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The nixpkgs manual contains references to both sri hash and explicit sha256 attributes. This is at best confusing to new users. Since the final destination is exclusive use of sri hashes, see nixos/rfcs#131, might as well push new users in that direction gently. Notable exceptions to sri hash support are builtins.fetchTarball, cataclysm-dda, coq, dockerTools.pullimage, elixir.override, and fetchCrate. None, other than builtins.fetchTarball, are fundamentally incompatible, but all currently accept explicit sha256 attributes as input. Because adding backwards compatibility is out of scope for this change, they have been left intact, but migration to sri format has been made for any using old hash formats. All hashes have been manually tested to be accurate, and updates were only made for missing upstream artefacts or bugs.
3.1 KiB
3.1 KiB
pkgs.appimageTools
pkgs.appimageTools
is a set of functions for extracting and wrapping AppImage files. They are meant to be used if traditional packaging from source is infeasible, or it would take too long. To quickly run an AppImage file, pkgs.appimage-run
can be used as well.
::: {.warning}
The appimageTools
API is unstable and may be subject to backwards-incompatible changes in the future.
:::
AppImage formats
There are different formats for AppImages, see the specification for details.
- Type 1 images are ISO 9660 files that are also ELF executables.
- Type 2 images are ELF executables with an appended filesystem.
They can be told apart with file -k
:
$ file -k type1.AppImage
type1.AppImage: ELF 64-bit LSB executable, x86-64, version 1 (SYSV) ISO 9660 CD-ROM filesystem data 'AppImage' (Lepton 3.x), scale 0-0,
spot sensor temperature 0.000000, unit celsius, color scheme 0, calibration: offset 0.000000, slope 0.000000, dynamically linked, interpreter /lib64/ld-linux-x86-64.so.2, for GNU/Linux 2.6.18, BuildID[sha1]=d629f6099d2344ad82818172add1d38c5e11bc6d, stripped\012- data
$ file -k type2.AppImage
type2.AppImage: ELF 64-bit LSB executable, x86-64, version 1 (SYSV) (Lepton 3.x), scale 232-60668, spot sensor temperature -4.187500, color scheme 15, show scale bar, calibration: offset -0.000000, slope 0.000000 (Lepton 2.x), scale 4111-45000, spot sensor temperature 412442.250000, color scheme 3, minimum point enabled, calibration: offset -75402534979642766821519867692934234112.000000, slope 5815371847733706829839455140374904832.000000, dynamically linked, interpreter /lib64/ld-linux-x86-64.so.2, for GNU/Linux 2.6.18, BuildID[sha1]=79dcc4e55a61c293c5e19edbd8d65b202842579f, stripped\012- data
Note how the type 1 AppImage is described as an ISO 9660 CD-ROM filesystem
, and the type 2 AppImage is not.
Wrapping
Depending on the type of AppImage you're wrapping, you'll have to use wrapType1
or wrapType2
.
appimageTools.wrapType2 { # or wrapType1
name = "patchwork";
src = fetchurl {
url = "https://github.com/ssbc/patchwork/releases/download/v3.11.4/Patchwork-3.11.4-linux-x86_64.AppImage";
hash = "sha256-OqTitCeZ6xmWbqYTXp8sDrmVgTNjPZNW0hzUPW++mq4=";
};
extraPkgs = pkgs: with pkgs; [ ];
}
name
specifies the name of the resulting image.src
specifies the AppImage file to extract.extraPkgs
allows you to pass a function to include additional packages inside the FHS environment your AppImage is going to run in. There are a few ways to learn which dependencies an application needs:- Looking through the extracted AppImage files, reading its scripts and running
patchelf
andldd
on its executables. This can also be done inappimage-run
, by settingAPPIMAGE_DEBUG_EXEC=bash
. - Running
strace -vfefile
on the wrapped executable, looking for libraries that can't be found.
- Looking through the extracted AppImage files, reading its scripts and running