Files
kata-containers/tests/gha-run-k8s-common.sh
Fabiano Fidêncio 842e17b756 tests: k0s: Always use latest version, apart from CRI-O tests
We've been pinning a specific version of k0s for CRI-O tests, which may
make sense for CRI-O, but doesn't make sense at all when it comes to
testing that we can install kata-deploy on latest k0s (and currently our
test for that is broken).

Let's bump to the latest, and from this point we start debugging,
instead of debugging on an ancient version of the project.

Signed-off-by: Fabiano Fidêncio <fidencio@northflank.com>
2025-07-09 13:27:18 +02:00

505 lines
16 KiB
Bash

#!/usr/bin/env bash
# Copyright (c) 2023 Microsoft Corporation
#
# SPDX-License-Identifier: Apache-2.0
tests_dir="$(cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
source "${tests_dir}/common.bash"
kubernetes_dir="${tests_dir}/integration/kubernetes"
helm_chart_dir="${repo_root_dir}/tools/packaging/kata-deploy/helm-chart/kata-deploy"
GENPOLICY_PULL_METHOD="${GENPOLICY_PULL_METHOD:-oci-distribution}"
GH_PR_NUMBER="${GH_PR_NUMBER:-}"
HELM_DEFAULT_INSTALLATION="${HELM_DEFAULT_INSTALLATION:-false}"
HELM_AGENT_HTTPS_PROXY="${HELM_AGENT_HTTPS_PROXY:-}"
HELM_AGENT_NO_PROXY="${HELM_AGENT_NO_PROXY:-}"
HELM_ALLOWED_HYPERVISOR_ANNOTATIONS="${HELM_ALLOWED_HYPERVISOR_ANNOTATIONS:-}"
HELM_CREATE_RUNTIME_CLASSES="${HELM_CREATE_RUNTIME_CLASSES:-}"
HELM_CREATE_DEFAULT_RUNTIME_CLASS="${HELM_CREATE_DEFAULT_RUNTIME_CLASS:-}"
HELM_DEBUG="${HELM_DEBUG:-}"
HELM_DEFAULT_SHIM="${HELM_DEFAULT_SHIM:-}"
HELM_HOST_OS="${HELM_HOST_OS:-}"
HELM_IMAGE_REFERENCE="${HELM_IMAGE_REFERENCE:-}"
HELM_IMAGE_TAG="${HELM_IMAGE_TAG:-}"
HELM_K8S_DISTRIBUTION="${HELM_K8S_DISTRIBUTION:-}"
HELM_PULL_TYPE_MAPPING="${HELM_PULL_TYPE_MAPPING:-}"
HELM_SHIMS="${HELM_SHIMS:-}"
HELM_SNAPSHOTTER_HANDLER_MAPPING="${HELM_SNAPSHOTTER_HANDLER_MAPPING:-}"
KATA_DEPLOY_WAIT_TIMEOUT="${KATA_DEPLOY_WAIT_TIMEOUT:-600}"
KATA_HOST_OS="${KATA_HOST_OS:-}"
KUBERNETES="${KUBERNETES:-}"
K8S_TEST_HOST_TYPE="${K8S_TEST_HOST_TYPE:-small}"
TEST_CLUSTER_NAMESPACE="${TEST_CLUSTER_NAMESPACE:-}"
CONTAINER_RUNTIME="${CONTAINER_RUNTIME:-containerd}"
function _print_instance_type() {
case "${K8S_TEST_HOST_TYPE}" in
small)
echo "Standard_D2s_v5"
;;
all|normal)
echo "Standard_D4s_v5"
;;
*)
echo "Unknown instance type '${K8S_TEST_HOST_TYPE}'" >&2
exit 1
esac
}
# Print the cluster name set by $AKS_NAME or generated out of runtime
# metadata (e.g. pull request number, commit SHA, etc).
#
function _print_cluster_name() {
local test_type="${1:-k8s}"
local short_sha
local metadata
if [[ -n "${AKS_NAME:-}" ]]; then
echo "${AKS_NAME}"
else
short_sha="$(git rev-parse --short=12 HEAD)"
metadata="${GH_PR_NUMBER}-${short_sha}-${KATA_HYPERVISOR}-${KATA_HOST_OS}-amd64-${K8S_TEST_HOST_TYPE:0:1}-${GENPOLICY_PULL_METHOD:0:1}"
# Compute the SHA1 digest of the metadata part to keep the name less
# than the limit of 63 chars of AKS
echo "${test_type}-$(sha1sum <<< "${metadata}" | cut -d' ' -f1)"
fi
}
function _print_rg_name() {
test_type="${1:-k8s}"
echo "${AZ_RG:-"kataCI-$(_print_cluster_name "${test_type}")"}"
}
# Enable the approuting routing add-on to AKS.
# Use with ingress to expose a service API externally.
#
function enable_cluster_approuting() {
local test_type="${1:-k8s}"
local cluster_name
local rg
rg="$(_print_rg_name "${test_type}")"
cluster_name="$(_print_cluster_name "${test_type}")"
az aks approuting enable -g "${rg}" -n "${cluster_name}"
}
function install_azure_cli() {
curl -sL https://aka.ms/InstallAzureCLIDeb | sudo bash
az extension add --name aks-preview
}
function create_cluster() {
test_type="${1:-k8s}"
local short_sha
local tags
local rg
# First ensure it didn't fail to get cleaned up from a previous run.
delete_cluster "${test_type}" || true
rg="$(_print_rg_name "${test_type}")"
short_sha="$(git rev-parse --short=12 HEAD)"
tags=("GH_PR_NUMBER=${GH_PR_NUMBER:-}" \
"SHORT_SHA=${short_sha}" \
"KATA_HYPERVISOR=${KATA_HYPERVISOR}"\
"KATA_HOST_OS=${KATA_HOST_OS:-}" \
"K8S_TEST_HOST_TYPE=${K8S_TEST_HOST_TYPE:0:1}" \
"GENPOLICY_PULL_METHOD=${GENPOLICY_PULL_METHOD:0:1}")
az group create \
-l eastus \
-n "${rg}"
# Adding a double quote on the last line ends up causing issues
# ine the cbl-mariner installation. Because of that, let's just
# disable the warning for this specific case.
# shellcheck disable=SC2046
az aks create \
-g "${rg}" \
--node-resource-group "node-${rg}" \
-n "$(_print_cluster_name "${test_type}")" \
-s "$(_print_instance_type)" \
--node-count 1 \
--generate-ssh-keys \
--tags "${tags[@]}"
}
function install_bats() {
# Installing bats from the noble repo.
sudo apt install -y software-properties-common
sudo add-apt-repository 'deb http://archive.ubuntu.com/ubuntu/ noble universe'
sudo apt install -y bats
sudo add-apt-repository --remove 'deb http://archive.ubuntu.com/ubuntu/ noble universe'
}
# Install the kustomize tool in /usr/local/bin if it doesn't exist on
# the system yet.
#
function install_kustomize() {
local arch
local checksum
local version
if command -v kustomize >/dev/null; then
return
fi
ensure_yq
version=$(get_from_kata_deps ".externals.kustomize.version")
arch=$(arch_to_golang)
checksum=$(get_from_kata_deps ".externals.kustomize.checksum.${arch}")
local tarball="kustomize_${version}_linux_${arch}.tar.gz"
curl -Lf -o "${tarball}" "https://github.com/kubernetes-sigs/kustomize/releases/download/kustomize/${version}/${tarball}"
local rc=0
echo "${checksum} ${tarball}" | sha256sum -c || rc=$?
[[ ${rc} -eq 0 ]] && sudo tar -xvzf "${tarball}" -C /usr/local/bin || rc=$?
rm -f "${tarball}"
[[ ${rc} -eq 0 ]]
}
function get_cluster_credentials() {
test_type="${1:-k8s}"
az aks get-credentials \
--overwrite-existing \
-g "$(_print_rg_name "${test_type}")" \
-n "$(_print_cluster_name "${test_type}")"
}
function delete_cluster() {
test_type="${1:-k8s}"
local rg
rg="$(_print_rg_name "${test_type}")"
if [[ "$(az group exists -g "${rg}")" == "true" ]]; then
az group delete -g "${rg}" --yes
fi
}
function delete_cluster_kcli() {
CLUSTER_NAME="${CLUSTER_NAME:-kata-k8s}"
kcli delete -y kube "${CLUSTER_NAME}"
}
function get_nodes_and_pods_info() {
kubectl debug "$(kubectl get nodes -o name)" -it --image=quay.io/kata-containers/kata-debug:latest || true
kubectl get pods -o name | grep node-debugger | xargs kubectl delete || true
}
function deploy_k0s() {
if [[ "${CONTAINER_RUNTIME}" == "crio" ]]; then
url=$(get_from_kata_deps ".externals.k0s.url")
k0s_version_param=""
version=$(get_from_kata_deps ".externals.k0s.version")
if [[ -n "${version}" ]]; then
k0s_version_param="K0S_VERSION=${version}"
fi
curl -sSLf "${url}" | sudo "${k0s_version_param}" sh
else
curl -sSLf -sSLf https://get.k0s.sh | sudo sh
fi
# In this case we explicitly want word splitting when calling k0s
# with extra parameters.
# shellcheck disable=SC2086
sudo k0s install controller --single ${KUBERNETES_EXTRA_PARAMS:-}
# kube-router decided to use :8080 for its metrics, and this seems
# to be a change that affected k0s 1.30.0+, leading to kube-router
# pod crashing all the time and anything can actually be started
# after that.
#
# Due to this issue, let's simply use a different port (:9999) and
# move on with our tests.
sudo mkdir -p /etc/k0s
k0s config create | sudo tee /etc/k0s/k0s.yaml
sudo sed -i -e "s/metricsPort: 8080/metricsPort: 9999/g" /etc/k0s/k0s.yaml
sudo k0s start
# This is an arbitrary value that came up from local tests
sleep 120s
# Download the kubectl binary into /usr/bin so we can avoid depending
# on `k0s kubectl` command
ARCH=$(arch_to_golang)
kubectl_version=$(sudo k0s kubectl version 2>/dev/null | grep "Client Version" | sed -e 's/Client Version: //')
sudo curl -fL --progress-bar -o /usr/bin/kubectl https://dl.k8s.io/release/"${kubectl_version}"/bin/linux/"${ARCH}"/kubectl
sudo chmod +x /usr/bin/kubectl
mkdir -p ~/.kube
sudo cp /var/lib/k0s/pki/admin.conf ~/.kube/config
sudo chown "${USER}":"${USER}" ~/.kube/config
}
function deploy_k3s() {
curl -sfL https://get.k3s.io | sh -s - --write-kubeconfig-mode 644
# This is an arbitrary value that came up from local tests
sleep 120s
# Download the kubectl binary into /usr/bin and remove /usr/local/bin/kubectl
#
# We need to do this to avoid hitting issues like:
# ```sh
# error: open /etc/rancher/k3s/k3s.yaml.lock: permission denied
# ```
# Which happens basically because k3s links `/usr/local/bin/kubectl`
# to `/usr/local/bin/k3s`, and that does extra stuff that vanilla
# `kubectl` doesn't do.
ARCH=$(arch_to_golang)
kubectl_version=$(/usr/local/bin/k3s kubectl version --client=true 2>/dev/null | grep "Client Version" | sed -e 's/Client Version: //' -e 's/+k3s[0-9]\+//')
sudo curl -fL --progress-bar -o /usr/bin/kubectl https://dl.k8s.io/release/"${kubectl_version}"/bin/linux/"${ARCH}"/kubectl
sudo chmod +x /usr/bin/kubectl
sudo rm -rf /usr/local/bin/kubectl
mkdir -p ~/.kube
cp /etc/rancher/k3s/k3s.yaml ~/.kube/config
}
function create_cluster_kcli() {
CLUSTER_NAME="${CLUSTER_NAME:-kata-k8s}"
delete_cluster_kcli || true
kcli create kube "${KUBE_TYPE:-generic}" \
-P domain="kata.com" \
-P pool="${LIBVIRT_POOL:-default}" \
-P ctlplanes="${CLUSTER_CONTROL_NODES:-1}" \
-P workers="${CLUSTER_WORKERS:-1}" \
-P network="${LIBVIRT_NETWORK:-default}" \
-P image="${CLUSTER_IMAGE:-ubuntu2204}" \
-P sdn=flannel \
-P nfs=false \
-P disk_size="${CLUSTER_DISK_SIZE:-20}" \
"${CLUSTER_NAME}"
export KUBECONFIG="${HOME}/.kcli/clusters/${CLUSTER_NAME}/auth/kubeconfig"
local cmd="kubectl get nodes | grep '.*worker.*\<Ready\>'"
echo "Wait at least one worker be Ready"
if ! waitForProcess "330" "30" "${cmd}"; then
echo "ERROR: worker nodes not ready."
kubectl get nodes
return 1
fi
# Ensure that system pods are running or completed.
cmd="[ \$(kubectl get pods -A --no-headers | grep -v 'Running\|Completed' | wc -l) -eq 0 ]"
echo "Wait system pods be running or completed"
if ! waitForProcess "90" "30" "${cmd}"; then
echo "ERROR: not all pods are Running or Completed."
kubectl get pods -A
return 1
fi
}
function deploy_rke2() {
curl -sfL https://get.rke2.io | sudo sh -
sudo systemctl enable --now rke2-server.service
# This is an arbitrary value that came up from local tests
sleep 120s
# Link the kubectl binary into /usr/bin
sudo ln -sf /var/lib/rancher/rke2/bin/kubectl /usr/local/bin/kubectl
mkdir -p ~/.kube
sudo cp /etc/rancher/rke2/rke2.yaml ~/.kube/config
sudo chown "${USER}":"${USER}" ~/.kube/config
}
function deploy_microk8s() {
sudo snap install microk8s --classic
sudo usermod -a -G microk8s "${USER}"
mkdir -p ~/.kube
# As we want to call microk8s with sudo, we're safe to ignore SC2024 here
# shellcheck disable=SC2024
sudo microk8s kubectl config view --raw > ~/.kube/config
sudo chown "${USER}":"${USER}" ~/.kube/config
# These are arbitrary values
sudo microk8s status --wait-ready --timeout 300
# install kubectl
ARCH=$(arch_to_golang)
kubectl_version=$(sudo microk8s version | grep -oe 'v[0-9]\+\(\.[0-9]\+\)*')
sudo curl -fL --progress-bar -o /usr/bin/kubectl https://dl.k8s.io/release/"${kubectl_version}"/bin/linux/"${ARCH}"/kubectl
sudo chmod +x /usr/bin/kubectl
sudo rm -rf /usr/local/bin/kubectl
}
function _get_k0s_kubernetes_version_for_crio() {
# k0s version will look like:
# v1.27.5+k0s.0
#
# The CRI-O repo for such version of Kubernetes expects something like:
# 1.27
k0s_version=$(get_from_kata_deps ".externals.k0s.version")
# Remove everything after the second '.'
crio_version=${k0s_version%\.*+*}
# Remove the 'v'
crio_version=${crio_version#v}
echo "${crio_version}"
}
function setup_crio() {
# Get the CRI-O version to be installed depending on the version of the
# "k8s distro" that we are using
case "${KUBERNETES}" in
k0s) crio_version=$(_get_k0s_kubernetes_version_for_crio) ;;
*) >&2 echo "${KUBERNETES} flavour is not supported with CRI-O"; exit 2 ;;
esac
install_crio "${crio_version}"
}
function deploy_k8s() {
echo "::group::Deploying ${KUBERNETES}"
case "${KUBERNETES}" in
k0s) deploy_k0s ;;
k3s) deploy_k3s ;;
rke2) deploy_rke2 ;;
microk8s) deploy_microk8s ;;
*) >&2 echo "${KUBERNETES} flavour is not supported"; exit 2 ;;
esac
echo "::endgroup::"
}
function set_test_cluster_namespace() {
# Delete any spurious tests namespace that was left behind
kubectl delete namespace "${TEST_CLUSTER_NAMESPACE}" &> /dev/null || true
# Create a new namespace for the tests and switch to it
kubectl apply -f "${kubernetes_dir}/runtimeclass_workloads/tests-namespace.yaml"
kubectl config set-context --current --namespace="${TEST_CLUSTER_NAMESPACE}"
}
function set_default_cluster_namespace() {
kubectl config set-context --current --namespace=default
}
function delete_test_cluster_namespace() {
kubectl delete namespace "${TEST_CLUSTER_NAMESPACE}"
set_default_cluster_namespace
}
function delete_test_runners(){
echo "Delete test scripts"
local scripts_names=( "run_kubernetes_tests.sh" "bats" )
for script_name in "${scripts_names[@]}"; do
pids=$(pgrep -f "${script_name}")
if [[ -n "${pids}" ]]; then
echo "${pids}" | xargs sudo kill -SIGTERM >/dev/null 2>&1 || true
fi
done
}
function helm_helper() {
local max_tries
local interval
local i
local values_yaml
ensure_yq
ensure_helm
values_yaml=$(mktemp -t values_yaml.XXXXXX)
if [[ -z "${HELM_IMAGE_REFERENCE}" ]]; then
die "HELM_IMAGE_REFERENCE environment variable cannot be empty."
fi
yq -i ".image.reference = \"${HELM_IMAGE_REFERENCE}\"" "${values_yaml}"
if [[ -z "${HELM_IMAGE_TAG}" ]]; then
die "HELM_IMAGE_TAG environment variable cannot be empty."
fi
yq -i ".image.tag = \"${HELM_IMAGE_TAG}\"" "${values_yaml}"
[[ -n "${HELM_K8S_DISTRIBUTION}" ]] && yq -i ".k8sDistribution = \"${HELM_K8S_DISTRIBUTION}\"" "${values_yaml}"
if [[ "${HELM_DEFAULT_INSTALLATION}" = "false" ]]; then
[[ -n "${HELM_DEBUG}" ]] && yq -i ".env.debug = \"${HELM_DEBUG}\"" "${values_yaml}"
[[ -n "${HELM_SHIMS}" ]] && yq -i ".env.shims = \"${HELM_SHIMS}\"" "${values_yaml}"
[[ -n "${HELM_DEFAULT_SHIM}" ]] && yq -i ".env.defaultShim = \"${HELM_DEFAULT_SHIM}\"" "${values_yaml}"
[[ -n "${HELM_CREATE_RUNTIME_CLASSES}" ]] && yq -i ".env.createRuntimeClasses = \"${HELM_CREATE_RUNTIME_CLASSES}\"" "${values_yaml}"
[[ -n "${HELM_CREATE_DEFAULT_RUNTIME_CLASS}" ]] && yq -i ".env.createDefaultRuntimeClass = \"${HELM_CREATE_DEFAULT_RUNTIME_CLASS}\"" "${values_yaml}"
[[ -n "${HELM_ALLOWED_HYPERVISOR_ANNOTATIONS}" ]] && yq -i ".env.allowedHypervisorAnnotations = \"${HELM_ALLOWED_HYPERVISOR_ANNOTATIONS}\"" "${values_yaml}"
[[ -n "${HELM_SNAPSHOTTER_HANDLER_MAPPING}" ]] && yq -i ".env.snapshotterHandlerMapping = \"${HELM_SNAPSHOTTER_HANDLER_MAPPING}\"" "${values_yaml}"
[[ -n "${HELM_AGENT_HTTPS_PROXY}" ]] && yq -i ".env.agentHttpsProxy = \"${HELM_AGENT_HTTPS_PROXY}\"" "${values_yaml}"
[[ -n "${HELM_AGENT_NO_PROXY}" ]] && yq -i ".env.agentNoProxy = \"${HELM_AGENT_NO_PROXY}\"" "${values_yaml}"
[[ -n "${HELM_PULL_TYPE_MAPPING}" ]] && yq -i ".env.pullTypeMapping = \"${HELM_PULL_TYPE_MAPPING}\"" "${values_yaml}"
[[ -n "${HELM_HOST_OS}" ]] && yq -i ".env.hostOS=\"${HELM_HOST_OS}\"" "${values_yaml}"
fi
echo "::group::Final kata-deploy manifests used in the test"
cat "${values_yaml}"
echo ""
helm template "${helm_chart_dir}" --values "${values_yaml}" --namespace kube-system
[[ "$(yq .image.reference "${values_yaml}")" = "${HELM_IMAGE_REFERENCE}" ]] || die "Failed to set image reference"
[[ "$(yq .image.tag "${values_yaml}")" = "${HELM_IMAGE_TAG}" ]] || die "Failed to set image tag"
echo "::endgroup::"
max_tries=3
interval=10
i=10
# Retry loop for helm install to prevent transient failures due to instantly unreachable cluster
set +e # Disable immediate exit on failure
while true; do
helm upgrade --install kata-deploy "${helm_chart_dir}" --values "${values_yaml}" --namespace kube-system --debug
ret=${?}
if [[ ${ret} -eq 0 ]]; then
echo "Helm install succeeded!"
break
fi
i=$((i+1))
if [[ ${i} -lt ${max_tries} ]]; then
echo "Retrying after ${interval} seconds (Attempt ${i} of $((max_tries - 1)))"
else
break
fi
sleep "${interval}"
done
set -e # Re-enable immediate exit on failure
if [[ ${i} -eq ${max_tries} ]]; then
die "Failed to deploy kata-deploy after ${max_tries} tries"
fi
# `helm install --wait` does not take effect on single replicas and maxUnavailable=1 DaemonSets
# like kata-deploy on CI. So wait for pods being Running in the "traditional" way.
local cmd
cmd="kubectl -n kube-system get -l name=kata-deploy pod 2>/dev/null | grep '\<Running\>'"
waitForProcess "${KATA_DEPLOY_WAIT_TIMEOUT}" 10 "${cmd}"
# FIXME: This is needed as the kata-deploy pod will be set to "Ready"
# when it starts running, which may cause issues like not having the
# node properly labeled or the artefacts properly deployed when the
# tests actually start running.
sleep 60s
echo "::group::kata-deploy logs"
kubectl_retry -n kube-system logs --tail=100 -l name=kata-deploy
echo "::endgroup::"
echo "::group::Runtime classes"
kubectl_retry get runtimeclass
echo "::endgroup::"
}