September 17, 2025

John Goerzen

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.

A DEC vt510 terminal showing the Debian installer

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:

  1. You can use a traditional display and keyboard just long enough to input the kernel parameters described above
  2. 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.

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

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.



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14 September, 2025 03:36PM

hackergotchi for Dirk Eddelbuettel

Dirk Eddelbuettel

RcppSimdJson 0.1.14 on CRAN: New Upstream Major

A brand new release 0.1.14 of the RcppSimdJson package is now on CRAN.

RcppSimdJson wraps the fantastic and genuinely impressive simdjson library by Daniel Lemire and collaborators. Via very clever algorithmic engineering to obtain largely branch-free code, coupled with modern C++ and newer compiler instructions, it results in parsing gigabytes of JSON parsed per second which is quite mindboggling. The best-case performance is ‘faster than CPU speed’ as use of parallel SIMD instructions and careful branch avoidance can lead to less than one cpu cycle per byte parsed; see the video of the talk by Daniel Lemire at QCon.

This version includes the new major upstream release 4.0.0 with major new features including a ‘builder’ for creating JSON from the C++ side objects. This is something a little orthogonal to the standard R usage of the package to parse and load JSON data but could still be of interest to some.

The short NEWS entry for this release follows.

Changes in version 0.1.14 (2025-09-13)

  • simdjson was upgraded to version 4.0.0 (Dirk in #96

  • Continuous integration now relies a token for codecov.io

Courtesy of my CRANberries, there is also a diffstat report for this release. For questions, suggestions, or issues please use the issue tracker at the GitHub repo.

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

14 September, 2025 02:52PM

hackergotchi for Otto Kekäläinen

Otto Kekäläinen

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

Featured image of post 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:

  1. Separate application-specific users with granular permissions allowing only necessary access and no more.
  2. Distributing and storing passwords and credentials securely
  3. 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

hackergotchi for Christoph Berg

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

hackergotchi for Freexian Collaborators

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:

SuiteExample codenamePurposeAnnouncements
stabletrixieBase 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-securitytrixie-securityUrgent security updates.Debian Security Announcements on debian-security-announce
stable-updatestrixie-updatesUrgent 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

hackergotchi for Christoph Berg

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

hackergotchi for Gunnar Wolf

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

hackergotchi for Freexian Collaborators

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.

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 10, 2025

John Goerzen

ARM is great, ARM is terrible (and so is RISC-V)

I’ve long been interested in new and different platforms. I ran Debian on an Alpha back in the late 1990s and was part of the Alpha port team; then I helped bootstrap Debian on amd64. I’ve got somewhere around 8 Raspberry Pi devices in active use right now, and the free NNCPNET Internet email service I manage runs on an ARM instance at a cloud provider.

ARM-based devices are cheap in a lot of ways: they use little power and there are many single-board computers based on them that are inexpensive. My 8-year-old’s computer is a Raspberry Pi 400, in fact.

So I like ARM.

I’ve been looking for ARM devices that have accelerated AES (Raspberry Pi 4 doesn’t) so I can use full-disk encryption with them. There are a number of options, since ARM devices are starting to go more mid-range. Radxa’s ROCK 5 series of SBCs goes up to 32GB RAM. The Orange Pi 5 Max and Ultra have up to 16GB RAM, as does the Raspberry Pi 5. Pine64’s Quartz64 has up to 8GB of RAM. I believe all of these have the ARM cryptographic extensions. They’re all small and most are economical.

But I also dislike ARM. There is a terrible lack of standardization in the ARM community. They say their devices run Linux, but the default there is that every vendor has their own custom Debian fork, and quite likely kernel fork as well. Most don’t maintain them very well.

Imagine if you were buying x86 hardware. You might have to manage AcerOS, Dellbian, HPian, etc. Most of them have no security support (particularly for the kernel). Some are based on Debian 11 (released in 2021), some Debian 12 (released in 2023), and none on Debian 13 (released a month ago).

That is exactly the situation we have on ARM. While Raspberry Pi 4 and below can run Debian trixie directly, Raspberry Pi has not bothered to upstream support for the Pi 5 yet, and Raspberry Pi OS is only based on Debian bookworm (released in 2023) and very explicitly does not support a key Debian feature: you can’t upgrade from one Raspberry Pi OS release to the next, so it’s a complete reinstall every 2 years instead of just an upgrade. OrangePiOS only supports Debian bookworm — but notably, their kernel is mostly stuck at 5.10 for every image they have (bookworm shipped with 6.1 and bookworm-backports supports 6.12).

Radxa has a page on running Debian on one specific board, they seem to actually not support Debian directly, but rather their fork Radxa OS. There’s a different installer for every board; for instance, this one for the Rock 4D. Looking at it, I can see that it uses files from here and here, with custom kernel, gstreamer, u-boot, and they put zfs in main for some reason.

From Pine64, the Quartz64 seems to be based on an ancient 4.6 or 4.19 kernel. Perhaps, though, one might be able to use Debian’s Pine A64+ instructions on it. Trixie doesn’t have a u-boot image for the Quartz64 but it does have device tree files for it.

RISC-V seems to be even worse; not only do we have this same issue there, but support in trixie is more limited and so is performance among the supported boards.

The alternative is x86-based mini PCs. There are a bunch based on the N100, N150, or Celeron. Many of them support AES-NI and the prices are roughly in line with the higher-end ARM units. There are some interesting items out there; for instance, the Radxa X4 SBC features both an N100 and a RP2040. Fanless mini PCs are available from a number of vendors. Companies like ZimaBoard have interesting options like the ZimaBlade also.

The difference in power is becoming less significant; it seems the newer ARM boards need 20W or 30W power supplies, and that may put them in the range of the mini PCs. As for cost, the newer ARM boards need a heat sink and fan, so by the time you add SBC, fan, storage, etc. you’re starting to get into the price range of the mini PCs.

It is great to see all the options of small SBCs with ARM and RISC-V processors, but at some point you’ve got to throw up your hands and go “this ecosystem has a lot of problems” and consider just going back to x86. I’m not sure if I’m quite there yet, but I’m getting close.

Update 2025-09-11: I found a performant encryption option for the Pi 4, but was stymied by serial console problems; see the update post.

10 September, 2025 01:16PM by John Goerzen

September 09, 2025

hackergotchi for Dirk Eddelbuettel

Dirk Eddelbuettel

RcppSMC 0.2.9 on CRAN: Maintenance

Release 0.2.9 of our RcppSMC package arrived at CRAN today. RcppSMC provides Rcpp-based bindings to R for the Sequential Monte Carlo Template Classes (SMCTC) by Adam Johansen described in his JSS article. Sequential Monte Carlo is also referred to as Particle Filter in some contexts. The package now also features the Google Summer of Code work by Leah South in 2017, and by Ilya Zarubin in 2021.

This release is again entirely internal. It updates the code for the just-released RcppArmadillo 15.0.2-1, in particular opts into Armadillo 15.0.2. And it makes one small tweak to the continuous integration setup switching to the r-ci action.

The release is summarized below.

Changes in RcppSMC version 0.2.9 (2025-09-09)

  • Adjust to RcppArmadillo 15.0.* by setting ARMA_USE_CURRENT and updating two expressions from deprecated code

  • Rely on r-ci GitHub Action which includes the bootstrap step

Courtesy of my CRANberries, there is also a diffstat report detailing changes. More information is on the RcppSMC page and the repo. Issues and bugreports should go to the GitHub issue tracker.

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.

09 September, 2025 08:42PM

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

John Goerzen

btrfs on a Raspberry Pi

I’m something of a filesystem geek, I guess. I first wrote about ZFS on Linux 14 years ago, and even before I used ZFS, I had used ext2/3/4, jfs, reiserfs, xfs, and no doubt some others.

I’ve also used btrfs. I last posted about it in 2014, when I noted it has some advantages over ZFS, but also some drawbacks, including a lot of kernel panics.

Since that comparison, ZFS has gained trim support and btrfs has stabilized. The btrfs status page gives you an accurate idea of what is good to use on btrfs.

Background: Moving towards ZFS and btrfs

I have been trying to move everything away from ext4 and onto either ZFS or btrfs. There are generally several reasons for that:

  1. The checksums for every block help detect potential silent data corruption
  2. Instant snapshots make consistent backups of live systems a lot easier, and without the hassle and wasted space of LVM snapshots
  3. Transparent compression and dedup can save a lot of space in storage-constrained environments

For any machine with at least 32GB of RAM (plus my backup server, which has only 8GB), I run ZFS. While it lacks some of the flexibility of btrfs, it has polish. zfs list -o space shows a useful space accounting. zvols can be behind VMs. With my project simplesnap, I can easily send hourly backups with ZFS, and I choose to send them over NNCP in most cases.

I have a few VMs in the cloud (running Debian, of course) that I use to host things like this blog, my website, my gopher site, the quux NNCP public relay, and various other things.

In these environments, storage space can be expensive. For that matter, so can RAM. ZFS is RAM-hungry, so that rules out ZFS. I’ve been running btrfs in those environments for a few years now, and it’s worked out well. I do async dedup, lzo or zstd compression depending on the needs, and the occasional balance and defrag.

Filesystems on the Raspberry Pi

I run Debian trixie on all my Raspberry Pis; not Raspbian or Raspberry Pi OS for a number of reasons. My 8-yr-old uses a Raspberry Pi 400 as her primary computer — and loves it! She doesn’t do web browsing, but plays Tuxpaint, some old DOS games like Math Blaster via dosbox, and uses Thunderbird for a locked-down email account.

But it was SLOW. Just really, glacially, slow, especially for Thunderbird.

My first step to address that was to get a faster MicroSD card to hold the OS. That was a dramatic improvement. It’s still slow, but a lot faster.

Then, I thought, maybe I could use btrfs with LZO compression to reduce the amount of I/O and speed things up further? Analysis showed things were mostly slow due to I/O, not CPU, constraints.

The conversion

Rather than use the btrfs in-place conversion from ext4, I opted to dar it up (like tar), run mkfs.btrfs on the SD card, then unpack the archive back onto it. Easy enough, right?

Well, not so fast. The MicroSD card is 128GB, and the entire filesystem is 6.2GB. But after unpacking 100MB onto it, I got an out of space error.

btrfs has this notion of block groups. By default, each block group is dedicated to either data or metadata. btrfs fi df and btrfs fi usage will show you details about the block groups.

btrfs allocates block groups greedily (the ssd_spread mount option I use may have exacerbated this). What happened was it allocated almost the entire drive to data block groups, trying to spread the data across it. It so happened that dar archived some larger files first (maybe /boot), so btrfs was allocating data and metadata blockgroups assuming few large files. But then it started unpacking one of the directories in /usr with lots of small files (maybe /usr/share/locale). It quickly filled up the metadata block group, and since the entire SD card had been allocated to different block groups, I got ENOSPC.

Deleting a few files and running btrfs balance resolved it; now it allocated 1GB to metadata, which was plenty. I re-ran the dar extract and now everything was fine. See more details on btrfs balance and block groups.

This was the only btrfs problem I encountered.

Benchmarks

I timed two things prior to switching to btrfs: how long it takes to boot (measured from the moment I turn on the power until the moment the XFCE login box is displayed), and how long it takes to start Thunderbird.

After switching to btrfs with LZO compression, somewhat to my surprise, both measures were exactly the same!

Why might this be?

It turns out that SD cards are understood to be pathologically bad with random read performance. Boot and Thunderbird both are likely doing a lot of small random reads, not large streaming reads. Therefore, it may be that even though I have reduced the total I/O needed, the impact is unsubstantial because the real bottleneck is the “seeks” across the disk.

Still, I gain the better backup support and silent data corruption prevention, so I kept btrfs.

SSD mount options and MicroSD endurance

btrfs has several mount options specifically relevant to SSDs. Aside from the obvious trim support, they are ssd and ssd_spread. The documentation on this is vague and my attempts to learn more about it found a lot of information that was outdated or unsubstantiated folklore.

Some reports suggest that “older” SSDs will benefit from ssd_spread, but that it may have no effect or even a harmful effect on newer ones, and can at times cause fragmentation or write amplification. I could find nothing to back this up, though. And it seems particularly difficult to figure out what kind of wear leveling SSD firmware does. MicroSD firmware is likely to be on the less-advanced side, but still, I have no idea what it might do. In any case, with btrfs not updating blocks in-place, it should be better than ext4 in the most naive case (no wear leveling at all) but may have somewhat more write traffic for the pathological worst case (frequent updates of small portions of large files).

One anecdotal report I read — and can’t find anymore, somehow — was from a person that had set up a sort of torture test for SD cards, with reports that ext4 lasted a few weeks or months before the MicroSDs failed, while btrfs lasted years.

If you are looking for a MicroSD card, by the way, The Great MicroSD Card Survey is a nice place to start.

For longevity: I mount all my filesystems with noatime already, so I continue to recommend that. You can also consider limiting the log size in /etc/systemd/journald.conf, running daily fstrim (which may be more successful than live trims in all filesystems).

Conclusion

I’ve been pretty pleased with btrfs. The concerns I have today relate to block groups and maintenance (periodic balance and maybe a periodic defrag). I’m not sure I’d be ready to say “put btrfs on the computer you send to someone that isn’t Linux-savvy” because the chances of running into issues are higher than with ext4. Still, for people that have some tech savvy, btrfs can improve reliability and performance in other ways.

09 September, 2025 02:01PM by John Goerzen

September 08, 2025

hackergotchi for Dirk Eddelbuettel

Dirk Eddelbuettel

RcppArmadillo 15.0.2-1 on CRAN: New Upstream, Some Changes

armadillo image

Armadillo is a powerful and expressive C++ template library for linear algebra and scientific computing. It aims towards a good balance between speed and ease of use, has a syntax deliberately close to Matlab, and is useful for algorithm development directly in C++, or quick conversion of research code into production environments. RcppArmadillo integrates this library with the R environment and language–and is widely used by (currently) 1279 other packages on CRAN, downloaded 41.2 million times (per the partial logs from the cloud mirrors of CRAN), and the CSDA paper (preprint / vignette) by Conrad and myself has been cited 644 times according to Google Scholar.

Fairly shortly after the release of Armadillo 14.6.3 (which became our precedig release 14.6.3), Conrad released version 15.0.0 of Armadillo. It contains several breaking changes which made it unsuitable for CRAN as is. First, the minimum C++ standard was lifted to C++14. There are many good reasons for doing so, but doing it unannounced with no transition offered cannot work at CRAN. For (mostly historical) reasons (as C++11 was once a step up from even more archaic code) many packages still enforce C++11. These packages would break under Armadillo 15.0.0. With some reverse-dependency checks we quickly found that this would affect over 200 packages. Second, Armadillo frequently deprecates code and issues a warning offering a hint towards an improved / current alternative. That too is good practice, and recommended. But at CRAN a deprecation warning seen leads to NOTE and an unfixed NOTEs can lead to archival which is not great. For that reason, we had added a global ‘muffler’ suppressing the deprecation warnings. This was now removed in C++14 (as one can rely on newer compiler attributes we cannot undo, whereas the old scheme just used macros). Again, not something we can do at CRAN.

So I hatched the plan of offering both the final release under the previous state of the world, i.e. 14.6.3, along with 15.0.0. User could then opt-into 15.0.0 but have a fallback of 14.6.3 allowing all packages to coexist. The first idea was to turn the fallback on only if C++11 compilation was noticed. This lead still a lot of deprecation warnings meaning we had to more strongly default to 14.6.3 and only if users actively selected 15.0.* would they get it. This seemed to work. We were still faced with two hard failures. Turns out one was local to a since-archived package, the other reveal a bad interaction betweem Armadillo and gcc for complex variables and lead to bug fix 15.0.1. Which I wrapped and uploaded a week ago.

Release 15.0.1 was quickly seen as only temporary because I overlooked two issues. Moving ‘legacy’ and ‘current’ into, respectively, a directory of that name meant to top-level include header armadillo remained. This broked a few use cases where packages use a direct #include <armadillo> (which we do not recommend as it may miss a few other settings we apply for the R case). The other is that an old test for ‘limited’ LAPACK capabilities made noise in some builds (for example on Windows). As (current) R versions generally have sufficient LAPACK and BLAS, this too has been removed.

We have tested and rested these changed extensively. The usual repository with the logs shows eight reverse-dependency runs each of which can take up to a day. This careful approach, together with pacing uploads at CRAN usually works. We got a NOTE for ‘seven uploads in six months’ for this one, but a CRAN maintainer quickly advanced it, and the fully automated test showed no regression or other human intervention which is nice given the set of changes, and the over 1200 reverse dependencies.

The changes since the last announced CRAN release 14.6.3 follow.

Changes in RcppArmadillo version 15.0.2-1 (2025-09-08)

  • Upgraded to Armadillo release 15.0.2-1 (Medium Roast)

    • Optionally use OpenMP parallelisation for fp16 matrix multiplication

    • Faster vectorisation of cube tubes

  • Provide a top-level include file armadillo as fallback (#480)

  • Retire the no-longer-needed check for insufficient LAPACK as R now should supply a sufficient libRlapack (when used) (#483)

  • Two potential narrowing warnings are avoided via cast

Changes in RcppArmadillo version 15.0.1-1 (2025-09-01)

  • Upgraded to Armadillo release 15.0.1-1 (Medium Roast)

    • Workaround for GCC compiler bug involving misoptimisation of complex number multiplication

  • This version contains both 'legacy' and 'current' version of Armadillo (see also below). Package authors should set a '#define' to select the 'current' version, or select the 'legacy' version (also chosen as default) if they must. See GitHub issue #475 for more details.

  • Updated DESCRIPTION and README.md

Changes in RcppArmadillo version 15.0.0-1 (2025-08-21) (GitHub Only)

  • Upgraded to Armadillo release 15.0.0-1 (Medium Roast)

    • C++14 is now the minimum required C++ standard

    • Aded preliminary support for matrices with half-precision fp16 element type

    • Added second form of cond() to allow detection of failures

    • Added repcube()

    • Added .freeze() and .unfreeze() member functions to wall_clock

    • Extended conv() and conv2() to accept the "valid" shape argument

  • Also includes Armadillo 14.6.3 as fallback for C++11 compilations

  • This new 'dual' setup had been rigorously tested with five interim pre-releases of which several received full reverse-dependency checks

Courtesy of my CRANberries, there is a diffstat report relative to previous release. More detailed information is on the RcppArmadillo page. Questions, comments etc should go to the rcpp-devel mailing list off the Rcpp R-Forge page.

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

08 September, 2025 07:03PM

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.

Debian Printing

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

This work is generously funded by Freexian!

Debian Astro

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

Debian IoT

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

Debian Mobcom

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

misc

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

On my fight against outdated RFPs, I closed 31 of them in August.

FTP master

Yeah, Trixie has been released, the tired bones need to be awaken again :-). This month I accepted 203 and rejected 18 packages. The overall number of packages that got accepted was 243.

08 September, 2025 03:35PM by alteholz

Michael Ablassmeier

Vagrant images for trixie

It’s no news that the vagrant license has changed while ago, which resulted in less motivation to maintain it in Debian (understandably).

Unfortunately this means there are currently no official vagrant images for Debian trixie, for reasons

Of course there are various boxes floating around on hashicorp’s vagrant cloud, but either they do not fit my needs (too big) or i don’t consider them trustworthy enough…

Building the images using the existing toolset is quite straight forward. The required scripts are maintained in the Debian Vagrant images repository.

With a few additional changes applied and following the instructions of the README, you can build the images yourself.

For me, the built images work like expected.

08 September, 2025 12:00AM

September 07, 2025

Reproducible Builds (diffoscope)

diffoscope 306 released

The diffoscope maintainers are pleased to announce the release of diffoscope version 306. This version includes the following changes:

[ Zbigniew Jędrzejewski-Szmek ]
* Fix compatibility with RPM 6.
* Use regular 'open' calls instead of the deprecated 'codecs.open'.
* Accept additional 'v' when calling 'fdtump --version'.

You find out more by visiting the project homepage.

07 September, 2025 12:00AM

September 06, 2025

Reproducible Builds

Reproducible Builds in August 2025

Welcome to the August 2025 report from the Reproducible Builds project!

Welcome to the latest report from the Reproducible Builds project for August 2025. These monthly reports outline what we’ve been up to over the past month, and highlight items of news from elsewhere in the increasingly-important area of software supply-chain security. If you are interested in contributing to the Reproducible Builds project, please see the Contribute page on our website.

In this report:

  1. Reproducible Builds Summit 2025
  2. Reproducible Builds and live-bootstrap at WHY2025
  3. DALEQ Explainable Equivalence for Java Bytecode
  4. Reproducibility regression identifies issue with AppArmor security policies
  5. Rust toolchain fixes
  6. Distribution work
  7. diffoscope
  8. Website updates
  9. Reproducibility testing framework
  10. Upstream patches

Reproducible Builds Summit 2025

Please join us at the upcoming Reproducible Builds Summit, set to take place from October 28th — 30th 2025 in Vienna, Austria!**

We are thrilled to host the eighth edition of this exciting event, following the success of previous summits in various iconic locations around the world, including Venice, Marrakesh, Paris, Berlin, Hamburg and Athens. Our summits are a unique gathering that brings together attendees from diverse projects, united by a shared vision of advancing the Reproducible Builds effort.

During this enriching event, participants will have the opportunity to engage in discussions, establish connections and exchange ideas to drive progress in this vital field. Our aim is to create an inclusive space that fosters collaboration, innovation and problem-solving.

If you’re interesting in joining us this year, please make sure to read the event page which has more details about the event and location. Registration is open until 20th September 2025, and we are very much looking forward to seeing many readers of these reports there!


Reproducible Builds and live-bootstrap at WHY2025

WHY2025 (What Hackers Yearn) is a nonprofit outdoors hacker camp that takes place in Geestmerambacht in the Netherlands (approximately 40km north of Amsterdam). The event is “organised for and by volunteers from the worldwide hacker community, and knowledge sharing, technological advancement, experimentation, connecting with your hacker peers, forging friendships and hacking are at the core of this event”.

At this year’s event, Frans Faase gave a talk on live-bootstrap, an attempt to “provide a reproducible, automatic, complete end-to-end bootstrap from a minimal number of binary seeds to a supported fully functioning operating system”.

Frans’ talk is available to watch on video and his slides are available as well.


DALEQ Explainable Equivalence for Java Bytecode

Jens Dietrich of the Victoria University of Wellington, New Zealand and Behnaz Hassanshahi of Oracle Labs, Australia published an article this month entitled DALEQ — Explainable Equivalence for Java Bytecode which explores the options and difficulties when Java binaries are not identical despite being from the same sources, and what avenues are available for proving equivalence despite the lack of bitwise correlation:

[Java] binaries are often not bitwise identical; however, in most cases, the differences can be attributed to variations in the build environment, and the binaries can still be considered equivalent. Establishing such equivalence, however, is a labor-intensive and error-prone process.

Jens and Behnaz therefore propose a tool called DALEQ, which:

disassembles Java byte code into a relational database, and can normalise this database by applying Datalog rules. Those databases can then be used to infer equivalence between two classes. Notably, equivalence statements are accompanied with Datalog proofs recording the normalisation process. We demonstrate the impact of DALEQ in an industrial context through a large-scale evaluation involving 2,714 pairs of jars, comprising 265,690 class pairs. In this evaluation, DALEQ is compared to two existing bytecode transformation tools. Our findings reveal a significant reduction in the manual effort required to assess non-bitwise equivalent artifacts, which would otherwise demand intensive human inspection. Furthermore, the results show that DALEQ outperforms existing tools by identifying more artifacts rebuilt from the same code as equivalent, even when no behavioral differences are present.

Jens also posted this news to our mailing list.


Reproducibility regression identifies issue with AppArmor security policies

Tails developer intrigeri has tracked and followed a reproducibility regression in the generation of AppArmor policy caches, and has identified an issue with the 4.1.0 version of AppArmor.

Although initially tracked on the Tails issue tracker, intrigeri filed an issue on the upstream bug tracker. AppArmor developer John Johansen replied, confirming that they can reproduce the issue and went to work on a draft patch. Through this, John revealed that it was caused by an actual underlying security bug in AppArmor — that is to say, it resulted in permissions not (always) matching what the policy intends and, crucially, not merely a cache reproducibility issue.

Work on the fix is ongoing at time of writing.


Rust toolchain fixes

Rust Clippy is a linting tool for the Rust programming language. It provides a collection of lints (rules) designed to identify common mistakes, stylistic issues, potential performance problems and unidiomatic code patterns in Rust projects. This month, however, Sosthène Guédon filed a new issue in the GitHub requesting a new check that “would lint against non deterministic operations in proc-macros, such as iterating over a HashMap”.


Distribution work

In Debian this month:

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


diffoscope

diffoscope is our in-depth and content-aware diff utility that can locate and diagnose reproducibility issues. This month, Chris Lamb made the following changes, including preparing and uploading versions, 303, 304 and 305 to Debian:

  • Improvements:

    • Use sed(1) backreferences when generating debian/tests/control to avoid duplicating ourselves. []
    • Move from a mono-utils dependency to versioned mono-devel | mono-utils dependency, taking care to maintain the [!riscv64] architecture restriction. []
    • Use sed over awk to avoid mangling dependency lines containing = (equals) symbols such as version restrictions. []

  • Bug fixes:

    • Fix a test after the upload of systemd-ukify version 258~rc3. []
    • Ensure that Java class files are named .class on the filesystem before passing them to javap(1). []
    • Do not run jsondiff on files over 100KiB as the algorithm runs in O(n^2) time. []
    • Don’t check for PyPDF version 3 specifically; check for >= 3. []

  • Misc:

    • Update copyright years. [][]

In addition, Martin Joerg fixed an issue with the HTML presenter to avoid crash when page limit is None [] and Zbigniew Jędrzejewski-Szmek fixed compatibility with RPM 6 []. Lastly, John Sirois fixed a missing requests dependency in the trydiffoscope tool. []


Website updates

Once again, there were a number of improvements made to our website this month including:


Reproducibility testing framework

The Reproducible Builds project operates a comprehensive testing framework running primarily at tests.reproducible-builds.org in order to check packages and other artifacts for reproducibility. In August, however, a number of changes were made by Holger Levsen, including:

  • reproduce.debian.net-related:

    • Run 4 workers on the o4 node again in order to speed up testing. [][][][]
    • Also test trixie-proposed-updates and trixie-updates etc. [][]
    • Gather seperate statistics for each tested release. []
    • Support sources from all Debian suites. []
    • Run new code from the prototype database rework branch for the amd64-pull184 pseudo-architecture. [][]
    • Add a number of helpful links. [][][][][][][][][]
    • Temporarily call debrebuild without the --cache argument to experiment with a new version of devscripts. [][][]
    • Update public TODO. []

  • Installation tests:

    • Add comments to explain structure. []
    • Mark more old jobs as old or “dead”. [][][]
    • Turn the maintenance job into a no-op. []

  • Jenkins node maintenance:

    • Increase penalties if the osuosl5 or ionos7 nodes are down. []
    • Stop trying to fix network automatically. []
    • Correctly mark ppc64el architecture nodes when down. []
    • Upgrade the remaining arm64 nodes to Debian trixie in anticipation of the release. [][]
    • Allow higher SSD temperatures on the riscv64 architecture. []

  • Debian-related:

    • Drop the armhf architecture; many thanks to Vagrant for physically hosting the nodes for ten years. [][]
    • Add Debian forky, and archive bullseye. [][][][][][][]
    • Document the filesystem space savings from dropping the armhf architecture. []
    • Exclude i386 and armhfr from JSON results. []
    • Update TODOs for when Debian trixie and forky have been released. [][]

  • tests.reproducible-builds.org-related:

  • Misc:

    • Detect errors with openQA erroring out. []
    • Drop the long-disabled openwrt_rebuilder jobs. []
    • Use qa-jenkins-dev@alioth-lists.debian.net as the contact for jenkins.debian.net. []

    • Redirect reproducible-builds.org/vienna25 to reproducible-builds.org/vienna2025. []

    • Disable all OpenWrt reproducible CI jobs, in coordination with the OpenWrt community. [][]
    • Make reproduce.debian.net accessable via IPv6. []
    • Ignore that the megacli RAID controller requires packages from Debian bookworm. []

In addition,

  • James Addison migrated away from deprecated toplevel deb822 Python module in favour of debian.deb822 in the bin/reproducible_scheduler.py script [] and removed a note on reproduce.debian.net note after the release of Debian trixie [].

  • Jochen Sprickerhof made a huge number of improvements to the reproduce.debian.net statistics calculation [][][][][][] as well as to the reproduce.debian.net service more generally [][][][][][][][].

  • Mattia Rizzolo performed a lot of work migrating scripts to SQLAlchemy version 2.0 [][][][][][] in addition to making some changes to the way openSUSE reproducibility tests are handled internally. []

  • Lastly, Roland Clobus updated the Debian Live packages after the release of Debian trixie. [][]


Upstream patches

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



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

06 September, 2025 09:58PM

Antonio Terceiro

autopkgtest support in Debian: a more optimistic view

Yesterday I posted about the history, in numbers, of the support for autopkgtest in the Debian archive. I had analyzed the presence of a Testsuite: field in source packages, from wheezy to trixie, and noticed a slowdown in the growth rate of autopkgtest support, in proportional terms. In each new release, the percentage of packages declaring a test suite grew less than in the previous release, for the last 4 releases.

A night of sleep and a rainy morning later, I come back with a more optimistic view, and present to you the following data, expanded from the raw data:

Release year Release Yes No Total Δ Yes Δ No Δ Total
2013 wheezy 5 17170 17175 -- -- --
2015 jessie 1112 19484 20596 1107 2314 3421
2017 stretch 5110 19735 24845 3998 251 4249
2019 buster 9966 18535 28501 4856 -1200 3656
2021 bullseye 13949 16994 30943 3983 -1541 2442
2023 bookworm 17868 16473 34341 3919 -521 3398
2025 trixie 21527 16143 37670 3659 -330 3329

A few observations:

  • Since stretch, we have been consistently adding autopkgtest support to close to 4,000 packages on each release, on average.
  • Since buster, the number of packages without autopkgtest support has decreased in the hundreds.
  • On average, each release has 3,400 packages more than the previous, while also bringing 4,000 extra packages with autopkgtest support. I have the following hypotheses for this:
    1. a large part of new packages are added already with autopkgtests;
    2. a smaller but reasonably large number of existing packages get autopkgtests added on each release.

All in all, I think this data show that Debian maintainers recognize the usefulness of automated testing and are engaged in improving our QA process.

06 September, 2025 09:19AM

September 05, 2025

Past halfway there: history of autopkgtest support in Debian

The Release of Debian 13 ("Trixie") last month marked another milestone on the effort to provide automated test support for Debian packages in their installed form. We have achieved the mark of 57% of the source packages in the archive declaring support for autopkgtest.

Release Packages with tests Total number of packages % of packages with tests
wheezy 5 17175 0%
jessie 1112 20596 5%
stretch 5110 24845 20%
buster 9966 28501 34%
bullseye 13949 30943 45%
bookworm 17868 34341 52%
trixie 21527 37670 57%

The code that generated this table is provided at the bottom.

The growth rate has been consistently decreasing at each release after stretch. That probably means that the low hanging fruit -- adding support en masse for large numbers of similar packages, such as team-maintained packages for a given programming language -- has been picked, and from now on the work gets slightly harder. Perhaps there is a significant long tail of packages that will never get autopkgtest support.

Looking for common prefixes among the packages missing a Testsuite: field gives me us the largest groups of packages missing autopkgtest support:

$ grep-dctrl -v -F Testsuite --regex -s Package -n . trixie | cut -d - -f 1 | uniq -c | sort -n| tail -20
     50 apertium
     50 kodi
     51 lomiri
     53 maven
     55 libjs
     57 globus
     66 cl
     67 pd
     72 lua
     79 php
     88 puppet
     91 r
    111 gnome
    124 ruby
    140 ocaml
    152 rust
    178 golang
    341 fonts
    557 python
   1072 haskell

There seems to be a fair amount of Haskell and Python. If someone could figure out a way of testing installed fonts in a meaningful way, this would a be a good niche where we can cover 300+ packages.

There is a another analysis that can be made, which I didn't: which percentage of new packages introduced in a given release have declared autopkgtest support, compared with the total of new packages in that release? My data only counts the totals, so we start with the technical debt of the almost all of the 17,000 packages with no tests in wheezy, which was the stable at the time I started Debian CI. How many of those got tests since then?

Note that not supporting autopkgtest does not mean that a package is not tested at all: it can run build-time tests, which are also useful. Not supporting autopkgtest, though, means that their binaries in the archive can't be automatically tested in their installed, but then there is a entire horde of volunteers running testing and unstable on a daily basis who test Debian and report bugs.

This is the script that produced the table in the beginning of this post:

#!/bin/sh

set -eu

extract() {
  local release
  local url
  release="$1"
  url="$2"

  if [ ! -f "${release}" ]; then
    rm -f "${release}.gz"
    curl --silent -o ${release}.gz "${url}"
    gunzip "${release}.gz"
  fi

  local with_tests
  local total
  with_tests="$(grep-dctrl -c -F Testsuite --regex . $release)"
  total="$(grep-dctrl -c -F Package --regex . $release)"

  echo "| ${release} | ${with_tests} | ${total} | $((100*with_tests/total))% |"
}

echo "| **Release** | **Packages with tests** | **Total number of packages** | **% of packages with tests** |"
echo "|-------------|-------------------------|------------------------------|------------------------------|"
for release in wheezy jessie stretch buster; do
  extract "${release}" "http://archive.debian.org/debian/dists/${release}/main/source/Sources.gz"
done
for release in bullseye bookworm trixie; do
  extract "${release}" "http://ftp.br.debian.org/debian/dists/${release}/main/source/Sources.gz"
done

05 September, 2025 08:22PM

September 04, 2025

Noah Meyerhans

False Positives

There are times when an email based workflow gets really difficult. One of those times is when discussing projects related to spam and malware detection.

 noahm@debian.org
host stravinsky.debian.org [2001:41b8:202:deb::311:108]
SMTP error from remote mail server after end of data:
550-malware detected: Sanesecurity.Phishing.Fake.30934.1.UNOFFICIAL:
550 message rejected
submit@bugs.debian.org
host stravinsky.debian.org [2001:41b8:202:deb::311:108]
SMTP error from remote mail server after end of data:
550-malware detected: Sanesecurity.Phishing.Fake.30934.1.UNOFFICIAL:
550 message rejected

This was, in fact, a false positive. And now, because reportbug doesn’t record outgoing messages locally, I need to retype the whole thing.

(NB. this is not a complaint about the policies deployed on the Debian mail servers; they’d be negligent if they didn’t implement such policies on today’s internet.)

04 September, 2025 02:53PM by Noah Meyerhans (frodo+blog@morgul.net)

September 03, 2025

hackergotchi for Joachim Breitner

Joachim Breitner

F91 in Lean

Back in March, with version 4.17.0, Lean introduced partial_fixpoint, a new way to define recursive functions. I had drafted a blog post for the official Lean FRO blog back then, but forgot about it, and with the Lean FRO blog discontinued, I’ll just publish it here, better late than never.

With the partial_fixpoint mechanism we can model possibly partial functions (so those returning an Option) without an explicit termination proof, and still prove facts about them. See the corresponding section in the reference manual for more details.

On the Lean Zulip, I was asked if we can use this feature to define the McCarthy 91 function and prove it to be total. This function is a well-known tricky case for termination proofs.

First let us have a brief look at why this function is tricky to define in a system like Lean. A naive definition like

def f91 (n : Nat) : Nat :=
  if n > 100
  then n - 10
  else f91 (f91 (n + 11))

does not work; Lean is not able to prove termination of this functions by itself.

Even using well-founded recursion with an explicit measure (e.g. termination_by 101 - n) is doomed, because we would have to prove facts about the function’s behaviour (namely that f91n = f91101 = 91 for 90 ≤ n ≤ 100) and at the same time use that fact in the termination proof that we have to provide while defining the function. (The Wikipedia page spells out the proof.)

We can make well-founded recursion work if we change the signature and use a subtype on the result to prove the necessary properties while we are defining the function. Lean by Example shows how to do it, but for larger examples this approach can be hard or tedious.

With partial_fixpoint, we can define the function as a partial function without worrying about termination. This requires a change to the function’s signature, returning an Option Nat:

def f91 (n : Nat) : Option Nat :=
  if n > 100
    then pure (n - 10)
    else f91 (n + 11) >>= f91
partial_fixpoint

From the point of view of the logic, Option.none is then used for those inputs for which the function does not terminate.

This function definition is accepted and the function runs fine as compiled code:

#eval f91 42

prints some 91.

The crucial question is now: Can we prove anything about f91 In particular, can we prove that this function is actually total?

Since we now have the f91 function defined, we can start proving auxillary theorems, using whatever induction schemes we need. In particular we can prove that f91 is total and always returns 91 for n ≤ 100:

theorem f91_spec_high (n : Nat) (h : 100 < n) : f91 n = some (n - 10) := by
  unfold f91; simp [*]

theorem f91_spec_low (n : Nat) (h₂ : n ≤ 100) : f91 n = some 91 := by
  unfold f91
  rw [if_neg (by omega)]
  by_cases n < 90
  · rw [f91_spec_low (n + 11) (by omega)]
    simp only [Option.bind_eq_bind, Option.some_bind]
    rw [f91_spec_low 91 (by omega)]
  · rw [f91_spec_high (n + 11) (by omega)]
    simp only [Nat.reduceSubDiff, Option.some_bind]
    by_cases h : n = 100
    · simp [f91, *]
    · exact f91_spec_low (n + 1) (by omega)

theorem f91_spec (n : Nat) : f91 n = some (if n ≤ 100 then 91 else n - 10) := by
  by_cases h100 : n ≤ 100
  · simp [f91_spec_low, *]
  · simp [f91_spec_high, Nat.lt_of_not_le ‹_›, *]

-- Generic totality theorem
theorem f91_total (n : Nat) : (f91 n).isSome := by simp [f91_spec]

(Note that theorem f91_spec_low is itself recursive in a somewhat non-trivial way, but Lean can figure that out all by itself. Use termination_by? if you are curious.)

This is already a solid start! But what if we want a function of type f91! (n : Nat) : Nat, without the Option? Then can derive that from the partial variant, as we have just proved that to be actually total:

def f91! (n : Nat) : Nat  := (f91 n).get (f91_total n)

theorem f91!_spec (n : Nat) : f91! n = if n ≤ 100 then 91 else n - 10 := by
  simp [f91!, f91_spec]

Using partial_fixpoint one can decouple the definition of a function from a termination proof, or even model functions that are not terminating on all inputs. This can be very useful in particular when using Lean for program verification, such as with the aeneas package, where such partial definitions are used to model Rust programs.

03 September, 2025 08:18PM by Joachim Breitner (mail@joachim-breitner.de)

Enrico Zini

CAdES signatures on Debian

CAdES is a digital signature standard that is used and sometimes mandated, by the Italian Public Administration.

To be able to do my job, I own a Carta Nazionale dei Servizi (CNS) with which I can generate legally binding signatures. Now comes the problem of finding a software to do it.

Infocamere Firma4NG

InfoCamere are distributing a software called Firma4NG, with a Linux option, which, I'm pleased to say, seems to work just fine.

Autofirma

AutoFirma is a Java software for digital signatures distributed by the Spanish government, which has a Linux version.

It is licensed as GPL-2+ | EUPL-1.1, and the source seems to be here.

While my Spanish is decent I lack jargon for this specific field, and I didn't manage to make it work with my CNS.

Autogram

Andrej Shadura pointed me to Autogram, a Slovakian software for digital signatures, licensed under the EUPL-1.2.

The interface is still only in Slovakian, so tried it but I didn't go very far in trying to make it work.

OpenSSL

In trixie, openssl is almost, but not quite, able to do it. Here's as far as I've got.

Install opensc

apt install opensc

Test if you can access the smart card with:

pkcs11-tool --list-objects [-l]

You can find other pkcs11-tool examples here

Set up a pkcs11 provider for openssl

apt install pkcs11-provider

Edit /etc/ssl/openssl.cnf:

  • In [provider_sect] add pkcs11 = pkcs11_sect
  • In [default_sect], uncomment activate = 1
  • Add this new section:
[pkcs11_sect]
module = /usr/lib/x86_64-linux-gnu/ossl-modules/pkcs11.so
pkcs11-module-path = /usr/lib/x86_64-linux-gnu/pkcs11/opensc-pkcs11.so
default_algorithms = ALL
activate = 1

Test with openssl list -providers

You can check if openssl can see keys on the card:

openssl pkey -in 'pkcs11:id=%01' -pubin -pubout -text

See PKCS11 URI documentation here.

Install the PKCS11 engine for openssl

apt install libengine-pkcs11-openssl

It looks like providers replaced engines, and this would not be needed, but I couldn't find a way to convince openssl to work without this.

Sign a document

openssl cms -nodetach -binary -cades -outform DER -in filename -out filename.p7m -sign -signer 'pkcs11:id=%01' -keyform engine -engine pkcs11

It verifies correctly using the Austrian verification system.

All the Italian verification systems I tried, however, complain that, although the signature is valid, the certificate is emitted by an unqualified CA and the certificate revocation information cannot be found.

PAdES

When signing PDF files, the PAdES standard is sometimes accepted.

LibreOffice is able to generate PAdES signatures using the "File / Digital signatures…" menu, and provided the smart card is in the reader it is able to use it. Both LibreOffice and Okular can verify that the signature is indeed there.

However, when trying to validate the signature using Italian validators, I get the same complaints about unqualified CAs and missing revocation information.

Wall of shame

Dike GoSign

Infocert (now Tinexta) used to distribute a software called "Dike GoSign" that worked on Ubuntu, which I used on a completely isolated VM, and it was awful but it worked.

I had to regenerate the VM for it, and discovered that the version they distribute now will refuse to work unless one signs in online with a Tinexta account. From the same company that asks you to install their own root certifiactes to use their digital signature system.

Gross.

Dropped.

Aruba Sign

Aruba used to distribute a software called Aruba Sign, which also worked on Ubuntu.

Ubuntu support has been discontinued, and they now only offer support for Windows or Mac.

Yuck. Dropped.

03 September, 2025 03:38PM

hackergotchi for Colin Watson

Colin Watson

Free software activity in August 2025

About 95% of my Debian contributions this month were sponsored by Freexian.

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

Python team

forky is open! As a result I’m starting to think about the upcoming Python 3.14. At some point we’ll doubtless do a full test rebuild, but in advance of that I concluded that one of the most useful things I could do would be to work on our very long list of packages with new upstream versions. Of course there’s no real chance of this ever becoming empty since upstream maintainers aren’t going to stop work for that long, but there are a lot of packages there where we’re quite a long way out of date, and many of those include fixes that we’ll need for 3.14, either directly or by fixing interactions with new versions of other packages that in turn will need to be fixed. We can backport changes when we need to, but more often than not the most efficient way to do things is just to keep up to date.

So, I upgraded these packages to new upstream versions (deep breath):

  • aioftp
  • aiosignal (building on work by IanLucca)
  • audioop-lts
  • celery
  • djangorestframework
  • djoser
  • fpylll
  • frozenlist
  • git-repo-updater
  • ipykernel
  • klepto
  • kombu
  • multipart
  • netmiko (sponsoring work by Eduardo Silva; contributed supporting fix upstream)
  • pathos
  • ppft
  • pydantic
  • pydantic-core
  • pydantic-settings
  • pylsqpack
  • pymssql
  • pytest-mock
  • pytest-pretty
  • pytest-repeat
  • pytest-rerunfailures
  • python-a2wsgi
  • python-apptools (sponsoring work by Kathlyn Lara Murussi)
  • python-asgiref
  • python-asyncssh
  • python-bitarray
  • python-bitstring
  • python-bytecode
  • python-channels-redis
  • python-charset-normalizer
  • python-daphne
  • python-django-analytical
  • python-django-guid
  • python-django-health-check
  • python-django-pgbulk
  • python-django-pgtrigger
  • python-django-postgres-extra
  • python-django-storages
  • python-holidays
  • python-httpx-sse
  • python-icalendar
  • python-lazy-model
  • python-line-profiler
  • python-lz4
  • python-marshmallow-dataclass
  • python-mastodon
  • python-model-bakery
  • python-oauthlib
  • python-parse-type
  • python-pathvalidate
  • python-pgspecial
  • python-processview
  • python-pytest-subtests
  • python-roman
  • python-semantic-release
  • python-testfixtures
  • python-time-machine
  • python-tokenize-rt
  • python-typeguard
  • python-typing-extensions
  • python-urllib3
  • pyupgrade
  • requests (fixing CVE-2024-47081)
  • responses
  • zope.deferredimport
  • zope.schema
  • zope.testrunner

That’s only about 10% of the backlog, but of course others are working on this too. If we can keep this up for a while then it should help.

I packaged pytest-run-parallel, pytest-unmagic (still in NEW), and python-forbiddenfruit (still in NEW), all needed as new dependencies of various other packages.

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 (note that this does not mean that they necessarily have to use pyproject.toml; this is just a question of how the packaging runs the build system). We talked about this a bit at DebConf, and I said that I’d noticed a number of packages where this isn’t straightforward and promised to write up some notes. I wrote the Python/PybuildPluginPyproject wiki page for this; I expect to add more bits and pieces to it as I find them.

On that note, I converted several packages to pybuild-plugin-pyproject:

  • billiard
  • lazr.config
  • python-timeline
  • zope.sqlalchemy
  • zope.testing

I fixed several build/test failures:

I fixed some other bugs:

I reviewed Debian defaults: nftables as banaction and systemd as backend, but it looked as though nothing actually needed to be changed so we closed this with no action.

Rust team

Upgrading Pydantic was complicated, and required a rust-pyo3 transition (which Jelmer Vernooij started and Peter Michael Green has mostly been driving, thankfully), packaging rust-malloc-size-of (including an upstream portability fix), and upgrading several packages to new upstream versions:

  • rust-serde
  • rust-serde-derive
  • rust-serde-json
  • rust-smallvec
  • rust-speedate
  • rust-time
  • rust-time-core
  • rust-time-macros

bugs.debian.org

I fixed bugs.debian.org: misspelled checkbox id “uselessmesages”, as well as a bug that caused incoming emails with certain header contents to go missing.

OpenSSH

I fixed openssh-server: refuses further connections after having handled PerSourceMaxStartups connections with a cherry-pick from upstream.

Other bits and pieces

I upgraded libfido2 to a new upstream version.

I fixed mimalloc: FTBFS on armhf: cc1: error: ‘-mfloat-abi=hard’: selected architecture lacks an FPU, which was blocking changes to pendulum in the Python team. I also spent some time helping to investigate libmimalloc3: Illegal instruction Running mtxrun —generate, though that bug is still open.

I fixed various autopkgtest bugs in gssproxy, prompted by #1007 in Debusine.

Since my old team is decommissioning Bazaar/Breezy code hosting in Launchpad (the end of an era, which I have distinctly mixed feelings about), I converted Storm to git.

03 September, 2025 10:56AM by Colin Watson

Paul Wise

FLOSS Activities August 2025

Focus

This month I didn't have any particular focus. I just worked on issues in my info bubble.

Changes

Issues

  • Obsolete conffile in zmap

All work was done on a volunteer basis.

03 September, 2025 03:59AM

hackergotchi for Ben Hutchings

Ben Hutchings

FOSS activity in August 2025

03 September, 2025 01:14AM by Ben Hutchings

Valhalla's Things

English Paper Piecing, Done Wrong

Posted on September 3, 2025
Tags: madeof:bits

A square mat made of orange, green and grey knit fabric hexagons sewn together.

For quite some time, I have been thinking about trying a bit of patchwork, and English Paper Piecing looked like a technique suited to my tastes, with the handsewing involved and the fact of having a paper pattern of sort and everything.

The problem is, most of the scraps of fabric I get from my sewing aren’t really suitable for quilting, with a lot of them being either too black and too thick or too white and too thin.

The other side of the same mat, made of orange and green squares.

On the other hand, my partner wears polo shirts at work, and while I try to mend the holes that form, after a while the edges get worn, and they just are no longer suitable for the office, even with some creative mending, and they get downgraded to home wear. But then more office shirts need to be bought, and the home ones accumulate, and there is only so much room for polo shirts in the house, and the worst ones end up in my creative reuse pile.

Some parts are worn out and they will end up as cabbage stuffing for things, but some are still in decent enough conditions and could be used as fabric.

But surely, for English Paper Piecing you’d need woven fabric, not knit, even if it’s the dense piqué used in polo shirts, right? Especially if it’s your first attempt at the technique, right?

The hexagon side of the mat, with my hexagonal pattern weights decorated with Standard Compliant stickers: they fit exactly on the mat pattern.

Well, probably it wouldn’t work with complex shapes, but what about some 5-ish cm tall Standard Compliant bestagon? So I printed out some hexagons on thick paper, printed some bigger hexagons with sewing allowance as a cutting aid, found two shirts in the least me colours I could find (and one in grey because it was the best match for the other two) and decided to sacrifice them for the experiment.

And as long as the paper was still in the pieces, the work went nicely, so I persevered while trying to postpone the Moment of Truth.

The squares side of the mat, with a few random Piecepack pieces: the tiles take almost exactly 2 × 2 squares, and the coins fit inside each square with room to pick them up.

After a while I measured things out and saw that I could squeeze a 6.5 × 7 hexagon pattern into something resembling a square that was a multiple of the 2.5 cm square on the back of my Piecepack tiles, and decided to go for another Standard for the back (because of course I wasn’t going to buy new fabric for lining the work).

I kept the paper in the pieces until both sides were ready, and used it to sew them right sides together, leaving the usual opening in the middle of one side.

Then I pressed, removed the paper, turned everything inside out, pressed again and. It worked!

The hexagon side of the mat, with a set of polyhedral dice.

The hexagons look like hexagons, the squares look like squares, the whole thing feels soft and drapey, but structurally sound. And it’s a bit lumpy, but not enough to cause issues when using it as a soft surface to put over a noisy wooden table to throw dice on.

I considered adding some lightweight batting in the middle, but there was really no need for it, and wondered about how to quilt the piece in a way that worked with the patterns on the two sides, but for something this small it wasn’t really required.

However, I decided to add a buttonhole stitch border on all edges, to close the opening I had left and to reinforce especially the small triangles on the hexagons side, as those had a smaller sewing allowance and could use it.

The squares sides of the mat, with some blue and purple stones in the starting position for a hnefatafl game.

And of course, the 11 × 11 squares side wasn’t completely an accident, but part of A Plan.

For this project there isn’t really a pattern, but I did publish the files I used to print the paper pieces even if they were pretty trivial.

And there are more polo shirts in that pile, and while they won’t be suitable for anything complex, maybe I could try some rhombs, or even kites and darts?

03 September, 2025 12:00AM

September 02, 2025

Debian Outreach Team

Spaarsh Gsoc Report

– layout: post title: “GSoC 2025 Report: Enhancing Debian packages with ROCm GPU acceleration” date: 2025-09-01 categories: gsoc debian ROCm debian-packaging author: Spaarsh Thakkar —

GitLab Salsa: @Spaarsh

GitHub: Spaarsh

Introduction

I am Spaarsh Thakkar, a final-year Computer Science Engineering undergrad from India. My interests lie in research and systems. My recent work has been in and around Graphics Processing Units and I also hold a keen interest in Computer Networks. At the time of writing, I have been an open-source contributor for almost a year.

Proposal Description (as shown on GSoC Project Profile1)

Due to Debian’s open-source nature, no Debian package in main can have a proprietary GPU package listed as a dependency. While AI and HPC workloads increasingly rely on GPU acceleration, many Debian packages still focus solely on CUDA, which is proprietary.

With the advent of ROCm, an open-source GPU computing platform, we can now integrate full-fledged AMD GPU support into Debian packages. This will improve the experience of developers working in AI/ML and HPC while positioning Debian as a strong OS choice for GPU-driven workloads. The proposal aims to aid in solving the aforementioned program by packaging several ROCm packages for debian and add ROCm support to some existing debian packages.

The deliverables are as follows:

  1. New Debian packages with GPU support
  2. Enhanced GPU support within existing Debian packages
  3. More autopackagetests running on the Debian ROCm CI

Key Objectives

Enable ROCm in:

  1. dbcsr
  2. gloo
  3. cp2k

Publish the following packages to debian apt archive:

  1. hipblas-common
  2. hipBLASlt

Work Report

1. Publishing hipblas-common to apt

This objective was successfully completed, resulting in hipblas-common being published in the apt repository2.

The process involved the following steps:

  1. Filing a Intent-To-Package (ITP)3
  2. Pulling the upstream source code repository from GitHub
  3. Adding the debian/ packaging files
  4. Testing the package locally
  5. Creating the corresponding project under rocm-team4
  6. Applying the necessary changes
  7. Building the package
  8. Testing it using sbuild
  9. Signing the package files
  10. Uploading the package to the mentors.debian.net archive(now in official archive)5
  11. Addressing review feedback and making changes
  12. Requesting sponsorship6
  13. Securing sponsorship, which led to the package being accepted into the experimental branch of apt

Since the beginning of GSoC, the package has also been promoted to the unstable branch2.

2. DBCSR ROCm and Multi-Arch Support

During my GSoC project, I worked on extending the DBCSR (Distributed Block Compressed Sparse Row)7 package to improve its ROCm/HIP support, and handling multi-architecture GPU kernels in a way that is both practical for upstream maintainers and debian package developers.

The code changes can be found at my dbcsr fork here8.

ROCm/HIP Enablement

  • Enabled ROCm backend support to DBCSR, allowing GPU acceleration beyond CUDA by enabling HIP-based builds.
  • Investigated and resolved build issues specific to HIP kernels within DBCSR.

Multi-Architecture GPU Kernel Handling

(The following content was presented in greater detail at DebConf’25 as well. The presentation video can be found here9 and the presentation slide can be found here10).

  • DBCSR contains GPU kernels that are heavily optimized for specific architectures. By default, these are built for a single target architecture, which poses challenges for packaging where binaries need to support multiple possible GPU targets.

  • Explored different strategies for solving the multi-arch GPU kernel distribution problem, including:

    • Option 1: Fat binaries (embedding multiple GPU architectures into a single binary, with runtime dispatch). This is ideal for end-users but requires deeper changes upstream and is not straightforward with HIP/ROCm.
    • Option 2: Arch-specific libraries (e.g., libdbcsr.gfxXXX.a), where the alternatives system or explicit user selection would determine which one is used. This solves the problem but pushes complexity downstream into packaging and user configuration.
    • Option 3: Prefixed functions inside a single file, where kernels are compiled separately per architecture, functions are renamed with an arch prefix, and runtime logic in DBCSR decides which kernel to invoke. This shifts complexity upstream but could give a clean downstream experience.
  • I critically analyzed these options in the context of Debian packaging and upstream maintainability. Arch-specific .a files introduce exponential dependency complexity. The prefixed-function approach seemed like a plausible way forward, though it requires upstream buy-in.
  • After consulting with my mentor, these concerns were raised in the dbcsr repository as a discussion here11 

Summary

My work involved:

  • Enabling HIP/ROCm support in DBCSR.

  • Prototyping strategies for handling GPU multi-arch builds.

  • Evaluating the trade-offs between upstream maintainability and downstream packaging complexity.

3. gloo, hipification and source code issues

One of the other packages that were targeted was gloo12. It is a collective communications library and has the implementations of different Machine Learning communication algorithms.

The code changes can be found at my gloo fork here13 (some changes have not be committed at the time of writing).

HIP/ROCm Enablement

  1. Fixing old ROCm CMake functions The upstream Gloo codebase still used old ROCm CMake functions that began with the hip_ prefix (for example, hip_add_executable). These functions have since been deprecated/removed. I updated the build system to use the modern ROCm CMake equivalents so that the package can build properly in a current ROCm environment.

  2. Debian packaging changes I modified debian/control to add a new package, libgloo-rocm, in addition to the existing packages. This allows proper separation and handling of ROCm-enabled builds in Debian.

  3. First successful library build After these changes, I was able to successfully build the library. However, I ran into issues when trying to produce the shared library: there were undefined symbol errors at link time.

Source Code Issue

On investigating the undefined symbol errors, I identified that these came from a lack of explicit template instantiation for some Gloo classes. Since C++ templates only get compiled when explicitly used or instantiated, this resulted in missing symbols in the shared library.

To solve this, I explored the source code and noticed that the HIP backend code was not natively written — it was generated from the CUDA backend using a custom hipification script maintained by the repo.

  • I experimented with modifying the HIPification process itself, trying out hipify-perl14 instead of the repository’s custom Python script.
  • I also tried tweaking the source code in places where template instantiations were missing, so that the ROCm build would correctly export the needed symbols.

Summary

The issue is still unresolved. The core problem lies in how the source code is structured: the HIP backend is almost entirely auto-generated from CUDA code, and the process does not handle template instantiations correctly. Because of this, the Debian package for Gloo with ROCm support is not yet ready for release, and further source-level fixes are required to make the ROCm build reliable.

4. cp2k

CP2K15 is a quantum chemistry and solid state physics software package that can perform atomistic simulations of solid state, liquid, molecular, periodic, material, crystal, and biological systems.

HIP/ROCm Enablement

cp2k depends on dbcsr and hence, HIP/ROCm enablement in this package required the dbcsr16 package to get through.

Even though dbcsr isn’t ready yet, it was worthwhile to plan how it shall be built with HIP/ROCm once we have dbcsr in place. Upon doing this, it was realized that the architecture-wise libraries provided by the dbcsr package will result in a complicated building process for cp2k.

No changes have been made to this package yet and more concrete steps shall be taken once the dbcsr package work is completed.

Summary

The multi-arch build process for cp2k maybe complicated by the one static-library-per-architecture method used in the dependent package, dbcsr.

Auxiliary Work & Activities

While working on the aformentioned GSoC Goals, there were a few other things that were also done.

  1. libamdhip64-dev bug file17

    While trying to enable HIP/ROCm in dbcsr, CMakeDetermineHIPCompiler.cmake was unable to find HIP runtime CMake package. After going through some similar issues faced by other developers earlier, it was decided to file a bug report under the libamdhip64-dev package.

    After discussions with and trying the changes suggested by Cory (my mentor) under the bug, the issue was resolved.

    Turns out, the wrong compiler was being used by me! The gcc compiler was supposed to be used and I was using hipcc. The bug was closed since it was not due an issue with the package.

    Cory suggested that I add this info under the ROCm wiki page. It is yet to be done and hopefully I get it done soon.

  2. DebConf25 Talk

    After facing the multi-arch build dilemma with dbcsr (and also getting to know about the issues faced by other fellow package developers), I came to realise that this was more than a packaging, build or programming issue. GPU-packaging was facing a policy issue.

    Hence, I decided to cover this problem in greater detail at my DebConf25 Virtual Presentation under the Outreach Session.

    Shoutout to Cory for his support and Lucas Kanashiro for encouraging me to present my work!

  3. Bi-Weekly AMD ROCm Meetings

    Shortly after the Coding period started, Cory began the initiative of Bi-Weekly AMD ROCm Meetings18. Being a part of the meetings (participated in all but one!), seeing the work the other folks are doing and being able to discuss my own problems was a delight.

  4. (Upcoming) IndiaFOSS 2025 Talk

    After understanding the nuances and beauty of the debian packaging ecosystem in these months, I decided to spread the work about debian packaging and packaging software in general. My talk19 for the same got accepted in the upcoming IndiaFOSS 202520 conference!

    I hope this beings more people towards the packaging ecosystem and to the debian developer ecosystem.

Conclusion

My GSoC time was fantastic! I plan to complete the work that I have started during my GSoC and beyond. Working with Cory21 and Utkarsh22 (a fellow GSoC’25 contributor under Cory) has been a very positive experience.

HIP/ROCm GPU-packaging is in a nascent stage. It is an exciting time to be in this space right now. The problems are new and never encountered before (CPU packaging isn’t architecture specific!). The problems were shall face in the coming time, and our solutions to them will set a precendent for the future.

References

1 : https://summerofcode.withgoogle.com/programs/2025/projects/9s4jUjV0

2 : https://tracker.debian.org/pkg/hipblas-common

3 : https://bugs.debian.org/cgi-bin/bugreport.cgi?bug=1105114

4 : https://salsa.debian.org/rocm-team

5 : https://packages.debian.org/source/sid/hipblas-common

6 : https://lists.debian.org/debian-ai/2025/05/msg00088.html

7 : https://www.cp2k.org/dbcsr

8 : https://salsa.debian.org/Spaarsh/dbcsr/

9 : https://drive.google.com/file/d/14WQuTMcI-L0lbi3zkUc9pT6RGwwVY0j1/view?usp=sharing

10 : https://docs.google.com/presentation/d/1p-nkHPgg5C5jKGy7ySZ8rts5G2vNFQpQJQ8UySOWgVE

11 : https://github.com/cp2k/dbcsr/discussions/933

12 : https://github.com/pytorch/gloo

13 : https://salsa.debian.org/Spaarsh/gloo

14 : https://tracker.debian.org/pkg/hipify

15 : https://www.cp2k.org/

16 : https://tracker.debian.org/pkg/dbcsr

17 : https://bugs.debian.org/cgi-bin/bugreport.cgi?https://fossunited.org/indiafoss/2025bug=1108159

18 : https://lists.debian.org/debian-ai/2025/05/msg00113.html

19 : https://fossunited.org/c/indiafoss/2025/cfp/dpq0b26ece

20 : https://fossunited.org/indiafoss/2025

21 : https://salsa.debian.org/cgmb

22 : https://salsa.debian.org/utk4r-sh

02 September, 2025 01:32PM by Outreach team

hackergotchi for Jonathan Dowland

Jonathan Dowland

Luminal and Lateral

For my birthday I was gifted copies of Eno's last two albums, Luminal and Lateral, both of which are collaborations with Beatie Wolfe.

Luminal and Lateral records in the sunshine

Let's start with the art. I love this semi-minimalist, bold style, and how the LP itself (in their coloured, bio-vinyl variants) feels like it's part of the artwork. I like the way the artist credits mirror each other: Wolfe, Eno for Luminal; Eno, Wolfe for Lateral.

My first "bio vinyl" LP was the Cure's last one, last year. Ahead of it arriving I planned to blog about it, but when it came arrived it turned out I had nothing interesting to say. In terms of how it feels, or sounds, it's basically the same as the traditional vinyl formulation.

The attraction of bio-vinyl to well-known environmentalists like Eno (and I guess, the Cure) is the reduced environmental impact due to changing out the petroleum and other ingredients with recycled used cooking oil. You can read more about bio-vinyl if you wish. I try not to be too cynical about things like this; my immediate response is to assume some kind of green-washing PR campaign (I'm currently reading Consumed by Saabira Chaudhuri, an excellent book that is not sadly only fuelling my cynicism) but I know Eno in particular takes this stuff seriously and has likely done more than a surface-level evaluation. So perhaps every little helps.

On to the music. The first few cuts I heard from the albums earlier in the year didn't inspire me much. Possibly I heard something from Luminal, the vocal album; and I'm generally more drawn to Eno's ambient work. (Lateral is ambient instrumental). I was not otherwise familiar with Beatie Wolfe. On returning to the albums months later, I found them more compelling. Luminal reminds me a little of Apollo: Atmospheres and Soundtracks. Lateral worked well as space music for phd-correction sessions.

The pair recently announced a third album, Liminal, to arrive in October, and totally throw off the symmetry of the first two. Two of its tracks are available to stream now in the usual places.

02 September, 2025 11:23AM

hackergotchi for Junichi Uekawa

Junichi Uekawa

September.

September. Kids Summer Vacation is over and things are starting to come back to the usual rhythm.

02 September, 2025 12:30AM by Junichi Uekawa

Charles

Making KGB less noisy

This past month I did setup KGB to send notifications to #debian-lts when new merge requests were created in the LTS website’s repo and I learned a couple cool things. I’ve been trying to document things more so I don’t have to research the same topic months later, hence the blog seemed like a good idea, specially since many debianites have KGB set on their favorite IRC channel and this post will go to planet.debian.org.

Selecting What Goes to IRC

Salsa (Debian’s GitLab instance) can generate a lot of events for things that happen on a repository and a lot of them can be pushed to KGB via webhooks. Generally I prefer a minimal set enabled otherwise it’s too much clutter on the IRC side, but it’s important to go through each option to see what makes sense or not. From the experience I had, the following ones are the most useful to have it on:

  • Push events
  • Tag push events
  • Comments
  • Issue events
  • Merge request events
  • Pipeline events

Reducing the Noise

For Debian packaging, one may find it useful to add a pattern filter so only the packaging branch updates go to IRC. If you are using DEP-14, that’s pretty easy, “debian/*” will do the job.

Notably, “Job events” are left out. Basically it’s just too much info, you get one alert when a job is scheduled, then when it’s started and another one when it’s completed. Well, each pipeline has at least a few of them, multiply by three and you can understand my point.

Besides that, pipelines also generate the same amount of events as jobs, so it might be a problem too. Well, KGB comes to the rescue. It allows you to filter pipeline events, because you really only care about the pipeline when it fails ;-) To do just that, pipeline_only_status=failed.

Another interesting option is limiting the commits shown when the push event has too many of them. One can do that with squash_threshold=3. Remember I want less clutter?! Three commits is my limit here.

Final Result

The final URL for me looks like this (newlines added for clarity):

http://kgb.debian.net:9418/webhook/?channel=debian-<your_preferred_channel>&
                                    network=oftc&
                                    private=1&
                                    use_color=1&
                                    use_irc_notices=1&
                                    squash_threshold=3&
                                    pipeline_only_status=failed

You can see there are more options than the ones I described earlier, well, now it’s your time to go through KGB’s documentation and learn a thing or two ;-)

02 September, 2025 12:18AM

September 01, 2025

hackergotchi for Guido Günther

Guido Günther

Free Software Activities August 2025

Another short status update of what happened on my side last month. Released Phosh 0.49.0 and added some more QoL improvements to Phosh Mobile stack (e.g. around Cell broadcasts). Also pulled my SHIFT6mq out of the drawer (where it was sitting in a drawwer far too long) and got it to show a picture after a small driver fix. Thanks to the work the sdm845-mainlining folks are doing that was all that was needed. If I can get touch to work better that would be another nice device for demoing Phosh.

See below for details on the above and more:

phosh

  • Allow to auto-start pomodoro timer (MR)
  • Improve mpris player thumbnails (MR)
  • Cellbroadcast fixes (MR)
  • Release (MR)
  • searchd related build system fixes (MR)
  • gchar vs char cleanup (MR)
  • upcoming-events: Add filter icons (MR)
  • Fix missing header dependency (MR)
  • Release 0.49~rc1, 0.49.0
  • Fix some incorrect callback signatures (MR)

phoc

  • Workspace indicators (MR)
  • Don't overwrite picked output (MR)
  • Release (0.49~rc1, 0.49.0
  • Raise nofile rlimit (MR)
  • Fix gettings tarted page title (MR)
  • Update cursor when layer surface moves away from under the cursor (MR)
  • Support cursor-shape-v1 protocol (MR)
  • pointer: Use libinput's LIBINPUT_CONFIG_DRAG_LOCK_ENABLED_STICKY: (MR)

phosh-mobile-settings

  • Cellbroadcast fixes (MR)
  • build: Link statically against libcellbroadcast subproject (MR)
  • Release 0.49~rc1, 0.49.0

stevia (formerly phosh-osk-stub)

  • Release 0.49~rc1, 0.49.0
  • Fix emoji matching on big endian (MR)
  • Fix emoji matching again aftr switching to GTK's embedded emoji data (MR)
  • Fix scaling when adding new layouts (MR)
  • Improve character popover and other fixes (MR)

xdg-desktop-portal-phosh

pfs

  • Let pressing <enter> save the file (MR)

feedbackd

  • Release 0.8.4
  • Fix important override. (MR)

feedbackd-device-themes

  • Release 0.8.5
  • Lower status LED brightness on sargo (MR)

libcmatrix

  • Track room version (MR)

Chatty

  • Warning fixes (MR)
  • matrix: Show room version (MR)

Debian

Cellbroadcastd

  • Fix daemon systemd target (MR)
  • Ignore case when matching country when looking up channels (MR)
  • Meson dependency fix (MR)

ModemManager

  • Fix two country codes (MR)

gnome-clocks

  • Fix sporadic wakeup due to not diposed timers (MR) also resulting in a vala issue

git-buildpackage

  • Move test data to salsa and fetch it from there: deb, rpm, MR
  • clone: Be less strict on vcs-git URLs (MR)

mobian-recipies

  • Fail early without an ssh key (MR)

Linux

  • Shift6mq: Fix clock frequency of panel driver (MR)
  • Shift6mq: Set chassis type (MR)
  • Shift6mq: Tried to improve the touch driver to increase the sensitivity / sample rate not success yet.

Reviews

This is not code by me but reviews on other peoples code. The list is (as usual) slightly incomplete. Thanks for the contributions!

  • phosh/upcoming-events: Allow to filter out empty days in (MR)
  • phosh: keypad and search bar CSS improvements (MR)
  • p-m-s: Tweaks definition parsing code (MR)
  • p-m-s: osk-shortcuts: UI tweaks (MR)
  • p-m-s: Add gchar check (MR)
  • p-m-s: Make it a search provider (MR)
  • phoc: toplevel-addons (MR)
  • debian: MM stable update (MR)
  • stevia: Use default font (MR)
  • upcoming-events: Use filtered list model (MR)
  • pms: Tweaks rename (MR)
  • pms: Clang build fix (MR)
  • feedbackd: Udev rule for AW86927 (FP5) (MR)
  • xdpm: Allow pure rust build for using in xdg-d-p-phrosh (MR)

Help Development

If you want to support my work see donations.

Comments?

Join the Fediverse thread

01 September, 2025 06:05AM

Birger Schacht

Status update, August 2025

Due to the freeze I did not do that many uploads in the last few months, so there were various new releases I packaged once Trixie was released. Regarding the release of Debian 13, Trixie, I wrote a small summary of the changes in my packages.

I uploaded an unreleased version of cage to experimental, to prepare for the transition to wlroots-0.19. Both sway and labwc already had packages in experimental that depended on the new wlroots version. When the transition happened, I uploaded the cage version to unstable, as well as labwc 0.9.1 and sway 1.11.

I updated

  • foot to 1.23.1
  • waybar to 0.14.0
  • swaylock to 1.8.3
  • git-quick-stats to 2.7.0
  • swayimg to 4.5
  • usbguard to 1.1.4
  • fcft to 3.3.2
  • fnott to 1.8.0
  • wdisplays to 1.1.3
  • wev to 1.1.0
  • wlopm to 1.0.0
  • wmenu to 0.2.0
  • libsfdo to 0.1.4

Most of the packages I uploaded using git-debpush, some of them could not be uploaded this way due to upstream using git submodules (this is 1107219). I also created 1112040 - git-debpush: should also say which tag it created and 1111504 - git-debpush: pristine-tar check warns about pristine-tar data thats not present (which is already fixed).

I uploaded wayback 0.2 to NEW, where it is waiting for review, (ITP).

In my dayjob I added extended the place lookup form of apis-core-rdf to allow searching places and selecting them on a map using leaflet and the nominatim API. Another issue I worked on was about highlighting those inputs of our generic list filter that are used to filter the results. I released a couple of bugfix releases for the v0.50 release, then v0.51 and two bugfix releases and then v0.52 and another couple of bugfix releases. v0.53 will land in a couple of days. I also released v0.6.2 of apis-highlighter-ng, which is sort of a plugin for apis-core-rdf, that allows to highlight parts of a text and link them to whatever Django object (in our case relations).

01 September, 2025 05:28AM

Russ Allbery

Review: Regenesis

Review: Regenesis, by C.J. Cherryh

Series: Cyteen #2
Publisher: DAW
Copyright: January 2009
ISBN: 0-7564-0592-0
Format: Mass market
Pages: 682

The main text below is an edited version of my original review of Regensis written on 2012-12-21. Additional comments from my re-read are after the original review.

Regenesis is a direct sequel to Cyteen, picking up very shortly after the end of that book and featuring all of the same characters. It would be absolutely pointless to read this book without first reading Cyteen; all of the emotional resonance and world-building that make Regensis work are done there, and you will almost certainly know whether you want to read it after reading the first book. Besides, Cyteen is one of the best SF novels ever written and not the novel to skip.

Because this is such a direct sequel, it's impossible to provide a good description of Regenesis without spoiling at least characters and general plot developments from Cyteen. So stop reading here if you've not yet read the previous book.

I've had this book for a while, and re-read Cyteen in anticipation of reading it, but I've been nervous about it. One of the best parts of Cyteen is that Cherryh didn't belabor the ending, and I wasn't sure what part of the plot could be reasonably extended. Making me more nervous was the back-cover text that framed the novel as an investigation of who actually killed the first Ari, a question that was fairly firmly in the past by the end of Cyteen and that neither I nor the characters had much interest in answering. Cyteen was also a magical blend of sympathetic characters, taut tension, complex plotting, and wonderful catharsis, the sort of lightning in a bottle that can rarely be caught twice.

I need not have worried. If someone had told me that Regenesis was another 700 pages of my favorite section of Cyteen, I would have been dubious. But that's exactly what it is. And the characters only care about Ari's murderer because it comes up, fairly late in the novel, as a clue in another problem.

Ari and Justin are back in the safe laboratory environment of Reseune, safe now that politics are not trying to kill or control them. Yanni has taken over administration. There is a general truce, and even some deeper agreement. Everyone can take a breath and relax, albeit with the presence of Justin's father Jordan as an ongoing irritant. But broader Union politics are not stable: there is an election in progress for the Defense councilor that may break the tenuous majority in favor of Reseune and the Science Directorate, and Yanni is working out a compromise to gain more support by turning a terraforming project loose on a remote world. As the election and the politics heat up, interpersonal relationships abruptly deteriorate, tensions with Jordan sharply worsen, and there may be moles in Reseune's iron-clad security. Navigating the crisis while keeping her chosen family safe will once again tax all of Ari's abilities.

The third section of Cyteen, where Ari finally has the tools to take fate into her own hands and starts playing everyone off against each other, is one of my favorite sections of any book. If it was yours as well, Regenesis is another 700 pages of exactly that. As an extension and revisiting, it does lose a bit of immediacy and surprise from the original. Regenesis is also less concerned with the larger questions of azi society, the nature of thought and personality, loyalty and authority, and the best model for the development of human civilization. It's more of a political thriller. But it's a political thriller that recaptures much of the drama and tension of Cyteen and is full of exceptionally smart and paranoid people thinking through all angles of a problem, working fast on their feet, and successfully navigating tricky and treacherous political landscapes.

And, like Cyteen but unlike others of Cherryh's novels I've read, it's a novel about empowerment, about seizing control of one's surroundings and effectively using all of the capability and leverage at one's fingertips. That gives it a catharsis that's almost as good as Cyteen.

It's also, like its predecessor, a surprisingly authoritarian novel. I think it's in that, more than anything else in these books, that one sees the impact of the azi. Regenesis makes it clear that the story is set, not in a typical society, but inside a sort of corporation, with an essentially hierarchical governance structure. There are other SF novels set within corporations (Solitaire comes to mind), but normally they follow peons or at best mid-level personnel or field agents, or otherwise take the viewpoint of the employees or the exploited. When they follow the corporate leaders, the focus usually isn't down inside the organization, but out into the world, with the corporation as silent resources on which the protagonist can draw.

Regenesis is instead about the leadership. It's about decisions about the future of humanity that characters feel they can make undemocratically (in part because they or their predecessors have effectively engineered the opinions of the democratic population), but it's also about how one manages and secures a top-down organization. Reseune is, as in the previous novel, a paranoid's suspicions come true; everyone is out to get everyone else, or at least might be, and the level of omnipresent security and threat forces a close parsing of alliances and motivations that elevates loyalty to the greatest virtue.

In Cyteen, we had long enough with Ari to see the basic shape of her personality and her slight divergences from her predecessor, but her actions are mostly driven by necessity. Regenesis gives us more of a picture of what she's like when her actions aren't forced, and here I think Cherryh manages a masterpiece of subtle characterization. Ari has diverged substantially from her predecessor without always realizing, and those divergences are firmly grounded in the differences she found or created between her life and the first Ari's. She has friends, confidents, and a community, which combined with past trauma has made her fiercely, powerfully protective. It's that protective instinct that weaves the plot together. So many of the events of Cyteen and Regenesis are driven by people's varying reactions to trauma.

If you, like me, loved the last third of Cyteen, read this, because Regenesis is more of exactly that. Cherryh finds new politics, new challenges, and a new and original plot within the same world and with the same characters, but it has the same feel of maneuvering, analysis, and decisive action. You will, as with Cyteen have to be comfortable with pages of internal monologue from people thinking through all sides of a problem. If you didn't like that in the previous book, avoid this one; if you loved it, here's the sequel you didn't know you were waiting for.

Original rating: 9 out of 10

Some additional thoughts after re-reading Regenesis in 2025:

Cyteen mostly held up to a re-reading and I had fond memories of Regenesis and hoped that it would as well. Unfortunately, it did not. I think I can see the shape of what I enjoyed the first time I read it, but I apparently was in precisely the right mood for this specific type of political power fantasy.

I did at least say that you have to be comfortable with pages of internal monologue, but on re-reading, there was considerably more of that than I remembered and it was quite repetitive. Ari spends most of the book chasing her tail, going over and around and beside the same theories that she'd already considered and worrying over the nuances of every position. The last time around, I clearly enjoyed that; this time, I found it exhausting and not very well-written. The political maneuvering is not that deep; Ari just shows every minutia of her analysis.

Regenesis also has more about the big questions of how to design a society and the role of the azi than I had remembered, but I'm not sure those discussions reach any satisfying conclusions. The book puts a great deal of effort into trying to convince the reader that Ari is capable of designing sociological structures that will shape Union society for generations to come through, mostly, manipulation of azi programming (deep sets is the term used in the book). I didn't find this entirely convincing the first time around, and I was even less convinced in this re-read. Human societies are a wicked problem, and I don't find Cherryh's computer projections any more convincing than Asimov's psychohistory.

Related, I am surprised, in retrospect, that the authoritarian underpinnings of this book didn't bother me more on my first read. They were blatantly obvious on the second read. This felt like something Cherryh put into these books intentionally, and I think it's left intentionally ambiguous whether the reader is supposed to agree with Ari's goals and decisions, but I was much less in the mood on this re-read to read about Ari making blatantly authoritarian decisions about the future of society simply because she's smart and thinks she, unlike others, is acting ethically. I say this even though I like Ari and mostly enjoyed spending time in her head. But there is a deep fantasy of being able to reprogram society at play here that looks a lot nastier from the perspective of 2025 than apparently it did to me in 2012.

Florian and Catlin are still my favorite characters in the series, though. I find it oddly satisfying to read about truly competent bodyguards, although like all of the azi they sit in an (I think intentionally) disturbing space of ambiguity between androids and human slaves.

The somewhat too frank sexuality from Cyteen is still present in Regenesis, but I found it a bit less off-putting, mostly because everyone is older. The authoritarian bent is stronger, since Regenesis is the story of Ari consolidating power rather than the underdog power struggle of Cyteen, and I had less tolerance for it on this re-read.

The main problem with this book on re-read was that I bogged down about halfway through and found excuses to do other things rather than finish it. On the first read, I was apparently in precisely the right mood to read about Ari building a fortified home for all of her friends; this time, it felt like endless logistics and musings on interior decorating that didn't advance the plot. Similarly, Justin and Grant's slow absorption into Ari's orbit felt like a satisfying slow burn friendship in my previous reading and this time felt touchy and repetitive.

I was one of the few avid defenders of Regenesis the first time I read it, and sadly I've joined the general reaction on a re-read: This is not a very good book. It's too long, chases its own tail a bit too much, introduces a lot more authoritarianism and doesn't question it as directly as I wanted, and gets even deeper into Cherryh's invented pseudo-psychology than Cyteen. I have a high tolerance for the endless discussions of azi deep sets and human flux thinking, and even I got bored this time through.

On re-read, this book was nowhere near as good as I thought it was originally, and I would only recommend it to people who loved Cyteen and who really wanted a continuation of Ari's story, even if it is flabby and not as well-written. I have normally been keeping the rating of my first read of books, but I went back and lowered this one by two points to ensure it didn't show as high on my list of recommendations.

Re-read rating: 6 out of 10

01 September, 2025 04:41AM

Iustin Pop

Small PSA: git.k1024.org turndown

Just a small thing: I’m going to turn down the very simple gitweb interface at https://git.k1024.org/. Way back, I thought I should have a backup for GitHub, but the decentralised Git model makes this not really needed, and gitweb is actually pretty heavy, even if it is really bare-bones.

Practically, as small as that site was, it was fine before the LLM era. Since then, I keep getting lots of traffic, as if these repositories which already exist on GitHub hold critical training information… Thus, I finally got the impetus to turn it down, for no actual loss. Keeping it would make sense only if I were to change it into a proper forge, but that’s a different beast, in which I have no interest (as a public service). So, down it goes.

I’ll probably replace all of it with a single static page, text-only even 😄

Next in terms of simplification will probably be removing series from this blog, since there’s not enough clear separation between tags and series. Or at least, I’m not consequent enough to write a very clean set of articles that can be ordered and numbered as a unit.

01 September, 2025 12:08AM

August 31, 2025

Russell Coker

hackergotchi for Otto Kekäläinen

Otto Kekäläinen

Managing procrastination and distractions

Featured image of post Managing procrastination and distractions

I’ve noticed that procrastination and inability to be consistently productive at work has become quite common in recent years. This is clearly visible in younger people who have grown up with an endless stream of entertainment literally at their fingertips, on their mobile phone. It is however a trap one can escape from with a little bit of help.

Procrastination is natural — they say humans are lazy by nature after all. Probably all of us have had moments when we choose to postpone a task we know we should be working on, and instead spent our time doing secondary tasks (valorisation). Classic example is cleaning your apartment when you should be preparing for an exam. Some may procrastinate by not doing any work at all, and just watching YouTube videos or the like. To some people, typically those who are in their 20s and early in their career, procrastination can be a big challenge and finding the discipline to stick to planned work may need intentional extra effort, and perhaps even external help.

During my 20+ year career in software development I’ve been blessed to work with engineers of various backgrounds and each with their unique set of strengths. I have also helped many grow in various areas and overcome challenges, such as lack of intrinsic motivation and managing procrastination, and some might be able to get it in check with some simple advice.

Distance yourself from the digital distractions

The key to avoiding distractions and procrastination is to make it inconvenient enough that you rarely do it. If continuing to do work is easier than switching to procrastination, work is more likely to continue.

Tips to minimize digital distractions, listed in order of importance:

  1. Put your phone away. Just like when you go to a movie and turn off your phone for two hours, you can put the phone away completely when starting to work. Put the phone in a different room to ensure there is enough physical distance between you and the distraction, so it is impossible for you to just take a “quick peek”.
  2. Turn off notifications from apps. Don’t let the apps call you like sirens luring Odysseus. You don’t need to have all the notifications. You will see what the apps have when you eventually open them at a time you choose to use them.
  3. Remove or disable social media apps, games and the like from your phone and your computer. You can install them back when you have vacation. You can probably live without them for some time. If you can’t remove them, explore your phone’s screen time restriction features to limit your own access to apps that most often waste your time. These features are sometimes listed in the phone settings under “digital health”.
  4. Have a separate work computer and work phone. Having dedicated ones just for work that are void of all unnecessary temptations helps keep distance from the devices that could derail your focus.
  5. Listen to music. If you feel your brain needs a dose of dopamine to get you going, listening to music helps satisfy your brain’s cravings while still being able to simultaneously keep working.

Doing a full digital detox is probably not practical, or not sustainable for an extended time. One needs apps to stay in touch with friends and family, and staying current in software development probably requires spending some time reading news online and such. However the tips above can help contain the distractions and minimize the spontaneous attention the distractions get.

Some of the distractions may ironically be from the work itself, for example Slack notifications or new email notifications. I recommend turning them off for a couple of hours every day to have some distraction free time. It should be enough to check work mail a couple times a day. Checking them every hour probably does not add much overall value for the company unless your work is in sales or support where the main task itself is responding to emails.

Distraction free work environment

Following the same principle of distancing yourself from distractions, try to use a dedicated physical space for working. If you don’t have a spare room to dedicate to work, use a neighborhood café or sign up for a local co-working space or start commuting to the company office to find a space to be focused on work in.

Break down tasks into smaller steps

Sometimes people postpone tasks because they feel intimidated by the size or complexity of a task. In particular in software engineering problems may be vague and appear large until one reaches the breakthrough that brings the vision of how to tackle it. Breaking down problems into smaller more manageable pieces has many advantages in software engineering. Not only can it help with task-avoidance, but it can also make the problem easier to analyze, suggest solutions and test them and build a solid foundation to expand upon to ultimately later reach a full solution on the entire larger problem.

Working on big problems as a chain of smaller tasks may also offer more opportunities to celebrate success on completing each subtask and help getting in a suitable cadence of solving a single thing, taking a break and then tackling the next issue.

Breaking down a task into concrete steps may also help with getting more realistic time estimations. Sometimes procrastination isn’t real — someone could just be overly ambitious and feel bad about themselves for not doing an unrealistic amount of work.

Intrinsic motivation

Of course, you should follow your passion when possible. Strive to pick a career that you enjoy, and thus maximize the intrinsic motivation you experience. However, even a dream job is still a job. Nobody is ever paid to do whatever they want. Any work will include at least some tasks that feel like a chore or otherwise like something you would not do unless paid to.

Some would say that the definition of work itself is having to do things one would otherwise not do. You can only fully do whatever you want while on vacation or when you choose to not have a job at all. But if you have a job, you simply need to find the intrinsic motivation to do it.

Simply put, some tasks are just unpleasant or boring. Our natural inclination is to avoid them in favor of more enjoyable activities. For these situations we just have to find the discipline to force ourselves to do the tasks and figuratively speaking whip ourselves into being motivated to complete the tasks.

Extrinsic motivation

As the name implies, this is something people external to you need to provide, such as your employer or manager. If you have challenges in managing yourself and delivering results on a regular basis, somebody else needs to set goals and deadlines and keep you accountable for them. At the end of the day this means that eventually you will stop receiving salary or other payments unless you did your job.

Forcing people to do something isn’t nice, but eventually it needs to be done. It would not be fair for an employer to pay those who did their work the same salary as those who procrastinated and fell short on their tasks.

If you work solo, you can also simulate the extrinsic motivation by publicly announcing milestones and deadlines to build up pressure for yourself to meet them and avoid publicly humiliation. It is a well-studied and scientifically proven phenomenon that most university students procrastinate at the start of assignments, and truly start working on them only once the deadline is imminent.

External help for addictions

If procrastination is mainly due to a single distraction that is always on your mind, it may be a sign of an addiction. For example, constantly thinking about a computer game or staying up late playing a computer game, to the extent that it seriously affects your ability to work, may be a symptom of an addiction, and getting out of it may be easier with external help.

Discipline and structure

Most of the time procrastination is not due to an addiction, but simply due to lack of self-discipline and structure. The good thing is that those things can be learned. It is mostly a matter of getting into new habits, which most young software engineers pick up more or less automatically while working along the more senior ones.

Hopefully these tips can help you stay on track and ensure you do everything you are expected to do with clear focus, and on time!

31 August, 2025 12:00AM

August 30, 2025

hackergotchi for Steinar H. Gunderson

Steinar H. Gunderson

Bruteforcing pwgen passwords

I needed to bruteforce some passwords that I happened to know that were generated with the default mode (“pronouncable”) of pwgen, so I spent a fair amount of time writing software to help. It went through a whole lot of iterations and ended up being more efficient than I had ever assumed would be possible (although it's still nowhere near as efficient as it should ideally be). So now I'm sharing it with you. If you have IPv6 and can reach git.sesse.net, that is.

I'm pasting the entire README below. Remember to use it for ethical purposes.

Introduction
============

pwbrute creates all possible pwgen passwords (default tty settings, no -s).
It matches pwgen 2.08. It supports ordering them by most common first.
Note that pwgen before 2.07 also supported a special “non-tty mode”
that was even less secure (no digits, no uppercase) which is not supported here.

To get started, do

   g++ -std=c++20 -O2 -o pwbrute pwbrute.cc -ljemalloc
  ./pwbrute --raw --sort --expand --verbose > passwords.txt

wait for an hour or two and you're left with 276B passwords in order
(about 2.5TB). (You can run without -ljemalloc, but the glibc malloc
makes pwbrute take about 50% more time.)

pwbrute is not a finished, polished product. Do not expect this to be
suitable for inclusion in e.g. a Linux distribution.


A brief exposition of pwgen's security
======================================

pwgen is a program that is fairly widely used in Linux/UNIX systems
to generate “pronounceable” (and thus supposedly easier-to-remember)
passwords. On the surface of it, the default 8-letter passwords with
uppercase letters, lowercase letters and digits would have a password
space of

  62^8 = 218,340,105,584,896 ~= 47.63 bits

This isn't enough to save you from password cracking against fast hashes
(e.g. NTLM), but it's enough for almost everything else.

However, pwgen (without -s) does by design not use this entire space.
It builds passwords from a list of 40 “phonemes” (a, ae, ah, ai, b,
c, ch, ...) in sequence, with some rules of which can come after each
others (e.g. the combination f-g is disallowed, since any consonant
phoneme must be followed by a vowel or sometimes a digit), and sometimes
digits. Furthermore, some phonemes may be uppercased (only first letter,
in case of two-letter phonemes). In all, these restrictions mean that
the number of producable passwords drop to

  307,131,320,668 ~= 38.16 bits

Furthermore, if a password does not contain at least one uppercase letter
and one digit, it is rejected. This doesn't affect that many passwords,
but it's still down to

  276,612,845,450 ~= 38.00 bits

You would believe that this means that to get to a 50% chance of cracking
a password, you'd need to test about ~138 billon passwords; however, the
effective entropy is much, much worse than that:

First, consider that digits are inserted (at valid points) only with
30% probability, and phonemes are uppercased (at valid points) only
with 20% probability. This means that a password like “Ahdaiy7i” is
_much_ more likely than e.g. “EXuL8OhP” (five uppercase letters),
even though both are possible to generate.

Furthermore, when building up the password from left to right, every
letter is not equally likely -- every _phoneme_ is equally likely.
Since at any given point, (e.g.) “ai” is as likely as “a”, a lot fewer
rolls of the dice are required to get to eight letters if the password
contains many dipthongs (two-letter phonemes). This makes them vastly
overrepresented. E.g., the specific password “aechae0A” has three dipthongs
and a probability of about 1 in 12 million of being generated, while
“Oozaey7Y” has only two dipthongs (but an extra capital letter) and a
probability of about 1 in 9.33 _billion_!

In all, this means that to get to 50% probability of cracking a given
pwgen password (assuming you know that it was indeed generated with
pwgen, without -s), you need to test about 405 million passwords.
Note that pwgen gives out a list of passwords and lets the user choose,
which may make this easier or harder; I've had real-world single-password
cracks that fell after only ~400k attempts (~2% probability if the user
has chosen at random, but they most likely picked one that looked more
beautiful to them somehow).

This is all known; I reported the limited keyspace in 2004 (Debian bug
#276976), and Solar Designer reported the poor entropy in CVE-2013-4441.
(I discovered the entropy issues independently from them a couple of
months later, then discovered that it was already known, and didn't
publish.) However, to the best of my knowledge, pwbrute is the first
public program that will actually generate the most likely passwords
efficiently for you.

Needless to say, I cannot recommend using pwgen's phoneme-based
passwords for anything that needs to stay secure. (I will not make
concrete recommendations beyond that; a lot of literature exists
on the subject.)


Speeding up things
==================

Very few users would want the entire set of passwords, given that the
later ones are incredibly unlikely (e.g., AB0AB0AB has a chance of about
2^-52.155, or 1 in 5 quadrillion). To not get all, you can use e.g.
-c -40, which will produce only those with more than approx. 2^-40 probability
before final rejection (roughly ~6B passwords).

(NOTE: Since the calculated probability is before final rejection of those
without a digit or uppercase letter, they will not sum to 1, but something
less; approx. 0.386637 for the default 8-letter passwords, or 2^-1.3709.
Take this into account when reading all text below.)

pwbrute is fast but not super-fast; it can generate about 80M passwords/sec
(~700 MB/sec) to stdout, of course depending on your CPUs. The expansion phase
generally takes nearly all the time; if your cracker could somehow accept the
unexpanded patterns (i.e., without --expand) for free, pwbrute would basically
be infinitely fast. (It would be possible to microoptimize the expansion,
perhaps to 1B passwords/sec/core if pulling out all the stops, but at some point,
it starts becoming a problem related to pipe I/O performance, not candidate
generation.)

Thus, if your cracker is very fast (e.g. hashcat cracking NTLM), it's suboptimal
to try to limit yourself to only pwbrute-created passwords. It's much, much
faster to just create a bunch of legal prefixes and then let hashcat try all
of them, even though this will test some “impossible” passwords.
For instance:

  ./pwbrute --first-stage-len 5 --raw > start5.pwd
  ./hashcat.bin -O -m 1000 ntlm.pwd -w 3 -a 6 start5.pwd -1 '?l?u?d' '?1?1?1'

The “combination” mode in hashcat is also not always ideal; consider using
rules instead.

If you need longer passwords than 8 characters, you may want to split the job
into multiple parts. For this, you can combine --first-stage-len with --prefix
to generate passwords in two stages, e.g. first generate all valid 3-letter
prefixes (“bah” is valid, “bbh” is not) and then for each prefix generate
all possible passwords.  This requires much less RAM, can go in parallel,
and is pretty efficient.

For instance, this will create all passwords up to probability 2^-30,
over 16 cores, in a form that doesn't use too much RAM:

  ./pwbrute -f 3 -r -s -e | parallel -j 16 "./pwbrute -p {} -c -30 -s 2>/dev/null | zstd -6 > up-to-30-{}.pwd.zst"

You can then use the included merge.cc utility to merge the sorted files
into a new sorted one (this requires not using pwbrute --raw, since merge
wants the probabilities to merge correctly):

  g++ -O2 -o merge merge.cc -lzstd
  ./merge up-to-30-*.pwd.zst | pv | pzstd -6 > up-to-30.pwd.zst

merge is fairly fast, but not infinitely so. Sorry.

Beware, zstd uses some decompression buffers that can be pretty big per-file
and there are lots of files, so if you put the limit  lower than -30,
consider merging in multiple phases or giving -M to zstd, unless you want to
say hello to the OOM killer half-way into your merge.

As long as you give the --sort option to pwbrute, it is designed to give exactly
the same output in the same order every time (at the expense of a little bit of
speed during the pattern generation phase). This means that you can safely resume
an aborted generation or cracking job using the --skip=NUM flag, without worrying
that you'd lose some candidates.

Here are some estimated numbers for various probability cutoffs, and how much
of the probability space they cover (after correction for rejected passwords):

  p >= 2^-25:           78,000 passwords   (  0.00% coverage,   0.63% probability)
  p >= 2^-26:          171,200 passwords   (  0.00% coverage,   1.12% probability)
  p >= 2^-27:        3,427,100 passwords   (  0.00% coverage,   9.35% probability)
  p >= 2^-28:        5,205,200 passwords   (  0.00% coverage,  12.01% probability)
  p >= 2^-29:        8,588,250 passwords   (  0.00% coverage,  14.17% probability)
  p >= 2^-30:       24,576,550 passwords   (  0.01% coverage,  19.23% probability)
  p >= 2^-31:       75,155,930 passwords   (  0.03% coverage,  27.58% probability)
  p >= 2^-32:      284,778,250 passwords   (  0.10% coverage,  43.81% probability)
  p >= 2^-33:      540,418,450 passwords   (  0.20% coverage,  55.14% probability)
  p >= 2^-34:      808,534,920 passwords   (  0.29% coverage,  60.49% probability)
  p >= 2^-35:    1,363,264,200 passwords   (  0.49% coverage,  66.28% probability)
  p >= 2^-36:    2,534,422,340 passwords   (  0.92% coverage,  72.36% probability)
  p >= 2^-37:    5,663,431,890 passwords   (  2.05% coverage,  80.54% probability)
  p >= 2^-38:   11,178,389,760 passwords   (  4.04% coverage,  87.75% probability)
  p >= 2^-39:   16,747,555,070 passwords   (  6.05% coverage,  91.55% probability)
  p >= 2^-40:   25,139,913,440 passwords   (  9.09% coverage,  94.25% probability)
  p >= 2^-41:   34,801,107,110 passwords   ( 12.58% coverage,  95.91% probability)
  p >= 2^-42:   52,374,739,350 passwords   ( 18.93% coverage,  97.38% probability)
  p >= 2^-43:   78,278,619,550 passwords   ( 28.30% coverage,  98.51% probability)
  p >= 2^-44:  111,967,613,850 passwords   ( 40.48% coverage,  99.25% probability)
  p >= 2^-45:  147,452,759,450 passwords   ( 53.31% coverage,  99.64% probability)
  p >= 2^-46:  186,012,691,450 passwords   ( 67.25% coverage,  99.86% probability)
  p >= 2^-47:  215,059,885,450 passwords   ( 77.75% coverage,  99.94% probability)
  p >= 2^-48:  242,726,285,450 passwords   ( 87.75% coverage,  99.98% probability)
  p >= 2^-49:  257,536,845,450 passwords   ( 93.10% coverage,  99.99% probability)
  p >= 2^-50:  268,815,845,450 passwords   ( 97.18% coverage, 100.00% probability)
  p >= 2^-51:  273,562,845,450 passwords   ( 98.90% coverage, 100.00% probability)
  p >= 2^-52:  275,712,845,450 passwords   ( 99.67% coverage, 100.00% probability)
  p >= 2^-53:  276,512,845,450 passwords   ( 99.96% coverage, 100.00% probability)
         all:  276,612,845,450 passwords   (100.00% coverage, 100.00% probability)


License
=======

pwbrute is Copyright (C) 2025 Steinar H. Gunderson.

This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.

This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.

30 August, 2025 09:56AM

August 29, 2025

Ravi Dwivedi

Installing Debian With Btrfs and Encryption

Motivation

On the 8th of August 2025 (a day before the Debian Trixie release), I was upgrading my personal laptop from Debian Bookworm to Trixie. It was a major update. However, the update didn’t go smoothly, and I ran into some errors. From the Debian support IRC channel, I got to know that it would be best if I removed the texlive packages.

However, it was not so easy to just remove texlive with a simple apt remove command. I had to remove the texlive packages from /usr/bin. Then I ran into other errors. Hours after I started the upgrade, I realized I preferred having my system as it was before, as I had to travel to Noida the next day. Needless to say, I wanted to go to sleep rather than fix my broken system. Only if I had a way to go back to my system before I started upgrading, it would have saved a lot of trouble for me. I ended up installing Trixie from scratch.

It turns out that there was a way to recover to the state before the upgrade - using Timeshift to roll back the system to a state (in our example, it is the state before the upgrade process started) in the past. However, it needs the Btrfs filesystem with appropriate subvolumes, not provided by Debian installer in their guided partitioning menu.

I have set it up after a few weeks of the above-mentioned incident. Let me demonstrate how it works.

Check the screenshot above. It shows a list of snapshots made by Timeshift. Some of them were made by me manually. Others were made by Timeshift automatically as per the routine - I have set up hourly backups and weekly backups etc.

In the above-mentioned major update, I could have just taken a snapshot using Timeshift before performing the upgrade and could have rolled back to that snapshot when I found that I cannot spend more time on fixing my installation errors. Then I could just perform the upgrade later.

Installation

In this tutorial, I will cover how I installed Debian with Btrfs and disk encryption, along with creating subvolumes @ for root and @home for /home so that I can use Timeshift to create snapshots. These snapshots are kept on the same disk where Debian is installed, and the use-case is to roll back to a working system in case I mess up something or to recover an accidentally deleted file.

I went through countless tutorials on the Internet, but I didn’t find a single tutorial covering both the disk encryption and the above-mentioned subvolumes (on Debian). Debian doesn’t create the desired subvolumes by default, therefore the process requires some manual steps, which beginners may not be comfortable performing. Beginners can try distros such as Fedora and Linux Mint, as their installation includes Btrfs with the required subvolumes.

Furthermore, it is pertinent to note that I used Debian Trixie’s DVD iso on a real laptop (not a virtual machine) for my installation. Debian Trixie is the codename for the current stable version of Debian. Then I took screenshots in a virtual machine by repeating the process. Moreover, a couple of screenshots are from the installation I did on the real laptop.

Let’s start the tutorial by booting up the Debian installer.

The above screenshot shows the first screen we see on the installer. Since we want to choose Expert Install, we select Advanced Options in the screenshot above.

Let’s select the Expert Install option in the above screenshot. It is because we want to create subvolumes after the installer is done with the partition, and only then proceed to installing the base system. “Non-expert” install modes proceed directly to installing the system right after creating partitions without pausing for us to create the subvolumes.

After selecting the Expert Install option, you will get the screen above. I will skip to partitioning from here and leave the intermediate steps such as choosing language, region, connecting to Wi-Fi, etc. For your reference, I did create the root user.

Let’s jump right to the partitioning step. Select the Partition disks option from the menu as shown above.

Choose Manual.

Select your disk where you would like to install Debian.

Select Yes when asked for creating a new partition.

I chose the msdos option as I am not using UEFI. If you are using UEFI, then you need to choose the gpt option. Also, your steps will (slightly) differ from mine if you are using UEFI. In that case, you can watch this video by the YouTube channel EF Linux in which he creates an EFI partition. As he doesn’t cover disk encryption, you can continue reading this post after following the steps corresponding to EFI.

Select the free space option as shown above.

Choose Create a new partition.

I chose the partition size to be 1 GB.

Choose Primary.

Choose Beginning.

Now, I got to this screen.

I changed mount point to /boot and turned on the bootable flag and then selected “Done setting up the partition.”

Now select free space.

Choose the Create a new partition option.

I made the partition size equal to the remaining space on my disk. I do not intend to create a swap partition, so I do not need more space.

Select Primary.

Select the Use as option to change its value.

Select “physical volume for encryption.”

Select Done setting up the partition.

Now select “Configure encrypted volumes.”

Select Yes.

Select Finish.

Selecting Yes will take a lot of time to erase the data. Therefore, I would say if you have hours for this step (in case your SSD is like 1 TB), then I would recommend selecting “Yes.” Otherwise, you could select “No” and compromise on the quality of encryption.

After this, you will be asked to enter a passphrase for disk encryption and confirm it. Please do so. I forgot to take the screenshot for that step.

Now select that encrypted volume as shown in the screenshot above.

Here we will change a couple of options which will be shown in the next screenshot.

In the Use as menu, select “btrfs journaling file system.”

Now, click on the mount point option.

Change it to “/ - the root file system.”

Select Done setting up the partition.

This is a preview of the paritioning after performing the above-mentioned steps.

If everything is okay, proceed with the Finish partitioning and write changes to disk option.

The installer is reminding us to create a swap partition. I proceeded without it as I planned to add swap after the installation.

If everything looks fine, choose “yes” for writing the changes to disks.

Now we are done with partitioning and we are shown the screen in the screenshot above. If we had not selected the Expert Install option, the installer would have proceeded to install the base system without asking us.

However, we want to create subvolumes before proceeding to install the base system. This is the reason we chose Expert Install.

Now press Ctrl + F2.

You will see the screen as in the above screenshot. It says “Please press Enter to activate this console.” So, let’s press Enter.

After pressing Enter, we see the above screen.

The screenshot above shows the steps I performed in the console. I followed the already mentioned video by EF Linux for this part and adapted it to my situation (he doesn’t encrypt the disk in his tutorial).

First we run df -h to have a look at how our disk is partitioned. In my case, the output was:

# df -h
Filesystem              Size  Used  Avail   Use% Mounted on
tmpfs                   1.6G  344.0K  1.6G    0% /run
devtmpfs                7.7G       0  7.7G   0% /dev
/dev/sdb1               3.7G    3.7G    0   100% /cdrom
/dev/mapper/sda2_crypt  952.9G  5.8G  950.9G  0% /target
/dev/sda1               919.7M  260.0K  855.8M  0% /target/boot

df -h shows us that /dev/mapper/sda2_crypt and /dev/sda1 are mounted on /target and /target/boot respectively.

Let’s unmount them. For that, we run:

# umount /target
# umount /target/boot

Next, let’s mount our root filesystem to /mnt.

# mount /dev/mapper/sda2_crypt /mnt

Let’s go into the /mnt directory.

# cd /mnt

Upon listing the contents of this directory, we get:

/mnt # ls
@rootfs

Debian installer has created a subvolume @rootfs automatically. However, we need the subvolumes to be @ and @home. Therefore, let’s rename the @rootfs subvolume to @.

/mnt # mv @rootfs @

Listing the contents of the directory again, we get:

/mnt # ls
@

We only one subvolume right now. Therefore, let us go ahead and create another subvolume @home.

/mnt # btrfs subvolume create @home
Create subvolume './@home'

If we perform ls now, we will see there are two subvolumes:

/mnt # ls
@ @home

Let us mount /dev/mapper/sda2_crypt to /target

/mnt # mount -o noatime,space_cache=v2,compress=zstd,ssd,discard=async,subvol=@ /dev/mapper/sda2_crypt /target/

Now we need to create a directory for /home.

/mnt # mkdir /target/home/

Now we mount the /home directory with subvol=@home option.

/mnt # mount -o noatime,space_cache=v2,compress=zstd,ssd,discard=async,subvol=@home /dev/mapper/sda2_crypt /target/home/

Now mount /dev/sda1 to /target/boot.

/mnt # mount /dev/sda1 /target/boot/

Now we need to add these options to the fstab file, which is located at /target/etc/fstab. Unfortunately, vim is not installed in this console. The only way to edit is Nano.

nano /target/etc/fstab

Edit your fstab file to look similar to the one in the screenshot above. I am pasting the fstab file contents below for easy reference.

# /etc/fstab: static file system information.
#
# Use 'blkid' to print the universally unique identifier for a
# device; this may be used with UUID= as a more robust way to name devices
# that works even if disks are added and removed. See fstab(5).
#
# systemd generates mount units based on this file, see systemd.mount(5).
# Please run 'systemctl daemon-reload' after making changes here.
#
# <file system> <mount point>   <type>  <options>       <dump>  <pass>
/dev/mapper/sda2_crypt /        btrfs   noatime,compress=zstd,ssd,discard=async,space_cache=v2,subvol=@ 0       0
/dev/mapper/sda2_crypt /home    btrfs   noatime,compress=zstd,ssd,discard=async,space_cache=v2,subvol=@home 0       0
# /boot was on /dev/sda1 during installation
UUID=12842b16-d3b3-44b4-878a-beb1e6362fbc /boot           ext4    defaults        0       2
/dev/sr0        /media/cdrom0   udf,iso9660 user,noauto     0       0

Please double check the fstab file before saving it. In Nano, you can press Ctrl+O followed by pressing Enter to save the file. Then press Ctrl+X to quit Nano. Now, preview the fstab file by running

cat /target/etc/fstab

and verify that the entries are correct, otherwise you will booted to an unusable and broken system after the installation is complete.

Next, press Ctrl + Alt + F1 to go back to the installer.

Proceed to “Install the base system.”
Screenshot of Debian installer installing the base system.

Screenshot of Debian installer installing the base system.

I chose the default option here - linux-image-amd64.

After this, the installer will ask you a few more questions. For desktop environment, I chose KDE Plasma. You can choose the desktop environment as per your liking. I will not cover the rest of the installation process and assume that you were able to install from here.

Post installation

Let’s jump to our freshly installed Debian system. Since I created a root user, I added the user ravi to the suoders file (/etc/sudoers) so that ravi can run commands with sudo. Follow this if you would like to do the same.

Now we set up zram as swap. First, install zram-tools.

sudo apt install zram-tools

Now edit the file /etc/default/zramswap and make sure to have the following lines are uncommented:

ALGO=lz4
PERCENT=50

Now, run

sudo systemctl restart zramswap

If you run lsblk now, you should see the below-mentioned entry in the output:

zram0          253:0    0   7.8G  0 disk  [SWAP]

This shows us that zram has been activated as swap.

Now we install timeshift, which can be done by running

sudo apt install timeshift

After the installation is complete, run Timeshift and schedule snapshots as you please. We are done now. Hope the tutorial was helpful.

See you in the next post and let me know if you have any suggestions and questions on this tutorial.

29 August, 2025 08:23PM

Raju Devidas

Fixing Auto-Rotate screen orientation on PostmarketOS devices running MATE DE

Fixing Auto-Rotate screen orientation on PostmarketOS devices running MATE DE

I have been using my Samsung Galaxy Tab A (2015) with PostmarketOS on and off since last year. It serves as a really good e-book reader with KOReader installed on it.

Have tried phosh and plasma-mobile on it, works nicely but slows the device down heavily (2 GB RAM and old processor) so I use MATE Desktop environment on it.

Lately I have started using this tablet along with my laptop as a second screen for work. And it has been working super nicely for that. The only issue being that I have to manually rotate the screen to landscape every time I reboot the device. It resets the screen orientation to portrait after a reboot. So I went through the pmOS wiki and a neat nice hack documented there worked very well for me.

First we will test if the auto-rotate sensor works and if we can read values from it. So we install some basic necessary packages

$ sudo apk add xrandr xinput inotify-tools iio-sensor-proxy

Enable the service for iio-sensor-proxy 

sudo rc-update add iio-sensor-proxy

Reboot the device.

Now in the device terminal start the sensor monitor-sensor

user@samsung-gt58 ~> monitor-sensor
    Waiting for iio-sensor-proxy to appear
+++ iio-sensor-proxy appeared
=== Has accelerometer (orientation: normal, tilt: vertical)
=== Has ambient light sensor (value: 5.000000, unit: lux)
=== No proximity sensor
=== No compass
    Light changed: 14.000000 (lux)
    Accelerometer orientation changed: left-up
    Tilt changed: tilted-down
    Light changed: 12.000000 (lux)
    Tilt changed: vertical
    Light changed: 13.000000 (lux)
    Light changed: 11.000000 (lux)
    Light changed: 13.000000 (lux)
    Accelerometer orientation changed: normal
    Light changed: 5.000000 (lux)
    Light changed: 6.000000 (lux)
    Light changed: 5.000000 (lux)
    Accelerometer orientation changed: right-up
    Light changed: 3.000000 (lux)
    Light changed: 4.000000 (lux)
    Light changed: 5.000000 (lux)
    Light changed: 12.000000 (lux)
    Tilt changed: tilted-down
    Light changed: 19.000000 (lux)
    Accelerometer orientation changed: bottom-up
    Tilt changed: vertical
    Light changed: 1.000000 (lux)
    Light changed: 2.000000 (lux)
    Light changed: 4.000000 (lux)
    Accelerometer orientation changed: right-up
    Tilt changed: tilted-down
    Light changed: 11.000000 (lux)
    Accelerometer orientation changed: normal
    Tilt changed: vertical
    Tilt changed: tilted-down
    Light changed: 18.000000 (lux)
    Light changed: 21.000000 (lux)
    Light changed: 22.000000 (lux)
    Light changed: 19.000000 (lux)
    Accelerometer orientation changed: left-up
    Light changed: 17.000000 (lux)
    Tilt changed: vertical
    Light changed: 14.000000 (lux)
    Tilt changed: tilted-down
    Light changed: 16.000000 (lux)
    Light changed: 18.000000 (lux)
    Light changed: 17.000000 (lux)
    Light changed: 18.000000 (lux)
    Light changed: 17.000000 (lux)
    Light changed: 18.000000 (lux)
    Light changed: 17.000000 (lux)
    Light changed: 18.000000 (lux)
    Light changed: 17.000000 (lux)

As you can see we can read the rotation values from the sensor as I am rotating the tablet in different orientations.

Now we just need to use a script which changes the screen orientation using xrandr according to the sensor value. 

#!/bin/sh

killall monitor-sensor
monitor-sensor > /dev/shm/sensor.log 2>&1 &

while inotifywait -e modify /dev/shm/sensor.log; do

  ORIENTATION=$(tail /dev/shm/sensor.log | grep &aposorientation&apos | tail -1 | grep -oE &apos[^ ]+$&apos)

  case "$ORIENTATION" in

    normal)
      xrandr -o normal
      xinput set-prop "Goodix Capacitive TouchScreen" "Coordinate Transformation Matrix" 1 0 0 0 1 0 0 0 1
      ;;
    left-up)
      xrandr -o left
      xinput set-prop "Goodix Capacitive TouchScreen" "Coordinate Transformation Matrix" 0 -1 1 1 0 0 0 0 1
      ;;
    bottom-up)
      xrandr -o inverted
      xinput set-prop "Goodix Capacitive TouchScreen" "Coordinate Transformation Matrix" -1 0 1 0 -1 1 0 0 1
      ;;
    right-up)
      xrandr -o right
      xinput set-prop "Goodix Capacitive TouchScreen" "Coordinate Transformation Matrix" 0 1 0 -1 0 1 0 0 1
      ;;

  esac
done

auto-rotate-screen.sh

You need to replace the name of your touch input device in the script, you can get the name by using xinput --list , make sure to type this on the device terminal. 

user@samsung-gt58 ~> xinput --list
* Virtual core pointer                    	id=2	[master pointer  (3)]
*   * Virtual core XTEST pointer              	id=4	[slave  pointer  (2)]
*   * Zinitix Capacitive TouchScreen          	id=10	[slave  pointer  (2)]
*   * Toad One Plus                           	id=12	[slave  pointer  (2)]
* Virtual core keyboard                   	id=3	[master keyboard (2)]
    * Virtual core XTEST keyboard             	id=5	[slave  keyboard (3)]
    * GPIO Buttons                            	id=6	[slave  keyboard (3)]
    * pm8941_pwrkey                           	id=7	[slave  keyboard (3)]
    * pm8941_resin                            	id=8	[slave  keyboard (3)]
    * Zinitix Capacitive TouchScreen          	id=11	[slave  keyboard (3)]
    * samsung-a2015 Headset Jack              	id=9	[slave  keyboard (3)]

In our script here we are using a Zinitix capacitive screen, it will be different for yours.

Once your script is ready with the correct touchscreen name. Save and make the script executable. chmod +x auto-rotate-screen.sh

Then test your script in your terminal ./auto-rotate.sh , stop the script using Ctrl + C

Now we need add this script to auto-start. On MATE DE you can go to System > Control Center > Startup Applications, then click on Custom Add button, browse the script location, give it a name and then click on Add button.

Now reboot the tablet/device, login and see the auto rotation working.

0:00
/0:09

  1. Auto-Rotation wiki article on PostmarketOS Wiki https://wiki.postmarketos.org/wiki/Auto-rotation

29 August, 2025 07:40PM by Raju Vindane

Noah Meyerhans

Determining Network Online Status of Dualstack Cloud VMs

When a Debian cloud VM boots, it typically runs cloud-init at various points in the boot process. Each invocation can perform certain operations based on the host’s static configuration passed by the user, typically either through a well known link-local network service or an attached iso9660 drive image. Some of the cloud-init steps execute before the network comes up, and others at a couple of different points after the network is up.

I recently encountered an unexpected issue when configuring a dualstack (uses both IPv6 and legacy IPv4 networking) VM to use a custom apt server accessible only via IPv6. VM provisioning failed because it was unable to access the server in question, yet when I logged in to investigate, it was able to access the server without any problem. The boot had apparently gone smoothly right up until cloud-init’s Package Update Upgrade Install module called apt-get update, which failed and broke subsequent provisioning steps. The errors reported by apt-get indicated that there was no route to the service in question, which more accurately probably meant that there was not yet a route to the service. But there was shortly after, when I investigated.

This was surprising because the apt-get invocations occur in a cloud-init sequence that’s explicitly ordered after the network is configured according to systemd-networkd-wait-online. Investigation eventually led to similar issues encountered in other environments reported in Debian bug #1111791, “systemd: network-online.target reached before IPv6 address is ready”. The issue described in that bug is identical to mine, but the bug is tagged wontfix. The behavior is considered correct.

Why the default behavior is the correct one

While it’s a bit counterintuitive, the systemd-networkd behavior is correct, and it’s also not something we’d want to override in the cloud images. Without explicit configuration, systemd can’t accurately infer the intended network configuration of a given system. If a system is IPv6-only, systemd-networkd-wait-online will introduce unexpected delays in the boot process if it waits for IPv4, and vice-versa. If it assumes dualstack, things are even worse because it would block for a long time (approximately two minutes) in any single stack network before failing, leaving the host in degraded state. So the most reasonable default behavior is to block until any protocol is configured.

For these same reasons, we can’t change the systemd-networkd-wait-online configuration in our cloud images. All of the cloud environments we support offer both single stack and dual stack networking, so we preserve systemd’s default behavior.

What’s causing problems here is that IPv6 takes significantly longer to configure due to its more complex router solicitation + router advertisement + DHCPv6 setup process. So in this particular case, where I’ve got a dualstack VM that needs to access a v6-only apt server during the provisioning process, I need to find some mechanism to override systemd’s default behavior and wait for IPv6 connectivity specifically.

What won’t work

Cloud-init offers the ability to write out arbitrary files during provisioning. So writing a drop-in for systemd-networkd-wait-online.service is trivial. Unfortunately, this doesn’t give us everything we actually need. We still need to invoke systemctl daemon-reload to get systemd to actually apply the changes after we’ve written them, and of course we need to do that before the service actually runs. Cloud-init provides a bootcmd module that lets us run shell commands “very early in the boot process”, but it runs too early: it runs before we’ve written out our configuration files. Similarly, it provides a runcmd module, but scripts there are towards the end of the boot process, far too late to be useful.

Instead of using the bootcmd facility, to simply reload systemd’s config, it seemed possible that we could both write the config and trigger the reload, similar to the following:

 bootcmd:
- mkdir -p /etc/systemd/system/systemd-networkd-wait-online.service.d
- echo "[Service]" > /etc/systemd/system/systemd-networkd-wait-online.service.d/10-netplan.conf
- echo "ExecStart=" >> /etc/systemd/system/systemd-networkd-wait-online.service.d/10-netplan.conf
- echo "ExecStart=/usr/lib/systemd/systemd-networkd-wait-online --operational-state=routable --any --ipv6" >> /etc/systemd/system/systemd-networkd-wait-online.service.d/10-netplan.conf
- systemctl daemon-reload

But even that runs too late, as we can see in the logs that systemd-networkd-wait-online.service has completed before bootcmd is executed:

root@sid-tmp2:~# journalctl --no-pager -l -u systemd-networkd-wait-online.service
Aug 29 17:02:12 sid-tmp2 systemd[1]: Starting systemd-networkd-wait-online.service - Wait for Network to be Configured...
Aug 29 17:02:13 sid-tmp2 systemd[1]: Finished systemd-networkd-wait-online.service - Wait for Network to be Configured
.
root@sid-tmp2:~# grep -F 'config-bootcmd ran' /var/log/cloud-init.log
2025-08-29 17:02:14,766 - handlers.py[DEBUG]: finish: init-network/config-bootcmd: SUCCESS: config-bootcmd ran successfully and took 0.467 seconds

At this point, it’s looking like there are few options left!

What eventually worked

I ended up identifying two solutions to the issue, both of which involve getting some other component of the provisioning process to run systemd-networkd-wait-online.

Solution 1

The first involves getting apt-get itself to wait for IPv6 configuration. The apt.conf configuration interface allows the definition of an APT::Update::Pre-Invoke hook that’s executed just before apt’s update operation. By writing the following to a file in /etc/apt/apt.conf.d/, we’re able to ensure that we have IPv6 connectivity before apt-get tries accessing the network. This cloud-config snippet accomplishes that:

 - path: /etc/apt/apt.conf.d/99-wait-for-ipv6
content: |
APT::Update::Pre-Invoke { "/usr/lib/systemd/systemd-networkd-wait-online --operational-state=routable --any --ipv6"; }

This is safe to leave in place after provisioning, because the delay will be negligible once IPv6 connectivity is established. It’s only during address configuration that it’ll block for a noticeable amount of time, but that’s what we want.

This solution isn’t entirely correct, though, because it’s only apt-get that’s actually affected by it. Other service that start after the system is ostensibly “online” might only see IPv4 connectivity when they start. This seems acceptable at the moment, though.

Solution 2

The second solution is to simply invoke systemd-networkd-wait-online directly from a cloud-init bootcmd. Similar to the first solution, it’s not exactly correct because the host has already reached network-online.target, but it does block enough of cloud-init that package installation happens only after it completes. The cloud-config snippet for this is

bootcmd:
- [/usr/lib/systemd/systemd-networkd-wait-online, --operational-state=routable, --any, --ipv6]

In either case, we still want to write out a snippet to configure systemd-networkd-wait-online to wait for IPv6 connectivity for future reboots. Even though cloud-init won’t necessarily run in those cases, and many cloud VMs never reboot at all, it does complete the solution. Additionally, it solves the problem for any derivative images that may be created based on the running VM’s state. (At least if we can be certain that instances of those derivative images will never run in an IPv4-only network!)

write_files:
- path: /run/systemd/system/systemd-networkd-wait-online.service.d/99-ipv6-wait.conf
content: |
[Service]
ExecStart=
ExecStart=/lib/systemd/systemd-networkd-wait-online --any --operational-state=routable --ipv6

How to properly solve it

One possible improvement would be for cloud-init to support a configuration key allowing the admin to specify the required protocols. Based on the presence of this key, cloud-init could reconfigure systemd-networkd-wait-online.service accordingly. Alternatively it could set the appropriate RequiredFamilyForOnline= value in the generated .network file. cloud-init supports multiple network configuration backends, so each of those would need to be updated. If using the systemd-networkd configuration renderer, this should be straightforward, but Debian uses the netplan renderer, so that tool might also need to be taught to pass such a configuration along to systemd-networkd.

29 August, 2025 04:38PM by Noah Meyerhans (frodo+blog@morgul.net)

August 28, 2025

hackergotchi for Samuel Henrique

Samuel Henrique

Debian 13: My list of exciting new features

A bunch of screenshots overlaid on top of each other showing different tools: lazygit, gnome settings, gnome system monitor, powerline-go, and the wcurl logo, the text at the top says 'Debian 13: My list of exciting new features', and there's a Debian logo in the middle of image

Beyond Debian: Useful for other distros too

Every two years Debian releases a new major version of its Stable series, meaning the differences between consecutive Debian Stable releases represent two years of new developments both in Debian as an organization and its native packages, but also in all other packages which are also shipped by other distributions (which are getting into this new Stable release).

If you're not paying close attention to everything that's going on all the time in the Linux world, you miss a lot of the nice new features and tools. It's common for people to only realize there's a cool new trick available only years after it was first introduced.

Given these considerations, the tips that I'm describing will eventually be available in whatever other distribution you use, be it because it's a Debian derivative or because it just got the same feature from the upstream project.

I'm not going to list "passive" features (as good as they can be), the focus here is on new features that might change how you configure and use your machine, with a mix between productivity and performance.

Debian 13 - Trixie

I have been a Debian Testing user for longer than 10 years now (and I recommend it for non-server users), so I'm not usually keeping track of all the cool features arriving in the new Stable releases because I'm continuously receiving them through the Debian Testing rolling release.

Nonetheless, as a Debian Developer I'm in a good position to point out the ones I can remember. I would also like other Debian Developers to do the same as I'm sure I would learn something new.

The Debian 13 release notes contain a "What's new" section , which lists the first two items here and a few other things, in other words, take my list as an addition to the release notes.

Debian 13 was released on 2025-08-09, and these are nice things you shouldn't miss in the new release, with a bonus one not tied to the Debian 13 release.

1) wcurl

wcurl logo

Have you ever had to download a file from your terminal using curl and didn't remember the parameters needed? I did.

Nowadays you can use wcurl; "a command line tool which lets you download URLs without having to remember any parameters."

Simply call wcurl with one or more URLs as parameters and it will download all of them in parallel, performing retries, choosing the correct output file name, following redirects, and more.

Try it out:

wcurl example.com

wcurl comes installed as part of the curl package on Debian 13 and in any other distribution you can imagine, starting with curl 8.14.0.

I've written more about wcurl in its release announcement and I've done a lightning talk presentation in DebConf24, which is linked in the release announcement.

2) HTTP/3 support in curl

Debian has become the first stable Linux distribution to ship curl with support for HTTP/3. I've written about this in July 2024, when we first enabled it. Note that we first switched the curl CLI to GnuTLS, but then ended up releasing the curl CLI linked with OpenSSL (as support arrived later).

Debian was the first Linux distro to enable it in the default build of the curl package, but Gentoo enabled it a few weeks earlier in their non-default flavor of the package, kudos to them!

HTTP/3 is not used by default by the curl CLI, you have to enable it with --http3 or --http3-only.

Try it out:

curl --http3 https://www.example.org
curl --http3-only https://www.example.org

3) systemd soft-reboot

Starting with systemd v254, there's a new soft-reboot option, it's an userspace-only reboot, much faster than a full reboot if you don't need to reboot the kernel.

You can read the announcement from the systemd v254 GitHub release

Try it out:

# This will reboot your machine!
systemctl soft-reboot

4) apt --update

Are you tired of being required to run sudo apt update just before sudo apt upgrade or sudo apt install $PACKAGE? So am I!

The new --update option lets you do both things in a single command:

sudo apt --update upgrade
sudo apt --update install $PACKAGE

I love this, but it's still not yet where it should be, fingers crossed for a simple apt upgrade to behave like other package managers by updating its cache as part of the task, maybe in Debian 14?

Try it out:

sudo apt upgrade --update
# The order doesn't matter
sudo apt --update upgrade

This is especially handy for container usage, where you have to update the apt cache before installing anything, for example:

podman run debian:stable bin/bash -c 'apt install --update -y curl'

5) powerline-go

powerline-go is a powerline-style prompt written in Golang, so it's much more performant than its Python alternative powerline.

powerline-style prompts are quite useful to show things like the current status of the git repo in your working directory, exit code of the previous command, presence of jobs in the background, whether or not you're in an ssh session, and more.

A screenshot of a terminal with powerline-go enabled, showing how the PS1 changes inside a git repository and when the last command fails

Try it out:

sudo apt install powerline-go

Then add this to your .bashrc:

function _update_ps1() {
    PS1="$(/usr/bin/powerline-go -error $? -jobs $(jobs -p | wc -l))"

    # Uncomment the following line to automatically clear errors after showing
    # them once. This not only clears the error for powerline-go, but also for
    # everything else you run in that shell. Don't enable this if you're not
    # sure this is what you want.

    #set "?"
}

if [ "$TERM" != "linux" ] && [ -f "/usr/bin/powerline-go" ]; then
    PROMPT_COMMAND="_update_ps1; $PROMPT_COMMAND"
fi

Or this to .zshrc:

function powerline_precmd() {
    PS1="$(/usr/bin/powerline-go -error $? -jobs ${${(%):%j}:-0})"

    # Uncomment the following line to automatically clear errors after showing
    # them once. This not only clears the error for powerline-go, but also for
    # everything else you run in that shell. Don't enable this if you're not
    # sure this is what you want.

    #set "?"
}

If you'd like to have your prompt start in a newline, like I have in the screenshot above, you just need to set -newline in the powerline-go invocation in your .bashrc/.zshrc.

6) Gnome System Monitor Extension

Tips number 6 and 7 are for Gnome users.

Gnome is now shipping a system monitor extension which lets you get a glance of the current load of your machine from the top bar.

Screenshot of the top bar of Gnome with the system monitor extension enabled, showing the load of: CPU, memory, network and disk

I've found this quite useful for machines where I'm required to install third-party monitoring software that tends to randomly consume more resources than it should. If I feel like my machine is struggling, I can quickly glance at its load to verify if it's getting overloaded by some process.

The extension is not as complete as system-monitor-next, not showing temperatures or histograms, but at least it's officially part of Gnome, easy to install and supported by them.

Try it out:

sudo apt install gnome-system-monitor gnome-shell-extension-manager

And then enable the extension from the "Extension Manager" application.

7) Gnome setting for battery charging profile

After having to learn more about batteries in order to get into FPV drones, I've come to have a bigger appreciation for solutions that minimize the inevitable loss of capacity that accrues over time.

There's now a "Battery Charging" setting (under the "Power") section which lets you choose between two different profiles: "Maximize Charge" and "Preserve Battery Health".

A screenshot of the Gnome settings for Power showing the options for Battery Charging

On supported laptops, this setting is an easy way to set thresholds for when charging should start and stop, just like you could do it with the tlp package, but now from the Gnome settings.

To increase the longevity of my laptop battery, I always keep it at "Preserve Battery Health" unless I'm traveling.

What I would like to see next is support for choosing different "Power Modes" based on whether the laptop is plugged-in, and based on the battery charge percentage.

There's a GNOME issue tracking this feature, but there's some pushback on whether this is the right thing to expose to users.

In the meantime, there are some workarounds mentioned in that issue which people who really want this feature can follow.

If you would like to learn more about batteries; Battery University is a great starting point, besides getting into FPV drones and being forced to handle batteries without a Battery Management System (BMS).

And if by any chance this sparks your interest in FPV drones, Joshua Bardwell's YouTube channel is a great resource: @JoshuaBardwell.

8) Lazygit

Emacs users are already familiar with the legendary magit; a terminal-based UI for git.

Lazygit is an alternative for non-emacs users, you can integrate it with neovim or just use it directly.

I'm still playing with lazygit and haven't integrated it into my workflows, but so far it has been a pleasant experience.

Screenshot of lazygit from the Debian curl repository, showing a selected commit and its diff, besides the other things from the lazygit UI

You should check out the demos from the lazygit GitHub page.

Try it out:

sudo apt install lazygit

And then call lazygit from within a git repository.

9) neovim

neovim has been shipped in Debian since 2016, but upstream has been doing a lot of work to improve the experience out-of-the-box in the last couple of years.

If you're a neovim poweruser, you're likely not installing it from the official repositories, but for those that are, Debian 13 comes with version 0.10.4, which brings the following improvements compared to the version in Debian 12:

  • Treesitter support for C, Lua, Markdown, with the possibility of adding any other languages as needed;

  • Better spellchecking due to treesitter integration (spellsitter);

  • Mouse support enabled by default;

  • Commenting support out-of-the-box;

    Check :h commenting for details, but the tl;dr is that you can use gcc to comment the current line and gc to comment the current selection.

  • OSC52 support.

    Especially handy for those using neovim over an ssh connection, this protocol lets you copy something from within the neovim process into the clipboard of the machine you're using to connect through ssh. In other words, you can copy from neovim running in a host over ssh and paste it in the "outside" machine.

10) [Bonus] Running old Debian releases

The bonus tip is not specific to the Debian 13 release, but something I've recently learned in the #debian-devel IRC channel.

Did you know there are usable container images for all past Debian releases? I'm not talking "past" as in "some of the older releases", I'm talking past as in "literally every Debian release, including the very first one".

Tianon Gravi "tianon" is the Debian Developer responsible for making this happen, kudos to him!

There's a small gotcha that the releases Buzz (1.1) and Rex (1.2) require a 32-bit host, otherwise you will get the error Out of virtual memory!, but starting with Bo (1.3) all should work in amd64/arm64.

Try it out:

sudo apt install podman

podman run -it docker.io/debian/eol:bo

Don't be surprised when noticing that apt/apt-get is not available inside the container, that's because apt first appeared in Debian Slink (2.1).

28 August, 2025 05:30PM by Unknown

Debian 13: My list of exciting new features

A bunch of screenshots overlaid on top of each other showing different tools: lazygit, gnome settings, gnome system monitor, powerline-go, and the wcurl logo, the text at the top says 'Debian 13: My list of exciting new features', and there's a Debian logo in the middle of image

Beyond Debian: Useful for other distros too

Every two years Debian releases a new major version of its Stable series, meaning the differences between consecutive Debian Stable releases represent two years of new developments both in Debian as an organization and its native packages, but also in all other packages which are also shipped by other distributions (which are getting into this new Stable release).

If you're not paying close attention to everything that's going on all the time in the Linux world, you miss a lot of the nice new features and tools. It's common for people to only realize there's a cool new trick available only years after it was first introduced.

Given these considerations, the tips that I'm describing will eventually be available in whatever other distribution you use, be it because it's a Debian derivative or because it just got the same feature from the upstream project.

I'm not going to list "passive" features (as good as they can be), the focus here is on new features that might change how you configure and use your machine, with a mix between productivity and performance.

Debian 13 - Trixie

I have been a Debian Testing user for longer than 10 years now (and I recommend it for non-server users), so I'm not usually keeping track of all the cool features arriving in the new Stable releases because I'm continuously receiving them through the Debian Testing rolling release.

Nonetheless, as a Debian Developer I'm in a good position to point out the ones I can remember. I would also like other Debian Developers to do the same as I'm sure I would learn something new.

The Debian 13 release notes contain a "What's new" section , which lists the first two items here and a few other things, in other words, take my list as an addition to the release notes.

Debian 13 was released on 2025-08-09, and these are nice things you shouldn't miss in the new release, with a bonus one not tied to the Debian 13 release.

1) wcurl

wcurl logo

Have you ever had to download a file from your terminal using curl and didn't remember the parameters needed? I did.

Nowadays you can use wcurl; "a command line tool which lets you download URLs without having to remember any parameters."

Simply call wcurl with one or more URLs as parameters and it will download all of them in parallel, performing retries, choosing the correct output file name, following redirects, and more.

Try it out:

wcurl example.com

wcurl comes installed as part of the curl package on Debian 13 and in any other distribution you can imagine, starting with curl 8.14.0.

I've written more about wcurl in its release announcement and I've done a lightning talk presentation in DebConf24, which is linked in the release announcement.

2) HTTP/3 support in curl

Debian has become the first stable Linux distribution to ship curl with support for HTTP/3. I've written about this in July 2024, when we first enabled it. Note that we first switched the curl CLI to GnuTLS, but then ended up releasing the curl CLI linked with OpenSSL (as support arrived later).

Debian was the first stable Linux distro to enable it, and within rolling-release-based distros; Gentoo enabled it first in their non-default flavor of the package and Arch Linux did it three months before we pushed it to Debian Unstable/Testing/Stable-backports, kudos to them!

HTTP/3 is not used by default by the curl CLI, you have to enable it with --http3 or --http3-only.

Try it out:

curl --http3 https://www.example.org
curl --http3-only https://www.example.org

3) systemd soft-reboot

Starting with systemd v254, there's a new soft-reboot option, it's an userspace-only reboot, much faster than a full reboot if you don't need to reboot the kernel.

You can read the announcement from the systemd v254 GitHub release

Try it out:

# This will reboot your machine!
systemctl soft-reboot

4) apt --update

Are you tired of being required to run sudo apt update just before sudo apt upgrade or sudo apt install $PACKAGE? So am I!

The new --update option lets you do both things in a single command:

sudo apt --update upgrade
sudo apt --update install $PACKAGE

I love this, but it's still not yet where it should be, fingers crossed for a simple apt upgrade to behave like other package managers by updating its cache as part of the task, maybe in Debian 14?

Try it out:

sudo apt upgrade --update
# The order doesn't matter
sudo apt --update upgrade

This is especially handy for container usage, where you have to update the apt cache before installing anything, for example:

podman run debian:stable bin/bash -c 'apt install --update -y curl'

5) powerline-go

powerline-go is a powerline-style prompt written in Golang, so it's much more performant than its Python alternative powerline.

powerline-style prompts are quite useful to show things like the current status of the git repo in your working directory, exit code of the previous command, presence of jobs in the background, whether or not you're in an ssh session, and more.

A screenshot of a terminal with powerline-go enabled, showing how the PS1 changes inside a git repository and when the last command fails

Try it out:

sudo apt install powerline-go

Then add this to your .bashrc:

function _update_ps1() {
    PS1="$(/usr/bin/powerline-go -error $? -jobs $(jobs -p | wc -l))"

    # Uncomment the following line to automatically clear errors after showing
    # them once. This not only clears the error for powerline-go, but also for
    # everything else you run in that shell. Don't enable this if you're not
    # sure this is what you want.

    #set "?"
}

if [ "$TERM" != "linux" ] && [ -f "/usr/bin/powerline-go" ]; then
    PROMPT_COMMAND="_update_ps1; $PROMPT_COMMAND"
fi

Or this to .zshrc:

function powerline_precmd() {
    PS1="$(/usr/bin/powerline-go -error $? -jobs ${${(%):%j}:-0})"

    # Uncomment the following line to automatically clear errors after showing
    # them once. This not only clears the error for powerline-go, but also for
    # everything else you run in that shell. Don't enable this if you're not
    # sure this is what you want.

    #set "?"
}

If you'd like to have your prompt start in a newline, like I have in the screenshot above, you just need to set -newline in the powerline-go invocation in your .bashrc/.zshrc.

6) Gnome System Monitor Extension

Tips number 6 and 7 are for Gnome users.

Gnome is now shipping a system monitor extension which lets you get a glance of the current load of your machine from the top bar.

Screenshot of the top bar of Gnome with the system monitor extension enabled, showing the load of: CPU, memory, network and disk

I've found this quite useful for machines where I'm required to install third-party monitoring software that tends to randomly consume more resources than it should. If I feel like my machine is struggling, I can quickly glance at its load to verify if it's getting overloaded by some process.

The extension is not as complete as system-monitor-next, not showing temperatures or histograms, but at least it's officially part of Gnome, easy to install and supported by them.

Try it out:

sudo apt install gnome-system-monitor gnome-shell-extension-manager

And then enable the extension from the "Extension Manager" application.

7) Gnome setting for battery charging profile

After having to learn more about batteries in order to get into FPV drones, I've come to have a bigger appreciation for solutions that minimize the inevitable loss of capacity that accrues over time.

There's now a "Battery Charging" setting (under the "Power") section which lets you choose between two different profiles: "Maximize Charge" and "Preserve Battery Health".

A screenshot of the Gnome settings for Power showing the options for Battery Charging

On supported laptops, this setting is an easy way to set thresholds for when charging should start and stop, just like you could do it with the tlp package, but now from the Gnome settings.

To increase the longevity of my laptop battery, I always keep it at "Preserve Battery Health" unless I'm traveling.

What I would like to see next is support for choosing different "Power Modes" based on whether the laptop is plugged-in, and based on the battery charge percentage.

There's a GNOME issue tracking this feature, but there's some pushback on whether this is the right thing to expose to users.

In the meantime, there are some workarounds mentioned in that issue which people who really want this feature can follow.

If you would like to learn more about batteries; Battery University is a great starting point, besides getting into FPV drones and being forced to handle batteries without a Battery Management System (BMS).

And if by any chance this sparks your interest in FPV drones, Joshua Bardwell's YouTube channel is a great resource: @JoshuaBardwell.

8) Lazygit

Emacs users are already familiar with the legendary magit; a terminal-based UI for git.

Lazygit is an alternative for non-emacs users, you can integrate it with neovim or just use it directly.

I'm still playing with lazygit and haven't integrated it into my workflows, but so far it has been a pleasant experience.

Screenshot of lazygit from the Debian curl repository, showing a selected commit and its diff, besides the other things from the lazygit UI

You should check out the demos from the lazygit GitHub page.

Try it out:

sudo apt install lazygit

And then call lazygit from within a git repository.

9) neovim

neovim has been shipped in Debian since 2016, but upstream has been doing a lot of work to improve the experience out-of-the-box in the last couple of years.

If you're a neovim poweruser, you're likely not installing it from the official repositories, but for those that are, Debian 13 comes with version 0.10.4, which brings the following improvements compared to the version in Debian 12:

  • Treesitter support for C, Lua, Markdown, with the possibility of adding any other languages as needed;

  • Better spellchecking due to treesitter integration (spellsitter);

  • Mouse support enabled by default;

  • Commenting support out-of-the-box;

    Check :h commenting for details, but the tl;dr is that you can use gcc to comment the current line and gc to comment the current selection.

  • OSC52 support.

    Especially handy for those using neovim over an ssh connection, this protocol lets you copy something from within the neovim process into the clipboard of the machine you're using to connect through ssh. In other words, you can copy from neovim running in a host over ssh and paste it in the "outside" machine.

10) [Bonus] Running old Debian releases

The bonus tip is not specific to the Debian 13 release, but something I've recently learned in the #debian-devel IRC channel.

Did you know there are usable container images for all past Debian releases? I'm not talking "past" as in "some of the older releases", I'm talking past as in "literally every Debian release, including the very first one".

Tianon Gravi "tianon" is the Debian Developer responsible for making this happen, kudos to him!

There's a small gotcha that the releases Buzz (1.1) and Rex (1.2) require a 32-bit host, otherwise you will get the error Out of virtual memory!, but starting with Bo (1.3) all should work in amd64/arm64.

Try it out:

sudo apt install podman

podman run -it docker.io/debian/eol:bo

Don't be surprised when noticing that apt/apt-get is not available inside the container, that's because apt first appeared in Debian Slink (2.1).

Changes since publication

2025-08-30

  • Mention that Arch also enabled HTTP/3.

28 August, 2025 05:30PM by Unknown

Valhalla's Things

1840s Underwear

Posted on August 28, 2025
Tags: madeof:atoms, craft:sewing, FreeSoftWear

A woman wearing a knee-length shift with very short pleated sleeves and drawers that are a bit longer than needed to be ankle-length. The shift is too wide at the top, had to have a pleat taken in the center front, but the sleeves are still falling down. She is also wearing a black long sleeved t-shirt and leggings under said underwear, for decency.

A bit more than a year ago, I had been thinking about making myself a cartridge pleated skirt. For a number of reasons, one of which is the historybounding potential, I’ve been thinking pre-crinoline, so somewhere around the 1840s, and that’s a completely new era for me, which means: new underwear.

Also, the 1840s are pre-sewing machine, and I was already in a position where I had more chances to handsew than to machine sew, so I decided to embrace the slowness and sew 100% by hand, not even using the machine for straight seams.

A woman turning fast enough that her petticoat extends a considerable distance from the body. The petticoat is white with a pattern of cording from the hem to just below hip level, with a decreasing number of rows of cording going up.

If I remember correctly, I started with the corded petticoat, looking around the internet for instructions, and then designing my own based on the practicality of using modern wide fabric from my stash (and specifically some DITTE from costumers’ favourite source of dirty cheap cotton IKEA).

Around the same time I had also acquired a sashiko kit, and I used the Japanese technique for sewing running stitches pushing the needle with a thimble that covers the base of the middle finger, and I can confirm that for this kind of things it’s great!

I’ve since worn the petticoat a few times for casual / historyBounding / folkwearBounding reasons, during the summer, and I can confirm it’s comfortable to use; I guess that during the winter it could be nice to add a flannel layer below it.

The technical drawing and pattern for drawers from the book: each leg is cut out of a rectangle of fabric folded along the length, the leg is tapered equally, while the front is tapered more than the back, and comes to a point below the top of the original rectangle.

Then I proceeded with the base layers: I had been browsing through The workwoman's guide and that provided plenty of examples, and I selected the basic ankle-length drawers from page 53 and the alternative shift on page 47.

As for fabric, I had (and still have) a significant lack of underwear linen in my stash, but I had plenty of cotton voile that I had not used in a while: not very historically accurate for plain underwear, but quite suitable for a wearable mockup.

Working with a 1830s source had an interesting aspect: other of the usual, mildly annoying, imperial units, it also used a lot a few obsolete units, especially nails, that my qalc, my usual calculator and converter, doesn’t support. Not a big deal, because GNU units came to the rescue, and that one knows a lot of obscure and niche units, and it’s quite easy to add those that are missing1

Working on this project also made me freshly aware of something I had already noticed: converting instructions for machine sewing garments into instructions for hand sewing them is usually straightforward, but the reverse is not always true.

Starting from machine stitching, you can usually convert straight stitches into backstitches (or running backstitches), zigzag and overlocking into overcasting and get good results. In some cases you may want to use specialist hand stitches that don’t really have a machine equivalent, such as buttonhole stitches instead of simply overcasting the buttonhole, but that’s it.

Starting from hand stitching, instead, there are a number of techniques that could be converted to machine stitching, but involve a lot of visible topstitching that wasn’t there in the original instructions, or at times are almost impossible to do by machine, if they involve whipstitching together finished panels on seams that are subject to strong tension.

Anyway, halfway through working with the petticoat I cut both the petticoat and the drawers at the same time, for efficiency in fabric use, and then started sewing the drawers.

the top third or so of the drawers, showing a deep waistband that is closed with just one button at the top, and the front opening with finished edges that continue through the whole crotch, with just the overlap of fabric to provide coverage.

The book only provided measurements for one size (moderate), and my fabric was a bit too narrow to make them that size (not that I have any idea what hip circumference a person of moderate size was supposed to have), so the result is just wide enough to be comfortably worn, but I think that when I’ll make another pair I’ll try to make them a bit wider. On the other hand they are a bit too long, but I think that I’ll fix it by adding a tuck or two. Not a big deal, anyway.

The same woman as in the opening image from the back, the shift droops significantly in the center back, and the shoulder straps have fallen down on the top of the arms.

The shift gave me a bit more issues: I used the recommended gusset size, and ended up with a shift that was way too wide at the top, so I had to take a box pleat in the center front and back, which changed the look and wear of the garment. I have adjusted the instructions to make gussets wider, and in the future I’ll make another shift following those.

Even with the pleat, the narrow shoulder straps are set quite far to the sides, and they tend to droop, and I suspect that this is to be expected from the way this garment is made. The fact that there are buttonholes on the shoulder straps to attach to the corset straps and prevent the issue is probably a hint that this behaviour was to be expected.

The technical drawing of the shift from the book, showing a the top of the body, two trapezoidal shoulder straps, the pleated sleeves and a ruffle on the front edge.

I’ve also updated the instructions so that they shoulder straps are a bit wider, to look more like the ones in the drawing from the book.

Making a corset suitable for the time period is something that I will probably do, but not in the immediate future, but even just wearing the shift under a later midbust corset with no shoulder strap helps.

I’m also not sure what the point of the bosom gores is, as they don’t really give more room to the bust where it’s needed, but to the high bust where it’s counterproductive. I also couldn’t find images of original examples made from this pattern to see if they were actually used, so in my next make I may just skip them.

Sleeve detail, showing box pleats that are about 2 cm wide and a few mm distance from each other all along the circumference, neatly sewn into the shoulder strap on one side and the band at the other side.

On the other hand, I’m really happy with how cute the short sleeves look, and if2 I’ll ever make the other cut of shift from the same book, with the front flaps, I’ll definitely use these pleated sleeves rather than the straight ones that were also used at the time.

As usual, all of the patterns have been published on my website under a Free license:

  1. My ~/.units file currently contains definitions for beardseconds, bananas and the more conventional Nm and NeL (linear mass density of fibres).↩︎

  2. yeah, right. when.↩︎

28 August, 2025 12:00AM

August 27, 2025

Russell Coker

ZRAM and VMs

I’ve just started using zram for swap on VMs. The use of compression for swap in Linux apparently isn’t new, it’s been in the Linux kernel since version 3.2 (since 2012). But until recent years I hadn’t used it. When I started using Mobian (the Debian distribution for phones) zram was in the default setup, it basically works and I never needed to bother with it which is exactly what you want from such a technology. After seeing it’s benefits in Mobian I started using it on my laptops where it worked well.

Benefits of ZRAM

ZRAM means that instead of paging data to storage it is compressed to another part of RAM. That means no access to storage which is a significant benefit if storage is slow (typical for phones) or if storage wearing out is a problem.

For servers you typically have SSDs that are fast and last for significant write volumes, for example the 120G SSDs referenced in my blog post about swap (not) breaking SSD [1] are running well in my parents’ PC because they outlasted all the other hardware connected to them and 120G isn’t usable for anything more demanding than my parents use nowadays. Those are Intel 120G 2.5″ DC grade SATA SSDs. For most servers ZRAM isn’t a good choice as you can just keep doing IO on the SSDs for years.

A server that runs multiple VMs is a special case because you want to isolate the VMs from each other. Support for quotas for storage IO in Linux isn’t easy to configure while limiting the number of CPU cores is very easy. If a system or VM using ZRAM for swap starts paging excessively the bottleneck will be CPU, this probably isn’t going to be great on a phone with a slow CPU but on a server class CPU it will be less of a limit. Whether compression is slower or faster than SSD is a complex issue but it will definitely be just a limit for that VM. When I setup a VM server I want to have some confidence that a DoS attack or configuration error on one VM isn’t going to destroy the performance of other VMs. If the VM server has 4 cores (the smallest VM server I run) and no VM has more than 2 cores then I know that the system can still run adequately if half the CPU performance is being wasted.

Some servers I run have storage limits that make saving the disk space for swap useful. For servers I run in Hetzner (currently only one server but I have run up to 6 at various times in the past) the storage is often limited, Hetzner seems to typically have storage that is 8* the size of RAM so if you have many VMs configured with the swap that they might need in the expectation that usually at most one of them will be actually swapping then it can make a real difference to usable storage. 5% of storage used for swap files isn’t uncommon or unreasonable.

Big Servers

I am still considering the implications of zram on larger systems. If I have a ML server with 512G of RAM would it make sense to use it? It seems plausible that a system might need 550G of RAM and zram could make the difference between jobs being killed with OOM and the jobs just completing. The CPU overhead of compression shouldn’t be an issue as when you have dozens of cores in the system having one or two used for compression is no big deal. If a system is doing strictly ML work there will be a lot of data that can’t be compressed, so the question is how much of the memory is raw input data and the weights used for calculations and how much is arrays with zeros and other things that are easy to compress.

With a big server nothing less than 32G of swap will make much difference to the way things work and if you have 32G of data being actively paged then the fastest NVMe devices probably won’t be enough to give usable performance. As zram uses one “stream” per CPU code if you have 44 cores that means 44 compression streams which should handle greater throughput. I’ll write another blog post if I get a chance to test this.

Related posts:

  1. SSD Endurance I previously wrote about the issue of swap potentially breaking...
  2. Swap Breaking SSD I’ve seen many comments about swap space and SSD claiming...
  3. Swap Space and SSD In 2007 I wrote a blog post about swap space...

27 August, 2025 05:19AM by etbe

hackergotchi for Matthew Palmer

Matthew Palmer

StrongBox: Simple, Safe Data Encryption for Rust

Some time ago, I wanted to encrypt a bunch of data in an application I was writing in Rust, mostly to be stored in a database, but also session cookies and sensitive configuration variables. Since Rust is widely known as a secure-yet-high-performance programming language, I was expecting that there would be a widely-used crate that gave me a secure, high-level interface to strong, safe cryptography. Imagine my surprise when I discovered that just… didn’t seem to exist.

Don’t get me wrong: Rust is replete with fast, secure, battle-tested cryptographic primitives. The RustCrypto group provides all manner of robust, widely-used crates for all manner of cryptography-related purposes. They’re the essential building blocks for practical cryptosystems, but using them directly in an application is somewhat akin to building a car from individual atoms of iron and carbon.

So I wrote my own high-level data encryption library, called it StrongBox, and have been happily encrypting and decrypting data ever since.

Cryptography So Simple Even I Can’t Get It Wrong

The core of StrongBox is the StrongBox trait, which has only two methods: encrypt and decrypt, each of which takes just two arguments. The first argument is the plaintext (for encrypt) or the ciphertext (for decrypt) to work on. The second argument is the encryption context, for use as Authenticated Additional Data, an important part of many uses of encryption.

There’s essentially no configuration or parameters to get wrong. You can’t choose the encryption algorithm, or block cipher mode, and you don’t have to worry about generating a secure nonce. You create a StrongBox with a key, and then you call encrypt and decrypt. That’s it.

Practical Cryptographic Affordances

Ok, ok… that’s not quite it. Because StrongBox is even easier to use than what I’ve described, thanks to the companion crate, StructBox.

When I started using StrongBox “in the wild”, it quickly became clear that what I almost always wanted to encrypt in my application wasn’t some ethereal “plaintext”. I wanted to encrypt things, specifically structs (and enums). So, through the magic of Rust derive macros, I built StructBox, which provides encrypt and decrypt operations on any Serde-able type. Given that using Serde encoders can be a bit fiddly to use, it’s virtually easier to get an encrypted, serialized struct than it is to get a plaintext serialized struct.

Key Problems in Cryptography

The thing about cryptography is that it largely turns all data security problems into key management problems. All the fancy cryptographic wonkery is for naught if you don’t manage the encryption keys well.

So, most of the fancy business in StrongBox isn’t the encryption and decryption, but instead solving problems around key management.

Different Keys for Different Purposes

Using the same key for all of your cryptographic needs is generally considered a really bad idea. It opens up all manner of risks, that are easily avoided if you use different keys for different things. However, having to maintain a big pile of different keys is a nightmare, so nobody’s going to do that.

Enter: key derivation. Create one safe, secure “root” key, and then use a key derivation function to spawn as many other keys as you need. Different keys for each database column, another one to encrypt cookies, and so on.

StrongBox supports this through the StemStrongBox type. You’ll typically start off by creating a StemStrongBox with the “root” key, and then derive whatever other StrongBoxes you need, for encrypting and decrypting different kinds of data.

You Spin Me Round…

Sometimes, keys need to be rotated. Whether that’s because you actually know (or even have reason to suspect) someone has gotten the key, or just because you’re being appropriately paranoid, sometimes key rotation has to happen.

As someone who has had to rotate keys in situations where such an eventuality was not planned for, I can say with some degree of authority: it absolutely sucks to have to do an emergency key rotation in a system that isn’t built to make that easy. That’s why StrongBox natively supports key rotation. Every StrongBox takes one encryption key, and an arbitrary number of decryption keys, and will automatically use the correct key to decrypt ciphertexts.

Will You Still Decrypt Me, Tomorrow?

In addition to “manual” key rotation, StrongBox also supports time-based key rotation with the RotatingStrongBox type. This comes in handy when you’re encrypting a lot of “ephemeral” data, like cookies (or server-side session data). It provides a way to automatically “expire” old data, and prevents attacks that become practical when large amounts of data are encrypted using a single key.

Invasion of the Invisible Salamanders!

I mostly mention this just because I love the name, but there is a kind of attack possible in common AEAD modes called the invisible salamanders attack. StrongBox implements mitigations against this, by committing to the key being used so that an attacker can’t forge a ciphertext that decrypts validly to different plaintexts when using different keys. This is why I love cryptography: everything sounds like absolute goddamn magic.

Call Me Crazy, Support Me Maybe?

If you’re coding in Rust (which you probably should be), encrypting your stored data (which you definitely should be), and StrongBox makes your life easier (which it really will), you can show your appreciation for my work by contributing to my open source code-fund. Simply by shouting me a refreshing beverage, you’ll be helping me out, and helping to grow the software commons. Alternately, if you’re looking for someone to Speak Rust to Computers on a professional basis, I’m available for contracts or full-time remote positions.

27 August, 2025 12:00AM by Matt Palmer (mpalmer@hezmatt.org)

August 25, 2025

hackergotchi for Gunnar Wolf

Gunnar Wolf

The comedy of computation, or, how I learned to stop worrying and love obsolescence

This post is a review for Computing Reviews for The comedy of computation, or, how I learned to stop worrying and love obsolescence , a book published in Stanford University Press

“The Comedy of Computation” is not an easy book to review. It is a much enjoyable book that analyzes several examples of how “being computational” has been approached across literary genres in the last century — how authors of stories, novels, theatrical plays and movies, focusing on comedic genres, have understood the role of the computer in defining human relations, reactions and even self-image.

Mangrum structures his work in six thematic chapters, where he presents different angles on human society: How have racial stereotypes advanced in human imagination and perception about a future where we interact with mechanical or computational partners (from mechanical tools performing jobs that were identified with racial profiles to intelligent robots that threaten to control society); the genericity of computers –and people– can be seen as generic, interchangeable characters, often fueled by the tendency people exhibit to confer anthropomorphic qualities to inanimate objects; people’s desire to be seen as “truly authentic”, regardless of what it ultimately means; romantic involvement and romance-led stories (with the computer seen as a facilitator for human-to-human romances, distractor away from them, or being itself a part of the couple); and the absurdity in antropomorphization, in comparing fundamentally different aspects such as intelligence and speed at solving mathematical operations, as well as the absurdity presented blatantly as such by several techno-utopian visions.

But presenting this as a linear set of concepts that are presented does not do justice to the book. Throughout the sections of each chapter, a different work serves as the axis — Novels and stories, Hollywood movies, Broadway plays, some covers for the Time magazine, a couple of presenting the would-be future, even a romantic comedy entirely written by “bots”. And for each of them, Benjamin Mangrum presents a very thorough analysis, drawing relations and comparing with contemporary works, but also with Shakespeare, classical Greek myths, and a very long etcætera. This book is hard to review because of the depth of work the author did: Reading it repeatedly made me look for other works, or at least longer references for them.

Still, despite being a work with such erudition, Mangrum’s text is easy and pleasant to read, without feeling heavy or written in an overly academic style. I very much enjoyed reading this book. It is certainly not a technical book about computers and society in any way; it is an exploration of human creativity and our understanding of the aspects the author has found as central to understanding the impact of computing on humankind.

However, there is one point I must mention before closing: I believe the editorial decision to present the work as a running text, with all the material conceptualized as footnotes presented as a separate, over 50 page long final chapter, detracts from the final result. Personally, I enjoy reading the footnotes because they reveal the author’s thought processes, even if they stray from the central line of thought. Even more, given my review copy was a PDF, I could not even keep said chapter open with one finger, bouncing back and forth. For all purposes, I missed out on the notes; now that I finished reading and stumbled upon that chapter, I know I missed an important part of the enjoyment.

25 August, 2025 04:35PM

Scarlett Gately Moore

A Bittersweet Farewell: My Final KDE Snap Release and the End of an Era

Today marks both a milestone and a turning point in my journey with open source software. I’m proud to announce the release of KDE Gear 25.08.0 as my final snap package release. You can find all the details about this exciting update at the official KDE announcement.

After much reflection and with a heavy heart, I’ve made the difficult decision to retire from most of my open source software work, including snap packaging. This wasn’t a choice I made lightly – it comes after months of rejections and silence in an industry I’ve loved and called home for over 20 years.

Passing the Torch

While I’m stepping back, I’m thrilled to share that the future of KDE snaps is in excellent hands. Carlos from the Neon team has been working tirelessly to set up snaps on the new infrastructure that KDE has made available. This means building snaps in KDE CI is now possible – a significant leap forward for the ecosystem. I’ll be helping Carlos get the pipelines properly configured to ensure a smooth transition.

Staying Connected (But Differently)

Though I’m stepping away from most development work, I won’t be disappearing entirely from the communities that have meant so much to me:

  • Kubuntu: I’ll remain available as a backup, though Rik is doing an absolutely fabulous job getting the latest and greatest KDE packages uploaded. The distribution is in capable hands.
  • Ubuntu Community Council: I’m continuing my involvement here because I’ve found myself genuinely enjoying the community side of things. There’s something deeply fulfilling about focusing on the human connections that make these projects possible.
  • Debian: I’ll likely be submitting for emeritus status, as I haven’t had the time to contribute meaningfully and want to be honest about my current capacity.

The Reality Behind the Decision

This transition isn’t just about career fatigue – it’s about financial reality. I’ve spent too many years working for free while struggling to pay my bills. The recent changes in the industry, particularly with AI transforming the web development landscape, have made things even more challenging. Getting traffic to websites now requires extensive social media work and marketing – all expected to be done without compensation.

My stint at webwork was good while it lasted, but the changing landscape has made it unsustainable. I’ve reached a point where I can’t continue doing free work when my family and I are struggling financially. It shouldn’t take breaking a limb to receive the donations needed to survive.

A Career That Meant Everything

These 20+ years in open source have been the defining chapter of my professional life. I’ve watched communities grow, technologies evolve, and witnessed firsthand the incredible things that happen when passionate people work together. The relationships I’ve built, the problems we’ve solved together, and the software we’ve created have been deeply meaningful.

But I also have to be honest about where I stand today: I cannot compete in the current job market. The industry has changed, and despite my experience and passion, the opportunities just aren’t there for someone in my situation.

Looking Forward

Making a career change after two decades is terrifying, but it’s also necessary. I need to find a path that can provide financial stability for my family while still allowing me to contribute meaningfully to the world.

If you’ve benefited from my work over the years and are in a position to help during this transition, I would be forever grateful for any support. Every contribution, no matter the size, helps ease this difficult period: https://gofund.me/a9c55d8f

Thank You

To everyone who has collaborated with me, tested my packages, filed bug reports, offered encouragement, or simply used the software I’ve helped maintain – thank you. You’ve made these 20+ years worthwhile, and you’ve been part of something bigger than any individual contribution.

The open source world will continue to thrive because it’s built on the collective passion of thousands of people like Carlos, Rik, and countless others who are carrying the torch forward. While my active development days are ending, the impact of this community will continue long into the future.

With sincere gratitude and fond farewells,

Scarlett Moore

25 August, 2025 03:42PM by sgmoore

August 22, 2025

Matthias Geiger

Enforcing darkmode for QT programs under a non-QT based environment

I use sway as window manager on my main machine. As I prefer dark mode, I looked for a way to enable dark mode everywhere. For GTK-based this is fairly straightforward: Just install whatever theme you prefer, and apply it. However, QT-based applications on a non-QT based desktop will look …

22 August, 2025 10:00PM by Matthias Geiger

hackergotchi for Daniel Lange

Daniel Lange

Polkitd (Policy Kit Daemon) in Trixie ... allowing remote users to suspend, reboot, power off the local system

As per the previous Polkit blog post the policykit framwork has lost the ability to understand its own .pkla files and policies need to be expressed in Javascript with .rules files now.

To re-enable allowing remote users (think ssh) to reboot, hibernate, suspend or power off the local system, create a 10-shutdown-reboot.rules file in /etc/polkit-1/rules.d/:

polkit.addRule(function(action, subject) {
    if ((action.id == "org.freedesktop.login1.reboot-multiple-sessions" ||
         action.id == "org.freedesktop.login1.reboot" ||
         action.id == "org.freedesktop.login1.suspend-multiple-sessions" ||
         action.id == "org.freedesktop.login1.suspend" ||
         action.id == "org.freedesktop.login1.hibernate-multiple-sessions" ||
         action.id == "org.freedesktop.login1.hibernate" ||
         action.id == "org.freedesktop.login1.power-off-multiple-sessions" ||
         action.id == "org.freedesktop.login1.power-off") &&
        (subject.isInGroup("sudo") || (subject.user == "root")))
    {
        return polkit.Result.YES;
    }
});

and run systemctl restart polkit.

22 August, 2025 05:30PM by Daniel Lange

Russell Coker

Dell T320 H310 RAID and IT Mode

The Problem

Just over 2 years ago my Dell T320 server had a motherboard failure [1]. I recently bought another T320 that had been gutted (no drives, PSUs, or RAM) and put the bits from my one in it.

I installed Debian and the resulting installation wouldn’t boot, I tried installing with both UEFI and BIOS modes with the same result. Then I realised that the disks I had installed were available even though I hadn’t gone through the RAID configuration (I usually make a separate RAID-0 for each disk to work best with BTRFS or ZFS). I tried changing the BIOS setting for SATA disks between “RAID” and “AHCI” modes which didn’t change things and realised that the BIOS setting in question probably applies to the SATA connector on the motherboard and that the RAID card was in “IT” mode which means that each disk is seen separately.

If you are using ZFS or BTRFS you don’t want to use a RAID-1, RAID-5, or RAID-6 on the hardware RAID controller, if there are different versions of the data on disks in the stripe then you want the filesystem to be able to work out which one is correct. To use “IT” mode you have to flash a different unsupported firmware on the RAID controller and then you either have to go to some extra effort to make it bootable or have a different device to boot from.

The Root Causes

Dell has no reason to support unusual firmware on their RAID controllers. Installing different firmware on a device that is designed for high availability is going to have some probability of data loss and perhaps more importantly for Dell some probability of customers returning hardware during the support period and acting innocent about why it doesn’t work. Dell has a great financial incentive to make it difficult to install Dell firmware on LSI cards from other vendors which have equivalent hardware as they don’t want customers to get all the benefits of iDRAC integration etc without paying the Dell price premium.

All the other vendors have similar financial incentives so there is no official documentation or support on converting between different firmware images. Dell’s support for upgrading the Dell version is pretty good, but it aborts if it sees something different.

The Attempts

I tried following the instructions in this document to flash back to Dell firmware [2]. This document is about the H310 RAID card in my Dell T320 AKA a “LSI SAS 9211-8i”. The sas2flash.efi program didn’t seem to do anything, it returned immediately and didn’t give an error message.

This page gives a start of how to get inside the Dell firmware package but doesn’t work [3]. It didn’t cover the case where sasdupie aborts with an error because it detects the current version as “00.00.00.00” not something that the upgrade program is prepared to upgrade from. But it’s a place to start looking for someone who wants to try harder at this.

This forum post has some interesting information, I gave up before trying it, but it may be useful for someone else [4].

The Solution

Dell tower servers have as a standard feature an internal USB port for a boot device. So I created a boot image on a spare USB stick and installed it there and it then loads the kernel and mounts the filesystem from a SATA hard drive. Once I got that working everything was fine. The Debian/Trixie installer would probably have allowed me to install an EFI device on the internal USB stick as part of the install if I had known what was going to happen.

The system is now fully working and ready to sell. Now I just need to find someone who wants “IT” mode on the RAID controller and hopefully is willing to pay extra for it.

Whatever I sell the system for it seems unlikely to cover the hours I spent working on this. But I learned some interesting things about RAID firmware and hopefully this blog post will be useful to other people, even if only to discourage them from trying to change firmware.

Related posts:

  1. Dell PowerEdge T320 and Linux I recently bought a couple of PowerEdge T320 servers, so...
  2. T320 iDRAC Failure and new HP Z640 The Dell T320 Almost 2 years ago I made a...
  3. SAS vs SATA and Recovery SAS and SATA are electrically compatible to a degree that...

22 August, 2025 03:57PM by etbe

Reproducible Builds (diffoscope)

diffoscope 305 released

The diffoscope maintainers are pleased to announce the release of diffoscope version 305. This version includes the following changes:

[ Chris Lamb ]
* Upload to unstable/sid after the release of trixie.

You find out more by visiting the project homepage.

22 August, 2025 12:00AM