Flatpak is a way to distribute applications on Linux. Its container-style approach allows applications to run across Linux distributions. This means native packages (rpm, deb, etc) are not needed and it's relatively easy to get your app to Linux users with fewer worries about distro compatibility. This makes life a lot easier for developers and is also convenient for users.
I've run popular applications like OBS Studio as flatpaks and even publish my own on Flathub, a popular hosting site for applications. Today I figured out how to debug flatpaks, which requires some extra steps that I'll share below so I don't forget them myself!
Bonus Tip: Testing local flatpaks
If you're building a flatpak of your own application it's handy to use the dir sources type in the manifest to compile your application's source code from a local directory instead of a git tag or tarball URL. This way you can make changes to the source code and test them quickly inside Flatpak.
Put something along these lines in the manifest's modules object where /home/user/my-app is you local directory with your app's source code:
{ "name": "my-app", "sources": [ { "type": "dir", "path": "/home/user/my-app" } ], ... }
Building and installing apps with debuginfo
flatpak-builder(1) automatically creates a separate .Debug extension for your flatpak that contains your application's debuginfo. You'll need the .Debug extension if you want proper backtraces and source level debugging. At the time of writing the Flatpak documentation did not mention how to install the locally-built .Debug extension. Here is how:
$ flatpak-builder --user --force-clean --install build my.org.app.json $ flatpak install --user --reinstall --assumeyes "$(pwd)/.flatpak-builder/cache" my.org.app.Debug
It might be a good idea to install debuginfo for the system libraries in your SDK too in case it's not already installed:
$ flatpak install org.kde.Sdk.Debug # or your runtime's SDK
Running applications for debugging
There is a flatpak(1) option that launches the application with the SDK instead of the Runtime:
$ flatpak run --user --devel my.org.app
The SDK contains development tools whereas the Runtime just has the files needed to run applications.
It can also be handy to launch a shell so you can control the launch of your app and maybe use gdb or strace:
$ flatpak run --user --devel --command=sh my.org.app [📦 my.org.app ~]$ gdb /app/bin/my-app
Working with core dumps
If your application crashes it will dump core like any other process. However, existing ways of inspecting core dumps like coredumpctl(1) are not fully functional because the process ran inside namespaces and debuginfo is located inside flatpaks instead of the usual system-wide /usr/lib/debug location. coredumpctl(1), gdb, etc aren't Flatpak-aware and need extra help.
Use the flatpak-coredumpctl wrapper to launch gdb:
$ flatpak-coredumpctl -m <PID> my.org.app
You can get PID from the list printed by coredumpctl(1).
Conclusion
This article showed how to install locally-built .Debug extensions and inspect core dumps when using Flatpak. I hope that over time these manual steps will become unnecessary as flatpak-builder(1) and coredumpctl(1) are extended to automatically install .Debug extensions and handle Flatpak core dumps. For now it just takes a few extra commands compared to debugging regular applications.