere through Liberapay.

Debian stable updates work through three main channels: point releases, security repositories, and the updates repository. Understanding these ensures your system stays secure and current.

A note about suite names

Every Debian release, or suite, has a codename — the most recent major release was trixie, or Debian 13. The codename uniquely identifies that suite.

We also use changeable aliases to add meaning to the suite’s lifecycle. For example, trixie currently has the alias stable, but when forky becomes stable instead, trixie will become known as oldstable.

This post uses either codenames or aliases depending on context. In source lists, codenames are generally preferred since that avoids surprise major upgrades right after a release is made.

The stable suites (point releases)

stable and oldstable (currently trixie and bookworm) are only updated during a “point release.” This is a minor update released to a major version. For example, 13.1 is the first minor update to trixie. It’s not possible to install older minor versions of a suite except via the snapshots mechanism (not covered here). It’s possible to view past versions via snapshot.debian.org, which preserves historical Debian archives.

There are also the testing and unstable aliases for the development suites. However, these are not relevant for users who want to run officially released versions.

Almost every stable installation of Debian will be opted into a stable or oldstable base suite. An example APT source might look like:

Type: deb
URIs: http://deb.debian.org/debian
Suites: trixie
Components: main
Signed-By: /usr/share/keyrings/debian-archive-keyring.pgp

Or, in legacy sources.list style:

deb https://deb.debian.org/debian trixie main

The security suites (DSAs explained)

For urgent security-related updates, the Security Team maintains a counterpart suite for each stable suite. These are called stable-security and oldstable-security when maintained by Debian’s security team, and oldstable-security, oldoldstable-security, etc when maintained by the LTS team.

Example APT source:

Type: deb
URIs: https://deb.debian.org/debian-security
Suites: trixie-security
Components: main
Signed-By: /usr/share/keyrings/debian-archive-keyring.pgp

Or, in legacy sources.list style:

deb https://deb.debian.org/debian-security trixie-security main

The Debian installer enables the security suites by default. Debian Security Announcements (DSAs) are published to debian-security-announce@lists.debian.org.

The updates suites (SUAs and maintenance)

For urgent non-security updates, the final recommended suites are stable-updates and oldstable-updates. This is where updates staged for a point release, but needed sooner, are published. Examples include virus database updates, timezone changes, urgent bug fixes for specific problems and corrections to errors in the release process itself.

Example APT source:

Type: deb
URIs: https://deb.debian.org/debian
Suites: trixie-updates
Components: main
Signed-By: /usr/share/keyrings/debian-archive-keyring.pgp

Or, in legacy sources.list style:

deb https://deb.debian.org/debian trixie-updates main

Debian enables the updates suites by default. Stable Update Announcements (SUAs) are published to debian-stable-announce@lists.debian.org. This is also where announcements of forthcoming point releases are published.

Summary

These are the recommended suites for all production Debian systems:

Suite	Example codename	Purpose	Announcements
stable	trixie	Base suite containing all the available software for a release. Point releases every 2–4 months including lower-severity security fixes that do not require immediate release.	Debian Release Announcements on debian-announce
stable-security	trixie-security	Urgent security updates.	Debian Security Announcements on debian-security-announce
stable-updates	trixie-updates	Urgent non-security updates, data updates and release maintenance.	Stable Update Announcements on debian-stable-announce

After a release moves from oldstable to unsupported status, Long Term Support (LTS) takes over for several more years. LTS provides urgent security updates for selected architectures. For details, see wiki.debian.org/LTS.

If you’d like to stay informed, the official Debian announcement lists and release.debian.org share the latest schedules and updates.

Photo by Brian Wangenheim on Unsplash

11 September, 2025 08:29PM by Jonathan

John Goerzen

Performant Full-Disk Encryption on a Raspberry Pi, but Foiled by Twisty UARTs

In my post yesterday, ARM is great, ARM is terrible (and so is RISC-V), I described my desire to find ARM hardware with AES instructions to support full-disk encryption, and the poor state of the OS ecosystem around the newer ARM boards.

I was anticipating buying either a newer ARM SBC or an x86 mini PC of some sort.

More-efficient AES alternatives

Always one to think, “what if I didn’t have to actually buy something”, I decided to research whether it was possible to use encryption algorithms that are more performant on the Raspberry Pi 4 I already have.

The answer was yes. From cryptsetup benchmark:

root@mccoy:~# cryptsetup benchmark --cipher=xchacha12,aes-adiantum-plain64 
# Tests are approximate using memory only (no storage IO).
#            Algorithm |       Key |      Encryption |      Decryption
xchacha12,aes-adiantum        256b       159.7 MiB/s       160.0 MiB/s
xchacha20,aes-adiantum        256b       116.7 MiB/s       169.1 MiB/s
    aes-xts                   256b        52.5 MiB/s        52.6 MiB/s

With best-case reads from my SD card at 45MB/s (with dd if=/dev/mmcblk0 of=/dev/null bs=1048576 status=progress), either of the ChaCha-based algorithms will be fast enough. “Great,” I thought. “Now I can just solve this problem without spending a dollar.”

But not so fast.

Serial terminals vs. serial consoles

My primary use case for this device is to drive my actual old DEC vt510 terminal. I have long been able to do that by running a getty for my FTDI-based USB-to-serial converter on /dev/ttyUSB0. This gets me a login prompt, and I can do whatever I need from there.

This does not get me a serial console, however. The serial console would show kernel messages and could be used to interact with the pre-multiuser stages of the system — that is, everything before the loging prompt. You can use it to access an emergency shell for repair, etc.

Although I have long booted that kernel with console=tty0 console=ttyUSB0,57600, the serial console has never worked but I’d never bothered investigating because the text terminal was sufficient.

You might be seeing where this is going: to have root on an encrypted LUKS volume, you have to enter the decryption password in the pre-multiuser environment (which happens to be on the initramfs).

So I started looking. First, I extracted the initrd with cpio and noticed that the ftdi_sio and usbserial modules weren’t present. Added them to /etc/initramfs-tools/modules and rebooted; no better.

So I found the kernel’s serial console guide, which explicitly notes “To use a serial port as console you need to compile the support into your kernel”. Well, I have no desire to custom-build a kernel on a Raspberry Pi with MicroSD storage every time a new kernel comes out.

I thought — well I don’t stricly need the kernel to know about the console on /dev/ttyUSB0 for this; I just need the password prompt — which comes from userspace — to know about it.

So I looked at the initramfs code, and wouldn’t you know it, it uses /dev/console. Looking at /proc/consoles on that system, indeed it doesn’t show ttyUSB0. So even though it is possible to load the USB serial driver in the initramfs, there is no way to make the initramfs use it, because it only uses whatever the kernel recognizes as a console, and the kernel won’t recognize this. So there is no way to use a USB-to-serial adapter to enter a password for an encrypted root filesystem.

Drat.

The on-board UARTs?

I can hear you know: “The Pi already has on-board serial support! Why not use that?”

Ah yes, the reason I don’t want to use that is because it is difficult to use that, particularly if you want to have RTS/CTS hardware flow control (or DTR/DSR on these old terminals, but that’s another story, and I built a custom cable to map it to RTS/CTS anyhow).

Since you asked, I’ll take you down this unpleasant path.

The GPIO typically has only 2 pins for serial communication: 8 and 10, for TX and RX, respectively.

But dive in and you get into a confusing maze of UARTs. The “mini UART”, the one we are mostly familiar with on the Pi, does not support hardware flow control. The PL011 does. So the natural question is: how do we switch to the PL011, and what pins does it use? Great questions, and the answer is undocumented, at least for the Pi 4.

According to that page, for the Pi 4, the primary UART is UART1, UART1 is the mini UART, “the secondary UART is not normally present on the GPIO connector” and might be used by Bluetooth anyway, and there is no documented pin for RTS/CTS anyhow. (Let alone some of the other lines modems use) There are supposed to be /dev/ttyAMA* devices, but I don’t have those. There’s an enable_uart kernel parameter, which does things like stop the mini UART from changing baud rates every time the VPU changes clock frequency (I am not making this up!), but doesn’t seem to control the PL011 UART selection. This page has a program to do it, and map some GPIO pins to RTS/CTS, in theory.

Even if you get all that working, you still have the problem that the Pi UARTs (all of them of every type) is 3.3V and RS-232 is 5V, so unless you get a converter, you will fry your Pi the moment you connect it to something useful. So, you’re probably looking at some soldering and such just to build a cable that will work with an iffy stack.

So, I could probably make it work given enough time, but I don’t have that time to spare working with weird Pi serial problems, so I have always used USB converters when I need serial from a Pi.

Conclusion

I bought a fanless x86 micro PC with a N100 chip and all the ports I might want: a couple of DB-9 serial ports, some Ethernet ports, HDMI and VGA ports, and built-in wifi. Done.

11 September, 2025 01:41PM by John Goerzen

Christoph Berg

A Trip To Vienna With Surprises

My trip to pgday.at started Wednesday at the airport in Düsseldorf. I was there on time, and the plane started with an estimated flight time of about 90 minutes. About half an hour into the flight, the captain announced that we would be landing in 30 minutes - in Düsseldorf, because of some unspecified technical problems. Three hours after the original departure time, the plane made another attempt, and we made it to Vienna.

On the plane I had already met Dirk Krautschick who had the great honor of bringing Slonik (in the form of a big extra bag) to the conference, and we took a taxi to the hotel. On the taxi, the next surprise happened: Hans-Jürgen Schönig unfortunately couldn't make it to the conference, and his talks had to be replaced. I had submitted a talk to the conference, but it was not accepted, and neither queued on the reserve list. But two speakers on the reserve list had cancelled, and another was already giving a talk in parallel to the slot that had to be filled, so Pavlo messaged me if I could hold the talk - well of course I could. Before, I didn't have any specific plans for the evening yet, but suddenly I was a speaker, so I joined the folks going to the speakers dinner at the Wiener Grill Haus two corners from the hotel. It was a very nice evening, chatting with a lot of folks from the PostgreSQL community that I had not seen for a while.

Thursday was the conference day. The hotel was a short walk from the venue, the Apothekertrakt in Vienna's Schloss Schönbrunn. The courtyard was already filled with visitors registering for the conference. Since I originally didn't have a talk scheduled, I had signed up to volunteer for a shift as room host. We got our badge and swag bag, and I changed into the "crew" T-shirt.

The opening and sponsor keynotes took place in the main room, the Orangerie. We were over 100 people in the room, but apparently still not enough to really fill it, so the acoustics with some echo made it a bit difficult to understand everything. I hope that part can be improved for next time (which is planned to happen!).

I was host for the Maximilian room, where the sponsor sessions were scheduled in the morning. The first talk was by our Peter Hofer, also replacing the absent Hans. He had only joined the company at the beginning of the same week, and was already tasked to give Hans' talk on PostgreSQL as Open Source. Of course he did well.

Next was Tanmay Sinha from Readyset. They are building a system that caches expensive SQL queries and selectively invalidates the cache whenever any data used by these queries changes. Whenever actually fixing the application isn't feasible, that system looks like an interesting alternative to manually maintaining materialized views, or perhaps using pg_ivm.

After lunch, I went to Federico Campoli's Mastering Index Performance, but really spent the time polishing the slides for my talk. I had given the original version at pgconf.de in Berlin in May, and the slides were still in German, so I had to do some translating. Luckily, most slides are just git commit messages, so the effort was manageable.

The next slot was mine, talking about Modern VACUUM. I started with a recap of MVCC, vacuum and freezing in PostgreSQL, and then showed how over the past years, the system was updated to be more focused (the PostgreSQL 8.4 visibility map tells vacuum which pages to visit), faster (12 made autovacuum run 10 times faster by default), less scary (14 has an emergency mode where freezing switches to maximum speed if it runs out of time; 16 makes freezing create much less WAL) and more performant (17 makes vacuum use much less memory). In summary, there is still room for the DBA to tune some knobs (for example, the default autovacuum_max_workers=3 isn't much), but the vacuum default settings are pretty much okay these days for average workloads. Specific workloads still have a whopping 31 postgresql.conf settings at their disposal just for vacuum.

Right after my talk, there was another vacuum talk: When Autovacuum Met FinOps by Mayuresh Bagayatkar. He added practical advice on tuning the performance in cloud environments. Luckily, our contents did not overlap.

After the coffee break, I was again room host, now for Floor Drees and Contributing to Postgres beyond code. She presented the various ways in which PostgreSQL is more than just the code in the Git repository: translators, web site, system administration, conference organizers, speakers, bloggers, advocates. As a member of the PostgreSQL Contributors Committee, I could only approve and we should closer cooperate in the future to make people's contributions to PostgreSQL more visible and give them the recognition they deserve.

That was already the end of the main talks and everyone rushed to the Orangerie for the lightning talks. My highlight was the Sheldrick Wildlife Trust. Tickets for the conference had included the option to donate for the elephants in Kenya, and the talk presented the trust's work in the elephant orphanage there.

After the conference had officially closed, there was a bonus track: the Celebrity DB Deathmatch, aptly presented by Boriss Mejias. PostgreSQL, MongoDB, CloudDB and Oracle were competing for the grace of a developer. MongoDB couldn't stand the JSON workload, CloudDB was dismissed for handing out new invoices all the time, and Oracle had even brought a lawyer to the stage, but then lost control over a literally 10 meter long contract with too much fine print. In the end, PostgreSQL (played by Floor) won the love of the developer (played by our Svitlana Lytvynenko).

The day closed with a gathering at the Brandauer Schlossbräu - just at the other end of the castle ground, but still a 15min walk away. We enjoyed good beer and Kaiserschmarrn. I went back to the hotel a bit before midnight, but some extended that time quite some bit more.

On Friday, my flight back was only in the afternoon, so I spent some time in morning in the Technikmuseum just next to the hotel, enjoying some old steam engines and a live demonstration of Tesla coils. This time, the flight actually went to the destination, and I was back in Düsseldorf in the late afternoon.

In summary, pgday.at was a very nice event in a classy location. Thanks to the organizers for putting in all the work - and next year, Hans will hopefully be present in person!

The post A Trip To Vienna With Surprises appeared first on CYBERTEC PostgreSQL | Services & Support.

11 September, 2025 05:43AM by Christoph Berg

Gunnar Wolf

Saying _hi_ to my good Reproducible Builds friends while reading a magazine article

Just wanted to share… I enjoy reading George V. Neville’s Kode Vicious column, which regularly appears on some of ACM’s publications I follow, such as ACM Queue or Communications.

Today I was very pleasantly surprised, while reading the column titled «Can’t we have nice things» Kode Vicious answers to a question on why computing has nothing comparable to the beauty of ancient physics laboratories turned into museums (i.e. Faraday’s laboratory) by giving a great hat tip to a project stemmed off Debian, and where many of my good Debian friends spend a lot of their energies: Reproducible builds. KV says:

Once the proper measurement points are known, we want to constrain the system such that what it does is simple enough to understand and easy to repeat. It is quite telling that the push for software that enables reproducible builds only really took off after an embarrassing widespread security issue ended up affecting the entire Internet. That there had already been 50 years of software development before anyone thought that introducing a few constraints might be a good idea is, well, let’s just say it generates many emotions, none of them happy, fuzzy ones.

Yes, KV is a seasoned free software author. But I found it heart warming that the Reproducible Builds project is mentioned without needing to introduce it (assuming familiarity across the computing industry and academia), recognized as game-changing as we understood it would be over ten years ago when it was first announced, and enabling of beauty in computing.

Congratulations to all of you who have made this possible!

RB+ACM

11 September, 2025 12:02AM

Freexian Collaborators

Monthly report about Debian Long Term Support, August 2025 (by Roberto C. Sánchez)

Like each month, have a look at the work funded by Freexian’s Debian LTS offering.

Debian LTS contributors

In August, 21 contributors have been paid to work on Debian LTS, their reports are available:

Abhijith PA did 10.0h (out of 0.0h assigned and 14.0h from previous period), thus carrying over 4.0h to the next month.
Andrej Shadura did 12.0h (out of 9.0h assigned and 3.0h from previous period).
Bastien Roucariès did 20.0h (out of 19.75h assigned and 0.25h from previous period).
Ben Hutchings did 22.75h (out of 16.5h assigned and 6.25h from previous period).
Carlos Henrique Lima Melara did 10.0h (out of 10.0h assigned).
Chris Lamb did 18.0h (out of 18.0h assigned).
Daniel Leidert did 23.25h (out of 23.25h assigned).
Emilio Pozuelo Monfort did 23.25h (out of 23.25h assigned).
Guilhem Moulin did 15.0h (out of 15.0h assigned).
Jochen Sprickerhof did 11.0h (out of 6.0h assigned and 16.75h from previous period), thus carrying over 11.75h to the next month.
Lee Garrett did 16.25h (out of 0.0h assigned and 16.25h from previous period).
Lucas Kanashiro did 20.0h (out of 1.25h assigned and 18.75h from previous period).
Markus Koschany did 5.0h (out of 13.0h assigned and 9.75h from previous period), thus carrying over 17.75h to the next month.
Paride Legovini did 8.0h (out of 0.0h assigned and 8.0h from previous period).
Roberto C. Sánchez did 7.5h (out of 11.75h assigned and 11.0h from previous period), thus carrying over 15.25h to the next month.
Santiago Ruano Rincón did 13.5h (out of 7.25h assigned and 7.75h from previous period), thus carrying over 1.5h to the next month.
Stefano Rivera did 0.5h (out of 0.0h assigned and 3.0h from previous period), thus carrying over 2.5h to the next month.
Sylvain Beucler did 10.0h (out of 23.25h assigned), thus carrying over 13.25h to the next month.
Thorsten Alteholz did 22.75h (out of 22.75h assigned).
Tobias Frost did 4.0h (out of 0.0h assigned and 12.0h from previous period), thus carrying over 8.0h to the next month.
Utkarsh Gupta did 16.0h (out of 22.75h assigned), thus carrying over 6.75h to the next month.

Evolution of the situation

In August, we released 27 DLAs.

The month of August marked the release of Debian 13 (codename “trixie”). This is worth noting because it brought with it the return of the customary fast development pace of Debian unstable, which included several contributions from LTS Team members. More on that below.

Of the many security updates which were published (and a few non-security updates as well), some notable ones are highlighted here.

Notable security updates:
- gnutls28 prepared by Adrian Bunk, fixes several potential denial of service vulnerabilities
- apache2, prepared by Bastien Roucariès, fixes several vulnerabilities including a potential denial of service and SSL/TLS-related access control
- mbedtls (original update, regression update) prepared by Andrej Shadura, fixes several potential denial of service and information disclosure vulnerabilities
- openjdk-17, prepared by Emilio Pozuelo Monfort, fixes several vulnerabilities which could result in denial of service, information disclosure or weakened TLS connections
Notable non-security updates:
- distro-info-data, prepared by Stefano Rivera, adds information concerning future Debian and Ubuntu releases
- ca-certificates-java, prepared by Bastien Roucariès, fixes some bugs which could disrupt future updates

The LTS Team continues to welcome the collaboration of maintainers from across the Debian community. The contributions of maintainers from outside the LTS Team include: postgresql-13 (Christoph Berg), sope (Jordi Mallach), thunderbird (Carsten Schoenert), and iperf3 (Roberto Lumbreras).

Finally, LTS Team members also contributed updates of the following packages:

redis (to stable), prepared by Chris Lamb
firebird3.0 (to oldstable and stable), prepared by Adrian Bunk
node-tmp (to oldstable, stable, and unstable), prepared by Adrian Bunk
openjpeg2 (to oldstable, stable, and unstable), prepared by Adrian Bunk
apache2 (to oldstable), prepared by Bastien Roucariès
unbound (to oldstable), prepared by Guilhem Moulin
luajit (to oldstable), prepared by Guilhem Moulin
golang-github-gin-contrib-cors (to oldstable and stable), prepared by Thorsten Alteholz
libcoap3 (to stable), prepared by Thorsten Alteholz
libcommons-lang-java and libcommons-lang3-java (both to unstable), prepared by Daniel Leidert
python-flask-cors (to oldstable), prepared by Daniel Leidert

The LTS Team would especially like to thank our many longtime friends and sponsors for their support and collaboration.

Thanks to our sponsors

Sponsors that joined recently are in bold.

Platinum sponsors:
- Toshiba Corporation (for 119 months)
- Civil Infrastructure Platform (CIP) (for 87 months)
- VyOS Inc (for 51 months)
Gold sponsors:
- F. Hoffmann-La Roche AG (for 129 months)
- Akamai - Linode (for 123 months)
- Babiel GmbH (for 113 months)
- Plat’Home (for 112 months)
- University of Oxford (for 69 months)
- Deveryware (for 56 months)
- EDF SA (for 41 months)
- Dataport AöR (for 16 months)
- CERN (for 14 months)
Silver sponsors:
- Domeneshop AS (for 134 months)
- Nantes Métropole (for 128 months)
- Univention GmbH (for 120 months)
- Université Jean Monnet de St Etienne (for 120 months)
- Ribbon Communications, Inc. (for 114 months)
- Exonet B.V. (for 103 months)
- Leibniz Rechenzentrum (for 98 months)
- Ministère de l’Europe et des Affaires Étrangères (for 81 months)
- Cloudways by DigitalOcean (for 71 months)
- Dinahosting SL (for 69 months)
- Platform.sh SAS (for 63 months)
- Moxa Inc. (for 57 months)
- sipgate GmbH (for 55 months)
- OVH US LLC (for 53 months)
- Tilburg University (for 53 months)
- GSI Helmholtzzentrum für Schwerionenforschung GmbH (for 44 months)
- THINline s.r.o. (for 17 months)
- Copenhagen Airports A/S (for 11 months)
Bronze sponsors:
- Evolix (for 134 months)
- Seznam.cz, a.s. (for 134 months)
- Intevation GmbH (for 131 months)
- Linuxhotel GmbH (for 131 months)
- Daevel SARL (for 130 months)
- Megaspace Internet Services GmbH (for 129 months)
- Greenbone AG (for 128 months)
- NUMLOG (for 128 months)
- WinGo AG (for 127 months)
- Entr’ouvert (for 118 months)
- Adfinis AG (for 116 months)
- Tesorion (for 111 months)
- Laboratoire LEGI - UMR 5519 / CNRS (for 110 months)
- Bearstech (for 102 months)
- LiHAS (for 102 months)
- Catalyst IT Ltd (for 97 months)
- Demarcq SAS (for 91 months)
- Université Grenoble Alpes (for 77 months)
- TouchWeb SAS (for 69 months)
- SPiN AG (for 66 months)
- CoreFiling (for 62 months)
- Institut des sciences cognitives Marc Jeannerod (for 57 months)
- Observatoire des Sciences de l’Univers de Grenoble (for 53 months)
- Tem Innovations GmbH (for 48 months)
- WordFinder.pro (for 47 months)
- CNRS DT INSU Résif (for 46 months)
- Soliton Systems K.K. (for 41 months)
- Alter Way (for 39 months)
- Institut Camille Jordan (for 29 months)
- SOBIS Software GmbH (for 14 months)
- Tuxera Inc. (for 5 months)

11 September, 2025 12:00AM by Roberto C. Sánchez

Debian Contributions: Preparing for setup.py install deprecation, Salsa CI, Debian 13 "trixie" release and more! (by Anupa Ann Joseph)

Debian Contributions: 2025-08

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.

Preparing for `setup.py install` deprecation, by Colin Watson

setuptools upstream will be removing the setup.py install command on 31 October. While this may not trickle down immediately into Debian, it does mean that in the near future nearly all Python packages will have to use pybuild-plugin-pyproject (though they don’t necessarily have to use pyproject.toml; this is just a question of how the packaging runs the build system). Some of the Python team talked about this a bit at DebConf, and Colin volunteered to write up some notes on cases where this isn’t straightforward. This page will likely grow as the team works on this problem.

Salsa CI, by Santiago Ruano Rincón

Santiago fixed some pending issues in the MR that moves the pipeline to sbuild+unshare, and after several months, Santiago was able to mark the MR as ready. Part of the recent fixes include handling external repositories, honoring the RELEASE autodetection from d/changelog (thanks to Ahmed Siam for spotting the main reason of the issue), and fixing a regression about the apt resolver for *-backports releases. Santiago is currently waiting for a final review and approval from other members of the Salsa CI team, and being able to merge it. Thanks to all the folks who have helped testing the changes or provided feedback so far. If you want to test the current MR, you need to include the following pipeline definition in your project’s CI config file:

---
include:
  - https://salsa.debian.org/santiago/pipeline/raw/sbuild-unshare-02-salsa-ci/salsa-ci.yml
  - https://salsa.debian.org/santiago/pipeline/raw/sbuild-unshare-02-salsa-ci/pipeline-jobs.yml

As a reminder, this MR will make the Salsa CI pipeline build the packages more similar to how it’s built by the Debian official builders. This will also save some resources, since the default pipeline will have one stage less (the provisioning) stage, and will make it possible for more projects to be built on salsa.debian.org (including large projects and those from the OCaml ecosystem), etc. See the different issues being fixed in the MR description.

Debian 13 “trixie” release, by Emilio Pozuelo Monfort

On August 9th, Debian 13 “trixie” was released, building on two years worth of updates and bug fixes from hundreds of developers. Emilio helped coordinate the release, communicating with several teams involved in the process.

DebConf 26 Site Visit, by Stefano Rivera

Stefano visited Santa Fe, Argentina, the site for DebConf 26 next year. The aim of the visit was to help build a local team and see the conference venue first-hand. Stefano and Nattie represented the DebConf Committee. The local team organized Debian meetups in Buenos Aires and Santa Fe, where Stefano presented a talk on Debian and DebConf. Venues were scouted and the team met with the university management and local authorities.

Miscellaneous contributions

Raphaël updated tracker.debian.org after the “trixie” release to add the new “forky” release in the set of monitored distributions. He also reviewed and deployed the work of Scott Talbert showing open merge requests from salsa in the “action needed” panel.
Raphaël reviewed some DEP-3 changes to modernize the embedded examples in light of the broad git adoption.
Raphaël configured new workflows on debusine.debian.net to upload to “trixie” and trixie-security, and officially announced the service on debian-devel-announce, inviting Debian developers to try the service for their next upload to unstable.
Carles created a merge request for django-compressor upstream to fix an error when concurrent node processing happened. This will allow removing a workaround added in openstack-dashboard and avoid the same bug in other projects that use django-compressor.
Carles prepared a system to detect packages that Recommends packages which don’t exist in unstable. Processed (either reported or ignored due to mis-detected problems or temporary problems) 16% of the reports. Will continue next month.
Carles got familiar and gave feedback for the freedict-wikdict package. Planned contributions with the maintainer to improve the package.
Helmut responded to queries related to /usr-move.
Helmut adapted crossqa.d.n to the release of “trixie”.
Helmut diagnosed sufficient failures in rebootstrap to make it work with gcc-15.
Helmut fixed the CI pipeline of debvm.
Helmut sent patches for 19 cross build problems.
Faidon discovered that the Multi-Arch hinter would emit confusing hints about :any annotations. Helmut identified the root cause to be the handling of virtual packages and fixed it.
Enrico took some dust off python-debiancontributors and prototyped a receiving end for salsa webpings, to start followup work to contributors.debian.org discussions at DebConf25.
Colin upgraded about 70 Python packages to new upstream versions, which is around 10% of the backlog; this included a complicated Pydantic upgrade in collaboration with the Rust team.
Colin fixed a bug in debbugs that caused incoming emails to bugs.debian.org with certain header contents to go missing.
Thorsten uploaded sane-airscan, which was already in experimental, to unstable.
Thorsten created a script to automate the upload of new upstream versions of foomatic-db. The database contains information about printers and regularly gets an update. Now it is possible to keep the package more up to date in Debian.
Stefano prepared updates to almost all of his packages that had new versions waiting to upload to unstable. (beautifulsoup4, hatch-vcs, mkdocs-macros-plugin, pypy3, python-authlib, python-cffi, python-mitogen, python-pip, python-pipx, python-progress, python-truststore, python-virtualenv, re2, snowball, soupsieve).
Stefano uploaded two new python3.13 point releases to unstable.
Stefano updated distro-info-data in stable releases, to document the “trixie” release and expected EoL dates.
Stefano did some debian.social sysadmin work (keeping up quotas with growing databases and filesystems).
Stefano supported the Debian treasurers in processing some of the DebConf 25 reimbursements.
Lucas uploaded ruby3.4 to experimental. It was already approved by FTP masters.
Lucas uploaded ruby-defaults to experimental to add support for ruby3.4. It will allow us to start triggering test rebuilds and catch any FTBFS with ruby3.4.
Lucas did some administrative work for Google Summer of Code (GSoC) and replied to some queries from mentors and students.
Anupa helped to organize release parties for Debian 13 and Debian Day events.
Anupa did the live coverage for the Debian 13 release and prepared the Bits post for the release announcement and 32nd Debian Day as part of the Debian Publicity team.
Anupa attended a Debian Day event organized by FOSS club SSET as a speaker.

11 September, 2025 12:00AM by Anupa Ann Joseph

September 09, 2025

Sven Hoexter

debian/watch version 5 is a beauty

Kudos to yadd@ (and who else was involved to make that happen), for the new watch file v5 format. Especially templates for the big git hoster make it much nicer. Prepared two of my packages to switch on the next upload, exfatprogs tracking github releases and pflogsumm scraping a web page. That is much easier to read and less error prone.

09 September, 2025 03:02PM

September 08, 2025

Thorsten Alteholz

My Debian Activities in August 2025

Debian LTS

This was my hundred-thirty-fourth month that I did some work for the Debian LTS initiative, started by Raphael Hertzog at Freexian. During my allocated time I uploaded or worked on:

[DLA 4272-1] aide security update of two CVEs where a local attacker can take advantage of these flaws to hide the addition or removal of a file from the the report, tamper with the log output, or cause aide to crash during report printing or database listing.
[DLA 4284-1] udisks2 security update to fix one CVE related to a possible local privilege escalation.
[DLA 4285-1] golang-github-gin-contrib-cors security update to fix one CVE related to circumvention of restrictions.
[#1112054] trixie-pu of golang-github-gin-contrib-cors, prepared and uploaded
[#1112335] trixie-pu of libcoap3, prepared and uploaded
[#1112053] bookworm-pu of golang-github-gin-contrib-cors, prepared and uploaded

I also continued my work on suricata and could backport all patches. Now I have to do some tests with the package. I also started to work on an openafs regression and attended the monthly LTS/ELTS meeting.

Debian ELTS

This month was the eighty-fifth ELTS month. During my allocated time I uploaded or worked on:

[ELA-1499-1] aide security update to fix one embargoed CVE in Stretch, related to a crash. The other CVE mentioned above was not affecting Stretch.
[ELA-1508-1] udisks2 security update to fix one embargoed CVE in Stretch and Buster.

I could also mark the CVEs of libcoap as not-affected. I also attended the monthly LTS/ELTS meeting.Of course like for LTS, As suricata had been requested for Stretch as well now, I didn’t not finish my work here.