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209 lines
7.2 KiB
Markdown
209 lines
7.2 KiB
Markdown
# Fedora CoreOS Assembler
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We use the [Fedora CoreOS Assembler](https://coreos.github.io/coreos-assembler/) to build the base image for Constellation nodes.
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## Setup
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Prerequisites: `podman` and `qemu-kvm` are installed, nested virtualization is enabled.
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Make sure your user is allowed read and write access on `/dev/kvm`.
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If the device is not mounted in the container try the following command, and restart the container:
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``` shell
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sudo chmod 666 /dev/kvm
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```
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* Pull the assembler container image
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``` shell
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podman pull quay.io/coreos-assembler/coreos-assembler
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```
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* Create a working directory on your host system
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``` shell
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mkdir fcos && cd fcos
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```
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* Set up a bash alias
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Add the following to your `.bashrc` to easily start the image assembler using `cosa`:
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``` bash
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cosa() {
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env | grep COREOS_ASSEMBLER
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local -r COREOS_ASSEMBLER_CONTAINER_LATEST="quay.io/coreos-assembler/coreos-assembler:latest"
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if [[ -z ${COREOS_ASSEMBLER_CONTAINER} ]] && $(podman image exists ${COREOS_ASSEMBLER_CONTAINER_LATEST}); then
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local -r cosa_build_date_str="$(podman inspect -f "{{.Created}}" ${COREOS_ASSEMBLER_CONTAINER_LATEST} | awk '{print $1}')"
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local -r cosa_build_date="$(date -d ${cosa_build_date_str} +%s)"
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if [[ $(date +%s) -ge $((cosa_build_date + 60*60*24*7)) ]] ; then
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echo -e "\e[0;33m----" >&2
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echo "The COSA container image is more that a week old and likely outdated." >&2
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echo "You should pull the latest version with:" >&2
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echo "podman pull ${COREOS_ASSEMBLER_CONTAINER_LATEST}" >&2
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echo -e "----\e[0m" >&2
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sleep 10
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fi
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fi
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set -x
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podman run --rm -ti --security-opt label=disable --privileged \
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--uidmap=1000:0:1 --uidmap=0:1:1000 --uidmap 1001:1001:64536 \
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-v ${PWD}:/srv/ --device /dev/kvm --device /dev/fuse \
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--tmpfs /tmp -v /var/tmp:/var/tmp --name cosa \
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${COREOS_ASSEMBLER_CONFIG_GIT:+-v $COREOS_ASSEMBLER_CONFIG_GIT:/srv/src/config/:ro} \
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${COREOS_ASSEMBLER_GIT:+-v $COREOS_ASSEMBLER_GIT/src/:/usr/lib/coreos-assembler/:ro} \
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${COREOS_ASSEMBLER_CONTAINER_RUNTIME_ARGS} \
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${COREOS_ASSEMBLER_CONTAINER:-$COREOS_ASSEMBLER_CONTAINER_LATEST} "$@"
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rc=$?; set +x; return $rc
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}
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```
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* Run the builder
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``` shell
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cosa shell
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```
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* Initialize the build
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``` shell
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cosa init https://github.com/coreos/fedora-coreos-config
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```
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* Fetch metadata and packages
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``` shell
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cosa fetch
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```
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* Build a qemu VM image
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``` shell
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cosa build
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```
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Each build will create a new directory in `$PWD/builds/`, containing the generated OSTree commit and the qemu VM image.
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* Run the image
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``` shell
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cosa run
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```
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## Customization
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The CoreOS Assembler offers three main customization options:
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* [`manifest.yaml`](https://coreos.github.io/coreos-assembler/working/#manifestyaml)
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An rpm-ostree "manifest" or "treefile", primarily, a list of RPMs and their associated repositories.
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See the rpm-ostree documentation for the [treefile format reference](https://coreos.github.io/rpm-ostree/treefile/)
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* [`overlay.d/`](https://coreos.github.io/coreos-assembler/working/#overlayd)
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A generic way to embed architecture-independent configuration and scripts by creating subdirectories in `overlay.d/`.
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Each subdirectory is added to the OSTree commit in lexicographic order.
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* [`image.yaml`](https://coreos.github.io/coreos-assembler/working/#imageyaml)
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Configuration for the output disk images
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Additionally, one may use [`overrides`](https://coreos.github.io/coreos-assembler/working/#using-overrides) to embed local RPMs from the build environment, that should not be pulled from a remote repository:
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1. Package the binary as an RPM
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2. Add any dependencies of the RPM to `manifest.yaml`
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3. Run `cosa fetch` to prepare dependencies
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4. Place the RPM in `overrides/rpm`
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5. Add the name of your RPM to `manifest.yaml`
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6. Run `cosa build`. Your RPM will be added to the final image.
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Example: We want to build FCOS with our own kernel
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1. Follow [Kernel Building](#kernel-building) to build the kernel
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You should end up with at least three RPMs: `kernel`, `kernel-core`, `kernel-modules`.
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`kernel` depends on `core` and `modules`, `modules` on `core`, and `core` on common FCOS packages (`bash`, `systemd`, etc.).
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These dependencies should already be in the manifest.
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2. Run `cosa fetch`
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3. Place the kernel RPMs in `overrides/rpm`
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`kernel`, `kernel-core`, `kernel-modules` should already be in the manifest (`src/config/manifests/bootable-rpm-ostree.yaml`)
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4. Run `cosa build` to create the image
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5. Test the image with `cosa run`
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6. Run `cosa buildextend-gcp` and `cosa buildextend-azure` to additionaly create a VM image for GCP and Azure
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## RPM packaging
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If we want to make the most use of CoreOS assembler we should package our applications as RPM packages.
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See [creating rpm packages](https://docs.fedoraproject.org/en-US/quick-docs/creating-rpm-packages/).
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Brief overview of the required steps:
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1. Create a directory with your source code or binary file
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2. Add a <package>.spec file
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Run the following command to create a spec file template that you can update with information about your package
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``` shell
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rpmdev-newspec <package>
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```
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3. Create the RPM
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``` shell
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fedpkg --release f35 local
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```
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## Kernel Building
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See the [building a custom kernel](https://docs.fedoraproject.org/en-US/quick-docs/kernel/build-custom-kernel/) from the Fedora Project documentation.
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The following assumes you are running on a current release of Fedora.
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We have a Fedora 35 image available on GCP, make sure you have enough space available and the VM is capable to build the kernel in a reasonable time (e2-standard-8 takes ~2h to finish the build).
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1. Install dependencies and clone the kernel
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``` shell
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sudo dnf install fedpkg fedora-packager rpmdevtools ncurses-devel pesign grubby qt3-devel libXi-devel gcc-c++
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fedpkg clone -a kernel && cd kernel
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sudo dnf builddep kernel.spec
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```
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Optionally install `ccache` to speed up rebuilds
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``` shell
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sudo dnf install ccache
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```
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2. Check out the kernel branch you want to base your build on
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Each release has its own branch. E.g. to customize the kernel for Fedora 35, check out `origin/f35`. `rawhide` tracks the latest iteration, following closely behind the mainline kernel.
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``` shell
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git checkout origin/f35
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git checkout -b custom-kernel
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```
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3. Customize buildid by chaning `# define buildid .local` to `%define buildid .<your_custom_id_here>` in `kernel.spec`
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4. Apply your changes and patches to the kernel
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5. Build the RPMs
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This will take a while
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``` shell
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fedpkg local
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```
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The built kernel RPMs will be in `./x86_64/`
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6. You can now use and install the kernel packages
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``` shell
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sudo dnf install --nogpgcheck ./x86_64/kernel-$version.rpm
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```
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