Packaging/Quirks and Caveats
This article is about the quirks on how to package software where the source code is available.
A good start for packaging your first piece if software is the Quickstart Chapter in the nixpkgs manual Also see the Generic Algorithm on doing Packaging
For packaging executable without building them from source check out the article Packaging Binaries.
Build software with Autotools
Add autoreconfHook
to nativeBuildInputs
to automatically build software which uses automake
and autoconf
:
nativeBuildInputs = [ ... autoreconfHook ];
Examples in nixpkgs: * samplicator
Configure Scripts that are using pkgconfig
Some configure scripts are using pkgconfig
to determine the location of libraries and headers. Nixpkgs supports this by adding pkgconfig
to nativeBuildInputs
nativeBuildInputs = [ ... pkgconfig ];
Examples in nixpkgs: * libmms
Package simple python scripts
For scripts like a single Python file, it is not necessary to specify src
in mkDerivation
. When you want to use buildPythonPackage
the sources need to provide a setup.py
file which also is overkill for a lot of projects. The default mkDerivation
will attempt to unpack your source code. This can be prevented that by applying unpackPhase = ":";
(:
is a no-op in shell scripts).
myscript-package = pkgs.stdenv.mkDerivation {
name = "myscript";
buildInputs = [
(pkgs.python36.withPackages (pythonPackages: with pythonPackages; [
consul
six
requests
]))
];
unpackPhase = ":";
installPhase = "install -m755 -D ${./myscript.py} $out/bin/myscript";
};
stdenv
's patchShebangs
will automatically replace shebangs in the fixup phase, for ex. #!/usr/bin/env python3
with dependencies given in buildInputs
. As the derivation got pkgs.python36.withPackages (...)
in buildInputs
, it will create a virtualenv-like python wrapper. The python wrapper will have all specified dependencies and will be used to call the script.
In NixOS, the package can be put into environment.systemPackages
, and myscript
will be available as a global command.
Source: nh2 @ StackOverflow
A more lightweight alternative is to use nix-shell
in the shebang line as described in this blog post. This causes the expression to be evaluated and built every time the script is run; this means that the dependencies will always be kept up to date, but since nix-shell only creates a temporary GC root the dependencies may be removed by a garbage collection, so this approach is not advisable for users who don't have an internet connection available all the time.
Caveats
After packaging software and successfully generating an executable some functions of the package might still not work. This is a collection of error and how to fix them:
Sometime the error mesage might be also:
GLib-GIO-ERROR **: No GSettings schemas are installed on the system
Fixed by adding wrapGAppsHook
to buildInputs:
nativeBuildInputs = [ ... wrapGAppsHook ];
Sample PR in nixpkgs:
Namespace Gdk not available
You will need /nix/store/*-gtk+3-*/lib/girepository-1.0
in GI_TYPELIB_PATH
.
Similar solution as above, solved by:
nativeBuildInputs = [ ... wrapGAppsHook ];
buildInputs = [ gtk3 ];
This can happen when importing python libraries:
Solution: add ${stdenv.cc.cc.lib}/lib/libstdc++.so.6
to the LD_LIBRARY_PATH
.
Test cannot access /etc/protocols
, /etc/services
or expects a special /etc/passwd
when building in sandbox
Sometimes libraries try to fetch protocol specs via socket.getprotobyname('tcp')
which fails in sandboxes because /etc/protocols is unaccessible. Override pre- and postCheck phases with this:
preCheck = ''
export NIX_REDIRECTS=/etc/protocols=${pkgs.iana-etc}/etc/protocols \
LD_PRELOAD=${pkgs.libredirect}/lib/libredirect.so
'';
postCheck = ''
unset NIX_REDIRECTS LD_PRELOAD
'';