This is a base snap for snapd & Ubuntu Core that is based on Ubuntu 24.04.
To build this snap locally you need snapcraft. The project must be built as real root.
For i386 and amd64
$ snapcraft
For any other architecture we recommend remote-build as multipass has limited support for cross-building, and lack of stable releases for some architectures. To use remote-build you need to have a launchpad account, and follow the instructions here
$ snapcraft remote-build --build-on={arm64,armhf,ppc64el,s390x}
You need to have the following software installed before you can test with spread
- Go (https://golang.org/doc/install or
sudo snap install go
) - Spread (install from source as per below)
You can install spread by simply using snap install spread
, however this does not allow for the lxd-backend to be used.
To use the lxd backend you need to install spread from source, as the LXD profile support has not been upstreamed yet.
This document will be updated with the upstream version when this happens. To install spread from source you need to do the following.
git clone https://github.com/Meulengracht/spread
cd spread
cd cmd/spread
go build
go install
- Install the dependencies required for the qemu emulation
sudo apt update && sudo apt install -y qemu-system qemu-utils autopkgtest python3-distro-info genisoimage
- Create a suitable ubuntu test image (focal) in the following directory where spread locates images. Note that the location is different when using spread installed through snap.
mkdir -p ~/.spread/qemu # This location is different if you installed spread from snap
cd ~/.spread/qemu
autopkgtest-buildvm-ubuntu-cloud -r focal
- Rename the newly built image as the name will not match what spread is expecting
mv autopkgtest-focal-amd64.img ubuntu-20.04-64.img
- Now you are ready to run spread tests with the qemu backend
cd ~/core24 # or wherever you checked out this repository
spread qemu-nested
The LXD backend is the preferred way of testing locally as it uses virtualization and thus runs a lot quicker than the qemu backend. This is because the container can use all the resources of the host, and we can support qemu-kvm acceleration in the container for the nested instance.
This backend requires that your host machine supports KVM.
- Setup any prerequisites and build the LXD image needed for testing. The following commands will install lxd and yq (needed for yaml manipulation), download the newest image and import it into LXD.
sudo snap install lxd
sudo snap install yq
curl -o lxd-core24-img.tar.gz https://storage.googleapis.com/snapd-spread-core/lxd/lxd-spread-core24-img.tar.gz
lxc image import lxd-core24-img.tar.gz --alias ucspread24
lxc image show ucspread24 > temp.profile
yq e '.properties.aliases = "ucspread24,amd64"' -i ./temp.profile
yq e '.properties.remote = "images"' -i ./temp.profile
cat ./temp.profile | lxc image edit ucspread24
rm ./temp.profile ./lxd-core24-img.tar.gz
- Import the LXD core24 test profile. Make sure your working directory is the root of this repository.
lxc profile create core24
cat tests/spread/core24.lxdprofile | lxc profile edit core24
- Set environment variable to enable KVM acceleration for the nested qemu instance
export SPREAD_ENABLE_KVM=true
- Now you can run the spread tests using the LXD backend
spread lxd-nested
The usual way to add functionality is to write a shell script hook
with the .chroot
extension under the hooks/
directory. These hooks
are run inside the base image filesystem.
Each hook should have a matching .test
file in the hook-tests
directory. Those tests files are run relative to the base image
filesystem and should validate that the coresponding .chroot
file
works as expected.
The .test
scripts will be run after building with snapcraft or when
doing a manual "make test" in the source tree.
It is possible to enable bootcharts by adding ubuntu_core.bootchart
to the kernel command line. The sample collector will run until the
system is seeded (it will stop when the snapd.seeded.service
stops). The bootchart will be saved in the ubuntu-data
partition,
under /var/log/debug/boot<N>/
, <N>
being the boot number since
bootcharts were enabled. If a chart has been collected by the
initramfs, it will be also saved in that folder.
TODO In the future, we would want systemd-bootchart
to be started
only from the initramfs and have just one bootchart per boot. However,
this is currently not possible as systemd-bootchart
needs some changes
so it can survive the switch root between initramfs and data
partition. With those changes, we could also have systemd-bootchart
as
init process so we get an even more accurate picture.