Scope
This program generates a large Flatpak manifest in JSON format
with the versions of all transitively imported Haskell packages.
This is required by Flathub
since this platform downloads all source files for you
and lets you build only in a sandbox without access to the internet.
The detailed version information can also be useful for you
for reproducible builds.
However, for maintaining your own Flatpak repository
or for distributing Flatpak bundles
it is not strictly necessary to have such a verbose manifest.
You may get results quicker by writing you own manifest
which simply runs cabal-install
or stack
.
stack
should give you reproducible builds
but its package database contains only a subset of Hackage.
cabal-install
gives you access to more Haskell packages,
but the build may fail at a later point due to lax version bounds
in dependent packages.
Usage
Create a Flatpak manifest
The usage is a bit cumbersome,
because for Flathub you may only build manifests
for released versions of your package,
whereas you certainly want to manage manifests
in the working copy of your repository.
First let cabal
build a plan.json
for your released package:
$ cd /tmp
$ cabal unpack my-package-0.1.2
$ cd my-package-0.1.2
$ cabal new-build --dry-run --disable-tests --disable-benchmarks
cabal-flatpak
reads plan.json
via the cabal-plan
library.
Now create a flatpak.cabal.json
file in your working copy.
It contains a custom JSON object with information needed by cabal-flatpak
and also a template for the generated manifest.
For an example see the configuration file for cabal-flatpak
.
$ cd /path/to/my-package
$ cabal-flatpak --directory=/tmp/my-package-0.1.2 flatpak.cabal.json flatpak.json
The --arch
option allows you to put build information
for one or more architectures into one manifest.
Usually, only ghc
and cabal-install
binaries depend on the architecture
and the whole lot of Haskell packages can be build with the same commands.
There are two build modes:
One builds all modules individually using plain Cabal
,
the other one builds all modules in one go using cabal-install
.
You can enable the second mode using the --cabal-install
option.
These are the differences:
-
Cabal
mode needs less dependencies.
cabal-install
needs a pre-built binary for your architecture.
-
Cabal
mode can pass options to the build of specific packages.
cabal-install
can only pass options to all packages at once.
If -fbuildExamples
means something different to different Haskell packages,
then this will fail.
Even in cabal-install
mode we need to preprocess each package
and in this stage we could alter flag switches by patching Cabal files.
We could also build packages with requested flags in separate stages.
Currently, we don't try any of these strategies.
-
cabal-install
enables parallel builds.
This builds significantly faster.
Cabal
mode on the other hand allows Flatpak to cache build results
of individual packages.
This can accelerate re-builds.
However, Flatpak does not know the dependency graph
and thus simply rebuilds anything after a module that must be rebuilt.
Known issue:
If you use the "main-sources"
list of manually written sources,
then the main tarball needs "type": "archive"
for Cabal
mode
and "type": "file"
for cabal-install
.
That is you cannot simply switch between both modes only at the command-line.
I suggest to not use "main-sources"
anyway,
but stick to versions published at Hackage.
For some packages you need to build dependencies on external C packages.
cabal-flatpak
cannot generate according build instructions for you.
However, you can re-use build instructions you found useful.
Flatpak-builder supports this itself.
In the "modules"
list you cannot only put module JSON objects,
but also plain strings.
Such a string is interpreted as path to a separate file
containing a Flatpak module JSON object.
I add such JSON files to the FFI packages I maintain.
Build the Flatpak package
You may refer to the Makefile
that is shipped with cabal-flatpak
for how to eventually build the Flatpak package.
The command line is:
$ flatpak-builder --force-clean --repo=$FLATPAK/repository --state-dir=$FLATPAK/builder/ $FLATPAK/build/my-package $<
Flatpak consumes pretty much storage
thus I set $FLATPAK to a directory on a separate harddisk partition.
The --repo
option points to your Flatpak repository.
This is where flatpak-builder
stores the compiled package.
The Flatpak repository contains all versions of all your Flatpak packages.
If another user has access to it,
she can easily install and update Flatpak packages.
The --state-dir
option points to a directory
that caches all downloads and build artifacts of Flatpak.
You may share it between different projects.
The DIRECTORY
argument names the path
to where Flatpak builds your project.
It may not be shared between projects,
but you can safely delete it after a build
and the --force-clean
option triggers exactly this
when you re-build your project.
The directories specified by --state-dir
and DIRECTORY
must reside on the same file system.
You may also extract a single package file
for a certain version of your package from the repository.
This can be handy for a one-time install
but disallows the user to easily get updates of your program.
$ flatpak build-bundle $FLATPAK/repository \
my-package-0.1.2.flatpak com.my_domain.my-package \
--runtime-repo=https://flathub.org/repo/flathub.flatpakrepo
Known issues
Cabal revisions
Cabal package description files can be updated on Hackage
without altering the package version.
Every update increases the Cabal file revision.
Unfortunately, plan.json
does not contain the revision number,
it just refers to the currently most recent Cabal file for each Haskell package.
This is a fundamental problem since Flatpak builds must be reproducible.
We currently solve this problem
by scanning Cabal's local package database
below .cabal/packages/hackage.haskell.org
.
This has not optimal performance but it is acceptable.