Nominate a person or project for the Free Software Awards. By nominating someone, you send the message that you appreciate their vital work.

GNU Parallel 20230922 ('Derna') has been released. It is available for download at: lbry://@GnuParallel:4

Quote of the month:

  Parallel is so damn good! You’ve got to use it.
    -- @ThePrimeTimeagen@youtube.com

New in this release:

• No new features. This is a candidate for a stable release.
• Bug fixes and man page updates.

News about GNU Parallel:

• This CLI Tool is AMAZING | Prime Reacts https://www.youtube.com/watch?v=ry49BZA-tgg
• New Data Engineering Stack - GNU parallel https://www.linkedin.com/feed/update/urn:li:activity:7100509073149743104?updateEntityUrn=urn%3Ali%3Afs_feedUpdate%3A%28V2%2Curn%3Ali%3Aactivity%3A7100509073149743104%29

GNU Parallel - For people who live life in the parallel lane.

If you like GNU Parallel record a video testimonial: Say who you are, what you use GNU Parallel for, how it helps you, and what you like most about it. Include a command that uses GNU Parallel if you feel like it.

About GNU Parallel

GNU Parallel is a shell tool for executing jobs in parallel using one or more computers. A job can be a single command or a small script that has to be run for each of the lines in the input. The typical input is a list of files, a list of hosts, a list of users, a list of URLs, or a list of tables. A job can also be a command that reads from a pipe. GNU Parallel can then split the input and pipe it into commands in parallel.

If you use xargs and tee today you will find GNU Parallel very easy to use as GNU Parallel is written to have the same options as xargs. If you write loops in shell, you will find GNU Parallel may be able to replace most of the loops and make them run faster by running several jobs in parallel. GNU Parallel can even replace nested loops.

GNU Parallel makes sure output from the commands is the same output as you would get had you run the commands sequentially. This makes it possible to use output from GNU Parallel as input for other programs.

For example you can run this to convert all jpeg files into png and gif files and have a progress bar:

  parallel --bar convert {1} {1.}.{2} ::: *.jpg ::: png gif

Or you can generate big, medium, and small thumbnails of all jpeg files in sub dirs:

  find . -name '*.jpg' |
    parallel convert -geometry {2} {1} {1//}/thumb{2}_{1/} :::: - ::: 50 100 200

You can find more about GNU Parallel at: http://www.gnu.org/s/parallel/

You can install GNU Parallel in just 10 seconds with:

    $ (wget -O - pi.dk/3 || lynx -source pi.dk/3 || curl pi.dk/3/ || \
       fetch -o - http://pi.dk/3 ) > install.sh
    $ sha1sum install.sh | grep 883c667e01eed62f975ad28b6d50e22a
    12345678 883c667e 01eed62f 975ad28b 6d50e22a
    $ md5sum install.sh | grep cc21b4c943fd03e93ae1ae49e28573c0
    cc21b4c9 43fd03e9 3ae1ae49 e28573c0
    $ sha512sum install.sh | grep ec113b49a54e705f86d51e784ebced224fdff3f52
    79945d9d 250b42a4 2067bb00 99da012e c113b49a 54e705f8 6d51e784 ebced224
    fdff3f52 ca588d64 e75f6033 61bd543f d631f592 2f87ceb2 ab034149 6df84a35
    $ bash install.sh

Watch the intro video on http://www.youtube.com/playlist?list=PL284C9FF2488BC6D1

Walk through the tutorial (man parallel_tutorial). Your command line will love you for it.

When using programs that use GNU Parallel to process data for publication please cite:

O. Tange (2018): GNU Parallel 2018, March 2018, https://doi.org/10.5281/zenodo.1146014.

If you like GNU Parallel:

• Give a demo at your local user group/team/colleagues
• Post the intro videos on Reddit/Diaspora*/forums/blogs/ Identi.ca/Google+/Twitter/Facebook/Linkedin/mailing lists
• Get the merchandise https://gnuparallel.threadless.com/designs/gnu-parallel
• Request or write a review for your favourite blog or magazine
• Request or build a package for your favourite distribution (if it is not already there)
• Invite me for your next conference

If you use programs that use GNU Parallel for research:

• Please cite GNU Parallel in you publications (use --citation)

If GNU Parallel saves you money:

• (Have your company) donate to FSF https://my.fsf.org/donate/

About GNU SQL

GNU sql aims to give a simple, unified interface for accessing databases through all the different databases' command line clients. So far the focus has been on giving a common way to specify login information (protocol, username, password, hostname, and port number), size (database and table size), and running queries.

The database is addressed using a DBURL. If commands are left out you will get that database's interactive shell.

When using GNU SQL for a publication please cite:

O. Tange (2011): GNU SQL - A Command Line Tool for Accessing Different Databases Using DBURLs, ;login: The USENIX Magazine, April 2011:29-32.

About GNU Niceload

GNU niceload slows down a program when the computer load average (or other system activity) is above a certain limit. When the limit is reached the program will be suspended for some time. If the limit is a soft limit the program will be allowed to run for short amounts of time before being suspended again. If the limit is a hard limit the program will only be allowed to run when the system is below the limit.

Dear community

GNU Health 4.2.3 patchset has been released !

Priority: High

Table of Contents

• About GNU Health Patchsets
• Updating your system with the GNU Health control Center
• Installation notes
• List of other issues related to this patchset

About GNU Health Patchsets

We provide "patchsets" to stable releases. Patchsets allow applying bug fixes and updates on production systems. Always try to keep your production system up-to-date with the latest patches.

Patches and Patchsets maximize uptime for production systems, and keep your system updated, without the need to do a whole installation.

NOTE: Patchsets are applied on previously installed systems only. For new, fresh installations, download and install the whole tarball (ie, gnuhealth-4.2.3.tar.gz)

Updating your system with the GNU Health control Center

Starting GNU Health 3.x series, you can do automatic updates on the GNU Health HMIS kernel and modules using the GNU Health control center program.

Please refer to the administration manual section ( https://en.wikibooks.org/wiki/GNU_Health/Control_Center )

The GNU Health control center works on standard installations (those done following the installation manual on wikibooks). Don't use it if you use an alternative method or if your distribution does not follow the GNU Health packaging guidelines.

Installation Notes

You must apply previous patchsets before installing this patchset. If your patchset level is 4.2.2, then just follow the general instructions. You can find the patchsets at GNU Health main download site at GNU.org (https://ftp.gnu.org/gnu/health/)

In most cases, GNU Health Control center (gnuhealth-control) takes care of applying the patches for you. 

Pre-requisites for upgrade to 4.2.3: None

Now follow the general instructions at
 https://en.wikibooks.org/wiki/GNU_Health/Control_Center

 
After applying the patches, make a full update of your GNU Health database as explained in the documentation.

When running "gnuhealth-control" for the first time, you will see the following message: "Please restart now the update with the new control center" Please do so. Restart the process and the update will continue.
 

• Restart the GNU Health server

List of other issues and tasks related to this patchset

• bug #64712: Bug afer installing patcheset 4.2.2
• bug #64706: Error saving party with photo due to PIL deprecation of ANTIALIAS

For detailed information about each issue, you can visit :
 https://savannah.gnu.org/bugs/?group=health
 
About each task, you can visit:
 https://savannah.gnu.org/task/?group=health

For detailed information you can read about Patches and Patchsets

• https://en.wikibooks.org/wiki/GNU_Health/Patches_and_Patchsets

GNUnet 0.20.0 released

We are pleased to announce the release of GNUnet 0.20.0.
GNUnet is an alternative network stack for building secure, decentralized and privacy-preserving distributed applications. Our goal is to replace the old insecure Internet protocol stack. Starting from an application for secure publication of files, it has grown to include all kinds of basic protocol components and applications towards the creation of a GNU internet.

This is a new major release. It breaks protocol compatibility with the 0.19.x versions. Please be aware that Git master is thus henceforth (and has been for a while) INCOMPATIBLE with the 0.19.x GNUnet network, and interactions between old and new peers will result in issues. 0.19.x peers will be able to communicate with Git master or 0.20.x peers, but some services will not be compatible.
In terms of usability, users should be aware that there are still a number of known open issues in particular with respect to ease of use, but also some critical privacy issues especially for mobile users. Also, the nascent network is tiny and thus unlikely to provide good anonymity or extensive amounts of interesting information. As a result, the 0.20.0 release is still only suitable for early adopters with some reasonable pain tolerance .

Download links

• gnunet-0.20.0.tar.gz ( signature )
• gnunet-gtk-0.20.0.tar.gz ( signature )
• gnunet-fuse-0.20.0.tar.gz ( signature )

The GPG key used to sign is: 3D11063C10F98D14BD24D1470B0998EF86F59B6A

Note that due to mirror synchronization, not all links might be functional early after the release. For direct access try http://ftp.gnu.org/gnu/gnunet/

Changes

A detailed list of changes can be found in the git log , the NEWS and the bug tracker .

Known Issues

• There are known major design issues in the TRANSPORT, ATS and CORE subsystems which will need to be addressed in the future to achieve acceptable usability, performance and security.
• There are known moderate implementation limitations in CADET that negatively impact performance.
• There are known moderate design issues in FS that also impact usability and performance.
• There are minor implementation limitations in SET that create unnecessary attack surface for availability.
• The RPS subsystem remains experimental.
• Some high-level tests in the test-suite fail non-deterministically due to the low-level TRANSPORT issues.

In addition to this list, you may also want to consult our bug tracker at bugs.gnunet.org which lists about 190 more specific issues.

Thanks

This release was the work of many people. The following people contributed code and were thus easily identified: Christian Grothoff, t3sserakt, TheJackiMonster, Marshall Stone, Özgür Kesim and Martin Schanzenbach.

21 September 2023 Unifont 15.1.02 is now available.
This is a minor release.  It adjusts 46 glyphs in the Wen Quan Yi range, and adds Plane 3 ideographs.  This release no longer builds TrueType fonts by default, as announced over the past year.  They have been replaced with their OpenType equivalents.  TrueType fonts can still be built manually by typing "make truetype" in the font directory.

This release also includes a new Hangul Syllables Johab 6/3/1 encoding proposed by Ho-Seok Ee.  New Hangul supporting software for this encoding allows formation of all double-width Hangul syllables, including those with ancient letters that are outside the Unicode Hangul Syllables range.  Details are in the ChangeLog file.

Download this release from GNU server mirrors at:

     https://ftpmirror.gnu.org/unifont/unifont-15.1.02/

or if that fails,

     https://ftp.gnu.org/gnu/unifont/unifont-15.1.02/

or, as a last resort,

     ftp://ftp.gnu.org/gnu/unifont/unifont-15.1.02/

These files are also available on the unifoundry.com website:

     https://unifoundry.com/pub/unifont/unifont-15.1.02/

Font files are in the subdirectory

     https://unifoundry.com/pub/unifont/unifont-15.1.02/font-builds/

A more detailed description of font changes is available at

      https://unifoundry.com/unifont/index.html

and of utility program changes at

      https://unifoundry.com/unifont/unifont-utilities.html

Information about Hangul modifications is at

      https://unifoundry.com/hangul/index.html

and

      http://unifoundry.com/hangul/hangul-generation.html

Download from https://ftp.gnu.org/pub/gnu/gettext/gettext-0.22.1.tar.gz

This is a bug-fix release.

New in this release:

• Bug fixes:
  • The libintl shared library now exports again some symbols that were accidentally missing.
  • xgettext's processing of large Perl files may have led to errors.
  • "xgettext --join-existing" could encounter errors.

• Portability:
  • Building on Android is now supported.

BOSTON, Massachusetts, USA -- September, 18, 2023 -- On September 27, the Free Software Foundation (FSF) celebrates the 40th anniversary of the GNU operating system and the launch of the free software movement. Free software advocates, tinkerers, and hackers all over the world will celebrate this event, which was a turning point in the history of computing. Forty years later, GNU and free software are even more relevant. While software has become deeply ingrained into everyday life, the vast majority of users do not have full control over it.

Join the FSF and friends on Friday, September 22, from 12:00 to 15:00 EDT (16:00 to 19:00 UTC) to help improve the Free Software Directory.

Dear community

GNU Health 4.2.2 patchset has been released !

Priority: High

Table of Contents

• About GNU Health Patchsets
• Updating your system with the GNU Health control Center
• Installation notes
• List of other issues related to this patchset

About GNU Health Patchsets

We provide "patchsets" to stable releases. Patchsets allow applying bug fixes and updates on production systems. Always try to keep your production system up-to-date with the latest patches.

Patches and Patchsets maximize uptime for production systems, and keep your system updated, without the need to do a whole installation.

NOTE: Patchsets are applied on previously installed systems only. For new, fresh installations, download and install the whole tarball (ie, gnuhealth-4.2.2.tar.gz)

Updating your system with the GNU Health control Center

Starting GNU Health 3.x series, you can do automatic updates on the GNU Health HMIS kernel and modules using the GNU Health control center program.

Please refer to the administration manual section ( https://en.wikibooks.org/wiki/GNU_Health/Control_Center )

The GNU Health control center works on standard installations (those done following the installation manual on wikibooks). Don't use it if you use an alternative method or if your distribution does not follow the GNU Health packaging guidelines.

Installation Notes

You must apply previous patchsets before installing this patchset. If your patchset level is 4.2.1, then just follow the general instructions. You can find the patchsets at GNU Health main download site at GNU.org (https://ftp.gnu.org/gnu/health/)

In most cases, GNU Health Control center (gnuhealth-control) takes care of applying the patches for you. 

Pre-requisites for upgrade to 4.2.2: None

Now follow the general instructions at
 https://en.wikibooks.org/wiki/GNU_Health/Control_Center

 
After applying the patches, make a full update of your GNU Health database as explained in the documentation.

When running "gnuhealth-control" for the first time, you will see the following message: "Please restart now the update with the new control center" Please do so. Restart the process and the update will continue.
 

• Restart the GNU Health server

List of bugs and tasks related to this patchset

• bug #64269: get_serial function of LabTest class in health_crypto_lab.py need conside add units.name
• bug #64386: Automatically update the appointment sequence when state is confirm
• bug #64432: Gestational weeks show floating point instead of weeks
• bug #64457: Patient automatic critical information entries should be unique
• bug #64530: traceback on evaluation page of life if no institution is given
• bug #64665: Product cost_price needs to be passed as an argument in stock moves

For detailed information about each issue, you can visit :
 https://savannah.gnu.org/bugs/?group=health
 
About each task, you can visit:
 https://savannah.gnu.org/task/?group=health

For detailed information you can read about Patches and Patchsets

• https://en.wikibooks.org/wiki/GNU_Health/Patches_and_Patchsets

We’re very happy to announce that “Caminos cruzados”, a Spanish non-for-profit organization, has signed an agreement with GNU Solidario to implement GNU Health in health institutions from Gambia.

María Eugenia Ramos, president of the organization traveled to Gran Canaria to meet with Luis Falcón, president of GNU Solidario to formalize the agreement and to plan the next actions in the Gambia.

During these three days we went through the main functionality of the GNU Health HMIS, with focus in the areas of Social Medicine, Primary Care and Public Health.

Caminos Cruzados and GNU Solidario share the goals of health and education are indivisible entities. In fact education is health, and there is no healthy person or society without education.

In the area of health, the NGO collaborates with the Ndungu Kebbeh health center, that takes care of a population around 8000 people, in addition to the surrounding villages.

We are very excited about this agreement, and can’t wait to start collaborating with Caminos Cruzados and the local team in Gambia to implement GNU Health in the different Health institutions. GNU Health will definitely help optimizing the internal processes and resources in the health institutions, and most importantly, will contribute to optimize the health promotion and disease prevention programs for the betterment of their people.

Resources:

Caminos Cruzados: http://www.caminoscruzados.org

GNU Solidario: https://www.gnusolidario.org

GNU Health: https://www.gnuhealth.org

The GNU System is turning forty. In honor of this event, the Free Software Foundation (FSF) is organizing a hackday for families, students, and anyone interested in hacking. Come and celebrate with us with kith and kin!

12 September 2023 Unifont 15.1.01 is now available.
This is a major release.  This release no longer builds TrueType fonts by default, as announced over the past year.  They have been replaced with their OpenType equivalents.  TrueType fonts can still be built manually by typing "make truetype" in the font directory.

This release also includes a new Hangul Syllables Johab 6/3/1 encoding proposed by Ho-Seok Ee.  New Hangul supporting software for this encoding allows formation of all double-width Hangul syllables, including those with ancient letters that are outside the Unicode Hangul Syllables range.  Details are in the ChangeLog file.

Download this release from GNU server mirrors at:

     https://ftpmirror.gnu.org/unifont/unifont-15.1.01/

or if that fails,

     https://ftp.gnu.org/gnu/unifont/unifont-15.1.01/

or, as a last resort,

     ftp://ftp.gnu.org/gnu/unifont/unifont-15.1.01/

These files are also available on the unifoundry.com website:

     https://unifoundry.com/pub/unifont/unifont-15.1.01/

Font files are in the subdirectory

     https://unifoundry.com/pub/unifont/unifont-15.1.01/font-builds/

A more detailed description of font changes is available at

      https://unifoundry.com/unifont/index.html

and of utility program changes at

      https://unifoundry.com/unifont/unifont-utilities.html

Information about Hangul modifications is at

      https://unifoundry.com/hangul/index.html

and

      http://unifoundry.com/hangul/hangul-generation.html

Join the FSF and friends on Friday, September 15, from 12:00 to 15:00 EDT (16:00 to 19:00 UTC) to help improve the Free Software Directory.

GNU is turning forty, and there are two different locations to join us for celebrations. Learn more.

Hi,

GNU Boot has published its first release candidate, and we need help
for testing, at first from people who are able to recover from
computers that don't boot anymore.

This is because, while we have very minimal changes on top of the code
used by the last Libreboot release that didn't contain nonfree
software, we didn't test all the images ourselves yet, so there is still
risks of ending up with computers that don't boot anymore.

If the code works fine, we will most likely be able to release it as-is
but we (the current maintainers) still have a lot of work to do before
the release.

For instance we still need to integrate the code from the website, find
good ways to deploy it, make sure that the installation documentation
works (for instance by asking for help from testers and fixing it), etc.

As for accepting patches, we're not ready yet to do that yet, but we
plan to have that done for the first release, or before that depending
on how things work.

For reporting what images work, you can reply to this mail (or open a
bug report).

The GNU Boot maintainers.

The call for sessions for LibrePlanet 2024: Cultivating Community, the sixteenth edition of the Free Software Foundation's (FSF) conference on ethical technology and user freedom, is open.

The GNU System is turning forty. In honor of this event, the GNU Project is organizing a hacker meeting in Switzerland.

The release notes for Trisquel 11.0 “Aramo” mention support for POWER and ARM architectures, however the download area only contains links for x86, and forum posts suggest there is a lack of instructions how to run Trisquel on non-x86.

Since the release of Trisquel 11 I have been busy migrating x86 machines from Debian to Trisquel. One would think that I would be finished after this time period, but re-installing and migrating machines is really time consuming, especially if you allow yourself to be distracted every time you notice something that Really Ought to be improved. Rabbit holes all the way down. One of my production machines is running Debian 11 “bullseye” on a Talos II Lite machine from Raptor Computing Systems, and migrating the virtual machines running on that host (including the VM that serves this blog) to a x86 machine running Trisquel felt unsatisfying to me. I want to migrate my computing towards hardware that harmonize with FSF’s Respects Your Freedom and not away from it. Here I had to chose between using the non-free software present in newer Debian or the non-free software implied by most x86 systems: not an easy chose. So I have ignored the dilemma for some time. After all, the machine was running Debian 11 “bullseye”, which was released before Debian started to require use of non-free software. With the end-of-life date for bullseye approaching, it seems that this isn’t a sustainable choice.

There is a report open about providing ppc64el ISOs that was created by Jason Self shortly after the release, but for many months nothing happened. About a month ago, Luis Guzmán mentioned an initial ISO build and I started testing it. The setup has worked well for a month, and with this post I want to contribute instructions how to get it up and running since this is still missing.

The setup of my soon-to-be new production machine:

• Talos II Lite
• POWER9 18-core v2 CPU
• Inter-Tech 4U-4410 rack case with ASPOWER power supply
• 8x32GB DDR4-2666 ECC RDIMM
• HighPoint SSD7505 (the Rocket 1504 or 1204 would be a more cost-effective choice, but I re-used a component I had laying around)
• PERC H700 aka LSI MegaRAID 2108 SAS/SATA (also found laying around)
• 2x1TB NVMe
• 3x18TB disks

According to the notes in issue 14 the ISO image is available at https://builds.trisquel.org/debian-installer-images/ and the following commands download, integrity check and write it to a USB stick:

wget -q https://builds.trisquel.org/debian-installer-images/debian-installer-images_20210731+deb11u8+11.0trisquel14_ppc64el.tar.gz
tar xfa debian-installer-images_20210731+deb11u8+11.0trisquel14_ppc64el.tar.gz ./installer-ppc64el/20210731+deb11u8+11/images/netboot/mini.iso
echo '6df8f45fbc0e7a5fadf039e9de7fa2dc57a4d466e95d65f2eabeec80577631b7  ./installer-ppc64el/20210731+deb11u8+11/images/netboot/mini.iso' | sha256sum -c
sudo wipefs -a /dev/sdX
sudo dd if=./installer-ppc64el/20210731+deb11u8+11/images/netboot/mini.iso of=/dev/sdX conv=sync status=progress

Sadly, no hash checksums or OpenPGP signatures are published.

Power off your device, insert the USB stick, and power it up, and you see a Petitboot menu offering to boot from the USB stick. For some reason, the "Expert Install" was the default in the menu, and instead I select "Default Install" for the regular experience. For this post, I will ignore BMC/IPMI, as interacting with it is not necessary. Make sure to not connect the BMC/IPMI ethernet port unless you are willing to enter that dungeon. The VGA console works fine with a normal USB keyboard, and you can chose to use only the second enP4p1s0f1 network card in the network card selection menu.

If you are familiar with Debian netinst ISO’s, the installation is straight-forward. I complicate the setup by partitioning two RAID1 partitions on the two NVMe sticks, one RAID1 for a 75GB ext4 root filesystem (discard,noatime) and one RAID1 for a 900GB LVM volume group for virtual machines, and two 20GB swap partitions on each of the NVMe sticks (to silence a warning about lack of swap, I’m not sure swap is still a good idea?). The 3x18TB disks use DM-integrity with RAID1 however the installer does not support DM-integrity so I had to create it after the installation.

There are two additional matters worth mentioning:

• Selecting the apt mirror does not have the list of well-known Trisquel mirrors which the x86 installer offers. Instead I have to input the archive mirror manually, and fortunately the archive.trisquel.org hostname and path values are available as defaults, so I just press enter and fix this after the installation has finished. You may want to have the hostname/path of your local mirror handy, to speed things up.
• The installer asks me which kernel to use, which the x86 installer does not do. I believe older Trisquel/Ubuntu installers asked this question, but that it was gone in aramo on x86. I select the default “linux-image-generic” which gives me a predictable 5.15 Linux-libre kernel, although you may want to chose “linux-image-generic-hwe-11.0” for a more recent 6.2 Linux-libre kernel. Maybe this is intentional debinst-behaviour for non-x86 platforms?

I have re-installed the machine a couple of times, and have now finished installing the production setup. I haven’t ran into any serious issues, and the system has been stable. Time to wrap up, and celebrate that I now run an operating system aligned with the Free System Distribution Guidelines on hardware that aligns with Respects Your Freedom — Happy Hacking indeed!

This is to announce coreutils-9.4, a stable release.
This is a stabilization release coming about 19 weeks after the 9.3 release.
See the NEWS below for a summary of changes.

There have been 162 commits by 10 people in the 19 weeks since 9.3.
Thanks to everyone who has contributed!
The following people contributed changes to this release:

  Andreas Schwab (1)      Jim Meyering (1)
  Bernhard Voelker (3)    Paul Eggert (60)
  Bruno Haible (11)       Pádraig Brady (80)
  Dragan Simic (3)        Sylvestre Ledru (2)
  Jaroslav Skarvada (1)   Ville Skyttä (1)

Pádraig [on behalf of the coreutils maintainers]
==================================================================

Here is the GNU coreutils home page:
    http://gnu.org/s/coreutils/

For a summary of changes and contributors, see:
  http://git.sv.gnu.org/gitweb/?p=coreutils.git;a=shortlog;h=v9.4
or run this command from a git-cloned coreutils directory:
  git shortlog v9.3..v9.4

Here are the compressed sources:
  https://ftp.gnu.org/gnu/coreutils/coreutils-9.4.tar.gz   (15MB)
  https://ftp.gnu.org/gnu/coreutils/coreutils-9.4.tar.xz   (5.8MB)

Here are the GPG detached signatures:
  https://ftp.gnu.org/gnu/coreutils/coreutils-9.4.tar.gz.sig
  https://ftp.gnu.org/gnu/coreutils/coreutils-9.4.tar.xz.sig

Use a mirror for higher download bandwidth:
  https://www.gnu.org/order/ftp.html

Here are the SHA1 and SHA256 checksums:

  7dce42b8657e333ce38971d4ee512c4313b8f633  coreutils-9.4.tar.gz
  X2ANkJOXOwr+JTk9m8GMRPIjJlf0yg2V6jHHAutmtzk=  coreutils-9.4.tar.gz
  7effa305c3f4bc0d40d79f1854515ebf5f688a18  coreutils-9.4.tar.xz
  6mE6TPRGEjJukXIBu7zfvTAd4h/8O1m25cB+BAsnXlI=  coreutils-9.4.tar.xz

Verify the base64 SHA256 checksum with cksum -a sha256 --check
from coreutils-9.2 or OpenBSD's cksum since 2007.

Use a .sig file to verify that the corresponding file (without the
.sig suffix) is intact.  First, be sure to download both the .sig file
and the corresponding tarball.  Then, run a command like this:

  gpg --verify coreutils-9.4.tar.gz.sig

The signature should match the fingerprint of the following key:

  pub   rsa4096/0xDF6FD971306037D9 2011-09-23 [SC]
        Key fingerprint = 6C37 DC12 121A 5006 BC1D  B804 DF6F D971 3060 37D9
  uid                   [ unknown] Pádraig Brady <P@draigBrady.com>
  uid                   [ unknown] Pádraig Brady <pixelbeat@gnu.org>

If that command fails because you don't have the required public key,
or that public key has expired, try the following commands to retrieve
or refresh it, and then rerun the 'gpg --verify' command.

  gpg --locate-external-key P@draigBrady.com

  gpg --recv-keys DF6FD971306037D9

  wget -q -O- 'https://savannah.gnu.org/project/release-gpgkeys.php?group=coreutils&download=1' | gpg --import -

As a last resort to find the key, you can try the official GNU
keyring:

  wget -q https://ftp.gnu.org/gnu/gnu-keyring.gpg
  gpg --keyring gnu-keyring.gpg --verify coreutils-9.4.tar.gz.sig

This release was bootstrapped with the following tools:
  Autoconf 2.72c.32-cb6fb
  Automake 1.16.5
  Gnulib v0.1-6658-gbb5bb43a1e
  Bison 3.8.2

NEWS

* Noteworthy changes in release 9.4 (2023-08-29) [stable]

** Bug fixes

  On GNU/Linux s390x and alpha, programs like 'cp' and 'ls' no longer
  fail on files with inode numbers that do not fit into 32 bits.
  [This bug was present in "the beginning".]

  'b2sum --check' will no longer read unallocated memory when
  presented with malformed checksum lines.
  [bug introduced in coreutils-9.2]

  'cp --parents' again succeeds when preserving mode for absolute directories.
  Previously it would have failed with a "No such file or directory" error.
  [bug introduced in coreutils-9.1]

  'cp --sparse=never' will avoid copy-on-write (reflinking) and copy offloading,
  to ensure no holes present in the destination copy.
  [bug introduced in coreutils-9.0]

  cksum again diagnoses read errors in its default CRC32 mode.
  [bug introduced in coreutils-9.0]

  'cksum --check' now ensures filenames with a leading backslash character
  are escaped appropriately in the status output.
  This also applies to the standalone checksumming utilities.
  [bug introduced in coreutils-8.25]

  dd again supports more than two multipliers for numbers.
  Previously numbers of the form '1024x1024x32' gave "invalid number" errors.
  [bug introduced in coreutils-9.1]

  factor, numfmt, and tsort now diagnose read errors on the input.
  [This bug was present in "the beginning".]

  'install --strip' now supports installing to files with a leading hyphen.
  Previously such file names would have caused the strip process to fail.
  [This bug was present in "the beginning".]

  ls now shows symlinks specified on the command line that can't be traversed.
  Previously a "Too many levels of symbolic links" diagnostic was given.
  [This bug was present in "the beginning".]

  pinky, uptime, users, and who no longer misbehave on 32-bit GNU/Linux
  platforms like x86 and ARM where time_t was historically 32 bits.
  Also see the new --enable-systemd option mentioned below.
  [bug introduced in coreutils-9.0]

  'pr --length=1 --double-space' no longer enters an infinite loop.
  [This bug was present in "the beginning".]

  shred again operates on Solaris when built for 64 bits.
  Previously it would have exited with a "getrandom: Invalid argument" error.
  [bug introduced in coreutils-9.0]

  tac now handles short reads on its input.  Previously it may have exited
  erroneously, especially with large input files with no separators.
  [This bug was present in "the beginning".]

  'uptime' no longer incorrectly prints "0 users" on OpenBSD,
  and is being built again on FreeBSD and Haiku.
  [bugs introduced in coreutils-9.2]

  'wc -l' and 'cksum' no longer crash with an "Illegal instruction" error
  on x86 Linux kernels that disable XSAVE YMM.  This was seen on Xen VMs.
  [bug introduced in coreutils-9.0]

** Changes in behavior

  'cp -v' and 'mv -v' will no longer output a message for each file skipped
  due to -i, or -u.  Instead they only output this information with --debug.
  I.e., 'cp -u -v' etc. will have the same verbosity as before coreutils-9.3.

  'cksum -b' no longer prints base64-encoded checksums.  Rather that
  short option is reserved to better support emulation of the standalone
  checksum utilities with cksum.

  'mv dir x' now complains differently if x/dir is a nonempty directory.
  Previously it said "mv: cannot move 'dir' to 'x/dir': Directory not empty",
  where it was unclear whether 'dir' or 'x/dir' was the problem.
  Now it says "mv: cannot overwrite 'x/dir': Directory not empty".
  Similarly for other renames where the destination must be the problem.
  [problem introduced in coreutils-6.0]

** Improvements

  cp, mv, and install now avoid copy_file_range on linux kernels before 5.3
  irrespective of which kernel version coreutils is built against,
  reinstating that behavior from coreutils-9.0.

  comm, cut, join, od, and uniq will now exit immediately upon receiving a
  write error, which is significant when reading large / unbounded inputs.

  split now uses more tuned access patterns for its potentially large input.
  This was seen to improve throughput by 5% when reading from SSD.

  split now supports a configurable $TMPDIR for handling any temporary files.

  tac now falls back to '/tmp' if a configured $TMPDIR is unavailable.

  'who -a' now displays the boot time on Alpine Linux, OpenBSD,
  Cygwin, Haiku, and some Android distributions

  'uptime' now succeeds on some Android distributions, and now counts
  VM saved/sleep time on GNU (Linux, Hurd, kFreeBSD), NetBSD, OpenBSD,
  Minix, and Cygwin.

  On GNU/Linux platforms where utmp-format files have 32-bit timestamps,
  pinky, uptime, and who can now work for times after the year 2038,
  so long as systemd is installed, you configure with a new, experimental
  option --enable-systemd, and you use the programs without file arguments.
  (For example, with systemd 'who /var/log/wtmp' does not work because
  systemd does not support the equivalent of /var/log/wtmp.)

GSoC Work Product: GNUnet over QUIC

Hi, my name is Marshall and throughout the summer of 2023 I worked on developing a new communicator for the GNUnet transport service. I learned a lot about GNUnet through my development experience. Here are some details about the journey!

Goals of the Project.

The goal of this project was to develop a new transport, QUIC, for the Transport Next Generation (TNG) service . TNG is a successor to the previous transport plugins and will be running in the fall 2023 GNUnet release. At the time of writing, GNUnet currently supports transports over TCP, UDP, and UNIX sockets. I chose to implement a QUIC transport communicator due to the rising popularity and speed of this protocol. Because of this popularity, QUIC will be a great transport protocol for GNUnet traffic to sit on top of. QUIC is intended to be a faster alternative to TCP and tries to address some issues that TLS has.

What I completed.

One of the first steps was deciding on a library that can process QUIC packets and would be available to users running different operating systems. We chose to go with Cloudflare's Quiche library because the C API seemed simpler than other available libraries. Installing cloudflare-quiche via the Homebrew package manager (MacOS) did not actually install the libraries properly for linking with other C programs so I made a pull request in the Homebrew repository and fixed the formula . After this, I worked on handling the receiving functionality of the communicator. This involved reading from the socket then processing the QUIC packets using the Quiche library. Then I implemented the ability to send messages in a similar manner. One of the last steps involved connecting everything together with the transport service so that the communicator can receive information about peers and relay messages. Once I finished these tasks, the QUIC communicator got merged upstream and is currently an experimental feature. This is due to the packaging situation with Quiche as it is difficult for some users to install the library, and there still may be bugs lingering in the QUIC communicator. More testing and refinement is needed to offer a truly robust and reliable communicator. Link to source code: QUIC communicator .

The current state.

The QUIC communicator currently functions and passes basic communicator tests. That being said, there are some latency issues that need to be addressed. Since the communicator suite is designed to run alongside the new TNG service, it is currently not usable since TNG is still under development (as mentioned previously). Mentioned below are some other things that have yet to be implemented in the QUIC communicator, but will be fixed in the future.

Future Work.

We still need to develop a more permanent solution to the certificate generation so that the Quiche API functions properly. This certificate generation has been done in previous implementations (for example the HTTPS plugin). Currently, we are using static, example certificates. Adding timers to each QUIC connection so that a timeout will trigger a connection to close also needs to be implemented. Finally, we should look into lowering the latency by finding points where the communicator is too slow and optimizing it.

Challenges I Encountered.

One of the challenges was reverse engineering the Quiche C API because it has such limited documentation. I learned how to make use of the API by looking at the very simple example client and server examples that are provided in the Quiche repository. There is documentation for the Rust API which seems to operate pretty similarly, so this was helpful too at times. I overcame this challenge with the help and guidance of my mentor Martin Schanzenbach.

Final notes.

Overall, my experience with GNUnet was fantastic. My mentors were friendly and consistently available when I needed help, and I thank them for that. I'm thankful for the GNUnet community for being welcoming and understanding toward new open source developers like myself. I had a lot of fun learning how GNUnet works while developing my project. I am looking forward to contributing to GNUnet in the future!

GNU Parallel 20230822 ('Chandrayaan') has been released. It is available for download at: lbry://@GnuParallel:4

Quote of the month:

  GNU parallel is your friend. Unleash your cores! #GNU
    -- Blake L @BlakeDL@twitter

New in this release:

• Bug fixes and man page updates.

News about GNU Parallel:

• GNU Parallel, where have you been all my life? https://alexplescan.com/posts/2023/08/20/gnu-parallel/
• Parallel (multithreaded) music download from Youtube https://hrna.moe/?p=parallel-multithread-music-download

GNU Parallel - For people who live life in the parallel lane.

If you like GNU Parallel record a video testimonial: Say who you are, what you use GNU Parallel for, how it helps you, and what you like most about it. Include a command that uses GNU Parallel if you feel like it.

About GNU Parallel

GNU Parallel is a shell tool for executing jobs in parallel using one or more computers. A job can be a single command or a small script that has to be run for each of the lines in the input. The typical input is a list of files, a list of hosts, a list of users, a list of URLs, or a list of tables. A job can also be a command that reads from a pipe. GNU Parallel can then split the input and pipe it into commands in parallel.

If you use xargs and tee today you will find GNU Parallel very easy to use as GNU Parallel is written to have the same options as xargs. If you write loops in shell, you will find GNU Parallel may be able to replace most of the loops and make them run faster by running several jobs in parallel. GNU Parallel can even replace nested loops.

GNU Parallel makes sure output from the commands is the same output as you would get had you run the commands sequentially. This makes it possible to use output from GNU Parallel as input for other programs.

For example you can run this to convert all jpeg files into png and gif files and have a progress bar:

  parallel --bar convert {1} {1.}.{2} ::: *.jpg ::: png gif

Or you can generate big, medium, and small thumbnails of all jpeg files in sub dirs:

  find . -name '*.jpg' |
    parallel convert -geometry {2} {1} {1//}/thumb{2}_{1/} :::: - ::: 50 100 200

You can find more about GNU Parallel at: http://www.gnu.org/s/parallel/

You can install GNU Parallel in just 10 seconds with:

    $ (wget -O - pi.dk/3 || lynx -source pi.dk/3 || curl pi.dk/3/ || \
       fetch -o - http://pi.dk/3 ) > install.sh
    $ sha1sum install.sh | grep 883c667e01eed62f975ad28b6d50e22a
    12345678 883c667e 01eed62f 975ad28b 6d50e22a
    $ md5sum install.sh | grep cc21b4c943fd03e93ae1ae49e28573c0
    cc21b4c9 43fd03e9 3ae1ae49 e28573c0
    $ sha512sum install.sh | grep ec113b49a54e705f86d51e784ebced224fdff3f52
    79945d9d 250b42a4 2067bb00 99da012e c113b49a 54e705f8 6d51e784 ebced224
    fdff3f52 ca588d64 e75f6033 61bd543f d631f592 2f87ceb2 ab034149 6df84a35
    $ bash install.sh

Watch the intro video on http://www.youtube.com/playlist?list=PL284C9FF2488BC6D1

Walk through the tutorial (man parallel_tutorial). Your command line will love you for it.

When using programs that use GNU Parallel to process data for publication please cite:

O. Tange (2018): GNU Parallel 2018, March 2018, https://doi.org/10.5281/zenodo.1146014.

If you like GNU Parallel:

• Give a demo at your local user group/team/colleagues
• Post the intro videos on Reddit/Diaspora*/forums/blogs/ Identi.ca/Google+/Twitter/Facebook/Linkedin/mailing lists
• Get the merchandise https://gnuparallel.threadless.com/designs/gnu-parallel
• Request or write a review for your favourite blog or magazine
• Request or build a package for your favourite distribution (if it is not already there)
• Invite me for your next conference

If you use programs that use GNU Parallel for research:

• Please cite GNU Parallel in you publications (use --citation)

If GNU Parallel saves you money:

• (Have your company) donate to FSF https://my.fsf.org/donate/

About GNU SQL

GNU sql aims to give a simple, unified interface for accessing databases through all the different databases' command line clients. So far the focus has been on giving a common way to specify login information (protocol, username, password, hostname, and port number), size (database and table size), and running queries.

The database is addressed using a DBURL. If commands are left out you will get that database's interactive shell.

When using GNU SQL for a publication please cite:

O. Tange (2011): GNU SQL - A Command Line Tool for Accessing Different Databases Using DBURLs, ;login: The USENIX Magazine, April 2011:29-32.

About GNU Niceload

GNU niceload slows down a program when the computer load average (or other system activity) is above a certain limit. When the limit is reached the program will be suspended for some time. If the limit is a soft limit the program will be allowed to run for short amounts of time before being suspended again. If the limit is a hard limit the program will only be allowed to run when the system is below the limit.

I am happy to announce a new release of GNU poke, version 3.3.

This is a bugfix release in the 3.x series.

See the file NEWS in the distribution tarball for a list of issues
fixed in this release.

The tarball poke-3.3.tar.gz is now available at
https://ftp.gnu.org/gnu/poke/poke-3.3.tar.gz.

  GNU poke (http://www.jemarch.net/poke) is an interactive, extensible
  editor for binary data.  Not limited to editing basic entities such
  as bits and bytes, it provides a full-fledged procedural,
  interactive programming language designed to describe data
  structures and to operate on them.

Thanks to the people who contributed with code and/or documentation to
this release.

Happy poking!

--
Jose E. Marchesi
Frankfurt am Main
20 August 2023

This is to announce gzip-1.13, a stable release.
Thanks to Paul and Bruno for contributing.

There have been 50 commits by 3 people in the 71 weeks since 1.12.

See the NEWS below for a brief summary.

Thanks to everyone who has contributed!
The following people contributed changes to this release:

  Bruno Haible (4)
  Jim Meyering (15)
  Paul Eggert (31)

Jim
 [on behalf of the gzip maintainers]
==================================================================

Here is the GNU gzip home page:
    http://gnu.org/s/gzip/

For a summary of changes and contributors, see:
  http://git.sv.gnu.org/gitweb/?p=gzip.git;a=shortlog;h=v1.13
or run this command from a git-cloned gzip directory:
  git shortlog v1.12..v1.13

Here are the compressed sources:
  https://ftp.gnu.org/gnu/gzip/gzip-1.13.tar.gz   (1.3MB)
  https://ftp.gnu.org/gnu/gzip/gzip-1.13.tar.xz   (820KB)

Here are the GPG detached signatures:
  https://ftp.gnu.org/gnu/gzip/gzip-1.13.tar.gz.sig
  https://ftp.gnu.org/gnu/gzip/gzip-1.13.tar.xz.sig

Use a mirror for higher download bandwidth:
  https://www.gnu.org/order/ftp.html

Here are the SHA1 and SHA256 checksums:

  9cc4f2220c8028823433e9d869dc07610aefefb5  gzip-1.13.tar.gz
  IPyBiu666Hzb8gnTUUGtnTzzErNaXmvmG/z7+e3dISo=  gzip-1.13.tar.gz
  a793e107a54769576adc16703f97c39ee7afdd4e  gzip-1.13.tar.xz
  dFTraTXbF8ZlVXbC4bD6vv04tNCTbg+H9IzQYs6RoFc=  gzip-1.13.tar.xz

Verify the base64 SHA256 checksum with cksum -a sha256 --check
from GNU coreutils-9.2 or OpenBSD's cksum since 2007.

Use a .sig file to verify that the corresponding file (without the
.sig suffix) is intact.  First, be sure to download both the .sig file
and the corresponding tarball.  Then, run a command like this:

  gpg --verify gzip-1.13.tar.gz.sig

The signature should match the fingerprint of the following key:

  pub   rsa4096/0x7FD9FCCB000BEEEE 2010-06-14 [SCEA]
        Key fingerprint = 155D 3FC5 00C8 3448 6D1E  EA67 7FD9 FCCB 000B EEEE
  uid                   [ unknown] Jim Meyering <jim@meyering.net>
  uid                   [ unknown] Jim Meyering <meyering@fb.com>
  uid                   [ unknown] Jim Meyering <meyering@gnu.org>

If that command fails because you don't have the required public key,
or that public key has expired, try the following commands to retrieve
or refresh it, and then rerun the 'gpg --verify' command.

  gpg --locate-external-key jim@meyering.net

  gpg --recv-keys 7FD9FCCB000BEEEE

  wget -q -O- 'https://savannah.gnu.org/project/release-gpgkeys.php?group=gzip&download=1' | gpg --import -

As a last resort to find the key, you can try the official GNU
keyring:

  wget -q https://ftp.gnu.org/gnu/gnu-keyring.gpg
  gpg --keyring gnu-keyring.gpg --verify gzip-1.13.tar.gz.sig

This release was bootstrapped with the following tools:
  Autoconf 2.72c.32-cb6fb
  Automake 1.16i
  Gnulib v0.1-6631-g5651802c60

NEWS

* Noteworthy changes in release 1.13 (2023-08-19) [stable]

** Changes in behavior

  zless now diagnoses gzip failures, if using less 623 or later.

  When SIGPIPE is ignored, gzip now exits with status 2 (warning)
  instead of status 1 (error) when writing to a broken pipe.  This is
  more useful with programs like 'less' that treat gzip exit status 2
  as a non-failure.

** Bug fixes

  'gzip -d' no longer fails to report invalid compressed data
  that uses a dictionary distance outside the input window.
  [bug present since the beginning]

  Port to C23, which does not allow K&R-style function definitions
  with parameters, and which does not define __alignas_is_defined.

I'm announcing availability of GNU Screen v.4.9.1

Screen is a full-screen window manager that multiplexes a physical terminal between several processes, typically interactive shells.

This release:

• Support stop/parity bits on serial port
• Add needed system headers in checks and return values for implicit function declarations
• Fixes:

- Avoid zombies after shell exit
- Missed signal sending permission check on failed query messages (CVE-2023-24626)
- manpage fixes
- source code fixes during cleanup
- UTF-8 encoding can emit invalid UTF-8 sequences for out of range unicode values


For full list of changes see
https://git.savannah.gnu.org/cgit/screen.git/log/?h=v.4.9.1

Release is available for download at:
https://ftp.gnu.org/gnu/screen/
or your closest mirror (may have some delay)
https://ftpmirror.gnu.org/screen/

Please report any bugs or regressions.
Thanks to everyone who contributed to this release.

Cheers,
Alex

Hi, all

I am very glad that we have a new member.

Real Name: Jing Luo
Login Name: jing
Id: #346988
Email Address: szmun.luoj@gmail.com

Jing Luo will show his/her passion in Free Software, and try to let more people know about GNU.

I wish Jing Luo a pleasant journey to a better world.

Let's welcome Jing Luo in this big family.
wxie

GnuCOBOL 3.2 includes many new features compared to the previous release, while maintaining full source compatibility.

The amount of changes from GnuCOBOL 3.1 to 3.2 is huge, here are some of the highlights:

• improved dialect handling including changed defaults to better match the selected dialect (see NEWS if you compile with any `-std` to know more about the implications), a complete new dialect GCOS and support for more COBOL statements, intrinsic functions and syntax from both "old" and new dialects
• highly improved run-times for several statements, along with less memory usage, especially if runtime checks are enabled
• fileio changes to support LINE-SEQUENTIAL per COBOL2023 and runtime options to change the way files are handled, see NEWS and runtime.cfg
• improvements for source-level debugging via GDB and coredump support
• output of context for diagnostics
• improvements for reproducible builds

For a much more complete list, have a look at the NEWS file.

When upgrading from budgie-desktop 10.7.2-5 to 10.7.2-6, the package mutter43 must be replaced with magpie-wm, which currently depends on mutter. As mutter43 conflicts with mutter, manual intervention is required to complete the upgrade.

First remove mutter43, then immediately perform the upgrade. Do not relog or reboot between these steps.

pacman -Rdd mutter43

pacman -Syu

During the last month and a half I have unfortunately mostly disappeared from GNU, having been busy and focused writing p≡p-mail-tool (https://gitea.pep.foundation/pEp.foundation/pEp-mail-tool), a new work project I have let overflow into my personal time. A new beautiful little hack in which I believe. p≡p-mail-tool is of course free software. Motivation Freedom of speech and privacy are more and more threatened by governments and hostile corporations working against the public interest. In this season of death of liberty the minimum we can do to respond is making surveillance more difficult, by providing the general public with easy tools to use for ... [Read more]

Finally I got around implementing and committing badge support in GNUStep! I think it is one of the fine additions Apple did to the original OpenStep spec

While Apple had it since MacOS 10.5, GNUstep didn't and GNUMail had to manage 3 different code paths: One for GNUstep, one for 10.4 Mac and one for 10.5 and later which I implemented myself, since GNUMail originally didn't have it. First, I with Fred and Richard brought up GNUmail code to match the 10.4 code path, which is generic and just draws the Icon. To do this, I had to change the code, since ImageReps are not writable in GNUstep, so NSCustomImageRep had to be used and it woks both on GNUstep and on Mac.

Later, proper badges support has been added in GNUstep, here the look with GNUMail and with a small test application, which is ported directly from Mac and compiled using xcode buildtool.

 

 

As we were tried to match certain Apple behaviours, like ellipsis, but also an addition: I made the colors themable.

Here a nice screenshot of the two things working with the Sonne theme. Thematic was enhanced to handle the badgeColor with its three shades matching the ring, text and badge background.

GNU Parallel 20230722 ('Приго́жин') has been released. It is available for download at: lbry://@GnuParallel:4

Quote of the month:

  GNU parallel is the greatest productivity hack of all time.
    -- ashpool @solanobahn@twitter

New in this release:

• Time functions (e.g. yyyymmdd($secs) ) can now take secs since epoch as argument.
• Bug fixes and man page updates.

GNU Parallel - For people who live life in the parallel lane.

If you like GNU Parallel record a video testimonial: Say who you are, what you use GNU Parallel for, how it helps you, and what you like most about it. Include a command that uses GNU Parallel if you feel like it.

About GNU Parallel

GNU Parallel is a shell tool for executing jobs in parallel using one or more computers. A job can be a single command or a small script that has to be run for each of the lines in the input. The typical input is a list of files, a list of hosts, a list of users, a list of URLs, or a list of tables. A job can also be a command that reads from a pipe. GNU Parallel can then split the input and pipe it into commands in parallel.

If you use xargs and tee today you will find GNU Parallel very easy to use as GNU Parallel is written to have the same options as xargs. If you write loops in shell, you will find GNU Parallel may be able to replace most of the loops and make them run faster by running several jobs in parallel. GNU Parallel can even replace nested loops.

GNU Parallel makes sure output from the commands is the same output as you would get had you run the commands sequentially. This makes it possible to use output from GNU Parallel as input for other programs.

For example you can run this to convert all jpeg files into png and gif files and have a progress bar:

  parallel --bar convert {1} {1.}.{2} ::: *.jpg ::: png gif

Or you can generate big, medium, and small thumbnails of all jpeg files in sub dirs:

  find . -name '*.jpg' |
    parallel convert -geometry {2} {1} {1//}/thumb{2}_{1/} :::: - ::: 50 100 200

You can find more about GNU Parallel at: http://www.gnu.org/s/parallel/

You can install GNU Parallel in just 10 seconds with:

    $ (wget -O - pi.dk/3 || lynx -source pi.dk/3 || curl pi.dk/3/ || \
       fetch -o - http://pi.dk/3 ) > install.sh
    $ sha1sum install.sh | grep 883c667e01eed62f975ad28b6d50e22a
    12345678 883c667e 01eed62f 975ad28b 6d50e22a
    $ md5sum install.sh | grep cc21b4c943fd03e93ae1ae49e28573c0
    cc21b4c9 43fd03e9 3ae1ae49 e28573c0
    $ sha512sum install.sh | grep ec113b49a54e705f86d51e784ebced224fdff3f52
    79945d9d 250b42a4 2067bb00 99da012e c113b49a 54e705f8 6d51e784 ebced224
    fdff3f52 ca588d64 e75f6033 61bd543f d631f592 2f87ceb2 ab034149 6df84a35
    $ bash install.sh

Watch the intro video on http://www.youtube.com/playlist?list=PL284C9FF2488BC6D1

Walk through the tutorial (man parallel_tutorial). Your command line will love you for it.

When using programs that use GNU Parallel to process data for publication please cite:

O. Tange (2018): GNU Parallel 2018, March 2018, https://doi.org/10.5281/zenodo.1146014.

If you like GNU Parallel:

• Give a demo at your local user group/team/colleagues
• Post the intro videos on Reddit/Diaspora*/forums/blogs/ Identi.ca/Google+/Twitter/Facebook/Linkedin/mailing lists
• Get the merchandise https://gnuparallel.threadless.com/designs/gnu-parallel
• Request or write a review for your favourite blog or magazine
• Request or build a package for your favourite distribution (if it is not already there)
• Invite me for your next conference

If you use programs that use GNU Parallel for research:

• Please cite GNU Parallel in you publications (use --citation)

If GNU Parallel saves you money:

• (Have your company) donate to FSF https://my.fsf.org/donate/

About GNU SQL

GNU sql aims to give a simple, unified interface for accessing databases through all the different databases' command line clients. So far the focus has been on giving a common way to specify login information (protocol, username, password, hostname, and port number), size (database and table size), and running queries.

The database is addressed using a DBURL. If commands are left out you will get that database's interactive shell.

When using GNU SQL for a publication please cite:

O. Tange (2011): GNU SQL - A Command Line Tool for Accessing Different Databases Using DBURLs, ;login: The USENIX Magazine, April 2011:29-32.

About GNU Niceload

GNU niceload slows down a program when the computer load average (or other system activity) is above a certain limit. When the limit is reached the program will be suspended for some time. If the limit is a soft limit the program will be allowed to run for short amounts of time before being suspended again. If the limit is a hard limit the program will only be allowed to run when the system is below the limit.

Working on most platforms! ArcticFox 42.1 is out. Here in action with WebGL on MacBook with 10.6 SnowLeopard. The WebGL test in question has been fixed with 42.0 release. While here it is running om the CI20 MIPS Board natively! What is still broken? You can help!

• PowerPC is crashy...
• SPARC64 crashes on startup
• FreeBSD doesn't compile on recent versions anymore

A personal reflection on how I moved from my Debian home to find two new homes with Trisquel and Guix for my own ethical computing, and while doing so settled my dilemma about further Debian contributions.

Debian‘s contributions to the free software community has been tremendous. Debian was one of the early distributions in the 1990’s that combined the GNU tools (compiler, linker, shell, editor, and a set of Unix tools) with the Linux kernel and published a free software operating system. Back then there were little guidance on how to publish free software binaries, let alone entire operating systems. There was a lack of established community processes and conflict resolution mechanisms, and lack of guiding principles to motivate the work. The community building efforts that came about in parallel with the technical work has resulted in a steady flow of releases over the years.

From the work of Richard Stallman and the Free Software Foundation (FSF) during the 1980’s and early 1990’s, there was at the time already an established definition of free software. Inspired by free software definition, and a belief that a social contract helps to build a community and resolve conflicts, Debian’s social contract (DSC) with the free software community was published in 1997. The DSC included the Debian Free Software Guidelines (DFSG), which directly led to the Open Source Definition.

I was introduced to GNU/Linux through Slackware in the early 1990’s (oh boy those nights calculating XFree86 modeline’s and debugging sendmail.cf) and primarily used RedHat Linux during ca 1995-2003. I switched to Debian during the Woody release cycles, when the original RedHat Linux was abandoned and Fedora launched. It was Debian’s explicit community processes and infrastructure that attracted me. The slow nature of community processes also kept me using RedHat for so long: centralized and dogmatic decision processes often produce quick and effective outcomes, and in my opinion RedHat Linux was technically better than Debian ca 1995-2003. However the RedHat model was not sustainable, and resulted in the RedHat vs Fedora split. Debian catched up, and reached technical stability once its community processes had been grounded. I started participating in the Debian community around late 2006.

My interpretation of Debian’s social contract is that Debian should be a distribution of works licensed 100% under a free license. The Debian community has always been inclusive towards non-free software, creating the contrib/non-free section and permitting use of the bug tracker to help resolve issues with non-free works. This is all explained in the social contract. There has always been a clear boundary between free and non-free work, and there has been a commitment that the Debian system itself would be 100% free.

The concern that RedHat Linux was not 100% free software was not critical to me at the time: I primarily (and happily) ran GNU tools on Solaris, IRIX, AIX, OS/2, Windows etc. Running GNU tools on RedHat Linux was an improvement, and I hadn’t realized it was possible to get rid of all non-free software on my own primary machine. Debian realized that goal for me. I’ve been a believer in that model ever since. I can use Solaris, macOS, Android etc knowing that I have the option of using a 100% free Debian.

While the inclusive approach towards non-free software invite and deserve criticism (some argue that being inclusive to non-inclusive behavior is a bad idea), I believe that Debian’s approach was a successful survival technique: by being inclusive to – and a compromise between – free and non-free communities, Debian has been able to stay relevant and contribute to both environments. If Debian had not served and contributed to the free community, I believe free software people would have stopped contributing. If Debian had rejected non-free works completely, I don’t think the successful Ubuntu distribution would have been based on Debian.

I wrote the majority of the text above back in September 2022, intending to post it as a way to argue for my proposal to maintain the status quo within Debian. I didn’t post it because I felt I was saying the obvious, and that the obvious do not need to be repeated, and the rest of the post was just me going down memory lane.

The Debian project has been a sustainable producer of a 100% free OS up until Debian 11 bullseye. In the resolution on non-free firmware the community decided to leave the model that had resulted in a 100% free Debian for so long. The goal of Debian is no longer to publish a 100% free operating system, instead this was added: “The Debian official media may include firmware”. Indeed the Debian 12 bookworm release has confirmed that this would not only be an optional possibility. The Debian community could have published a 100% free Debian, in parallel with the non-free Debian, and still be consistent with their newly adopted policy, but chose not to. The result is that Debian’s policies are not consistent with their actions. It doesn’t make sense to claim that Debian is 100% free when the Debian installer contains non-free software. Actions speaks louder than words, so I’m left reading the policies as well-intended prose that is no longer used for guidance, but for the peace of mind for people living in ivory towers. And to attract funding, I suppose.

So how to deal with this, on a personal level? I did not have an answer to that back in October 2022 after the vote. It wasn’t clear to me that I would ever want to contribute to Debian under the new social contract that promoted non-free software. I went on vacation from any Debian work. Meanwhile Debian 12 bookworm was released, confirming my fears. I kept coming back to this text, and my only take-away was that it would be unethical for me to use Debian on my machines. Letting actions speak for themselves, I switched to PureOS on my main laptop during October, barely noticing any difference since it is based on Debian 11 bullseye. Back in December, I bought a new laptop and tried Trisquel and Guix on it, as they promise a migration path towards ppc64el that PureOS do not.

While I pondered how to approach my modest Debian contributions, I set out to learn Trisquel and gained trust in it. I migrated one Debian machine after another to Trisquel, and started to use Guix on others. Migration was easy because Trisquel is based on Ubuntu which is based on Debian. Using Guix has its challenges, but I enjoy its coherant documented environment. All of my essential self-hosted servers (VM hosts, DNS, e-mail, WWW, Nextcloud, CI/CD builders, backup etc) uses Trisquel or Guix now. I’ve migrated many GitLab CI/CD rules to use Trisquel instead of Debian, to have a more ethical computing base for software development and deployment. I wish there were official Guix docker images around.

Time has passed, and when I now think about any Debian contributions, I’m a little less muddled by my disappointment of the exclusion of a 100% free Debian. I realize that today I can use Debian in the same way that I use macOS, Android, RHEL or Ubuntu. And what prevents me from contributing to free software on those platforms? So I will make the occasional Debian contribution again, knowing that it will also indirectly improve Trisquel. To avoid having to install Debian, I need a development environment in Trisquel that allows me to build Debian packages. I have found a recipe for doing this:

# System commands:
sudo apt-get install debhelper git-buildpackage debian-archive-keyring
sudo wget -O /usr/share/debootstrap/scripts/debian-common https://sources.debian.org/data/main/d/debootstrap/1.0.128%2Bnmu2/scripts/debian-common
sudo wget -O /usr/share/debootstrap/scripts/sid https://sources.debian.org/data/main/d/debootstrap/1.0.128%2Bnmu2/scripts/sid
# Run once to create build image:
DIST=sid git-pbuilder create --mirror http://deb.debian.org/debian/ --debootstrapopts "--exclude=usr-is-merged" --basepath /var/cache/pbuilder/base-sid.cow
# Run in a directory with debian/ to build a package:
gbp buildpackage --git-pbuilder --git-dist=sid

How to sustainably deliver a 100% free software binary distributions seems like an open question, and the challenges are not all that different compared to the 1990’s or early 2000’s. I’m hoping Debian will come back to provide a 100% free platform, but my fear is that Debian will compromise even further on the free software ideals rather than the opposite. With similar arguments that were used to add the non-free firmware, Debian could compromise the free software spirit of the Linux boot process (e.g., non-free boot images signed by Debian) and media handling (e.g., web browsers and DRM), as Debian have already done with appstore-like functionality for non-free software (Python pip). To learn about other freedom issues in Debian packaging, browsing Trisquel’s helper scripts may enlight you.

Debian’s setback and the recent setback for RHEL-derived distributions are sad, and it will be a challenge for these communities to find internally consistent coherency going forward. I wish them the best of luck, as Debian and RHEL are important for the wider free software eco-system. Let’s see how the community around Trisquel, Guix and the other FSDG-distributions evolve in the future.

The situation for free software today appears better than it was years ago regardless of Debian and RHEL’s setbacks though, which is important to remember! I don’t recall being able install a 100% free OS on a modern laptop and modern server as easily as I am able to do today.

Happy Hacking!

Addendum 22 July 2023: The original title of this post was Coping with non-free Debian, and there was a thread about it that included feedback on the title. I do agree that my initial title was confrontational, and I’ve changed it to the more specific Coping with non-free software in Debian. I do appreciate all the fine free software that goes into Debian, and hope that this will continue and improve, although I have doubts given the opinions expressed by the majority of developers. For the philosophically inclined, it is interesting to think about what it means to say that a compilation of software is freely licensed. At what point does a compilation of software deserve the labels free vs non-free? Windows probably contains some software that is published as free software, let’s say Windows is 1% free. Apple authors a lot of free software (as a tangent, Apple probably produce more free software than what Debian as an organization produces), and let’s say macOS contains 20% free software. Solaris (or some still maintained derivative like OpenIndiana) is mostly freely licensed these days, isn’t it? Let’s say it is 80% free. Ubuntu and RHEL pushes that closer to let’s say 95% free software. Debian used to be 100% but is now slightly less at maybe 99%. Trisquel and Guix are at 100%. At what point is it reasonable to call a compilation free? Does Debian deserve to be called freely licensed? Does macOS? Is it even possible to use these labels for compilations in any meaningful way? All numbers just taken from thin air. It isn’t even clear how this can be measured (binary bytes? lines of code? CPU cycles? etc). The caveat about license review mistakes applies. I ignore Debian’s own claims that Debian is 100% free software, which I believe is inconsistent and no longer true under any reasonable objective analysis. It was not true before the firmware vote since Debian ships with non-free blobs in the Linux kernel for example.

The team from Cirugía Solidaria has completed another successful campaign in the African continent.

The project took place in the hospital of Maragua, in Muranga county, Kenya. Dr. Victor López, from Cirugía Solidaria, describes the experiences during the seven day mission:

“In our latest project in Maragua, Kenya, we had 406 patient evaluations, and 142 of these patients underwent surgery. Some relevant information on the surgical procedures were 32 pediatric surgeries, 22 goiter, 11 cervical masses and 13 oncological surgeries. In addition, we detected 36 patients with cancer that were referred to the Kenya National Cancer Registry for treatment and followup.”

The mission checklist: In these type of projects, there are quite a bit of preparation that starts at home, in Spain, before taking the airplane to the final destination. In addition to the medical and surgical infrastructure, since the partnership with GNU Solidario, medical informatics components are now part of every mission from Cirugía Solidaria. For instance, the GNUHealth Hospital Management system instance is created, with the functionality and localization to meet the health institution needs and country needs. Network routers, laptops, batteries, backup devices…. everything has do be tested thoroughly in different contexts, because once you arrive to destination, there might not be Internet available.

Surgical training: In addition to the medical assistance and surgical procedures, Cirugía Solidaria also takes the Dr López noted, in addition, 11 health professionals have participated in training sessions related to surgery.

The role of GNUHealth: Dr. López went on highlighting the importance of GNUHealth. We want to highlight the GNU Health Hospital Management System in the our medical and surgical assistance. We have recorded all the patients, the evaluations and the details of the surgical procedures. In addition, we have addressed notes and details so we can followup when we return to the center. Moreover, GNU Health has been managed 100% by the health professionals from Kenya, they’ve have felt fully integrated in the initiative, being now part of the team. We are very grateful to the GNUHealth community for the enormous task they do to improve the assistance in countries and places that need it most.

We’d like to remark the importance of Dr. Lopez statement “GNU Health has been managed 100% by the health professionals from Kenya“. This is key, because not only the mission is very valuable to help those that need it most (medical and surgical), but it also generates local capacity and sustainable projects, for the betterment of our societies.

We are very grateful to Cirugía Solidaria and excited to keep on working side-by-side in upcoming projects, building local capacity and delivering a much needed universal healthcare. By looking at the statistics from the latest campaign, those numbers reflect lives that have been saved by anonymous heroes that leave their daily work aside to assist the underprivileged anywhere around the world.

Finally, some technical details for those of us who understand that Free/Libre software and open science are key for freedom, privacy and equity in healthcare: GNUHealth instance was installed on a Debian GNU/Linux 12 server, with GNU Health Hospital Information Management System component 4.2, Tryton 6.0 and PostgreSQL 15. Our gratitude to these fabulous pieces of software, that make GH a reality today.

We are happy to announce the publication on "Practical Offline Payments Using One-Time Passcodes" by The European Money and Finance Forum.

Poke arrays are rather peculiar. One of their seemingly bizarre characteristics is the fact that the expressions calculating their boundaries (when they are bounded) evaluate in their own lexical environment, which is captured. In other words: the expressions denoting the boundaries of Poke arrays conform closures. Also, the way they evaluate may be surprising. This is no capricious.

In his speech at the University of Pisa on June 7, Richard Stallman
addressed the topic of machine learning systems (so-called "artificial intelligence") and answered the question of whether the training data should be released.

29:00 - 54:00 and 58:40 - 1:04:00 in the video.

This release is a minor bugfix release: it fixes the psnup delegation (for
PSUtils), which has been broken since version 4.14.90.

Here are the compressed sources and a GPG detached signature:
  https://ftpmirror.gnu.org/a2ps/a2ps-4.15.5.tar.gz
  https://ftpmirror.gnu.org/a2ps/a2ps-4.15.5.tar.gz.sig

Use a mirror for higher download bandwidth:
  https://www.gnu.org/order/ftp.html

Here are the SHA1 and SHA256 checksums:

74eccbae50ad86d0d5ca2c1dc70304f6defd444c  a2ps-4.15.5.tar.gz
gbsbQQTnwmOXYkUe3JeG2vPf6ziErfx9xqydII8w2n8  a2ps-4.15.5.tar.gz

The SHA256 checksum is base64 encoded, instead of the
hexadecimal encoding that most checksum tools default to.

Use a .sig file to verify that the corresponding file (without the
.sig suffix) is intact.  First, be sure to download both the .sig file
and the corresponding tarball.  Then, run a command like this:

  gpg --verify a2ps-4.15.5.tar.gz.sig

The signature should match the fingerprint of the following key:

  pub   rsa2048 2013-12-11 [SC]
        2409 3F01 6FFE 8602 EF44  9BB8 4C8E F3DA 3FD3 7230
  uid   Reuben Thomas <rrt@sc3d.org>
  uid   keybase.io/rrt <rrt@keybase.io>

If that command fails because you don't have the required public key,
or that public key has expired, try the following commands to retrieve
or refresh it, and then rerun the 'gpg --verify' command.

  gpg --locate-external-key rrt@sc3d.org

  gpg --recv-keys 4C8EF3DA3FD37230

  wget -q -O- 'https://savannah.gnu.org/project/release-gpgkeys.php?group=a2ps&download=1' | gpg --import -

As a last resort to find the key, you can try the official GNU
keyring:

  wget -q https://ftp.gnu.org/gnu/gnu-keyring.gpg
  gpg --keyring gnu-keyring.gpg --verify a2ps-4.15.5.tar.gz.sig


This release was bootstrapped with the following tools:
  Autoconf 2.71
  Automake 1.16.5
  Gnulib v0.1-6178-gdfdf33a466

NEWS

* Noteworthy changes in release 4.15.5 (2023-06-22) [stable]
 * Bug fixes:
   - Fix psnup delegation. It was incorrectly changed in 4.14.90.
 * Documentation:
   - Minor tweaks.

GNU Parallel 20230622 ('Nova Kakhovka') has been released. It is available for download at: lbry://@GnuParallel:4

Quote of the month:

  gnu parallel is actually like. really easy
    -- tom (era) @slimefiend@twitter

New in this release:

• Bug fixes and man page updates.

News about GNU Parallel:

• Building an (Evil) Android Phone Bot Army http://blog.faucher.net/2023/05/building-evil-android-phone-bot-army.html

GNU Parallel - For people who live life in the parallel lane.

If you like GNU Parallel record a video testimonial: Say who you are, what you use GNU Parallel for, how it helps you, and what you like most about it. Include a command that uses GNU Parallel if you feel like it.

About GNU Parallel

GNU Parallel is a shell tool for executing jobs in parallel using one or more computers. A job can be a single command or a small script that has to be run for each of the lines in the input. The typical input is a list of files, a list of hosts, a list of users, a list of URLs, or a list of tables. A job can also be a command that reads from a pipe. GNU Parallel can then split the input and pipe it into commands in parallel.

If you use xargs and tee today you will find GNU Parallel very easy to use as GNU Parallel is written to have the same options as xargs. If you write loops in shell, you will find GNU Parallel may be able to replace most of the loops and make them run faster by running several jobs in parallel. GNU Parallel can even replace nested loops.

GNU Parallel makes sure output from the commands is the same output as you would get had you run the commands sequentially. This makes it possible to use output from GNU Parallel as input for other programs.

For example you can run this to convert all jpeg files into png and gif files and have a progress bar:

  parallel --bar convert {1} {1.}.{2} ::: *.jpg ::: png gif

Or you can generate big, medium, and small thumbnails of all jpeg files in sub dirs:

  find . -name '*.jpg' |
    parallel convert -geometry {2} {1} {1//}/thumb{2}_{1/} :::: - ::: 50 100 200

You can find more about GNU Parallel at: http://www.gnu.org/s/parallel/

You can install GNU Parallel in just 10 seconds with:

    $ (wget -O - pi.dk/3 || lynx -source pi.dk/3 || curl pi.dk/3/ || \
       fetch -o - http://pi.dk/3 ) > install.sh
    $ sha1sum install.sh | grep 883c667e01eed62f975ad28b6d50e22a
    12345678 883c667e 01eed62f 975ad28b 6d50e22a
    $ md5sum install.sh | grep cc21b4c943fd03e93ae1ae49e28573c0
    cc21b4c9 43fd03e9 3ae1ae49 e28573c0
    $ sha512sum install.sh | grep ec113b49a54e705f86d51e784ebced224fdff3f52
    79945d9d 250b42a4 2067bb00 99da012e c113b49a 54e705f8 6d51e784 ebced224
    fdff3f52 ca588d64 e75f6033 61bd543f d631f592 2f87ceb2 ab034149 6df84a35
    $ bash install.sh

Watch the intro video on http://www.youtube.com/playlist?list=PL284C9FF2488BC6D1

Walk through the tutorial (man parallel_tutorial). Your command line will love you for it.

When using programs that use GNU Parallel to process data for publication please cite:

O. Tange (2018): GNU Parallel 2018, March 2018, https://doi.org/10.5281/zenodo.1146014.

If you like GNU Parallel:

• Give a demo at your local user group/team/colleagues
• Post the intro videos on Reddit/Diaspora*/forums/blogs/ Identi.ca/Google+/Twitter/Facebook/Linkedin/mailing lists
• Get the merchandise https://gnuparallel.threadless.com/designs/gnu-parallel
• Request or write a review for your favourite blog or magazine
• Request or build a package for your favourite distribution (if it is not already there)
• Invite me for your next conference

If you use programs that use GNU Parallel for research:

• Please cite GNU Parallel in you publications (use --citation)

If GNU Parallel saves you money:

• (Have your company) donate to FSF https://my.fsf.org/donate/

About GNU SQL

GNU sql aims to give a simple, unified interface for accessing databases through all the different databases' command line clients. So far the focus has been on giving a common way to specify login information (protocol, username, password, hostname, and port number), size (database and table size), and running queries.

The database is addressed using a DBURL. If commands are left out you will get that database's interactive shell.

When using GNU SQL for a publication please cite:

O. Tange (2011): GNU SQL - A Command Line Tool for Accessing Different Databases Using DBURLs, ;login: The USENIX Magazine, April 2011:29-32.

About GNU Niceload

GNU niceload slows down a program when the computer load average (or other system activity) is above a certain limit. When the limit is reached the program will be suspended for some time. If the limit is a soft limit the program will be allowed to run for short amounts of time before being suspended again. If the limit is a hard limit the program will only be allowed to run when the system is below the limit.

From Arch:

The openblas package prior to version 0.3.23-2 doesn't ship optimized LAPACK routine and CBLAS/LAPACKE interfaces for compatibility. This decision has been reverted now, and the ability to choose a different default system BLAS/LAPACK implementation while keeping openblas installed is now provided to allow future co-installation of BLIS, ATLAS, etc.

The default BLAS implementation will be used for most packages like NumPy or R. Please install "blas-openblas" and "blas64-openblas" to make OpenBLAS the default BLAS implementation, just like the old behavior.

Unfortunately you will get errors on updating if you currently have OpenBLAS installed as the default BLAS implementation:

error: failed to prepare transaction (could not satisfy dependencies) :: installing openblas (0.3.23-2) breaks dependency 'blas' required by cblas :: installing openblas (0.3.23-2) breaks dependency 'blas' required by lapack

Please append your preferred default BLAS implementation to the regular -Syu command line to get around it. For example:

# pacman -Syu blas-openblas

or

# pacman -Syu blas

Download from https://ftp.gnu.org/pub/gnu/gettext/gettext-0.22.tar.gz

New in this release:

• PO file format:
  • When a #: line contains references to file names that contain spaces, these file names are surrounded by Unicode characters U+2068 and U+2069. This makes it possible to parse such references correctly.

• Improvements for maintainers:
  • The AM_GNU_GETTEXT macro now defines two variables localedir_c and localedir_c_make, that can be used in C code or in Makefiles, respectively, for representing the value of the --localedir configure option.

• Programming languages support:
  • C, C++:
    • xgettext now supports gettext-like functions that take wide strings (of type 'const wchar_t *', 'const char16_t *', or 'const char32_t *') as arguments.
    • xgettext now recognizes numbers with digit separators, as defined by ISO C 23, as tokens.
    • xgettext and msgfmt now recognize the format string directive %b (for binary integer output, as defined by ISO C 23) in format strings.
    • xgettext and msgfmt now recognize the argument size specifiers w8, w16, w32, w64, wf8, wf16, wf32, wf64 (as defined by ISO C 23) in format strings.
    • xgettext and msgfmt now recognize C++ format strings, as defined by ISO C++ 20.  They are marked as 'c++-format' in POT and PO files. A new example has been added, 'hello-c++20', that illustrates how to use these format strings with gettext.
  • Java:
    • The build system and tools now also support Java versions newer than Java 11. This is known to work up to Java 20, at least. On the other hand, support for old versions of Java (Java 1.5 and GCJ) has been dropped.
  • Tcl: xgettext now supports the \x, \u, and \U escapes as defined in Tcl 8.6.

• Portability:
  • On systems with musl libc, the *gettext() functions in libc now work  with MO files generated from PO files with an encoding other than UTF-8. To this effect, the msgfmt program now converts the messages to UTF-8 encoding before storing them in a MO file.  You can prevent this byusing the msgfmt --no-convert option.
  • On systems with musl libc, the *gettext() functions in libc now work with MO files generated from PO files with ISO C 99 <inttypes.h> format string directive macros.  To this effect, the msgfmt program pre-expands strings with such macros.  You can prevent this by using the msgfmt --no-redundancy option.

• xgettext:
  • The xgettext option '--sorted-output' is now deprecated.
  • xgettext input files of type PO that are not all ASCII and not UTF-8 encoded are now handled correctly.

• The base Unicode standard is now updated to 15.0.0.

• Emacs PO mode:
  • Fix an incompatibility with Emacs version 29 or newer.

Do you want to tee the output of a command to a file, but see it in your terminal too, without buffering? The stdbuf command can do this for you:

$ sudo stdbuf --output=L tcpdump -i any -tttt -n 'udp port 5353' | tee -a tcpdump-mdns
tcpdump: data link type LINUX_SLL2
tcpdump: verbose output suppressed, use -v[v]... for full protocol decode
listening on any, link-type LINUX_SLL2 (Linux cooked v2), snapshot length 262144 bytes
2023-06-15 11:55:16.637670 eth0 M   IP 10.0.0.23.5353 > 224.0.0.251.5353: 0 A (QM)? winnebago.local. (28)
2023-06-15 11:55:16.744660 eth0 M   IP 10.0.0.42.5353 > 224.0.0.251.5353: 0*- [0q] 1/0/0 (Cache flush) A 10.0.0.42 (38)
...

Hello Guix!

I'm Sarthak and I'll be working on implementing Parameterized Packages for GNU Guix as a Google Summer of Code intern under the guidance of Pjotr Prins and Gábor Boskovits.

What are Parameterized Packages?

One of the many advantages of free software is the availability of compile-time options for almost all packages. Thanks to its dedication to building all packages from source, Guix is one of the few GNU/Linux distributions that can take advantage of these compile-time features; in fact, many advanced users such as those using Guix on High-Performance Computing Systems and new ISAs like RISC-V have already been doing this by utilizing a feature known as Package Transformations.

Parameterized Packages are a new type of package transformations that will be able to tweak an even wider array of compile-time options, such as removing unused dependencies or building a package with support for just a specific locale. These will have a wide variety of applications, ranging from High-Performance Computing to Embedded Systems and could also help tackle a few of Guix's issues like large binary sizes and dense dependency graphs.

What would these look like?

The syntax for parameterized packages is still under heavy deliberation, however the final syntax will have the following features:

• Maintainers will be able to specify what combinations of parameters a package supports, along with a default configuration of parameters for a given package.
• Users will be able to pass parameters they want enabled or disabled through --with-parameters which will then get validated against the valid combinations specified by maintainers before being run
• For a given package and a given set of parameters, only those in the package's parameter specification will be used
• Users will be able to specify a global parameter transform that will apply to all packages. Packages will be built with the default configuration if the global transform creates an invalid configuration.

Potential Problems with Parameterization

Combinatorial Explosion of Variants

One of the biggest and most obvious issues with parameters is the combinatorial explosion of package variants they will create. One way to address this is to use tools to calculate and regulate allowed complexity; one such tool could be a function that takes a parameter combination specification and returns the number of variants it could create.

Increase in Maintenance Required

Another concern is that this will lead to an increase in the workload of maintainers, who have been generously volunteering their time and have a lot of work as is. Hence, we will be treating parameters the same way we have been treating other package transformations- they are not expected to be stable, and should be used at the user's discretion.

Availability of Substitutes for Variants

Lastly, parameterization could lead to an exponential increase in the number of substitutes build farms will have to create, and thus as such there are only plans on building substitutes for default and very popular parameter combinations.

Other topics under discussion

Some of the other points of discussion with respect to parameters are

• Scope: Parameterization has a very wide and overarching scope, and it would be useful to have guidelines in place for when a particular property should be considered for parameterization
• Syntax: There are many proposed syntax designs for parameterization, and more are welcome! The final syntax will most probably be an amalgamation of the best parts of all proposed designs.
• Substitutes: There is a lot of discussion on exactly what parameter combinations should be considered for substitutes; while it is obvious that it won't be possible to build all combinations, some important combinations can and should be considered for having substitutes built. We could perhaps have a separate category of parameter combinations that would both receive substitutes and support, and make these combinations discoverable through the UI. Another suggestion is to have user-run channels for specific build combinations, like for example there could be a RISC-V specific channel supplying substitutes for the users running RISC-V.

If you would like to join the discussion, check out this mailing list discussion about this project, and also have a look at the original thread about parameterization.

Conclusion

Parameters hold the potential to greatly increase Guix's flexibility, but will also lead to greater complexity. In my opinion, Guix is uniquely positioned to take full advantage of the customizability provided by compile-time options while also enjoying relative stability thanks to its transactional nature.

About Me

I'm a student studying Mathematics and ECE at BITS Pilani, and I love computers and free software. I am the president of my university's equivalent of a Free Software Advocacy Group, and I am also one of the system administrators for my university's High-Performance Computing System. As an advocate for free software and a Lisp user, I naturally fell in love with GNU Guix when I discovered it. I have also used Gentoo for some time in the past, which motivated me to try and bring something similar to USE flags to Guix. You can find my blog at blog.lispy.tech, where I will be frequently posting updates about the project.

About GNU Guix

GNU Guix is a transactional package manager and an advanced distribution of the GNU system that respects user freedom. Guix can be used on top of any system running the Hurd or the Linux kernel, or it can be used as a standalone operating system distribution for i686, x86_64, ARMv7, AArch64 and POWER9 machines.

In addition to standard package management features, Guix supports transactional upgrades and roll-backs, unprivileged package management, per-user profiles, and garbage collection. When used as a standalone GNU/Linux distribution, Guix offers a declarative, stateless approach to operating system configuration management. Guix is highly customizable and hackable through Guile programming interfaces and extensions to the Scheme language.

o Fix double free corner case in ipmiseld.
o Support ISO 8601 date inputs to date range options in ipmi-sel.
o Support Xilinx OEM FRU records.
o Fix corner case in libipmimonitoring, support sensor if units 
  is "RPM per minute", but just return "RPM" as the units.
o Fix portability compilation on cygwin.
o Fix typo in fiid template field that could lead to packet
  interpretation errors.

https://ftp.gnu.org/gnu/freeipmi/freeipmi-1.6.11.tar.gz

Guix is a handy tool for developers; guix shell, in particular, gives a standalone development environment for your package, no matter what language(s) it’s written in. To benefit from it, you have to initially write a package definition and have it either in Guix proper, in a channel, or directly upstream as a guix.scm file. This last option is appealing: all developers have to do to get set up is clone the project's repository and run guix shell, with no arguments—we looked at the rationale for guix shell in an earlier article.

Development needs go beyond development environments though. How can developers perform continuous integration of their code in Guix build environments? How can they deliver their code straight to adventurous users? This post describes a set of files developers can add to their repository to set up Guix-based development environments, continuous integration, and continuous delivery—all at once.

Getting started

How do we go about “Guixifying” a repository? The first step, as we’ve seen, will be to add a guix.scm at the root of the repository in question. We’ll take Guile as an example in this post: it’s written in Scheme (mostly) and C, and has a number of dependencies—a C compilation tool chain, C libraries, Autoconf and its friends, LaTeX, and so on. The resulting guix.scm looks like the usual package definition, just without the define-public bit:

;; The ‘guix.scm’ file for Guile, for use by ‘guix shell’.

(use-modules (guix)
             (guix build-system gnu)
             ((guix licenses) #:prefix license:)
             (gnu packages autotools)
             (gnu packages base)
             (gnu packages bash)
             (gnu packages bdw-gc)
             (gnu packages compression)
             (gnu packages flex)
             (gnu packages gdb)
             (gnu packages gettext)
             (gnu packages gperf)
             (gnu packages libffi)
             (gnu packages libunistring)
             (gnu packages linux)
             (gnu packages pkg-config)
             (gnu packages readline)
             (gnu packages tex)
             (gnu packages texinfo)
             (gnu packages version-control))

(package
  (name "guile")
  (version "3.0.99-git")                          ;funky version number
  (source #f)                                     ;no source
  (build-system gnu-build-system)
  (native-inputs
   (append (list autoconf
                 automake
                 libtool
                 gnu-gettext
                 flex
                 texinfo
                 texlive-base                 ;for "make pdf"
                 texlive-epsf
                 gperf
                 git
                 gdb
                 strace
                 readline
                 lzip
                 pkg-config)

           ;; When cross-compiling, a native version of Guile itself is
           ;; needed.
           (if (%current-target-system)
               (list this-package)
               '())))
  (inputs
   (list libffi bash-minimal))
  (propagated-inputs
   (list libunistring libgc))

  (native-search-paths
   (list (search-path-specification
          (variable "GUILE_LOAD_PATH")
          (files '("share/guile/site/3.0")))
         (search-path-specification
          (variable "GUILE_LOAD_COMPILED_PATH")
          (files '("lib/guile/3.0/site-ccache")))))
  (synopsis "Scheme implementation intended especially for extensions")
  (description
   "Guile is the GNU Ubiquitous Intelligent Language for Extensions,
and it's actually a full-blown Scheme implementation!")
  (home-page "https://www.gnu.org/software/guile/")
  (license license:lgpl3+))

Quite a bit of boilerplate, but now someone who’d like to hack on Guile just needs to run:

guix shell

That gives them a shell containing all the dependencies of Guile: those listed above, but also implicit dependencies such as the GCC tool chain, GNU Make, sed, grep, and so on. The chef’s recommendation:

guix shell --container --link-profile

That gives a shell in an isolated container, and all the dependencies show up in $HOME/.guix-profile, which plays well with caches such as config.cache and absolute file names recorded in generated Makefiles and the likes. The fact that the shell runs in a container brings peace of mind: nothing but the current directory and Guile’s dependencies is visible inside the container; nothing from the system can possibly interfere with your development.

Level 1: Building with Guix

Now that we have a package definition, why not also take advantage of it so we can build Guile with Guix? We had left the source field empty, because guix shell above only cares about the inputs of our package—so it can set up the development environment—not about the package itself.

To build the package with Guix, we’ll need to fill out the source field, along these lines:

(use-modules (guix)
             (guix git-download)  ;for ‘git-predicate’
             …)

(define vcs-file?
  ;; Return true if the given file is under version control.
  (or (git-predicate (current-source-directory))
      (const #t)))                                ;not in a Git checkout

(package
  (name "guile")
  (version "3.0.99-git")                          ;funky version number
  (source (local-file "." "guile-checkout"
                      #:recursive? #t
                      #:select? vcs-file?))
  …)

Here’s what we changed:

1. We added (guix git-download) to our set of imported modules, so we can use its git-predicate procedure.
2. We defined vcs-file? as a procedure that returns true when passed a file that is under version control. For good measure, we add a fallback case for when we’re not in a Git checkout: always return true.
3. We set source to a local-file—a recursive copy of the current directory ("."), limited to files under version control (the #:select? bit).

From there on, our guix.scm file serves a second purpose: it lets us build the software with Guix. The whole point of building with Guix is that it’s a “clean” build—you can be sure nothing from your working tree or system interferes with the build result—and it lets you test a variety of things. First, you can do a plain native build:

guix build -f guix.scm

But you can also build for another system (possibly after setting up offloading or transparent emulation):

guix build -f guix.scm -s aarch64-linux -s riscv64-linux

… or cross-compile:

guix build -f guix.scm --target=x86_64-w64-mingw32

You can also use package transformation options to test package variants:

# What if we built with Clang instead of GCC?
guix build -f guix.scm \
  --with-c-toolchain=guile@3.0.99-git=clang-toolchain

# What about that under-tested configure flag?
guix build -f guix.scm \
  --with-configure-flag=guile@3.0.99-git=--disable-networking

Handy!

Level 2: The repository as a channel

We now have a Git repository containing (among other things) a package definition. Can’t we turn it into a channel? After all, channels are designed to ship package definitions to users, and that’s exactly what we’re doing with our guix.scm.

Turns out we can indeed turn it into a channel, but with one caveat: we must create a separate directory for the .scm file(s) of our channel so that guix pull doesn’t load unrelated .scm files when someone pulls the channel—and in Guile, there are lots of them! So we’ll start like this, keeping a top-level guix.scm symlink for the sake of guix shell:

mkdir -p .guix/modules
mv guix.scm .guix/modules/guile-package.scm
ln -s .guix/modules/guile-package.scm guix.scm

To make it usable as part of a channel, we need to turn our guix.scm file into a module: we do that by changing the use-modules form at the top to a define-module form. We also need to actually export a package variable, with define-public, while still returning the package value at the end of the file so we can still use guix shell and guix build -f guix.scm. The end result looks like this (not repeating things that haven’t changed):

(define-module (guile-package)
  #:use-module (guix)
  #:use-module (guix git-download)   ;for ‘git-predicate’
  …)

(define-public guile
  (package
    (name "guile")
    (version "3.0.99-git")                          ;funky version number
    (source (local-file "../.." "guile-checkout"
                        #:recursive? #t
                        #:select? vcs-file?))
    …))

;; Return the package object define above at the end of the module.
guile

We need one last thing: a .guix-channel file so Guix knows where to look for package modules in our repository:

;; This file lets us present this repo as a Guix channel.

(channel
  (version 0)
  (directory ".guix/modules"))  ;look for package modules under .guix/modules/

To recap, we now have these files:

.
├── .guix-channel
├── guix.scm → .guix/modules/guile-package.scm
└── .guix
    └── modules
       └── guile-package.scm

And that’s it: we have a channel! (We could do better and support channel authentication so users know they’re pulling genuine code. We’ll spare you the details here but it’s worth considering!) Users can pull from this channel by adding it to ~/.config/guix/channels.scm, along these lines:

(append (list (channel
                (name 'guile)
                (url "https://git.savannah.gnu.org/git/guile.git")
                (branch "main")))
        %default-channels)

After running guix pull, we can see the new package:

$ guix describe
Generation 264  May 26 2023 16:00:35    (current)
  guile 36fd2b4
    repository URL: https://git.savannah.gnu.org/git/guile.git
    branch: main
    commit: 36fd2b4920ae926c79b936c29e739e71a6dff2bc
  guix c5bc698
    repository URL: https://git.savannah.gnu.org/git/guix.git
    commit: c5bc698e8922d78ed85989985cc2ceb034de2f23
$ guix package -A ^guile$
guile   3.0.99-git      out,debug       guile-package.scm:51:4
guile   3.0.9           out,debug       gnu/packages/guile.scm:317:2
guile   2.2.7           out,debug       gnu/packages/guile.scm:258:2
guile   2.2.4           out,debug       gnu/packages/guile.scm:304:2
guile   2.0.14          out,debug       gnu/packages/guile.scm:148:2
guile   1.8.8           out             gnu/packages/guile.scm:77:2
$ guix build guile@3.0.99-git
[…]
/gnu/store/axnzbl89yz7ld78bmx72vpqp802dwsar-guile-3.0.99-git-debug
/gnu/store/r34gsij7f0glg2fbakcmmk0zn4v62s5w-guile-3.0.99-git

That’s how, as a developer, you get your software delivered directly into the hands of users! No intermediaries, yet no loss of transparency and provenance tracking.

With that in place, it also becomes trivial for anyone to create Docker images, Deb/RPM packages, or a plain tarball with guix pack:

# How about a Docker image of our Guile snapshot?
guix pack -f docker -S /bin=bin guile@3.0.99-git

# And a relocatable RPM?
guix pack -f rpm -R -S /bin=bin guile@3.0.99-git

Bonus: Package variants

We now have an actual channel, but it contains only one package. While we’re at it, we can define package variants in our guile-package.scm file, variants that we want to be able to test as Guile developers—similar to what we did above with transformation options. We can add them like so:

;; This is the ‘.guix/modules/guile-package.scm’ file.

(define-module (guile-package)
  …)

(define-public guile
  …)

(define (package-with-configure-flags p flags)
  "Return P with FLAGS as addition 'configure' flags."
  (package/inherit p
    (arguments
     (substitute-keyword-arguments (package-arguments p)
       ((#:configure-flags original-flags #~(list))
        #~(append #$original-flags #$flags))))))

(define-public guile-without-threads
  (package
    (inherit (package-with-configure-flags guile
                                           #~(list "--without-threads")))
    (name "guile-without-threads")))

(define-public guile-without-networking
  (package
    (inherit (package-with-configure-flags guile
                                           #~(list "--disable-networking")))
    (name "guile-without-networking")))


;; Return the package object defined above at the end of the module.
guile

We can build these variants as regular packages once we’ve pulled the channel. Alternatively, from a checkout of Guile, we can run a command like this one from the top level:

guix build -L $PWD/.guix/modules guile-without-threads

Level 3: Setting up continuous integration

This channel becomes even more interesting once we set up continuous integration (CI). There are several ways to do that.

You can use one of the mainstream continuous integration tools, such as GitLab-CI. To do that, you need to make sure you run jobs in a Docker image or virtual machine that has Guix installed. If we were to do that in the case of Guile, we’d have a job that runs a shell command like this one:

guix build -L $PWD/.guix/modules guile@3.0.99-git

Doing this works great and has the advantage of being easy to achieve on your favorite CI platform.

That said, you’ll really get the most of it by using Cuirass, a CI tool designed for and tightly integrated with Guix. Using it is more work than using a hosted CI tool because you first need to set it up, but that setup phase is greatly simplified if you use its Guix System service. Going back to our example, we give Cuirass a spec file that goes like this:

;; Cuirass spec file to build all the packages of the ‘guile’ channel.
(list (specification
        (name "guile")
        (build '(channels guile))
        (channels
         (append (list (channel
                         (name 'guile)
                         (url "https://git.savannah.gnu.org/git/guile.git")
                         (branch "main")))
                 %default-channels))))

It differs from what you’d do with other CI tools in two important ways:

• Cuirass knows it’s tracking two channels, guile and guix. Indeed, our own guile package depends on many packages provided by the guix channel—GCC, the GNU libc, libffi, and so on. Changes to packages from the guix channel can potentially influence our guile build and this is something we’d like to see as soon as possible as Guile developers.
• Build results are not thrown away: they can be distributed as substitutes so that users of our guile channel transparently get pre-built binaries!

From a developer’s viewpoint, the end result is this status page listing evaluations: each evaluation is a combination of commits of the guix and guile channels providing a number of jobs—one job per package defined in guile-package.scm times the number of target architectures.

As for substitutes, they come for free! As an example, since our guile jobset is built on ci.guix.gnu.org, which runs guix publish in addition to Cuirass, one automatically gets substitutes for guile builds from ci.guix.gnu.org; no additional work is needed for that.

Bonus: Build manifest

The Cuirass spec above is convenient: it builds every package in our channel, which includes a few variants. However, this might be insufficiently expressive in some cases: one might want specific cross-compilation jobs, transformations, Docker images, RPM/Deb packages, or even system tests.

To achieve that, you can write a manifest. The one we have for Guile has entries for the package variants we defined above, as well as additional variants and cross builds:

;; This is ‘.guix/manifest.scm’.

(use-modules (guix)
             (guix profiles)
             (guile-package))   ;import our own package module

(define* (package->manifest-entry* package system
                                   #:key target)
  "Return a manifest entry for PACKAGE on SYSTEM, optionally cross-compiled to
TARGET."
  (manifest-entry
    (inherit (package->manifest-entry package))
    (name (string-append (package-name package) "." system
                         (if target
                             (string-append "." target)
                             "")))
    (item (with-parameters ((%current-system system)
                            (%current-target-system target))
            package))))

(define native-builds
  (manifest
   (append (map (lambda (system)
                  (package->manifest-entry* guile system))

                '("x86_64-linux" "i686-linux"
                  "aarch64-linux" "armhf-linux"
                  "powerpc64le-linux"))
           (map (lambda (guile)
                  (package->manifest-entry* guile "x86_64-linux"))
                (cons (package
                        (inherit (package-with-c-toolchain
                                  guile
                                  `(("clang-toolchain"
                                     ,(specification->package
                                       "clang-toolchain")))))
                        (name "guile-clang"))
                      (list guile-without-threads
                            guile-without-networking
                            guile-debug
                            guile-strict-typing))))))

(define cross-builds
  (manifest
   (map (lambda (target)
          (package->manifest-entry* guile "x86_64-linux"
                                    #:target target))
        '("i586-pc-gnu"
          "aarch64-linux-gnu"
          "riscv64-linux-gnu"
          "i686-w64-mingw32"
          "x86_64-linux-gnu"))))

(concatenate-manifests (list native-builds cross-builds))

We won’t go into the details of this manifest; suffice to say that it provides additional flexibility. We now need to tell Cuirass to build this manifest, which is done with a spec slightly different from the previous one:

;; Cuirass spec file to build all the packages of the ‘guile’ channel.
(list (specification
        (name "guile")
        (build '(manifest ".guix/manifest.scm"))
        (channels
         (append (list (channel
                         (name 'guile)
                         (url "https://git.savannah.gnu.org/git/guile.git")
                         (branch "main")))
                 %default-channels))))

We changed the (build …) part of the spec to '(manifest ".guix/manifest.scm") so that it would pick our manifest, and that’s it!

Wrapping up

We picked Guile as the running example in this post and you can see the result here:

• .guix-channel;
• .guix/modules/guile-package.scm with the top-level guix.scm symlink;
• .guix/manifest.scm.

These days, repositories are commonly peppered with dot files for various tools: .envrc, .gitlab-ci.yml, .github/workflows, Dockerfile, .buildpacks, Aptfile, requirements.txt, and whatnot. It may sound like we’re proposing a bunch of additional files, but in fact those files are expressive enough to supersede most or all of those listed above.

With a couple of files, we get support for:

• development environments (guix shell);
• pristine test builds, including for package variants and for cross-compilation (guix build);
• continuous integration (with Cuirass or with some other tool);
• continuous delivery to users (via the channel and with pre-built binaries);
• generation of derivative build artifacts such as Docker images or Deb/RPM packages (guix pack).

At the Guix headquarters, we’re quite happy about the result. We’ve been building a unified tool set for reproducible software deployment; this is an illustration of how you as a developer can benefit from it!

Acknowledgments

Thanks to Attila Lendvai, Brian Cully, and Ricardo Wurmus for providing feedback on an earlier draft of this post.

About GNU Guix

GNU Guix is a transactional package manager and an advanced distribution of the GNU system that respects user freedom. Guix can be used on top of any system running the Hurd or the Linux kernel, or it can be used as a standalone operating system distribution for i686, x86_64, ARMv7, AArch64 and POWER9 machines.

In addition to standard package management features, Guix supports transactional upgrades and roll-backs, unprivileged package management, per-user profiles, and garbage collection. When used as a standalone GNU/Linux distribution, Guix offers a declarative, stateless approach to operating system configuration management. Guix is highly customizable and hackable through Guile programming interfaces and extensions to the Scheme language.

4 June 2023: Unifont 15.0.06 is now available.  This is a minor release, but significantly is planned to be the last release to include TrueType files in its default build.  This release also includes a new Hangul Syllables block contributed by Minseo Lee, with his modifications to three combining patterns in the johab2ucs2 Perl script.  Minseo Lee also modified other Plane 0 Hangul glyphs so their style would match those of the modified Hangul Syllables.  This release also includes a few changes to Chinese ideographs.  Details are in the ChangeLog file.

Download this release from GNU server mirrors at:

     https://ftpmirror.gnu.org/unifont/unifont-15.0.06/

or if that fails,

     https://ftp.gnu.org/gnu/unifont/unifont-15.0.06/

or, as a last resort,

     ftp://ftp.gnu.org/gnu/unifont/unifont-15.0.06/

These files are also available on the unifoundry.com website:

     https://unifoundry.com/pub/unifont/unifont-15.0.06/

Font files are in the subdirectory

     https://unifoundry.com/pub/unifont/unifont-15.0.06/font-builds/

A more detailed description of font changes is available at

      https://unifoundry.com/unifont/index.html

and of utility program changes at

      https://unifoundry.com/unifont/unifont-utilities.html

$ apt-file find guestmount
guestmount: /usr/bin/guestmount
guestmount: /usr/share/bash-completion/completions/guestmount
guestmount: /usr/share/doc/guestmount/changelog.Debian.gz
guestmount: /usr/share/doc/guestmount/copyright
guestmount: /usr/share/man/ja/man1/guestmount.1.gz
guestmount: /usr/share/man/man1/guestmount.1.gz
guestmount: /usr/share/man/uk/man1/guestmount.1.gz

Subject: GNU Parallel 20230522 ('Charles') released [stable]

GNU Parallel 20230522 ('Charles') has been released. It is available for download at: lbry://@GnuParallel:4

Quote of the month:

  Recently learned how to use GNU parallel (from ChatGPT, no less!) and I've gone mad with power
    -- Mark, Anthropomorphic Anuran @reject_resubmit@twitter

New in this release:

• No new features. This is a candidate for a stable release.
• Bug fixes and man page updates.

News about GNU Parallel:

• Introduction to parallel computing https://youtu.be/fvrHXV8yqU4?t=2874
• Script for summarizing GNU parallel joblog file https://github.com/gavinmdouglas/parallel_joblog_summary
• How to copy a single file to multiple directories in Linux or Unix https://www.cyberciti.biz/faq/linux-unix-copy-a-file-to-multiple-directories-using-cp-command/
• Search in your Jupyter notebooks from the CLI, fast. https://dev.to/attilavm/search-in-your-jupyter-notebooks-from-the-cli-fast-1408
• Parallel Job Orchestration with GNU Parallel https://www.youtube.com/watch?v=2tVpUfND3LI
• Optional Individual Submission 4 Job Handling 20266001 - GNU Parallel https://www.youtube.com/watch?v=eC_RPuFCcU8
• DOE Cross-facility Workflows Training - April 12, 2023 https://www.youtube.com/watch?v=Ke3sirM-aQQ
• How to run MiXCR 4.x on multiple patient samples using GNU Parallel https://www.youtube.com/watch?v=OXg-WHlB_dk

GNU Parallel - For people who live life in the parallel lane.

If you like GNU Parallel record a video testimonial: Say who you are, what you use GNU Parallel for, how it helps you, and what you like most about it. Include a command that uses GNU Parallel if you feel like it.

About GNU Parallel

GNU Parallel is a shell tool for executing jobs in parallel using one or more computers. A job can be a single command or a small script that has to be run for each of the lines in the input. The typical input is a list of files, a list of hosts, a list of users, a list of URLs, or a list of tables. A job can also be a command that reads from a pipe. GNU Parallel can then split the input and pipe it into commands in parallel.

If you use xargs and tee today you will find GNU Parallel very easy to use as GNU Parallel is written to have the same options as xargs. If you write loops in shell, you will find GNU Parallel may be able to replace most of the loops and make them run faster by running several jobs in parallel. GNU Parallel can even replace nested loops.

GNU Parallel makes sure output from the commands is the same output as you would get had you run the commands sequentially. This makes it possible to use output from GNU Parallel as input for other programs.

For example you can run this to convert all jpeg files into png and gif files and have a progress bar:

  parallel --bar convert {1} {1.}.{2} ::: *.jpg ::: png gif

Or you can generate big, medium, and small thumbnails of all jpeg files in sub dirs:

  find . -name '*.jpg' |
    parallel convert -geometry {2} {1} {1//}/thumb{2}_{1/} :::: - ::: 50 100 200

You can find more about GNU Parallel at: http://www.gnu.org/s/parallel/

You can install GNU Parallel in just 10 seconds with:

    $ (wget -O - pi.dk/3 || lynx -source pi.dk/3 || curl pi.dk/3/ || \
       fetch -o - http://pi.dk/3 ) > install.sh
    $ sha1sum install.sh | grep 883c667e01eed62f975ad28b6d50e22a
    12345678 883c667e 01eed62f 975ad28b 6d50e22a
    $ md5sum install.sh | grep cc21b4c943fd03e93ae1ae49e28573c0
    cc21b4c9 43fd03e9 3ae1ae49 e28573c0
    $ sha512sum install.sh | grep ec113b49a54e705f86d51e784ebced224fdff3f52
    79945d9d 250b42a4 2067bb00 99da012e c113b49a 54e705f8 6d51e784 ebced224
    fdff3f52 ca588d64 e75f6033 61bd543f d631f592 2f87ceb2 ab034149 6df84a35
    $ bash install.sh

Watch the intro video on http://www.youtube.com/playlist?list=PL284C9FF2488BC6D1

Walk through the tutorial (man parallel_tutorial). Your command line will love you for it.

When using programs that use GNU Parallel to process data for publication please cite:

O. Tange (2018): GNU Parallel 2018, March 2018, https://doi.org/10.5281/zenodo.1146014.

If you like GNU Parallel:

• Give a demo at your local user group/team/colleagues
• Post the intro videos on Reddit/Diaspora*/forums/blogs/ Identi.ca/Google+/Twitter/Facebook/Linkedin/mailing lists
• Get the merchandise https://gnuparallel.threadless.com/designs/gnu-parallel
• Request or write a review for your favourite blog or magazine
• Request or build a package for your favourite distribution (if it is not already there)
• Invite me for your next conference

If you use programs that use GNU Parallel for research:

• Please cite GNU Parallel in you publications (use --citation)

If GNU Parallel saves you money:

• (Have your company) donate to FSF https://my.fsf.org/donate/

About GNU SQL

GNU sql aims to give a simple, unified interface for accessing databases through all the different databases' command line clients. So far the focus has been on giving a common way to specify login information (protocol, username, password, hostname, and port number), size (database and table size), and running queries.

The database is addressed using a DBURL. If commands are left out you will get that database's interactive shell.

When using GNU SQL for a publication please cite:

O. Tange (2011): GNU SQL - A Command Line Tool for Accessing Different Databases Using DBURLs, ;login: The USENIX Magazine, April 2011:29-32.

About GNU Niceload

GNU niceload slows down a program when the computer load average (or other system activity) is above a certain limit. When the limit is reached the program will be suspended for some time. If the limit is a soft limit the program will be allowed to run for short amounts of time before being suspended again. If the limit is a hard limit the program will only be allowed to run when the system is below the limit.

This is to announce diffutils-3.10, a stable release.
As usual, thanks to Paul Eggert for doing most of the work.

There have been 31 commits by 3 people in the 18 weeks since 3.9.

See the NEWS below for a brief summary.

Thanks to everyone who has contributed!
The following people contributed changes to this release:

  Carlo Marcelo Arenas Belón (1)
  Jim Meyering (9)
  Paul Eggert (21)

Jim
 [on behalf of the diffutils maintainers]
==================================================================

Here is the GNU diffutils home page:
    http://gnu.org/s/diffutils/

For a summary of changes and contributors, see:
  http://git.sv.gnu.org/gitweb/?p=diffutils.git;a=shortlog;h=v3.10
or run this command from a git-cloned diffutils directory:
  git shortlog v3.9..v3.10

Here are the compressed sources and a GPG detached signature:
  https://ftp.gnu.org/gnu/diffutils/diffutils-3.10.tar.xz
  https://ftp.gnu.org/gnu/diffutils/diffutils-3.10.tar.xz.sig

Use a mirror for higher download bandwidth:
  https://ftpmirror.gnu.org/diffutils/diffutils-3.10.tar.xz
  https://ftpmirror.gnu.org/diffutils/diffutils-3.10.tar.xz.sig

Here are the SHA1 and SHA256 checksums:

  c16a9cf107ad1f0f791b6d00852dc5e961c1c451  diffutils-3.10.tar.xz
  kOXpPMck5OvhLt6A3xY0Bjx6hVaSaFkZv+YLVWyb0J4=  diffutils-3.10.tar.xz

Verify the base64 SHA256 checksum with cksum -a sha256 --check
from coreutils-9.2 or OpenBSD's cksum since 2007.

Use a .sig file to verify that the corresponding file (without the
.sig suffix) is intact.  First, be sure to download both the .sig file
and the corresponding tarball.  Then, run a command like this:

  gpg --verify diffutils-3.10.tar.xz.sig

The signature should match the fingerprint of the following key:

  pub   rsa4096/0x7FD9FCCB000BEEEE 2010-06-14 [SCEA]
        Key fingerprint = 155D 3FC5 00C8 3448 6D1E  EA67 7FD9 FCCB 000B EEEE
  uid                   [ unknown] Jim Meyering <jim@meyering.net>
  uid                   [ unknown] Jim Meyering <meyering@fb.com>
  uid                   [ unknown] Jim Meyering <meyering@gnu.org>

If that command fails because you don't have the required public key,
or that public key has expired, try the following commands to retrieve
or refresh it, and then rerun the 'gpg --verify' command.

  gpg --locate-external-key jim@meyering.net

  gpg --recv-keys 7FD9FCCB000BEEEE

  wget -q -O- 'https://savannah.gnu.org/project/release-gpgkeys.php?group=diffutils&download=1' | gpg --import -

As a last resort to find the key, you can try the official GNU
keyring:

  wget -q https://ftp.gnu.org/gnu/gnu-keyring.gpg
  gpg --keyring gnu-keyring.gpg --verify diffutils-3.10.tar.xz.sig

This release was bootstrapped with the following tools:
  Autoconf 2.72c.20-9c018
  Automake 1.16i
  Gnulib v0.1-6209-g5d2fe2472f

NEWS

* Noteworthy changes in release 3.10 (2023-05-21) [stable]

** Bug fixes

  cmp/diff can again work with file dates past Y2K38
  [bug introduced in 3.9]

  diff -D no longer fails to output #ifndef lines.
  [bug#61193 introduced in 3.9]