Software development is a social process. What might be a “bug” for someone might well be a “feature” for someone else. The Guix project rediscovered it the hard way when, after “fixing a bug” that had been present in Guix System for years, it was confronted with an uproar in its user base.

In this post we look at why developers considered the initial behavior a “bug”, why users on the contrary had come to rely on it, and why developers remained blind to it. A patch to reinstate the initial behavior is being reviewed. This post is also an opportunity for us Guix developers to extend our apologies to our users whose workflow was disrupted.

The crux of the matter

Anyone who’s used Guix System in the past has seen this message on the console during the boot process:

error in finalization thread: Success

The following picture shows a typical boot screen (with additional messages in the same vein):

If you have never seen it before, it may look surprising to you. Guix System users lived with it literally for years; the message became a hint that the boot process was, indeed, successful.

A few months ago, a contributor sought to satisfy their curiosity by finding the origin of the message. It did look like a spurious error message, after all, and perhaps the right course of action would be to address the problem at its root—or so they thought.

As it turns out, the message originated in Guile—check out the Guile manual if you’re curious about finalization. Investigation revealed two things: first, that this perror call in Guile was presumably reporting the wrong error code—this was fixed.

The second error—the core of the problem—lied in Guix System itself. Remember that, in its quest of memory safety™, statelessness, and fun, Guix System does it all in Guile Scheme—well, except for the kernel (for now). As soon as Linux has booted, Guix System spawns Guile to run boot code that’s in its initial RAM disk (“initrd”). Right before executing shepherd, its service manager, as PID 1, the initrd code would carelessly close all the file descriptors above 2 to make sure they do not leak into PID 1. The problem—you guessed it—is that one of them was the now-famous file descriptor of the finalization thread’s pipe; the finalization thread would quickly notice and boom!

error in finalization thread: Success

Our intrepid developers thought: “hey, we found it! Let’s fix it!”. And so they did.

Breaking user workflows

This could have been the end of the story, but there’s more to it than software. As Xkcd famously captured, this was bound to break someone’s workflow. Indeed, had developers paid more attention to what users had to say, they would have known that the status quo was preferable.

For some time now, users had shown that they held the error/success message deep in their heart. The message was seen on the blackboard at the Ten Years of Guix celebration, as a motto, as a rallying cry, spontaneously put on display:

What’s more, a fellow NixOS hacker and Guix enthusiast, beguiled by this powerful message, designed stickers and brought them to FOSDEM in February 2023:

The sticker design builds upon the “test pilot” graphics made by Luis Felipe for the 1.3.0 release. The test pilot has a bug on its helmet. In a way, the drawing and error message both represent, metaphorically, a core tenet of Guix as a project; just like Haskell is avoiding success at all costs, Guix seems trapped in an error/success quantum state.

Had it gone too far? Was calling it a “bug” the demonstration of the arrogance of developers detached from the reality of the community?

Fixing our mistakes

Those who installed Guix System starting from version 1.4.0 have been missing out on the error/success boot message. The patch submitted today finally reinstates that message. The review process will determine whether consensus is to enable it by default—as part of %base-service—or whether to make it optional—after all, we also need to accommodate the needs of new users who never saw this message. This will allow users to restore their workflow, while also ensuring that those freshly printed stickers remain relevant.

This incident had broader consequences in the project. It led some to suggest that we, finally, set up a request-for-comment (RFC) kind of process that would give all the community a say on important topics—a process most large free software projects have developed in one form or another. Such a process could have prevented this incident: instead of arrogantly labeling it as a “bug”, developers would have proposed an RFC to remove the message; the discussion period, most likely, would have made it clear that removal was not a desirable outcome and we would all have moved on.

This incident made many users uncomfortable, but we are glad that it is now being addressed. The lessons learned will be beneficial to the project for the years to come.

Credits

Test pilot by Luis Felipe distributed under the terms of CC-BY-SA 4.0; sticker design distributed under CC-BY-SA 4.0 as well. Blackboard picture by Julien Lepiller under CC0; sticker pictures under CC0.

Many thanks to the anonymous sticker provider!

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.

GNU a2ps is an Any to PostScript filter.  Of course it processes plain
text files, but also pretty prints quite a few popular languages.

For more information, see https://www.gnu.org/software/a2ps/

This release is a minor bug-fix release; no pressing need to update unless
you’re affected by a bug it fixes (see the end of this message for details).


Here are the compressed sources and a GPG detached signature:
  https://ftpmirror.gnu.org/a2ps/a2ps-4.15.3.tar.gz
  https://ftpmirror.gnu.org/a2ps/a2ps-4.15.3.tar.gz.sig

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

Here are the SHA1 and SHA256 checksums:

b2ae4016b789a198c50a2f1dc0fefc11bda18ebe  a2ps-4.15.3.tar.gz
0A6B4OtNy/LUlj2J4d8rtm9x5m1ztBUsQ8+YOOaq98c  a2ps-4.15.3.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-4.15.3.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-4.15.3.tar.gz.sig


This release was bootstrapped with the following tools:
  Autoconf 2.71
  Automake 1.16.5
  Gnulib v0.1-5892-g83006fa8c9

NEWS

* Noteworthy changes in release 4.15.3 (2023-03-26) [stable]
 * Bug fixes:
   - Fix fixps to use GhostScript’s ps2write device instead of defunct
     pswrite.
 * Build:
   - Fix a problem building PDF version of manual.

We have released version 7.0.3 of Texinfo, the GNU documentation format. This is a minor bug-fix release.

It's available via a mirror (xz is much smaller than gz, but gz is available too just in case):

http://ftpmirror.gnu.org/texinfo/texinfo-7.0.3.tar.xz
http://ftpmirror.gnu.org/texinfo/texinfo-7.0.3.tar.gz

Please send any comments to bug-texinfo@gnu.org.

Full announcement:

https://lists.gnu.org/archive/html/bug-texinfo/2023-03/msg00087.html

This is to announce grep-3.10, a stable release,
fixing a bug with -P and \d. TL;DR, grep-3.9 would do this:

  $ LC_ALL=en_US.UTF-8 grep -P '\d' <<< ٠١٢٣٤٥٦٧٨٩
  ٠١٢٣٤٥٦٧٨٩

It should print nothing, like it has always done.
For more detail, see https://lists.gnu.org/r/bug-grep/2023-03/msg00005.html

Thanks to Paul Eggert for catching the \D variant and to Bruno Haible
for assiduously tending gnulib and for testing grep on so many
different systems.

There have been 12 commits by 2 people in the 17 days 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:

  Jim Meyering (8)
  Paul Eggert (4)

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

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

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

Here are the compressed sources:
  https://ftp.gnu.org/gnu/grep/grep-3.10.tar.gz   (2.7MB)
  https://ftp.gnu.org/gnu/grep/grep-3.10.tar.xz   (1.7MB)

Here are the GPG detached signatures:
  https://ftp.gnu.org/gnu/grep/grep-3.10.tar.gz.sig
  https://ftp.gnu.org/gnu/grep/grep-3.10.tar.xz.sig

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

Here are the SHA1 and SHA256 checksums:

  7d3d830703183532f0b66619f0b148827e86eda7  grep-3.10.tar.gz
  3nsh2OM0jqZWnG/Vc06QoxFp72JCnqPc5Ipvwd2F0mA=  grep-3.10.tar.gz
  b8413017681fcd6249e0d0fb9c78225944074f23  grep-3.10.tar.xz
  JO+ltZX7WnEAh5tRuIaKC7h6ccGD0CxMYCYzuIr2hVs=  grep-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 grep-3.10.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=grep&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 grep-3.10.tar.gz.sig

This release was bootstrapped with the following tools:
  Autoconf 2.72a.92-8db0
  Automake 1.16i
  Gnulib v0.1-5916-gf61570c0ef

NEWS

* Noteworthy changes in release 3.10 (2023-03-22) [stable]

** Bug fixes

  With -P, \d now matches only ASCII digits, regardless of PCRE
  options/modes. The changes in grep-3.9 to make \b and \w work
  properly had the undesirable side effect of making \d also match
  e.g., the Arabic digits: ٠١٢٣٤٥٦٧٨٩.  With grep-3.9, -P '\d+'
  would match that ten-digit (20-byte) string. Now, to match such
  a digit, you would use \p{Nd}. Similarly, \D is now mapped to [^0-9].
  [bug introduced in grep 3.9]

GNU Parallel 20230322 ('Arrest Warrant') has been released. It is available for download at: lbry://@GnuParallel:4

Quote of the month:

  GNU parallel is magic, half of my work uses it, to the point where they're referenced and thanked in my thesis
    -- Best Catboy Key Grip @alamogordoglass@twitter

New in this release:

• Better support for wide characters in --latest-line.
• Support for rsync 3.2.7.
• Bug fixes and man page updates.

News about GNU Parallel:

• Analyzing multi-gigabyte JSON files locally https://thenybble.de/posts/json-analysis/
• 5 great Perl scripts to keep in your sysadmin toolbox https://www.redhat.com/sysadmin/perl-scripts

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 coreutils-9.2, a stable release.
See the NEWS below for a brief summary.

Thanks to everyone who has contributed!
There have been 209 commits by 14 people in the 48 weeks since 9.1.


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

  Arsen Arsenović (1)     Jim Meyering (7)
  Bernhard Voelker (3)    Paul Eggert (90)
  Bruno Haible (1)        Pierre Marsais (1)
  Carl Edquist (2)        Pádraig Brady (98)
  ChuanGang Jiang (2)     Rasmus Villemoes (1)
  Dennis Williamson (1)   Stefan Kangas (1)
  Ivan Radić (1)          Álvar Ibeas (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=v9.2
or run this command from a git-cloned coreutils directory:
    git shortlog v9.1..v9.2

To summarize the 665 gnulib-related changes, run these commands
from a git-cloned coreutils directory:
     git checkout v9.2
     git submodule summary v9.1

==================================================================

Here are the compressed sources:
  https://ftp.gnu.org/gnu/coreutils/coreutils-9.2.tar.gz   (14MB)
  https://ftp.gnu.org/gnu/coreutils/coreutils-9.2.tar.xz   (5.6MB)

Here are the GPG detached signatures:
  https://ftp.gnu.org/gnu/coreutils/coreutils-9.2.tar.gz.sig
  https://ftp.gnu.org/gnu/coreutils/coreutils-9.2.tar.xz.sig

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

Here are the SHA1 and SHA256 checksums:

  6afa9ce3729afc82965a33d02ad585d1571cdeef  coreutils-9.2.tar.gz
  ebWNqhmcY84g95GRF3NLISOUnJLReVZPkI4yiQFZzUg=  coreutils-9.2.tar.gz
  3769071b357890dc36d820c597c1c626a1073fcb  coreutils-9.2.tar.xz
  aIX/R7nNshHeR9NowXhT9Abar5ixSKrs3xDeKcwEsLM=  coreutils-9.2.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-9.2.tar.xz.sig

The signature should match the fingerprint of the following key:

  pub   rsa4096 2011-09-23 [SC]
        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-9.2.tar.gz.sig

This release was bootstrapped with the following tools:
  Autoconf 2.71
  Automake 1.16.5
  Gnulib v0.1-5857-gf17d397771
  Bison 3.8.2

==================================================================

NEWS

* Noteworthy changes in release 9.2 (2023-03-20) [stable]

** Bug fixes

  'comm --output-delimiter="" --total' now delimits columns in the total
  line with the NUL character, consistent with NUL column delimiters in
  the rest of the output.  Previously no delimiters were used for the
  total line in this case.
  [bug introduced with the --total option in coreutils-8.26]

  'cp -p' no longer has a security hole when cloning into a dangling
  symbolic link on macOS 10.12 and later.
  [bug introduced in coreutils-9.1]

  'cp -rx / /mnt' no longer complains "cannot create directory /mnt/".
  [bug introduced in coreutils-9.1]

  cp, mv, and install avoid allocating too much memory, and possibly
  triggering "memory exhausted" failures, on file systems like ZFS,
  which can return varied file system I/O block size values for files.
  [bug introduced in coreutils-6.0]

  cp, mv, and install now immediately acknowledge transient errors
  when creating copy-on-write or cloned reflink files, on supporting
  file systems like XFS, BTRFS, APFS, etc.
  Previously they would have tried again with other copy methods
  which may have resulted in data corruption.
  [bug introduced in coreutils-7.5 and enabled by default in coreutils-9.0]

  cp, mv, and install now handle ENOENT failures across CIFS file systems,
  falling back from copy_file_range to a better supported standard copy.
  [issue introduced in coreutils-9.0]

  'mv --backup=simple f d/' no longer mistakenly backs up d/f to f~.
  [bug introduced in coreutils-9.1]

  rm now fails gracefully when memory is exhausted.
  Previously it may have aborted with a failed assertion in some cases.
  [This bug was present in "the beginning".]

  rm -d (--dir) now properly handles unreadable empty directories.
  E.g., before, this would fail to remove d: mkdir -m0 d; src/rm -d d
  [bug introduced in v8.19 with the addition of this option]

  runcon --compute no longer looks up the specified command in the $PATH
  so that there is no mismatch between the inspected and executed file.
  [bug introduced when runcon was introduced in coreutils-6.9.90]

  'sort -g' no longer infloops when given multiple NaNs on platforms
  like x86_64 where 'long double' has padding bits in memory.
  Although the fix alters sort -g's NaN ordering, that ordering has
  long been documented to be platform-dependent.
  [bug introduced 1999-05-02 and only partly fixed in coreutils-8.14]

  stty ispeed and ospeed options no longer accept and silently ignore
  invalid speed arguments, or give false warnings for valid speeds.
  Now they're validated against both the general accepted set,
  and the system supported set of valid speeds.
  [This bug was present in "the beginning".]

  stty now wraps output appropriately for the terminal width.
  Previously it may have output 1 character too wide for certain widths.
  [bug introduced in coreutils-5.3]

  tail --follow=name works again with non seekable files.  Previously it
  exited with an "Illegal seek" error when such a file was replaced.
  [bug introduced in fileutils-4.1.6]

  'wc -c' will again efficiently determine the size of large files
  on all systems.  It no longer redundantly reads data from certain
  sized files larger than SIZE_MAX.
  [bug introduced in coreutils-8.24]

** Changes in behavior

  Programs now support the new Ronna (R), and Quetta (Q) SI prefixes,
  corresponding to 10^27 and 10^30 respectively,
  along with their binary counterparts Ri (2^90) and Qi (2^100).
  In some cases (e.g., 'sort -h') these new prefixes simply work;
  in others, where they exceed integer width limits, they now elicit
  the same integer overflow diagnostics as other large prefixes.

  'cp --reflink=always A B' no longer leaves behind a newly created
  empty file B merely because copy-on-write clones are not supported.

  'cp -n' and 'mv -n' now exit with nonzero status if they skip their
  action because the destination exists, and likewise for 'cp -i',
  'ln -i', and 'mv -i' when the user declines.  (POSIX specifies this
  for 'cp -i' and 'mv -i'.)

  cp, mv, and install again read in multiples of the reported block size,
  to support unusual devices that may have this constraint.
  [behavior inadvertently changed in coreutils-7.2]

  du --apparent now counts apparent sizes only of regular files and
  symbolic links.  POSIX does not specify the meaning of apparent
  sizes (i.e., st_size) for other file types, and counting those sizes
  could cause confusing and unwanted size mismatches.

  'ls -v' and 'sort -V' go back to sorting ".0" before ".A",
  reverting to the behavior in coreutils-9.0 and earlier.
  This behavior is now documented.

  ls --color now matches a file extension case sensitively
  if there are different sequences defined for separate cases.

  printf unicode \uNNNN, \UNNNNNNNN syntax, now supports all valid
  unicode code points.  Previously is was restricted to the C
  universal character subset, which restricted most points <= 0x9F.

  runcon now exits with status 125 for internal errors.  Previously upon
  internal errors it would exit with status 1, which was less distinguishable
  from errors from the invoked command.

  'split -n N' now splits more evenly when the input size is not a
  multiple of N, by creating N output files whose sizes differ by at
  most 1 byte.  Formerly, it did this only when the input size was
  less than N.

  'stat -c %s' now prints sizes as unsigned, consistent with 'ls'.

** New Features

  cksum now accepts the --base64 (-b) option to print base64-encoded
  checksums.  It also accepts/checks such checksums.

  cksum now accepts the --raw option to output a raw binary checksum.
  No file name or other information is output in this mode.

  cp, mv, and install now accept the --debug option to
  print details on how a file is being copied.

  factor now accepts the --exponents (-h) option to print factors
  in the form p^e, rather than repeating the prime p, e times.

  ls now supports the --time=modification option, to explicitly
  select the default mtime timestamp for display and sorting.

  mv now supports the --no-copy option, which causes it to fail when
  asked to move a file to a different file system.

  split now accepts options like '-n SIZE' that exceed machine integer
  range, when they can be implemented as if they were infinity.

  split -n now accepts piped input even when not in round-robin mode,
  by first copying input to a temporary file to determine its size.

  wc now accepts the --total={auto,never,always,only} option
  to give explicit control over when the total is output.

** Improvements

  cp --sparse=auto (the default), mv, and install,
  will use the copy_file_range syscall now also with sparse files.
  This may be more efficient, by avoiding user space copies,
  and possibly employing copy offloading or reflinking,
  for the non sparse portion of such sparse files.

  On macOS, cp creates a copy-on-write clone in more cases.
  Previously cp would only do this when preserving mode and timestamps.

  date --debug now diagnoses if multiple --date or --set options are
  specified, as only the last specified is significant in that case.

  rm outputs more accurate diagnostics in the presence of errors
  when removing directories.  For example EIO will be faithfully
  diagnosed, rather than being conflated with ENOTEMPTY.

  tail --follow=name now works with single non regular files even
  when their modification time doesn't change when new data is available.
  Previously tail would not show any new data in this case.

  tee -p detects when all remaining outputs have become broken pipes, and
  exits, rather than waiting for more input to induce an exit when written.

  tee now handles non blocking outputs, which can be seen for example with
  telnet or mpirun piping through tee to a terminal.
  Previously tee could truncate data written to such an output and fail,
  and also potentially output a "Resource temporarily unavailable" error.

GNU a2ps is an Any to PostScript filter. Of course it processes plain text
files, but also pretty prints quite a few popular languages.

More detailed web pages about GNU a2ps is available at
https://savannah.gnu.org/projects/a2ps/.

This release is a minor bug-fix release. It fixes a long-standing but rare
crash, makes a minor fix to the build system, and finally puts the manual
online; see:

https://gnu.org/software/a2ps/manual/

Here are the compressed sources and a GPG detached signature:
  https://ftpmirror.gnu.org/a2ps/a2ps-4.15.2.tar.gz
  https://ftpmirror.gnu.org/a2ps/a2ps-4.15.2.tar.gz.sig

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

Here are the SHA1 and SHA256 checksums:

b02c9f4066ebb2899f7615b93b354fb77192377c  a2ps-4.15.2.tar.gz
7FKQSp+sEmQWsyrJokBfPWF92pfWUpnhpBVVT+Az0iU  a2ps-4.15.2.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-4.15.2.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-4.15.2.tar.gz.sig


This release was bootstrapped with the following tools:
  Autoconf 2.71
  Automake 1.16.5
  Gnulib v0.1-5853-ge0aefd96b6

NEWS

* Noteworthy changes in release 4.15.2 (2023-03-19) [stable]
 * Bug fixes:
   - Fix old crash when using --stdin="".
 * Build
   - Make configure stop if libpaper is not found.
   - Enable building the manual for gnu.org.

Our most ambitious release to date, Trisquel 11.0 Aramo is out! After extensive work and thorough testing, we are proud to declare Aramo to be production-ready. This release brings many improvements and covers more grounds both in terms of machines supported and in installation options. Here are some highlights of the main accomplishments included in this release:

Major achievements

• New supported architectures. Following the addition of 32bit ARM support in Trisquel 10, we now introduce support for 64bit ARM and POWER architectures, to expand the options for hardware compatibility.
• d-i/Netinstall (also called "debian-installer") is the text-mode installer for Trisquel, which allows for advanced and custom installations, often used for servers. After Ubuntu dropped support for this installation method, we stepped in to add any removed pieces and make it functional again, often from upstream Debian sources.
• Browser packaging: as Ubuntu continues to shift towards snap packaging, we took on the task of continuing to package key components such as Abrowser (our improved Firefox derivative) as a standard .deb package. Abrowser continues to bring a fully free browser that balances privacy and usability.
• Compatibility with AMD/ATI graphics cards. We made a specific effort to improve the support for these cards without requiring non-free firmware blobs. The result is a default configuration that should make most of these types of cards work at a basic level, without 2D/3D acceleration. Please report if you test it with one of those cards!

Aramo is based on Ubuntu 22.04LTS and will receive support until 2027. Users of Trisquel 10 Nabia can upgrade directly using the update-manager or do-release-upgrade commands at a console terminal.

Editions

• Trisquel. We keep MATE (version 1.26 on this release) as the default desktop environment due to its great accessibility support, simple user interface and no dependency on 3D acceleration.
• Triskel. Our KDE (v5.92) based edition now as mature as our MATE release is excellent for customizing the design and functionality in fine detail.
• Trisquel Mini. Running LXDE (v0.99.2), the Mini edition is a lightweight desktop perfect for netbooks, old computers and users with minimal resource usage needs.
• Trisquel Sugar or Trisquel On A Sugar Toast (TOAST): Based on the Sugar learning platform (v0.119), TOAST comes with dozens of educational activities for children.
• Network installer image: To deploy with a command-line install interface, it is ideal for servers and advanced users who want to explore custom designed environments. GNOME users will be happy to find that Trisquel GNOME environment has been added to the tasksel step on the d-i installer.

In addition, this release had put some additional work on Budgie and Kylin alternative desktop environments for users that would like them to test them out, help us with some feedback.

Upcoming changes

During Aramo's lifespan we'll continue to improve installation support for ARM and POWERPC whose base rootfs are available at our cdimage archive.

With the continuous support form our community and contributors we will keep providing one of the best fully free operating systems, and tackle the big technical challenges ahead. Trisquel is a non-profit project, you can help sustain it by becoming a member, donating or buying from our store.

We can't finish this great release without thanking for all the donors that keep the project going, and to the hackers Amin Bandali, bill-auger, David L, David Philipe Gil, Denis "GNUtoo" Carikli, "dragestil", Francis Meetze, Jason Self, Joshua Aspinall , Keno Goertz, "knife", "Lappi", Legimet, Mason Hock, Pablo Correa, "Parodper", Simon Josefsson, and many others for all the code, patches, bug reports, translations, and advice. Special thanks to Luis "Ark74" Guzmán, for his very prolific contributions, and to the wonderful community that keeps the project going.

Linux-libre turns 15!

It was February 2008 when Jeff Moe announced Linux-libre, a project to share the efforts that freedom-respecting distros had to undertake to drop the nonfree bits distributed as part of the kernel Linux.
https://web.archive.org/web/1/lists.autistici.org/message/20080221.002845.467ba592.en.html

"For fifteen years, the Linux-libre project has remained dedicated to providing a kernel that respects everyone's freedom and has become an essential part of the free software movement. Linux-libre is widely used by those who value their freedom to use, study, change, and share software without restrictions or limitations. These freedoms are essential to creating a just society."
-- Jason Self

Since around 1996, Linux has carried sourceless firmware encoded as sequences of numbers disguised as source code. UTUTO and gNewSense pioneered the efforts of removing them. Cleaning Linux up is a substantial amount of work, so the existence of Linux-libre has alleviated one of the main difficulties in maintaining GNU+Linux distros that abide by the GNU Free Software Distribution Guidelines. The Linux-libre compiled kernel distributions maintained by Jason Self, Freesh (.deb), liberRTy (low-latency .deb) and RPMFreedom (.rpm), make it easy for users of other GNU+Linux distros to take a step towards freedom when their hardware is not too user-hostile.

"Thanks to Linux-libre, we have entirely libre GNU+Linux distros. Thanks to Linux-libre, people like me who are not kernel hackers can install one of those distros and have a computer which never runs a nonfree program on the CPU. (Provided we use LibreJS as well to reject nonfree Javascript programs that web sites send us.)"
-- Richard Stallman

Early pieces of firmware in Linux ran peripheral devices, but some of the blobs loaded by Linux nowadays reconfigure the primary central processing units and others contain an entire operating system for the peripherals' CPUs, including a copy of the kernel Linux itself and several other freedom-depriving programs!

After years of our denouncing the social, technical, and legal risks out of Linux's misbehavior, most of the blobs got moved to separate files, still part of the kernel Linux, and then to separate packages, which mitigates some of the legal risks, but the problem keeps growing: more and more devices depend on nonfree firmware and thus remain under exclusive and proprietary control by their suppliers.

Challenge

For 27 years, the nonfree versions of Linux have shown that tolerating blobs and making it easy for users to install and accept them makes users increasingly dependent on user-hostile, blob-requiring devices for their computing. Refusing to give these devices' suppliers what they wish, namely your money and control over your computing, is more likely to succeed at changing their practices if more users refuse.

If you're the kind of software freedom supporter who demands respect for your freedom, keep on enjoying the instant gratification that GNU Linux-libre affords you, and supporting (or being!) those who refurbish old computers and build new ones to respect our autonomy.

However, if you're of the kind for whom last-generation computers are hard to resist, even though you'd prefer if they were more respectful of your freedom, you may wish to consider a delayed gratification challenge: if you and your friends resist hostile computers now, you may get more respectful ones later, for yourselves and for all of us; if you don't, the next generations will likely be even more hostile. Are you up for the challenge?
https://en.wikipedia.org/wiki/Delayed_gratification

Present and Future

GNU Linux-libre releases are currently prepared with scripts that automate the cleaning-up and part of the verification. For each upstream major and stable release, we run the scripts, updating them as needed, and publish them, along with the cleaning-up logs and the cleaned-up sources, in a git repository. Each source release is an independent tag, as in, there are no branches for cleaned-up sources. This is so we can quickly retract releases if freedom bugs are found.

We have plans to change the cleaning-up process and the repository structure in the future: we're (slowly) preparing to move to a rewritten git repository, in which, for each commit in upstream Linux main and stable repositories, there will be a corresponding cleaned-up commit in ours. Undesirable bits are going to be cleaned up at the commit corresponding to the one in which upstream introduced or modified them, and other modifications will be checked and integrated unchanged, mirroring the upstream commit graph, with "git replace" mappings for individual commits and, perhaps, also for cleaned-up files.

This is expected to enable us to track upstream development very closely, to get stable and major releases out nearly instantly and often automatically and to enable Linux developers to clone our freed repository instead of our upstream to write and test their changes. The same techniques used to create the cleaned-up repository can be used to fix freedom bugs in it.

Artwork

Jason Self has made several beautiful pictures of his version of Freedo, our light-blue penguin mascot, and we've used them for our recent releases.

Marking the beginning of the week in which we celebrate 15 years of Linux-libre, we had the pleasure of publishing a major release, 6.2-gnu, codenamed "la quinceañera", with a picture of Freedo dressed up for the occasion.
https://www.fsfla.org/pipermail/linux-libre/2023-February/003502.html

But there's more! He also made a commemorative black-and-white wallpaper with classic Freedo, also dressed up for the occasion. Check them out, and feel free to tune the colors to your liking!
https://linux-libre.fsfla.org/#news

He also modeled a 3D Freedo in Blender, and we're looking for someone who could 3D-print it and get it to the FSF office in time for the LibrePlanet conference. Rumor has it that Richard Stallman is going to auction it off to raise funds for the FSF! Can you help?
https://libreplanet.org/2023/

About GNU Linux-libre

GNU Linux-libre is a GNU package maintained by Alexandre Oliva, on behalf of FSFLA, and by Jason Self. It releases cleaned-up versions of Linux, suitable for use in distributions that comply with the Free Software Distribution Guidelines published by the GNU project, and by users who wish to run Free versions of Linux on their GNU systems. The project offers cleaning-up scripts, Free sources, binaries for some GNU+Linux distributions, and artwork with GNU and the Linux-libre mascot: Freedo, the clean, Free and user-friendly light-blue penguin. Visit our web site and Be Free!
https://linux-libre.fsfla.org/
https://www.gnu.org/distros/

About the GNU Operating System and Linux

Richard Stallman announced in September 1983 the plan to develop a Free Software Unix-like operating system called GNU. GNU is the only operating system developed specifically for the sake of users' freedom.
https://www.gnu.org/
https://www.gnu.org/gnu/the-gnu-project.html

In 1992, the essential components of GNU were complete, except for one, the kernel. When in 1992 the kernel Linux was re-released under the GNU GPL, making it Free Software, the combination of GNU and Linux formed a complete Free operating system, which made it possible for the first time to run a PC without non-Free Software. This combination is the GNU+Linux system.
https://www.gnu.org/gnu/gnu-linux-faq.html

About FSFLA

Free Software Foundation Latin America joined in 2005 the international FSF network, previously formed by Free Software Foundations in the United States, in Europe and in India. These sister organizations work in their corresponding geographies towards promoting the same Free Software ideals and defending the same freedoms for software users and developers, working locally but cooperating globally.
https://www.fsfla.org/

Copyright 2023 FSFLA

Permission is granted to make and distribute verbatim copies of this entire document without royalty, provided the copyright notice, the document's official URL, and this permission notice are preserved.

Permission is also granted to make and distribute verbatim copies of individual sections of this document worldwide without royalty provided the copyright notice and the permission notice above are preserved, and the document's official URL is preserved or replaced by the individual section's official URL.

https://www.fsfla.org/anuncio/2023-02-Linux-libre-15

The World Health Organization defines health as a state of complete physical, mental and social well-being and not merely the absence of disease or infirmity.

Unfortunately, this definition is far from being a reality in our societies. Instead of embracing the system of health, we live in the system of disease, ruled by a reactive, reductionist and unsustainable model of healthcare. The beautiful noble art and science of medicine is ill. Financial institutions and giant technological corporations are removing the human factor from medicine, transforming people and patients into clients. They are reducing the non-negotiable human right to healthcare to a privilege of a few.

Coming back to the formal definition of health, in the current system of disease very little is taken into account from the social and mental well-being . Today, many people with mental health conditions not only have to deal with the physiopathological aspects of the disorder, but also with the stigma, exclusion and invisibilization from the society.

But there is hope. Medicine is a social science, and GNUHealth is a social project with some technology behind. That feeling of optimism and hope has been reinforced in last week trip to Argentina and their people. In the end, medicine is about people interacting and taking care of people. Is about people before patients. I know them well, because I did my medical career in Argentina.

The Mental Health Hospital has chosen GNUHealth to improve the management of the institution resources, as well as to provide the best medical care for their community, both in outpatient and inpatient settings. Being able to properly identify every person who needs attention, and knowing the socio-sanitary, medical and clinical history in real time will make a big difference in the care of the individual.

The implementation of GNUHealth in this health institution will be lead by Prof. Dr. Fernando Sassetti and the department of public health studies of the University of Entre Ríos in the context of the GNU Health Alliance of Academic and Research Institutions agreement signed with GNU Solidario.

Health is an equilibrium of the inseparable and interconnected physical, social, mental and spiritual domains. Medicine is about taking into consideration and maintaining this body-mind-spirit-environment balance. This holistic approach to medicine is encoded in the genome of every nurse, psychologist, social worker and doctor from the Mental Health Hospital and the Primary care centers I got to know during these years in Entre Ríos, Argentina.

Links / References

Un software Libre para mejorar las políticas de salud: https://www.eldiario.com.ar/253548-un-software-para-mejorar-las-politicas-de-salud/

Hospital Escuela de Salud Mental : http://www.hesm.gob.ar/

Audiovisual institucional Hospital Escuela de Salud Mental: https://www.youtube.com/watch?v=Jx08WyfKRIE&t=12s

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

$ apt policy wget
wget:
  Installed: 1.21.2-2ubuntu1
  Candidate: 1.21.2-2ubuntu1
  Version table:
 *** 1.21.2-2ubuntu1 500
        500 http://gb.archive.ubuntu.com/ubuntu jammy/main amd64 Packages
        100 /var/lib/dpkg/status

In order to deploy embedded software using Guix we first need to teach Guix how to cross-compile it. Since Guix builds everything from source, this means we must teach Guix how to build our cross-compilation toolchain.

The Zephyr Project uses its own fork of GCC with custom configs for the architectures supported by the project. In this article, we describe the cross-compilation toolchain we defined for Zephyr; it is implemented as a Guix channel.

About Zephyr

Zephyr is a real-time operating system from the Linux Foundation. It aims to provide a common environment which can target even the most resource constrained devices.

Zephyr introduces a module system which allows third parties to share code in a uniform way. Zephyr uses CMake to perform physical component composition of these modules. It searches the filesystem and generates scripts which the toolchain will use to successfully combine those components into a firmware image.

The fact that Zephyr provides this mechanism is one reason I chose to target it in the first place.

This separation of modules in an embedded context is a really great thing. It brings many of the advantages that it brings to the Linux world such as code re-use, smaller binaries, more efficient cache/RAM usage, etc. It also allows us to work as independent groups and compose contributions from many teams.

It also brings all of the complexity. Suddenly most of the problems that plague traditional deployment now apply to our embedded system. The fact that the libraries are statically linked at compile time instead of dynamically at runtime is simply an implementation detail. I say most because everything is statically linked so there is no runtime component discovery that needs to be accounted for.

Anatomy of a Toolchain

Toolchains are responsible for taking high level descriptions of programs and lowering them down to a series of equivalent machine instructions. This process involves more than just a compiler. The compiler uses the GNU Binutils to manipulate its internal representation down to a given architecture. It also needs the use of the C standard library as well as a few other libraries needed for some compiler optimizations.

The C library provides the interface to the underlying kernel. System calls like write and read are provided by GNU C Library (glibc) on most distributions.

In embedded systems, smaller implementations like RedHat's newlib and newlib-nano are used.

Bootstrapping a Toolchain

In order to compile GCC we need a C library that's been compiled for our target architecture. How can we cross compile our C library if we need our C library to build a cross compiler? The solution is to build a simpler compiler that doesn't require the C library to function. It will not be capable of as many optimizations and it will be very slow, however it will be able to build the C libraries as well as the complete version of GCC.

In order to build the simpler compiler we need to compile the Binutils to work with our target architecture. Binutils can be bootstrapped with our host GCC and have no target dependencies. More information is available in this article.

Doesn't sound so bad right? It isn't... in theory. However internet forums since time immemorial have been littered with the laments of those who came before. From incorrect versions of ISL to the wrong C library being linked or the host linker being used, etc. The one commonality between all of these issues is the environment. Building GCC is difficult because isolating build environments is hard.

In fact as of v0.14.2, the Zephyr “software development kit” (SDK) repository took down the build instructions and posted a sign that read "Building this is too complicated, don't worry about it." (I'm paraphrasing, but not by much.)

We will neatly sidestep all of these problems and not risk destroying or polluting our host system with garbage by using Guix to manage our environments for us.

Our toolchain only requires the first pass compiler because newlib(-nano) is statically linked and introduced to the toolchain by normal package composition.

Defining the Packages

All of the base packages are defined in zephyr/packages/zephyr.scm. Zephyr modules (coming soon!) are defined in zephyr/packages/zephyr-xyz.scm, following the pattern of other module systems implemented by Guix.

Binutils

First thing we need to build is the arm-zephyr-eabi binutils. This is very easy in Guix.

(define-public arm-zephyr-eabi-binutils
  (let ((xbinutils (cross-binutils "arm-zephyr-eabi")))
    (package
      (inherit xbinutils)
      (name "arm-zephyr-eabi-binutils")
      (version "2.38")
      (source (origin
                (method git-fetch)
                (uri (git-reference
                      (url "https://github.com/zephyrproject-rtos/binutils-gdb")
                      (commit "6a1be1a6a571957fea8b130e4ca2dcc65e753469")))
                (file-name (git-file-name name version))
                (sha256 (base32 "0ylnl48jj5jk3jrmvfx5zf8byvwg7g7my7jwwyqw3a95qcyh0isr"))))
      (arguments
       `(#:tests? #f
         ,@(substitute-keyword-arguments (package-arguments xbinutils)
             ((#:configure-flags flags)
          `(cons "--program-prefix=arm-zephyr-eabi-" ,flags)))))
      (native-inputs
       (modify-inputs (package-native-inputs xbinutils)
         (prepend texinfo bison flex gmp dejagnu)))
      (home-page "https://zephyrproject.org")
      (synopsis "Binutils for the Zephyr RTOS"))))

The function cross-binutils returns a package which has been configured for the given GNU triplet. We simply inherit that package and replace the source. The Zephyr build system expects the binutils to be prefixed with arm-zephyr-eabi- which is accomplished by adding another flag to the #:configure-flags argument.

We can test our package definition using the -L flag with guix build to add our packages.

$ guix build -L guix-zephyr zephyr-binutils

/gnu/store/...-zephyr-binutils-2.38

This directory contains the results of make install.

GCC sans libc

This one is a bit more involved. Don't be afraid! This version of GCC wants ISL version 0.15. It's easy enough to make that happen. Inherit the current version of ISL and swap out the source and update the version. For most packages the build process doesn't change that much between versions.

(define-public isl-0.15
  (package
    (inherit isl)
    (version "0.15")
    (source (origin
              (method url-fetch)
              (uri (list (string-append "mirror://sourceforge/libisl/isl-"
                            version ".tar.gz")))
              (sha256
               (base32
                "11vrpznpdh7w8jp4wm4i8zqhzq2h7nix71xfdddp8xnzhz26gyq2"))))))

Like the binutils, there is a cross-gcc function for creating cross-GCC packages. This one accepts keywords specifying which binutils and libc to use. If libc isn't given (like here), gcc is configured with many options disabled to facilitate being built without libc. Therefore we need to add the extra options we want (I got them from the SDK configuration scripts in the sdk-ng Git repository as well as the commits to use for each of the tools).

(define-public gcc-arm-zephyr-eabi-12
  (let ((xgcc (cross-gcc "arm-zephyr-eabi"
                         #:xbinutils zephyr-binutils)))
    (package
      (inherit xgcc)
      (version "12.1.0")
      (source (origin
                (method git-fetch)
                (uri (git-reference
                      (url "https://github.com/zephyrproject-rtos/gcc")
                      (commit "0218469df050c33479a1d5be3e5239ac0eb351bf")))
                (file-name (git-file-name (package-name xgcc) version))
                (sha256
                 (base32
                  "1s409qmidlvzaw1ns6jaanigh3azcxisjplzwn7j2n3s33b76zjk"))
                (patches (search-patches
                          "gcc-12-cross-environment-variables.patch"
                          "gcc-cross-gxx-include-dir.patch"))))
      (native-inputs (modify-inputs (package-native-inputs xgcc)
                       ;; Get rid of stock ISL
                       (delete "isl")
                       ;; Add additional dependencies that xgcc doesn't have
                       ;; including our special ISL
                       (prepend flex
                                isl-0.15)))
      (arguments
       (substitute-keyword-arguments (package-arguments xgcc)
         ((#:phases phases)
          `(modify-phases ,phases
             (add-after 'unpack 'fix-genmultilib
               (lambda _
                 (patch-shebang "gcc/genmultilib")))

             (add-after 'set-paths 'augment-CPLUS_INCLUDE_PATH
               (lambda* (#:key inputs #:allow-other-keys)
                 (let ((gcc (assoc-ref inputs "gcc")))
                   ;; Remove the default compiler from CPLUS_INCLUDE_PATH to
                   ;; prevent header conflict with the GCC from native-inputs.
                   (setenv "CPLUS_INCLUDE_PATH"
                           (string-join (delete (string-append gcc
                                                               "/include/c++")
                                                (string-split (getenv
                                                               "CPLUS_INCLUDE_PATH")
                                                              #\:)) ":"))
                   (format #t
                    "environment variable `CPLUS_INCLUDE_PATH' changed to `a`%"
                    (getenv "CPLUS_INCLUDE_PATH")))))))

         ((#:configure-flags flags)
          ;; The configure flags are largely identical to the flags used by the
          ;; "GCC ARM embedded" project.
          `(append (list
                    "--enable-multilib"
                    "--with-newlib"
                    "--with-multilib-list=rmprofile"
                    "--with-host-libstdcxx=-static-libgcc -Wl,-Bstatic,-lstdc++,-Bdynamic -lm"
                    "--enable-plugins"
                    "--disable-decimal-float"
                    "--disable-libffi"
                    "--disable-libgomp"
                    "--disable-libmudflap"
                    "--disable-libquadmath"
                    "--disable-libssp"
                    "--disable-libstdcxx-pch"
                    "--disable-nls"
                    "--disable-shared"
                    "--disable-threads"
                    "--disable-tls"
                    "--with-gnu-ld"
                    "--with-gnu-as"
                    "--enable-initfini-array")
                   (delete "--disable-multilib"
                           ,flags)))))
      (native-search-paths
       (list (search-path-specification
              (variable "CROSS_C_INCLUDE_PATH")
              (files '("arm-zephyr-eabi/include")))
             (search-path-specification
              (variable "CROSS_CPLUS_INCLUDE_PATH")
              (files '("arm-zephyr-eabi/include" "arm-zephyr-eabi/c++"
                       "arm-zephyr-eabi/c++/arm-zephyr-eabi")))
             (search-path-specification
              (variable "CROSS_LIBRARY_PATH")
              (files '("arm-zephyr-eabi/lib")))))
      (home-page "https://zephyrproject.org")
      (synopsis "GCC for the Zephyr RTOS"))))

This GCC can be built like so.

$ guix build -L guix-zephyr gcc-cross-sans-libc-arm-zephyr-eabi

/gnu/store/...-gcc-cross-sans-libc-arm-zephyr-eabi-12.1.0-lib
/gnu/store/...-gcc-cross-sans-libc-arm-zephyr-eabi-12.1.0

Great! We now have our stage-1 compiler.

Newlib(-nano)

The newlib package package is quite straight forward (relatively). It is mostly adding in the relevent configuration flags and patching the files the patch-shebangs phase missed.

(define-public zephyr-newlib
  (package
    (name "zephyr-newlib")
    (version "3.3")
    (source (origin
          (method git-fetch)
          (uri (git-reference
            (url "https://github.com/zephyrproject-rtos/newlib-cygwin")
            (commit "4e150303bcc1e44f4d90f3489a4417433980d5ff")))
          (sha256
           (base32 "08qwjpj5jhpc3p7a5mbl7n6z7rav5yqlydqanm6nny42qpa8kxij"))))
    (build-system gnu-build-system)
    (arguments
     `(#:out-of-source? #t
       #:configure-flags '("--target=arm-zephyr-eabi"
               "--enable-newlib-io-long-long"
               "--enable-newlib-io-float"
               "--enable-newlib-io-c99-formats"
               "--enable-newlib-retargetable-locking"
               "--enable-newlib-lite-exit"
               "--enable-newlib-multithread"
               "--enable-newlib-register-fini"
               "--enable-newlib-extra-sections"
               "--disable-newlib-wide-orient"
               "--disable-newlib-fseek-optimization"
               "--disable-newlib-supplied-syscalls"
               "--disable-newlib-target-optspace"
               "--disable-nls")
       #:phases
       (modify-phases %standard-phases
     (add-after 'unpack 'fix-references-to-/bin/sh
       (lambda _
         (substitute# '("libgloss/arm/cpu-init/Makefile.in"
                "libgloss/arm/Makefile.in"
                "libgloss/libnosys/Makefile.in"
                "libgloss/Makefile.in")
           (("/bin/sh") (which "sh")))
         #t)))))
    (native-inputs
     `(("xbinutils" ,zephyr-binutils)
       ("xgcc" ,gcc-arm-zephyr-eabi-12)
       ("texinfo" ,texinfo)))
    (home-page "https://www.sourceware.org/newlib/")
    (synopsis "C library for use on embedded systems")
    (description "Newlib is a C library intended for use on embedded
systems.  It is a conglomeration of several library parts that are easily
usable on embedded products.")
    (license (license:non-copyleft
          "https://www.sourceware.org/newlib/COPYING.NEWLIB"))))

And the build.

$ guix build -L guix-zephyr zephyr-newlib

/gnu/store/...-zephyr-newlib-3.3

Complete Toolchain

Mostly complete. libstdc++ does not build because arm-zephyr-eabi is not arm-none-eabi so a dynamic link check is performed/failed. I cannot figure out how crosstool-ng handles this.

Now that we've got the individual tools it's time to create our complete toolchain. For this we need to do some package transformations. Because these transformations are going to have to be done for every combination of binutils/gcc/newlib it is best to create a function which we can reuse for every version of the SDK.

(define (arm-zephyr-eabi-toolchain xgcc newlib version)
  "Produce a cross-compiler zephyr toolchain package with the compiler XGCC and the C\n  library variant NEWLIB."
  (let ((newlib-with-xgcc
         (package
           (inherit newlib)
           (native-inputs
            (modify-inputs (package-native-inputs newlib)
              (replace "xgcc" xgcc))))))
    (package
      (name (string-append "arm-zephyr-eabi"
                           (if (string=? (package-name newlib-with-xgcc)
                                         "newlib-nano")
                               "-nano"
                               "")
                           "-toolchain"))
      (version version)
      (source #f)
      (build-system trivial-build-system)
      (arguments
       '(#:modules ((guix build union)
                    (guix build utils))
         #:builder (begin
                     (use-modules (ice-9 match)
                                  (guix build union)
                                  (guix build utils))
                     (let ((out (assoc-ref %outputs "out")))
                       (mkdir-p out)
                       (match %build-inputs
                         (((names . directories) ...)
                          (union-build (string-append out "/arm-zephyr-eabi")
                                       directories)))))))
      (inputs `(("binutils" ,zephyr-binutils)
                ("gcc" ,xgcc)
                ("newlib" ,newlib-with-xgcc)))
      (synopsis "Complete GCC tool chain for ARM zephyrRTOS development")
      (description
       "This package provides a complete GCC tool chain for ARM
  bare metal development with zephyr rtos.  This includes the GCC arm-zephyr-eabi cross compiler
  and newlib (or newlib-nano) as the C library.  The supported programming
  language is C.")
      (home-page (package-home-page xgcc))
      (license (package-license xgcc)))))

This function creates a special package which consists of the toolchain in a special directory hierarchy, i.e arm-zephyr-eabi/. Our complete toolchain definition looks like this.

(define-public arm-zephyr-eabi-toolchain-0.15.0
  (arm-zephyr-eabi-toolchain gcc-arm-zephyr-eabi-12 zephyr-newlib
                             "0.15.0"))

To build:

$ guix build -L guix-zephyr arm-zephyr-eabi-toolchain
/gnu/store/...-arm-zephyr-eabi-toolchain-0.15.0

Note: Guix now includes a mechanism to describe platforms at a high level, and which the --system and --target build options build upon. It is not used here but could be a way to better integrate Zephyr support in the future.

Integrating with Zephyr Build System

Zephyr uses CMake as its build system. It contains numerous CMake files in both the so-called ZEPHYR_BASE, the zephyr source code repository, as well as a handful in the SDK which help select the correct toolchain for a given board.

There are standard locations the build system will look for the SDK. We are not using any of them. Our SDK lives in the store, immutable forever. According to the Zephyr documentation, the variable ZEPHYR_SDK_INSTALL_DIR needs to point to our custom spot.

We also need to grab the CMake files from the repository and create a file, sdk_version, which contains the version string ZEPHYR_BASE uses to find a compatible SDK.

Along with the SDK proper we need to include a number of python packages required by the build system.

(define-public zephyr-sdk
  (package
    (name "zephyr-sdk")
    (version "0.15.0")
    (home-page "https://zephyrproject.org")
    (source (origin
              (method git-fetch)
              (uri (git-reference
                    (url "https://github.com/zephyrproject-rtos/sdk-ng")
                    (commit "v0.15.0")))
              (file-name (git-file-name name version))
              (sha256
               (base32
                "04gsvh20y820dkv5lrwppbj7w3wdqvd8hcanm8hl4wi907lwlmwi"))))
    (build-system trivial-build-system)
    (arguments
     `(#:modules ((guix build union)
                  (guix build utils))
       #:builder (begin
                   (use-modules (guix build union)
                                (ice-9 match)
                                (guix build utils))
                   (let ((out (assoc-ref %outputs "out"))
                         (cmake-scripts (string-append (assoc-ref
                                                        %build-inputs
                                                        "source")
                                                       "/cmake"))
                         (sdk-out (string-append out "/zephyr-sdk-0.15.0")))
                     (mkdir-p out)

                     (match (assoc-remove! %build-inputs "source")
                       (((names . directories) ...)
                        (union-build sdk-out directories)))

                     (copy-recursively cmake-scripts
                                       (string-append sdk-out "/cmake"))

                     (with-directory-excursion sdk-out
                       (call-with-output-file "sdk_version"
                         (lambda (p)
                           (format p "0.15.0"))))))))
    (propagated-inputs (list arm-zephyr-eabi-toolchain-0.15.0
                             zephyr-binutils
                             dtc
                             python-3
                             python-pyelftools
                             python-pykwalify
                             python-pyyaml
                             python-packaging))
    (native-search-paths
     (list (search-path-specification
            (variable "ZEPHYR_SDK_INSTALL_DIR")
            (separator #f)
            (files '("")))))
    (synopsis "Zephyr SDK")
    (description
     "zephyr-sdk contains bundles a complete gcc toolchain as well
as host tools like dtc, openocd, qemu, and required python packages.")
    (license license:apsl2)))

Testing

In order to test we will need an environment with the SDK installed. We can take advantage of guix shell to avoid installing test packages into our home environment. This way if it causes problems we can just exit the shell and try again.

guix shell -L guix-zephyr zephyr-sdk cmake ninja git

ZEPHYR_BASE can be cloned into a temporary workspace to test our toolchain functionality. (For now. Eventually we will need to create a package for zephyr-base that our Guix zephyr-build-system can use.)

mkdir /tmp/zephyr-project
cd /tmp/zephyr-project
git clone https://github.com/zephyrproject-rtos/zephyr
export ZEPHYR_BASE=/tmp/zephyr-project/zephyr

In order to build for the test board (k64f in this case) we need to get a hold of the vendor Hardware Abstraction Layers and CMSIS. (These will also need to become Guix packages to allow the build system to compose modules).

git clone https://github.com/zephyrproject-rtos/hal_nxp && \
git clone https://github.com/zephyrproject-rtos/cmsis

To inform the build system about this module we pass it in with -DZEPHYR_MODULES= which is a semicolon separated list of paths containing a module.yml file.

To build the hello world sample we use the following incantation.

cmake -Bbuild $ZEPHYR_BASE/samples/hello_world \
    -GNinja \
    -DBOARD=frdm_k64f \
    -DBUILD_VERSION=3.1.0 \
    -DZEPHYR_MODULES="/tmp/zephyr-project/hal_nxp;/tmp/zephyr-project/cmsis" \
      && ninja -Cbuild

If everything is set up correctly we will end up with a ./build directory with all our build artifacts. The SDK is correctly installed!

Conclusion

A customized cross toolchain is one of the most difficult pieces of software to build. Using Guix, we do not need to be afraid of the complexity! We can fiddle with settings, swap out components, and do the most brain dead things to our environments without a care in the world. Just exit the environment and it's like it never happened at all.

It highlights one of my favorite aspects of Guix, every package is a working reference design for you to modify and learn from.

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.

GNU a2ps is a filter which generates PostScript from various formats,
with pretty-printing features, strong support for many alphabets, and
customizable layout.

See https://www.gnu.org/software/a2ps/ for more information.

This is a bug-fix release. Users of 4.15 should upgrade. See below for more
details.


Here are the compressed sources and a GPG detached signature:
  https://ftpmirror.gnu.org/a2ps/a2ps-4.15.1.tar.gz
  https://ftpmirror.gnu.org/a2ps/a2ps-4.15.1.tar.gz.sig

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

Here are the SHA1 and SHA256 checksums:

8674b90626d6d1505af8b2ae392f2495b589a052  a2ps-4.15.1.tar.gz
l5dwi6AoBa/DtbkeBsuOrJe4WEOpDmbP3mp8Y8oEKyo  a2ps-4.15.1.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-4.15.1.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-4.15.1.tar.gz.sig


This release was bootstrapped with the following tools:
  Autoconf 2.71
  Automake 1.16.5
  Gnulib v0.1-5853-ge0aefd96b6

NEWS

* Noteworthy changes in release 4.15.1 (2023-03-12) [stable]
 * Bug fixes:
   - Use “grep -F” rather than obsolete fgrep.
   - Fix broken a2ps-lpr-wrapper script, and translate to sh for
     portability.

I am delighted to announce the first stable release of GNU a2ps since 2007!

This release contains few user-visible changes. It does however contain a
lot of changes “under the hood”: code clean-up, etc. Therefore, it’s likely
that there are new bugs. Do report them to Savannah[1], or the mailing list
please!

A big thank-you to all those who tested pre-releases, and especially to
Bruno Haible’s tireless work to promote portability: he both tested a2ps on
many systems and found lots of minor portability problems, and advised on
their solution (often, gnulib code that he wrote). Remaining problems are of
course mine!

[1] https://savannah.gnu.org/projects/a2ps


Here are the compressed sources and a GPG detached signature:
  https://ftpmirror.gnu.org/a2ps/a2ps-4.15.tar.gz
  https://ftpmirror.gnu.org/a2ps/a2ps-4.15.tar.gz.sig

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

Here are the SHA1 and SHA256 checksums:

807667f838c29bde73bb91fae60ef98826bd460e  a2ps-4.15.tar.gz
pa3FqSIvmESKV8a162lItydD6vmjDGehNN8ILpnHZlI  a2ps-4.15.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.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.tar.gz.sig


This release was bootstrapped with the following tools:
  Autoconf 2.71
  Automake 1.16.5
  Gnulib v0.1-5857-gf17d397771

NEWS

* Noteworthy changes in release 4.15 (2023-03-07) [stable]
 * New maintainer, Reuben Thomas.
 * Features:
   - Replace the 'psmandup' utility with simpler 'lp2' to directly print
     documents to a simplex printer.
   - Remove the outdated 'psset' and 'fixnt', and simplify 'fixps' to
     always process its input with Ghostscript.
   - Use libpaper's paper sizes. This includes user-defined paper sizes
     when using libpaper 2. It is still possible to define custom margins
     using "Medium:" specifications in the configuration file, and the
     one size defined by a2ps that libpaper does not know about, Quarto, is
     retained for backwards compatiblity, and as an example.
 * Documentation
   - Remove some obsolete explanations.
   - Reformat --help output consistently to 80 columns.
   - Some English fixes.
 * Bug fixes:
   - Avoid a crash when a medium is not specified; instead, use the default
     libpaper size (configured by the user or sysadmin, or the locale
     default).
   - Fix some other potential crashes and compiler warnings.
   - Fixes for security bugs CVE-2001-1593, CVE-2015-8107 and CVE-2014-0466.
   - Minor bugs fixed.
 * Predefined delegations:
   - Remove support for defunct Netscape and proprietary Acrobat Reader.
   - Add lpr wrapper for automatic detection of different printing systems,
     including CUPS support.
 * Encodings:
   - Use libre fonts for KOI-8.
   - Composite fonts support.
 * Build
   - Update build system to more recent autotools and gettext versions.
   - Build man pages in a simpler and more robust way.
   - Document runtime dependencies.
   - Minor code quality improvements.
   - Minor tidy up and removal of obsolete code.
   - Require libpaper.
   - Remove OS/2 support.

This is to announce grep-3.9, a stable release.

The NEWS below describes the two main bug fixes since 3.8.

There have been 38 commits by 4 people in the 26 weeks since 3.8.

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

  Bruno Haible (2)
  Carlo Marcelo Arenas Belón (2)
  Jim Meyering (11)
  Paul Eggert (23)

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

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

For a summary of changes and contributors, see:
  http://git.sv.gnu.org/gitweb/?p=grep.git;a=shortlog;h=v3.9
or run this command from a git-cloned grep directory:
  git shortlog v3.8..v3.9

Here are the compressed sources:
  https://ftp.gnu.org/gnu/grep/grep-3.9.tar.gz   (2.7MB)
  https://ftp.gnu.org/gnu/grep/grep-3.9.tar.xz   (1.7MB)

Here are the GPG detached signatures:
  https://ftp.gnu.org/gnu/grep/grep-3.9.tar.gz.sig
  https://ftp.gnu.org/gnu/grep/grep-3.9.tar.xz.sig

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

Here are the SHA1 and SHA256 checksums:

  f84afbfc8d6e38e422f1f2fc458b0ccdbfaeb392  grep-3.9.tar.gz
  7ZF6C+5DtxJS9cpR1IwLjQ7/kAfSpJCCbEJb9wmfWT8=  grep-3.9.tar.gz
  bcaa3f0c4b81ae4192c8d0a2be3571a14ea27383  grep-3.9.tar.xz
  q80RQJ7iPUyvNf60IuU7ushnAUz+7TE7tfSIrKFwtZk=  grep-3.9.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 grep-3.9.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=grep&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 grep-3.9.tar.gz.sig

This release was bootstrapped with the following tools:
  Autoconf 2.72a.65-d081
  Automake 1.16i
  Gnulib v0.1-5861-g2ba7c75ed1

NEWS

* Noteworthy changes in release 3.9 (2023-03-05) [stable]

** Bug fixes

  With -P, some non-ASCII UTF8 characters were not recognized as
  word-constituent due to our omission of the PCRE2_UCP flag. E.g.,
  given f(){ echo Perú|LC_ALL=en_US.UTF-8 grep -Po "$1"; } and
  this command, echo $(f 'r\w'):$(f '.\b'), before it would print ":r".
  After the fix, it prints the correct results: "rú:ú".

  When given multiple patterns the last of which has a back-reference,
  grep no longer sometimes mistakenly matches lines in some cases.
  [Bug#36148#13 introduced in grep 3.4]

Guile-CV version 0.4.0 is released! (February 2023)

This is a maintenance release, which introduces new interfaces.

Changes since the previous version

For a list of changes since the previous version, visit the NEWS file. For a complete description, consult the git summary and git log

The next stable version of GNU Make, version 4.4.1, has been released and is available for download from https://ftp.gnu.org/gnu/make/?C=M;O=D

Please see the NEWS file that comes with the GNU Make distribution for details on user-visible changes.

Linux-libre turns 15!

Shared from <http://www.fsfla.org/anuncio/2023-02-Linux-libre-15>

It was February 2008 when Jeff Moe announced Linux-libre, a project to share the efforts that freedom-respecting distros had to undertake to drop the nonfree bits distributed as part of the kernel Linux.

> "For fifteen years, the Linux-libre project has remained dedicated
> to providing a kernel that respects everyone's freedom and has
> become an essential part of the free software movement. Linux-libre
> is widely used by those who value their freedom to use, study,
> change, and share software without restrictions or limitations.
> These freedoms are essential to creating a just society."
> -- Jason Self

Since around 1996, Linux has carried sourceless firmware encoded as sequences of numbers disguised as source code. UTUTO and gNewSense pioneered the efforts of removing them. Cleaning Linux up is a substantial amount of work, so the existence of Linux-libre has alleviated one of the main difficulties in maintaining GNU+Linux distros that abide by the GNU Free Software Distribution Guidelines. The Linux-libre compiled kernel distributions maintained by Jason Self, Freesh (.deb), liberRTy (low-latency .deb) and RPMFreedom (.rpm), make it easy for users of other GNU+Linux distros to take a step towards freedom when their hardware is not too user-hostile.

> "Thanks to Linux-libre, we have entirely libre GNU+Linux distros.
> Thanks to Linux-libre, people like me who are not kernel hackers can
> install one of those distros and have a computer which never runs a
> nonfree program on the CPU. (Provided we use LibreJS as well to
> reject nonfree Javascript programs that web sites send us.)"
> -- Richard Stallman

Early pieces of firmware in Linux ran peripheral devices, but some of the blobs loaded by Linux nowadays reconfigure the primary central processing units and others contain an entire operating system for the peripherals' CPUs, including a copy of the kernel Linux itself and several other freedom-depriving programs!

After years of our denouncing the social, technical, and legal risks out of Linux's misbehavior, most of the blobs got moved to separate files, still part of the kernel Linux, and then to separate packages, which mitigates some of the legal risks, but the problem keeps growing: more and more devices depend on nonfree firmware and thus remain under exclusive and proprietary control by their suppliers.

Challenge

For 27 years, the nonfree versions of Linux have shown that tolerating blobs and making it easy for users to install and accept them makes users increasingly dependent on user-hostile, blob-requiring devices for their computing. Refusing to give these devices' suppliers what they wish, namely your money and control over your computing, is more likely to succeed at changing their practices if more users refuse.

If you're the kind of software freedom supporter who demands respect for your freedom, keep on enjoying the instant gratification that GNU Linux-libre affords you, and supporting (or being!) those who refurbish old computers and build new ones to respect our autonomy.

However, if you're of the kind for whom last-generation computers are hard to resist, even though you'd prefer if they were more respectful of your freedom, you may wish to consider a delayed gratification challenge: if you and your friends resist hostile computers now, you may get more respectful ones later, for yourselves and for all of us; if you don't, the next generations will likely be even more hostile. Are you up for the challenge?

Present and Future

GNU Linux-libre releases are currently prepared with scripts that automate the cleaning-up and part of the verification. For each upstream major and stable release, we run the scripts, updating them as needed, and publish them, along with the cleaning-up logs and the cleaned-up sources, in a git repository. Each source release is an independent tag, as in, there are no branches for cleaned-up sources. This is so we can quickly retract releases if freedom bugs are found.

We have plans to change the cleaning-up process and the repository structure in the future: we're (slowly) preparing to move to a rewritten git repository, in which, for each commit in upstream Linux main and stable repositories, there will be a corresponding cleaned-up commit in ours. Undesirable bits are going to be cleaned up at the commit corresponding to the one in which upstream introduced or modified them, and other modifications will be checked and integrated unchanged, mirroring the upstream commit graph, with "git replace" mappings for individual commits and, perhaps, also for cleaned-up files.

This is expected to enable us to track upstream development very closely, to get stable and major releases out nearly instantly and often automatically and to enable Linux developers to clone our freed repository instead of our upstream to write and test their changes. The same techniques used to create the cleaned-up repository can be used to fix freedom bugs in it.

Artwork

Jason Self has made several beautiful pictures of his version of Freedo, our light-blue penguin mascot, and we've used them for our recent releases.

Marking the beginning of the week in which we celebrate 15 years of Linux-libre, we had the pleasure of publishing a major release, 6.2-gnu, codenamed "la quinceañera", with a picture of Freedo dressed up for the occasion: <https://www.fsfla.org/pipermail/linux-libre/2023-February/003502.html>

But there's more! He also made a commemorative black-and-white wallpaper with classic Freedo, also dressed up for the occasion. Check them out, and feel free to tune the colors to your liking! <https://linux-libre.fsfla.org/#news>

He also modeled a 3D Freedo in Blender, and we're looking for someone who could 3D-print it and get it to the FSF office in time for the LibrePlanet conference. Rumor has it that Richard Stallman is going to auction it off to raise funds for the FSF! Can you help?

About GNU Linux-libre

GNU Linux-libre is a GNU package maintained by Alexandre Oliva, on behalf of FSFLA, and by Jason Self. It releases cleaned-up versions of Linux, suitable for use in distributions that comply with the Free Software Distribution Guidelines published by the GNU project, and by users who wish to run Free versions of Linux on their GNU systems. The project offers cleaning-up scripts, Free sources, binaries for some GNU+Linux distributions, and artwork with GNU and the Linux-libre mascot: Freedo, the clean, Free and user-friendly light-blue penguin. Visit our web site and Be Free!

About the GNU Operating System and Linux

Richard Stallman announced in September 1983 the plan to develop a Free Software Unix-like operating system called GNU. GNU is the only
operating system developed specifically for the sake of users' freedom: <http://www.gnu.org/gnu/the-gnu-project.html>

In 1992, the essential components of GNU were complete, except for one, the kernel. When in 1992 the kernel Linux was re-released under the GNU GPL, making it Free Software, the combination of GNU and Linux formed a complete Free operating system, which made it possible for the first time to run a PC without non-Free Software. This combination is the GNU+Linux system: <http://www.gnu.org/gnu/gnu-linux-faq.html>

About FSFLA

Free Software Foundation Latin America joined in 2005 the international FSF network, previously formed by Free Software Foundations in the United States, in Europe and in India. These sister organizations work in their corresponding geographies towards promoting the same Free Software ideals and defending the same freedoms for software users and developers, working locally but cooperating globally.

Copyright 2023 FSFLA

Permission is granted to make and distribute verbatim copies of this entire document without royalty, provided the copyright notice, the document's official URL, and this permission notice are preserved.

Permission is also granted to make and distribute verbatim copies of individual sections of this document worldwide without royalty provided the copyright notice and the permission notice above are preserved, and the document's official URL is preserved or replaced by the individual section's official URL.

On Thursday, Feb 23rd, 2023, GNU Solidario and the Spanish NGO Fundación La Vicuña ORL have signed a cooperation agreement to promote and implement the Health and Hospital Management component from GNUHealth in those areas and institutions where Fundación La Vicuña has activities, mainly Spain and countries in Africa.

Fundación La Vicuña is a non-profit organization founded 15 years ago by a group of physicians, mostly ear, nose and throat specialists in Cadiz, Spain.

GNU Solidario and Fundacion La Vicuña share the goal of improving the lives of the underprivileged, through Social Medicine and universal access to healthcare. GNU Health will be a very valuable tool to assess the socioeconomic determinants of health and to minimize the impact in the vulnerable population, both in Spain and in the African continent. GNU Health will improve the management of health institutions and the daily medical practice where Fundación La Vicuña has missions. Patient evaluations, medical records, prescriptions, laboratory, surgeries and inpatient/hospitalization will be some of the areas that will benefit from GNU Health HMIS.

Casimiro García, president and founder of Fundación La Vicuña and Luis Falcón, founder and president of GNU Solidario, formalized the cooperation agreement this Thursday. In the coming weeks, GNU Solidario will train the team from Fnd. La Vicuña in the use of GNUHealth, and a development environment will be rolled out.

We are thrilled and looking forward to working hand in hand with Fundación la Vicuña, to put into practice the philosophy of open science and Libre software in healthcare for the betterment of our societies, delivering Social Medicine and dignity to those who need it most.

For more information you can visit Fundación la Vicuña homepage (in Spanish): http://www.fundacionlavicuna.org/

GNU Parallel 20230222 ('Gaziantep') has been released. It is available for download at: lbry://@GnuParallel:4

Quote of the month:

  Praise GNU parallel, though. That gets me pretty far.
    -- Your Obed. Servant, J. B. @Jeffinatorator

New in this release:

• parsort: --parallel now does closer to what you expect.

• parallel: --files0 is --files but \0 separated.

• Bug fixes and man page updates.

News about GNU Parallel:

• 5 great Perl scripts to keep in your sysadmin toolbox https://www.redhat.com/sysadmin/perl-scripts

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.

Hello again!

In the last post, we briefly mentioned the with-store and run-with-store macros. Today, we'll be looking at those in further detail, along with the related monad library and the %store-monad!

Typically, we use monads to chain operations together, and the %store-monad is no different; it's used to combine operations that work on the Guix store (for instance, creating derivations, building derivations, or adding data files to the store).

However, monads are a little hard to explain, and from a distance, they seem to be quite incomprehensible. So, I want you to erase them from your mind for now. We'll come back to them later. And be aware that if you can't seem to get your head around them, it's okay; you can understand most of the architecture of Guix without understanding monads.

Yes, No, Maybe So

Let's instead implement another M of functional programming, maybe values, representing a value that may or may not exist. For instance, there could be a procedure that attempts to pop a stack, returning the result if there is one, or nothing if the stack has no elements.

maybe is a very common feature of statically-typed functional languages, and you'll see it all over the place in Haskell and OCaml code. However, Guile is dynamically typed, so we usually use ad-hoc #f values as the "null value" instead of a proper "nothing" or "none".

Just for fun, though, we'll implement a proper maybe in Guile. Fire up that REPL once again, and let's import a bunch of modules that we'll need:

(use-modules (ice-9 match)
             (srfi srfi-9))

We'll implement maybe as a record with two fields, is? and value. If the value contains something, is? will be #t and value will contain the thing in question, and if it's empty, is?'ll be #f.

(define-record-type <maybe>
  (make-maybe is? value)
  maybe?
  (is? maybe-is?)
  (value maybe-value))

Now we'll define constructors for the two possible states:

(define (something value)
  (make-maybe #t value))

(define (nothing)
  (make-maybe #f #f)) ;the value here doesn't matter; we'll just use #f

And make some silly functions that return optional values:

(define (remove-a str)
  (if (eq? (string-ref str 0) #\a)
      (something (substring str 1))
      (nothing)))

(define (remove-b str)
  (if (eq? (string-ref str 0) #\b)
      (something (substring str 1))
      (nothing)))

(remove-a "ahh")
⇒ #<<maybe> is?: #t value: "hh">

(remove-a "ooh")
⇒ #<<maybe> is?: #f value: #f>

(remove-b "bad")
⇒ #<<maybe> is?: #t value: "ad">

But what if we want to compose the results of these functions?

Keeping Your Composure

As you might have guessed, this is not fun. Cosplaying as a compiler backend typically isn't.

(let ((t1 (remove-a "abcd")))
  (if (maybe-is? t1)
      (remove-b (maybe-value t1))
      (nothing)))
⇒ #<<maybe> is?: #t value: "cd">

(let ((t1 (remove-a "bbcd")))
  (if (maybe-is? t1)
      (remove-b (maybe-value t1))
      (nothing)))
⇒ #<<maybe> is?: #f value: #f>

I can almost hear the heckling. Even worse, composing three:

(let* ((t1 (remove-a "abad"))
       (t2 (if (maybe-is? t1)
               (remove-b (maybe-value t1))
               (nothing))))
  (if (maybe-is? t2)
      (remove-a (maybe-value t2))
      (nothing)))
⇒ #<<maybe> is?: #t value: "d">

So, how do we go about making this more bearable? Well, one way could be to make remove-a and remove-b accept maybes:

(define (remove-a ?str)
  (match ?str
    (($ <maybe> #t str)
     (if (eq? (string-ref str 0) #\a)
         (something (substring str 1))
         (nothing)))
    (_ (nothing))))

(define (remove-b ?str)
  (match ?str
    (($ <maybe> #t str)
     (if (eq? (string-ref str 0) #\b)
         (something (substring str 1))
         (nothing)))
    (_ (nothing))))

Not at all pretty, but it works!

(remove-b (remove-a (something "abc")))
⇒ #<<maybe> is?: #t value: "c">

Still, our procedures now require quite a bit of boilerplate. Might there be a better way?

The Ties That >>= Us

First of all, we'll revert to our original definitions of remove-a and remove-b, that is to say, the ones that take a regular value and return a maybe.

(define (remove-a str)
  (if (eq? (string-ref str 0) #\a)
      (something (substring str 1))
      (nothing)))

(define (remove-b str)
  (if (eq? (string-ref str 0) #\b)
      (something (substring str 1))
      (nothing)))

What if tried introducing higher-order procedures (procedures that accept other procedures as arguments) into the equation? Because we're functional programmers and we have an unhealthy obsession with that sort of thing.

(define (maybe-chain maybe proc)
  (if (maybe-is? maybe)
      (proc (maybe-value maybe))
      (nothing)))

(maybe-chain (something "abc")
             remove-a)
⇒ #<<maybe> is?: #t value: "bc">

(maybe-chain (nothing)
             remove-a)
⇒ #<<maybe> is?: #f value: #f>

It lives! To make it easier to compose procedures like this, we'll define a macro that allows us to perform any number of sequenced operations with only one composition form:

(define-syntax maybe-chain*
  (syntax-rules ()
    ((_ maybe proc)
     (maybe-chain maybe proc))
    ((_ maybe proc rest ...)
     (maybe-chain* (maybe-chain maybe proc)
                   rest ...))))

(maybe-chain* (something "abad")
              remove-a
              remove-b
              remove-a)
⇒ #<<maybe> is?: #t value: "d">

Congratulations, you've just implemented the bind operation, commonly written as >>=, for our maybe type. And it turns out that a monad is just any container-like value for which >>= (along with another procedure called return, which wraps a given value in the simplest possible form of a monad) has been implemented.

A more formal definition would be that a monad is a mathematical object composed of three parts: a type, a bind function, and a return function. So, how do monads relate to Guix?

New Wheel, Old Wheel

Now that we've reinvented the wheel, we'd better learn to use the original wheel. Guix provides a generic, high-level monads library, along with the two generic monads %identity-monad and %state-monad, and the Guix-specific %store-monad. Since maybe is not one of them, let's integrate our version into the Guix monad system!

First we'll import the module that provides the aforementioned library:

(use-modules (guix monads))

To define a monad's behaviour in Guix, we simply use the define-monad macro, and provide two procedures: bind, and return.

(define-monad %maybe-monad
  (bind maybe-chain)
  (return something))

bind is just the procedure that we use to compose monadic procedure calls together, and return is the procedure that wraps values in the most basic form of the monad. A properly implemented bind and return must follow the so-called monad laws:

1. (bind (return x) proc) must be equivalent to (proc x).
2. (bind monad return) must be equivalent to just monad.
3. (bind (bind monad proc-1) proc-2) must be equivalent to (bind monad (lambda (x) (bind (proc-1 x) proc-2))).

Let's verify that our maybe-chain and something procedures adhere to the monad laws:

(define (mlaws-proc-1 x)
  (something (+ x 1)))

(define (mlaws-proc-2 x)
  (something (+ x 2)))

;; First law: the left identity.
(equal? (maybe-chain (something 0)
                     mlaws-proc-1)
        (mlaws-proc-1 0))
⇒ #t

;; Second law: the right identity.
(equal? (maybe-chain (something 0)
                     something)
        (something 0))
⇒ #t

;; Third law: associativity.
(equal? (maybe-chain (maybe-chain (something 0)
                                  mlaws-proc-1)
                     mlaws-proc-2)
        (maybe-chain (something 0)
                     (lambda (x)
                       (maybe-chain (mlaws-proc-1 x)
                                    mlaws-proc-2))))
⇒ #t

Now that we know they're valid, we can use the with-monad macro to tell Guix to use these specific implementations of bind and return, and the >>= macro to thread monads through procedure calls!

(with-monad %maybe-monad
  (>>= (something "aabbc")
       remove-a
       remove-a
       remove-b
       remove-b))
⇒ #<<maybe> is?: #t value: "c">

We can also now use return:

(with-monad %maybe-monad
  (return 32))
⇒ #<<maybe> is?: #t value: 32>

But Guix provides many higher-level interfaces than >>= and return, as we will see. There's mbegin, which evaluates monadic expressions without binding them to symbols, returning the last one. This, however, isn't particularly useful with our %maybe-monad, as it's only really usable if the monadic operations within have side effects, just like the non-monadic begin.

There's also mlet and mlet*, which do bind the results of monadic expressions to symbols, and are essentially equivalent to a chain of (>>= MEXPR (lambda (BINDING) ...)):

;; This is equivalent...
(mlet* %maybe-monad ((str -> "abad") ;non-monadic binding uses the -> symbol
                     (str1 (remove-a str))
                     (str2 (remove-b str)))
  (remove-a str))
⇒ #<<maybe> is?: #t value: "d">

;; ...to this:
(with-monad %maybe-monad
  (>>= (return "abad")
       (lambda (str)
         (remove-a str))
       (lambda (str1)
         (remove-b str))
       (lambda (str2)
         (remove-a str))))

Various abstractions over these two exist too, such as mwhen (a when plus an mbegin), munless (an unless plus an mbegin), and mparameterize (dynamically-scoped value rebinding, like parameterize, in a monadic context). lift takes a procedure and a monad and creates a new procedure that returns a monadic value.

There are also interfaces for manipulating lists wrapped in monads; listm creates such a list, sequence turns a list of monads into a list wrapped in a monad, and the anym, mapm, and foldm procedures are like their non-monadic equivalents, except that they return lists wrapped in monads.

This is all well and good, you may be thinking, but why does Guix need a monad library, anyway? The answer is technically that it doesn't. But building on the monad API makes a lot of things much easier, and to learn why, we're going to look at one of Guix's built-in monads.

In a State

Guix implements a monad called %state-monad, and it works with single-argument procedures returning two values. Behold:

(with-monad %state-monad
  (return 33))
⇒ #<procedure 21dc9a0 at <unknown port>:1106:22 (state)>

The run-with-state value turns this procedure into an actually useful value, or, rather, two values:

(run-with-state (with-monad %state-monad (return 33))
  (list "foo" "bar" "baz"))
⇒ 33
⇒ ("foo" "bar" "baz")

What can this actually do for us, though? Well, it gets interesting if we do some >>=ing:

(define state-seq
  (mlet* %state-monad ((number (return 33)))
    (state-push number)))
result
⇒ #<procedure 7fcb6f466960 at <unknown port>:1484:24 (state)>

(run-with-state state-seq (list 32))
⇒ (32)
⇒ (33 32)

(run-with-state state-seq (list 30 99))
⇒ (30 99)
⇒ (33 30 99)

What is state-push? It's a monadic procedure for %state-monad that takes whatever's currently in the first value (the primary value) and pushes it onto the second value (the state value), which is assumed to be a list, returning the old state value as the primary value and the new list as the state value.

So, when we do (run-with-state result (list 32)), we're passing (list 32) as the initial state value, and then the >>= form passes that and 33 to state-push. What %state-monad allows us to do is thread together some procedures that require some kind of state, while essentially pretending the state value is stored globally, like you might do in, say, C, and then retrieve both the final state and the result at the end!

If you're a bit confused, don't worry. We'll write some of our own %state-monad-based monadic procedures and hopefully all will become clear. Consider, for instance, the Fibonacci sequence, in which each value is computed by adding the previous two. We could use the %state-monad to compute Fibonacci numbers by storing the previous number as the primary value and the number before that as the state value:

(define (fibonacci-thing value)
  (lambda (state)
    (values (+ value state)
            value)))

Now we can feed our Fibonacci-generating procedure the first value using run-with-state and the second using return:

(run-with-state
    (mlet* %state-monad ((starting (return 1))
                         (n1 (fibonacci-thing starting))
                         (n2 (fibonacci-thing n1)))
      (fibonacci-thing n2))
  0)
⇒ 3
⇒ 2

(run-with-state
    (mlet* %state-monad ((starting (return 1))
                         (n1 (fibonacci-thing starting))
                         (n2 (fibonacci-thing n1))
                         (n3 (fibonacci-thing n2))
                         (n4 (fibonacci-thing n3))
                         (n5 (fibonacci-thing n4)))
      (fibonacci-thing n5))
  0)
⇒ 13
⇒ 8

This is all very nifty, and possibly useful in general, but what does this have to do with Guix? Well, many Guix store-based operations are meant to be used in concert with yet another monad, called the %store-monad. But if we look at (guix store), where %store-monad is defined...

(define-alias %store-monad %state-monad)
(define-alias store-return state-return)
(define-alias store-bind state-bind)

It was all a shallow façade! All the "store monad" is is a special case of the state monad, where a value representing the store is passed as the state value.

Lies, Damned Lies, and Abstractions

We mentioned that, technically, we didn't need monads for Guix. Indeed, many (now deprecated) procedures take a store value as the argument, such as build-expression->derivation. However, monads are far more elegant and simplify store code by quite a bit.

build-expression->derivation, being deprecated, should never of course be used. For one thing, it uses the "quoted build expression" style, rather than G-expressions (we'll discuss gexps another time). The best way to create a derivation from some basic build code is to use the new-fangled gexp->derivation procedure:

(use-modules (guix gexp)
             (gnu packages irc))

(define symlink-irssi
  (gexp->derivation "link-to-irssi"
    #~(symlink #$(file-append irssi "/bin/irssi") #$output)))
⇒ #<procedure 7fddcc7b81e0 at guix/gexp.scm:1180:2 (state)>

You don't have to understand the #~(...) form yet, only everything surrounding it. We can see that this gexp->derivation returns a procedure taking the initial state (store), just like our %state-monad procedures did, and like we used run-with-state to pass the initial state to a %state-monad monadic value, we use our old friend run-with-store when we have a %store-monad monadic value!

(define symlink-irssi-drv
  (with-store store
    (run-with-store store
      symlink-irssi)))
⇒ #<derivation /gnu/store/q7kwwl4z6psifnv4di1p1kpvlx06fmyq-link-to-irssi.drv => /gnu/store/6a94niigx4ii0ldjdy33wx9anhifr25x-link-to-irssi 7fddb7ef52d0>

Let's just check this derivation is as expected by reading the code from the builder script.

(define symlink-irssi-builder
  (list-ref (derivation-builder-arguments symlink-irssi-drv) 1))

(call-with-input-file symlink-irssi-builder
  (lambda (port)
    (read port)))

⇒ (symlink
   "/gnu/store/hrlmypx1lrdjlxpkqy88bfrzg5p0bn6d-irssi-1.4.3/bin/irssi"
   ((@ (guile) getenv) "out"))

And indeed, it symlinks the irssi binary to the output path. Some other, higher-level, monadic procedures include interned-file, which copies a file from outside the store into it, and text-file, which copies some text into it. Generally, these procedures aren't used, as there are higher-level procedures that perform similar functions (which we will discuss later), but for the sake of this blog post, here's an example:

(with-store store
  (run-with-store store
    (text-file "unmatched-paren"
      "( <paren@disroot.org>")))
⇒ "/gnu/store/v6smacxvdk4yvaa3s3wmd54lixn1dp3y-unmatched-paren"

Conclusion

What have we learned about monads? The key points we can take away are:

1. Monads are a way of composing together procedures and values that are wrapped in containers that give them extra context, like maybe values.
2. Guix provides a high-level monad library that compensates for Guile's lack of static typing or an interface-like system.
3. The (guix monads) module provides the state monad, which allows you to thread state through procedures, allowing you to essentially pretend it's a global variable that's modified by each procedure.
4. Guix uses the store monad frequently to thread a store connection through procedures that need it.
5. The store monad is really just the state monad in disguise, where the state value is used to thread the store object through monadic procedures.

If you've read this post in its entirety but still don't yet quite get it, don't worry. Try to modify and tinker about with the examples, and ask any questions on the IRC channel #guix:libera.chat and mailing list at help-guix@gnu.org, and hopefully it will all click eventually!

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.

This alpha release benefits from feedback from the platform-testers list
(mostly Bruno Haible, thanks Bruno!) The work is all on the build system.
If you have not tried a previous alpha release for functionality, now is the
time!

Here are the compressed sources and a GPG detached signature:
  https://alpha.gnu.org/gnu/a2ps/a2ps-4.14.95.tar.gz
  https://alpha.gnu.org/gnu/a2ps/a2ps-4.14.95.tar.gz.sig

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

Here are the SHA1 and SHA256 checksums:

3169e01029bb2eec80feb488bafdd417fb35c7d5  a2ps-4.14.95.tar.gz
pP7eBLeaAn/4x48sq8548vTAkj0rpMi2yToQuCRRgvg  a2ps-4.14.95.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-4.14.95.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-4.14.95.tar.gz.sig


This release was bootstrapped with the following tools:
  Autoconf 2.71
  Automake 1.16.5
  Gnulib v0.1-5836-geecd8afd69

NEWS

* Noteworthy changes in release 4.14.95 (2023-02-20) [alpha]
 * Build
  - Build man pages in a simpler and more robust way, using x-to-1 from
    gnulib.
  - Don't install useless liba2ps.h.
  - Other minor build system improvements, including updating to more recent
    autoconf and gettext.
  - Don't require help2man or gperf to build from source.
  - Document runtime dependencies.
  - Minor code quality improvements.

GNU lightning is a library to aid in making portable programs
that compile assembly code at run time.

Development:
http://git.savannah.gnu.org/cgit/lightning.git

Download release:
ftp://ftp.gnu.org/gnu/lightning/lightning-2.2.1.tar.gz

  GNU Lightning 2.2.1 main new features:

• Variable stack framesize implemented for aarch64, arm, i686, mips, riscv, loongarch and x86_64. This means function calls use only the minimum required stack space for prolog and epilog.
• Optimization of prolog and epilog to not create a frame pointer if not required, and not even save and restore the stack pointer if not required on a leaf function. These features implemented for the ports with variable stack framesize.
• New clor, czr, ctor and ctzr instructions, that count leading/trailing zeros/ones. These use hardware implementation when available, otherwise fallback to a software implementation.
• Correct several bugs with jit_arg_register_p and jit_putarg{r,i}{_f,_d}. These bugs were not noticed earlier due to an incorrect check for correctness in check/carg.c.
• Add rip relative addressing support for x86_64 and shorter signed 64 bit constant load if the constant fits in a signed 32 bit integer. This significantly reduces code size generation.
• Correct bugs in branch generation code for pppc and sparc.
• Correct bug in signed 32 bit integer load in ppc 64 bits.
• Add short relative unconditional branches and calls to mips, reducing code size generation.
• And several extra minor optimizations.

The base-devel package group has recently been replaced by a meta package of the same name.
People that had the base-devel package group installed (meaning people that installed base-devel before February 2nd) have to explicitly re-install it to get the new base-devel package installed on their system:

pacman -Syu base-devel

Dear community:

I am excited to announce the release of series 4.2 from the GNU Health Hospital Management Information System (HMIS) component!

The 4.2 series is the result of one year of work and cooperation with the community. Many new exciting features are included, bugs fixed and new translations are now in place.

What is new in GNUHealth Hospital Management 4.2 series

The following is a summary of the main new features included in GH 4.2 .

• Enhanced Medical Imaging functionality and ergonomics.
• Introduced GNU Health "Focus on" section on patient main form. Key health indicators that put our attention on the patient main health conditions. The main indicators are Cardiovascular (excl hbp), HBP, Nutrition, Cognitive, Social, Cancer and Immuno.
• Surgery package has been vastly revised and enhanced. Thanks to the collaboration with our colleagues from Cirugia Solidaria, the surgery package is now being used in thousands of operations and all the new functionality is available in this 4.2.
• Enhanced Insurance and billing functionality. Now, in one view we can integrate all product policies from a particular insurance company plan. The 4.2 release also allows to include a fixed prices on product or category.
• The Vital Record System (VRS) can now issue reports on birth and death certificates.
• Demographics can now accept entering estimate age / DoB.
• Health services has now the functionality of "grouping" all the tests from a single order - lab and medical imaging -. It allows automatically updating the service document directly right from the request order wizard. There a new "ungroup" checkbox that, when set, it will behave as today, ie, giving the option to the manager.
• Improved Patient encounter / evaluation. Medical interventions, DDx and secondary conditions. A new report is now available that summarizes the key information from the evaluation.
• Weblate translations holds 35 languages!
• Instance and connection information visible at the GTK client title
• On the technical side, we have improved unit testing on each package, speedup load times on large datafiles and using python-sql for most queries.
• Last but not least.... GNU Health is now REUSE (Free Software Foundation Europe) compliant! This is a great step forward, since REUSE facilitates documenting and sharing licenses of Libre projects like GNU Health. It's been quite a bit of work, but definitely worth!

Upgrading from GNU Health 4.0

The GNUHealth 4.2 will benefit from the stability of using Tryton 6.0! Still, at GH level there are significant changes on the data dictionary and kernel.

As usual: 

• Make a FULL BACKUP your kernel, database and attach directories !!!
• Follow the instructions on the Wikibooks.

Development focus

In addition of the GH HMIS server, we will focus the development in the
following  areas of the GNU Health ecosystem:

• The Documentation Portal. We now have a dedicated server that will host the documentation for the GNUHealth ecosystem components.

  The docmentation portal is a read-only resource, focusing on stability and high-quality. We will also keep using Wikibooks as a community wiki, as well as development.

• MyGNUHealth: The GNU Health app for desktop and mobile devices
• Thalamus and the Federation Portal. The GNU Health Federation integrates information from many health institutions and individuals from a region or country. The GH Federation portal will  allow to manage resources, as well as the main point for **analytics** and **reporting** of massive demographics and epidemiological data generated nationwide. People, health centers and research institutions will benefit from the GNU Health Federation and the GNU Health ecosystem in general.

As always, no matter how hard we try to avoid them, there will be bugs, so please test the new system, upgrade process, languages, and give us your feedback via them via health@gnu.org

The community server has been already migrated to 4.2.0, so you just need to download the GNU Health HMIS client.

Happy and Healthy Hacking !

--
Dr. Luis Falcon, M.D.
President, GNU Solidario
Advancing Social Medicine
https://www.gnuhealth.org

I had a play with Elastic Beanstalk the other day. It’s one of those things people turn their noses up at, but it seems pretty good for prototyping and small things. My biggest issue so far has been that, for Python applications, it expects a WSGI callable called application in the file application.py… but I was using Flask, and every single Flask application ever has a WSGI callable called app in the file app.py. I tried to not care, but it got too much after about an hour so I went and found how to override it:

$ cat .ebextensions/01_wsgi.config
option_settings:
  aws:elasticbeanstalk:container:python:
    WSGIPath: "app:app"

Thank you Nik Tomazic for that! (=⌒‿‿⌒=)

When you configure AWS CLI to use an IAM user, the first thing it asks for is an SSO session name. Don’t put whitespace or punctuation in it. The command doesn’t tell you this, but it’s going to use what you enter as an identifier, and fail with a cryptic error:

$ aws configure sso
SSO session name (Recommended): AWS CLI on Gary's Chromebook
SSO start URL [None]: https://whatever.awsapps.com/start
SSO region [None]: us-east-1
SSO registration scopes [sso:account:access]:

An error occurred (InvalidClientMetadataException) when calling the RegisterClient operation:

You need to put something like “gbenson” in there.

The GNU C Library
=================

The GNU C Library version 2.37 is now available.

The GNU C Library is used as the C library in the GNU system and
in GNU/Linux systems, as well as many other systems that use Linux
as the kernel.

The GNU C Library is primarily designed to be a portable
and high performance C library.  It follows all relevant
standards including ISO C11 and POSIX.1-2017.  It is also
internationalized and has one of the most complete
internationalization interfaces known.

The GNU C Library webpage is at http://www.gnu.org/software/libc/

Packages for the 2.37 release may be downloaded from:
        http://ftpmirror.gnu.org/libc/
        http://ftp.gnu.org/gnu/libc/

The mirror list is at http://www.gnu.org/order/ftp.html

Distributions are encouraged to track the release/* branches
corresponding to the releases they are using.  The release
branches will be updated with conservative bug fixes and new
features while retaining backwards compatibility.

NEWS for version 2.37
=====================

Major new features:

• The getent tool now supports the --no-addrconfig option. The output of

  getent with --no-addrconfig may contain addresses of families not
  configured on the current host i.e. as-if you had not passed
  AI_ADDRCONFIG to getaddrinfo calls.

Deprecated and removed features, and other changes affecting compatibility:

• The dynamic linker no longer loads shared objects from the "tls"

  subdirectories on the library search path or the subdirectory that
  corresponds to the AT_PLATFORM system name, or employs the legacy AT_HWCAP
  search mechanism, which was deprecated in version 2.33.

Security related changes:

  CVE-2022-39046: When the syslog function is passed a crafted input
  string larger than 1024 bytes, it reads uninitialized memory from the
  heap and prints it to the target log file, potentially revealing a
  portion of the contents of the heap.

The following bugs are resolved with this release:

  [12154] network: Cannot resolve hosts which have wildcard aliases
  [12165] libc: readdir: Do not skip entries with zero d_ino values
  [19444] build: build failures with -O1 due to -Wmaybe-uninitialized
  [24774] nptl: pthread_rwlock_timedwrlock stalls on ARM
  [24816] nss: nss/tst-nss-files-hosts-long fails when no interface has
    AF_INET6 address (ie docker)
  [27087] stdio: PowerPC: Redefinition error with Clang from IEEE
    redirection headers
  [28846] network: CMSG_NXTHDR may trigger -Wstrict-overflow warning
  [28937] dynamic-link: New DSO dependency sorter does not put new map
    first if in a cycle
  [29249] libc: csu/libc-tls.c:202: undefined reference to
    `_startup_fatal_not_constant'
  [29305] network: Inefficient buffer space usage in nss_dns for
    gethostbyname and other functions
  [29375] libc: don't hide MAP_ANONYMOUS behind _GNU_SOURCE
  [29402] nscd: nscd: No such file or directory
  [29415] nscd: getaddrinfo with AI_ADDRCONFIG returns addresses with
    wrong family
  [29427] dynamic-link: Inconsistency detected by ld.so: dl-printf.c:
    200: _dl_debug_vdprintf: Assertion `! "invalid format specifier"'
    failed!
  [29463] math: math/test-float128-y1 fails on x86_64
  [29485] build: Make hangs when the test misc/tst-pidfile returns
    FAIL_UNSUPPORTED
  [29490] dynamic-link: [bisected] new __brk_call causes dynamic loader
    segfault on alpha
  [29499] build: Check failed on misc/tst-glibcsyscalls while building
    for RISCV64 on a unmatched hardware
  [29501] build: Check failed on stdlib/tst-strfrom while building for
    RISCV64 on a unmatched hardware
  [29502] libc: alpha sys/acct.h out of date
  [29514] build: Need to use -fPIE not -fpie
  [29528] dynamic-link: __libc_early_init not called after dlmopen that
    reuses namespace
  [29536] libc: syslog fail to create large messages (CVE-2022-39046)
  [29537] libc: [2.34 regression]: Alignment issue on m68k when using
    futexes on qemu-user
  [29539] libc: LD_TRACE_LOADED_OBJECTS changed how vDSO library are
    printed
  [29544] libc: Regression in syslog(3) calls breaks RFC due to extra
    whitespace
  [29564] build: Incorrect way to change MAKEFLAGS in Makerules
  [29576] build: librtld.os: in function `_dl_start_profile':
    (.text+0x9444): undefined reference to `strcpy'
  [29578] libc: Definition of SUN_LEN() is wrong
  [29583] build: iconv failures on 32bit platform due to missing large
    file support
  [29600] dynamic-link: dlmopen hangs after loading certain libraries
  [29604] localedata: Update locale data to Unicode 15.0.0
  [29605] nscd: Regression in NSCD backend of getaddrinfo
  [29607] nscd: nscd repeatably crashes calling __strlen_avx2 when hosts
    cache is enabled
  [29611] string: Optimized AVX2 string functions unconditionally use
    BMI2 instructions
  [29624] malloc: errno is not cleared when entering main
  [29638] libc: stdlib: arc4random fallback is never used
  [29657] libc: Incorrect struct stat for 64-bit time on linux/generic
    platforms
  [29698] build: Configuring for AArch32 on ARMv8+ disables
    optimizations
  [29727] locale: __strtol_internal out-of-bounds read when parsing
    thousands grouping
  [29730] libc: broken y2038 support in fstatat on MIPS N64
  [29746] libc: ppoll() does not switch to __ppoll64 when
    -D_TIME_BITS=64 and -D_FORTIFY_SOURCE=2 is given on 32bit
  [29771] libc: Restore IPC_64 support in sysvipc *ctl functions
  [29780] build: possible parallel make issue in glibc-2.36 (siglist-
    aux.S: No such file or directory)
  [29864] libc: __libc_start_main() should obtain program headers
    address (_dl_phdr) from the auxv, not the ELF header.
  [29951] time: daylight variable not set correctly if last DST change
    coincides with offset change
  [30039] stdio: __vsprintf_internal does not handle unspecified buffer
    length in fortify mode

Release Notes
=============

https://sourceware.org/glibc/wiki/Release/2.37

Contributors
============

This release was made possible by the contributions of many people.
The maintainers are grateful to everyone who has contributed
changes or bug reports.  These include:

Adhemerval Zanella
Adhemerval Zanella Netto
Alan Modra
Alistair Francis
Andreas K. Hüttel
Andreas Schwab
Arjun Shankar
Aurelien Jarno
Carlos Eduardo Seo
Carlos O'Donell
Chenghua Xu
Cristian Rodríguez
Damien Zammit
Fabian Vogt
Fangrui Song
Felix Riemann
Flavio Cruz
Florian Weimer
H.J. Lu
Jakub Wilk
Javier Pello
John David Anglin
Joseph Myers
Jörg Sonnenberger
Kito Cheng
Letu Ren
Lucas A. M. Magalhaes
Ludovic Courtès
Martin Jansa
Martin Joerg
Michael Hudson-Doyle
Mike FABIAN
Noah Goldstein
Paul Eggert
Paul Pluzhnikov
Qingqing Li
Rajalakshmi Srinivasaraghavan
Raphael Moreira Zinsly
Richard Henderson
Sajan Karumanchi
Samuel Thibault
Sergei Trofimovich
Sergey Bugaev
Shahab Vahedi
Siddhesh Poyarekar
Stefan Liebler
Sunil K Pandey
Szabolcs Nagy
Tom Honermann
Tulio Magno Quites Machado Filho
Vladislav Khmelevsky
Wilco Dijkstra
Xi Ruoyao
Xiaolin Tang
Xiaoming Ni
Xing Li
Yu Chien Peter Lin
YunQiang Su
Zong Li
caiyinyu
fanquake
Łukasz Stelmach
наб

We would like to call out the following and thank them for their
tireless patch review:

Adhemerval Zanella
Arjun Shankar
Aurelien Jarno
Carlos O'Donell
Cristian Rodríguez
DJ Delorie
Fangrui Song
Florian Weimer
H.J. Lu
Noah Goldstein
Palmer Dabbelt
Paul E. Murphy
Philippe Mathieu-Daudé
Premachandra Mallappa
Sam James
Siddhesh Poyarekar
Sunil K Pandey
Szabolcs Nagy
Tulio Magno Quites Machado Filho
Wilco Dijkstra
Yann Droneaud

Dear community

The GNU Health federation community server (federation.gnuhealth.org) has been updated! These are some of the main improvements:

- NGINX and WSGI: The Hospital Management component instance is now running behind uWSGI and NGINX.

- HMIS 4.2 Release Candidate 2: We are very close to HMIS 4.2 stable. This pre-release version will help us to test the upcoming features and find bugs before the release. :)

- Secure connection: You can test the demo web client using TLS. Please check the demo database section on the GNUHealth Wikibooks.

- Thalamus, the GNU Health Federation message and authentication server still runs on Gunicorn, also using https.

More info and resources:

• Wikibooks: https://en.wikibooks.org/wiki/GNU_Health
• GNUHealth documentation portal: https://www.gnuhealth.org/docs/
• Mastodon:  https://mastodon.social/@gnuhealth
• Matrix: https://app.element.io/#/room/#gnuhealth-space:matrix.org

Happy and healthy hacking!
Luis

During tonight poke online office hours our friend hdzki came with an interesting use case. He is poking at some binary structures that are like sparse tables whose entries are distributed in the file in an arbitrary way. Each sparse table is characterized by an array of consecutive non-NULL pointers. Each pointer points to an entry in the table. The table entries can be anywhere in the IO space, and are not necessarily consecutive, nor be in order.

Full text...

I am happy to announce a new major release of GNU poke, version 3.0.

This release is the result of a year of development.  A lot of things have changed and improved with respect to the 2.x series; we have fixed many bugs and added quite a lot of new exciting and useful features.  See below for a description of many of them.

From now on, we intend to do not one but two major releases of poke every year.  What is moving us to change this is the realization that users have to wait for too long to enjoy new features, which are continuously being added in a project this young and active.

The tarball poke-3.0.tar.gz is now available at
https://ftp.gnu.org/gnu/poke/poke-3.0.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.  In certain but no significant order they are:

   Mohammad-Reza Nabipoor
   Arsen Arsenović
   Luca Saiu
   Bruno Haible
   apache2
   Indu Bhagat
   Agathe Porte
   Alfred M. Szmidt
   Daiki Ueno
   Darshit Shah
   Jan Seeger
   Sergio Durigan Junior

   ... and yours truly

As always, thank you all!

But wait, this time we also have special thanks:

To Bruno Haible for his invaluable advise and his help in throughfully testing this new release in many different platforms and configurations.

To the Sourceware overseers, Mark Wielaard, Arsen Arsenović, and Sam James for their help in setting up the buildbots we are using for CI at sourceware.

What is new in this release:

User interface updates

• A screen pager has been added to the poke application.  If enabled with the `.set pager yes' option, output will be paged one screenful at a time.

• A tracer has been added to libpoke and the poke application. If enabled with the `.set tracer yes' option, subsequent loaded Poke types will be instrumentalized so calls to user-defined handlers are executed when certain events happen:
  • Every time a field gets mapped.
  • Every time a struct/union gets mapped.
  • Every time a field gets constructed.
  • Every time a struct/union gets constructed.
  • Every time an optional field is omitted when mapping or constructing.

• A new command sdiff (for "structured diff") has been added to the poke application, that provides a way to generate patchable diffs of mapped structured Poke values.  This command is an interface to the structured diffs provided by the new diff.pk pickle.

• When no name is passed to the .mem command, an unique name for the memory IOS with the form N will be used automatically, where N is a positive integer.

• Auto-completion of 'attributes is now available in the poke application.

• Constraint errors now contain details on the location (which field) where the constraint error happens, along with the particular expression that failed.

• Inline assembler expressions and statements are now supported:

    ,----
    | asm (TEMPLATE [: OUTPUTS [: INPUTS]])
    | asm TYPE: (TEMPLATE [: INPUTS])
    `----

• Both `printf' and `format' now support printing values of type `any'.

• Both `printf' and `format' now support printing integral values interpreted as floating-point values encoded in IEEE 754.  Format tags %f, %g and %e are supported.  This feature, along with the new ieee754.pk pickle, eases dealing with floating-point data in binary data.

• Pre-conditional optional fields are added to complement the currently supported post-conditional optional fields. A pre-conditional optional field like the following makes FNAME optional based on the evaluation of CONDITION.  But the field itself is not mapped if the condition evaluates to false:

    ,----
    | if (CONDITION)
    |   TYPE FNAME;
    `----

• A new option `.set autoremap no' can be used in order to tell poke to not remap mapped values automatically.  This greatly speeds up things, but assumes that the contents of the IO space are not updated out of the control of the user.  See the manual for details.

• The :to argument to the `extract' command is now optional, and defaults to the empty string.

• ${XDG_CONFIG_HOME:-$HOME/.config} is now preferred to XDG_CONFIG_DIRS.

Poke Language updates

• Array and struct constructors are now primaries in the Poke syntax. This means that it is no longer necessary to enclose them between parenthesis in constructions like:

    ,----
    | (Packet {}).field
    `----

    and this is now accepted:
    ,----
    | Packet {}.field
    `----

• Bit-concatenation is now supported in l-values.  After executing the following code the value of `a' is 0x1N and the value of `b' is (uint<28>)0x2345678:

    ,----
    | var a = 0 as int<4>;
    | var b = 0 as uint<28>;
    |
    | a:::b = 0x12345678;
    `----

• Arrays can now be indented by size, by specifying an offset as an index.  This is particularly useful for accessing structures such as string tables without having to explicitly iterate on the array's elements.

• Union types can now be declared as "integral".  The same features of integral structs are now available for unions: integration, deintegration, the ability of being used in contexts where an integer is expected, etc.

• Support for "computed fields" has been added to struct and union types.  Computed fields are accessed just like regular fields, but the semantics of referring to them and of assigning to them are specified by the user by the way of defining getter and setter methods.

• This version introduces three new Poke attributes that work on values of type `any':

    ,----
    | VAL'elem (N)
    |    evaluates to the Nth element in VAL, as a value of type `any'.
    |
    | VAL'eoffset (N)
    |    evaluates to the offset of the Nth element in VAL.
    |
    | VAL'esize (N)
    |    evaluates to the size of the Nth element in VAL.
    |
    | VAL'ename (N)
    |    attribute evaluates to the name of the Nth element in VAL.
    `----

• Two new operators have been introduced to facilitate operating Poke array as stacks in an efficient way: apush and apop.  Since these operators change the size of the involved arrays, they are only allowed in unbounded arrays.

• Poke programs can now hook in the IO subsystem by installing functions that will be invoked when certain operations on IO spaces are being performed:

    ,----
    | ios_open_hook
    |   Functions in this hook are invoked once a new IO space has been
    |   opened.
    |
    | ios_set_hook
    |   Functions in this hook are invoked once the current IO space
    |   changes.
    |
    | ios_close_pre_hook
    | ios_close_hook
    |   Functions in these hooks are invoked before and after an IO space is
    |   closed, respectively.
    `----

• The 'length attribute is now valid in values of type `any'.

• Poke declarations can now be annotated as `immutable'.  It is not allowed to re-define immutable definitions.

• A new compiler built-in `iolist' has been introduced, that returns an array with the IO space identifiers of currently open IOS.

• We have changed the logic of the EXCOND operator ?!.  It now evaluates to 1 (true) if the execution of the first operand raises the specified exception, and to 0 (false) otherwise.  We profusedly apologize for the backwards incompatibility, but this is way better than the previous (reversed) logic.

• The containing struct or union value can now be refered as SELF in the body of methods.  SELF is of type `any'.

• Integer literal suffixes (B, H, U, etc) are case-insensitive. But until now little-case `b' wasn't being recognized as such.  Now `1B' is the same than `1b'.

• Casting to union types now raise a compile-time error.

• If no explicit message is specified in calls to `assert', a default one showing the source code of the failing condition is constructed and used instead.

• An operator `remap' has been used in order to force a re-map of some mapped Poke value.

• Signed integral types of one bit are not allowed.  How could they be, in two's complement?

• The built-in function get_time has been renamed to gettime, to follow the usual naming of the corresponding standard C function.

Standard Poke Library updates

• New standard functions:

    ,----
    | eoffset (V, N)
    |   Given a value of type `any' and a name, returns the offset of
    |   the element having that name.
    |
    | openset (HANDLER, [FLAGS])
    |   Open an IO space and make it the current IO space.
    |
    | with_temp_ios ([HANDLER], [FLAGS], [DO], [ENDIAN])
    |   Execute some code with a temporary IO space.
    |
    | with_cur_ios (IOS, [DO], [ENDIAN])
    |   Execute some code on some given IO space.
    `----

libpoke updates

• New API function pk_struct_ref_set_field_value.

• New API function pk_type_name.

Pickles updates

• New pickles provided in the poke distribution:

    ,----
    | diff.pk
    |   Useful binary diffing utilities.  In particular, it implements
    |   the "structured diff" format as described in
    |   https://binary-tools.net/bindiff.pdf.
    |
    | io.pk
    |   Facilities to dump data to the terminal.
    |
    | pk-table.pk
    |   Convenient facilities to Poke programs to print tabulated data.
    |
    | openpgp.pk
    |   Pickle to poke at OpenPGP RFC 4880 data.
    |
    | sframe.pk
    | sframe-dump.pk
    |   Pickles for the SFrame unwinding format, and related dump
    |   utilities.
    |
    | search.pk
    |   Utility for searching data in IO spaces that conform to some
    |   given Poke type.
    |
    | riscv.pk
    |   Pickle to poke at instructions encoded in the RISC-V instruction
    |   set (RV32I).  It also provides methods to generate assembly
    |   language.
    |
    | coff.pk
    | coff-aarch64.pk
    | coff-i386.pk
    |   COFF object files.
    |
    | pe.pk
    | pe-amd64.pk
    | pe-arm.pk
    | pe-arm64.pk
    | pe-debug.pk
    | pe-i386.pk
    | pe-ia64.pk
    | pe-m32r.pk
    | pe-mips.pk
    | pe-ppc.pk
    | pe-riscv.pk
    | pe-sh3.pk
    |   PE/COFF object files.
    |
    | pcap.pk
    |   Capture file format.
    |
    | uuid.pk
    |   Universally Unique Identifier (UUID) as defined by RFC4122.
    |
    | redoxfs.pk
    |   RedoxFS files ystem of Redox OS.
    |
    | ieee754.pk
    |   IEEE Standard for Floating-Point Arithmetic.
    `----

• The ELF pickle now provides functions implementing ELF hashing.

Build system updates

• It is now supported to configure the poke sources with --disable-hserver.

Documentation updates

• Documentation for the `format' language construction has been added to the poke manual.

Other updates

• A new program poked, for "poke daemon", has been contributed to the poke distribution by Mohammad-Reza Nabipoor.  poked links with libpoke and uses Unix sockets to act as a broker to communicate with an instance of a Poke incremental compiler.  This is already used by several user interfaces to poke.

• The machine-interface subsystem has been removed from poke, in favor of the poked approach.

• The example GUI that was intended to be a test tool for the machine interface has been removed from the poke distribution.

• Many bugs have been fixed.

--
Jose E. Marchesi
Frankfurt am Main
26 January 2023