#!/bin/bash # Copyright 2014 The Kubernetes Authors. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # Script to test cluster/update-storage-objects.sh works as expected. set -o errexit set -o nounset set -o pipefail KUBE_ROOT=$(dirname "${BASH_SOURCE}")/.. source "${KUBE_ROOT}/hack/lib/init.sh" # The api version in which objects are currently stored in etcd. KUBE_OLD_API_VERSION=${KUBE_OLD_API_VERSION:-"v1"} # The api version in which our etcd objects should be converted to. # The new api version KUBE_NEW_API_VERSION=${KUBE_NEW_API_VERSION:-"v1"} KUBE_OLD_STORAGE_VERSIONS=${KUBE_OLD_STORAGE_VERSIONS:-""} KUBE_NEW_STORAGE_VERSIONS=${KUBE_NEW_STORAGE_VERSIONS:-""} KUBE_STORAGE_MEDIA_TYPE_JSON="application/json" KUBE_STORAGE_MEDIA_TYPE_PROTOBUF="application/vnd.kubernetes.protobuf" ETCD_HOST=${ETCD_HOST:-127.0.0.1} ETCD_PORT=${ETCD_PORT:-2379} ETCD_PREFIX=${ETCD_PREFIX:-randomPrefix} API_PORT=${API_PORT:-8080} API_HOST=${API_HOST:-127.0.0.1} KUBE_API_VERSIONS="" RUNTIME_CONFIG="" ETCDCTL=$(which etcdctl) KUBECTL="${KUBE_OUTPUT_HOSTBIN}/kubectl" UPDATE_ETCD_OBJECTS_SCRIPT="${KUBE_ROOT}/cluster/update-storage-objects.sh" function startApiServer() { local storage_versions=${1:-""} local storage_media_type=${2:-""} kube::log::status "Starting kube-apiserver with KUBE_API_VERSIONS: ${KUBE_API_VERSIONS}" kube::log::status " and storage-media-type: ${storage_media_type}" kube::log::status " and runtime-config: ${RUNTIME_CONFIG}" kube::log::status " and storage-version overrides: ${storage_versions}" KUBE_API_VERSIONS="${KUBE_API_VERSIONS}" \ "${KUBE_OUTPUT_HOSTBIN}/kube-apiserver" \ --insecure-bind-address="${API_HOST}" \ --bind-address="${API_HOST}" \ --insecure-port="${API_PORT}" \ --storage-backend="etcd3" \ --etcd-servers="http://${ETCD_HOST}:${ETCD_PORT}" \ --etcd-prefix="/${ETCD_PREFIX}" \ --runtime-config="${RUNTIME_CONFIG}" \ --cert-dir="${TMPDIR:-/tmp/}" \ --service-cluster-ip-range="10.0.0.0/24" \ --storage-versions="${storage_versions}" \ --storage-media-type=${storage_media_type} 1>&2 & APISERVER_PID=$! # url, prefix, wait, times kube::util::wait_for_url "http://${API_HOST}:${API_PORT}/healthz" "apiserver: " 1 120 } function killApiServer() { kube::log::status "Killing api server" if [[ -n ${APISERVER_PID-} ]]; then kill ${APISERVER_PID} 1>&2 2>/dev/null wait ${APISERVER_PID} || true kube::log::status "api server exited" fi unset APISERVER_PID } function cleanup() { killApiServer kube::etcd::cleanup kube::log::status "Clean up complete" } trap cleanup EXIT SIGINT make -C "${KUBE_ROOT}" WHAT=cmd/kube-apiserver make -C "${KUBE_ROOT}" WHAT=cluster/images/etcd/attachlease kube::etcd::start echo "${ETCD_VERSION}" > "${ETCD_DIR}/version.txt" ### BEGIN TEST DEFINITION CUSTOMIZATION ### # source_file,resource,namespace,name,old_version,new_version tests=( examples/persistent-volume-provisioning/rbd/rbd-storage-class.yaml,storageclasses,,slow,v1beta1,v1 ) KUBE_OLD_API_VERSION="networking.k8s.io/v1,storage.k8s.io/v1beta1,extensions/v1beta1" KUBE_NEW_API_VERSION="networking.k8s.io/v1,storage.k8s.io/v1,extensions/v1beta1" KUBE_OLD_STORAGE_VERSIONS="storage.k8s.io/v1beta1" KUBE_NEW_STORAGE_VERSIONS="storage.k8s.io/v1" ### END TEST DEFINITION CUSTOMIZATION ### ####################################################### # Step 1: Start a server which supports both the old and new api versions, # but KUBE_OLD_API_VERSION is the latest (storage) version. # Additionally use KUBE_STORAGE_MEDIA_TYPE_JSON for storage encoding. ####################################################### KUBE_API_VERSIONS="v1,${KUBE_OLD_API_VERSION},${KUBE_NEW_API_VERSION}" RUNTIME_CONFIG="api/all=false,api/v1=true,${KUBE_OLD_API_VERSION}=true,${KUBE_NEW_API_VERSION}=true" startApiServer ${KUBE_OLD_STORAGE_VERSIONS} ${KUBE_STORAGE_MEDIA_TYPE_JSON} # Create object(s) for test in ${tests[@]}; do IFS=',' read -ra test_data <<<"$test" source_file=${test_data[0]} kube::log::status "Creating ${source_file}" ${KUBECTL} create -f "${source_file}" # Verify that the storage version is the old version resource=${test_data[1]} namespace=${test_data[2]} name=${test_data[3]} old_storage_version=${test_data[4]} if [ -n "${namespace}" ]; then namespace="${namespace}/" fi kube::log::status "Verifying ${resource}/${namespace}${name} has storage version ${old_storage_version} in etcd" ETCDCTL_API=3 ${ETCDCTL} --endpoints="http://${ETCD_HOST}:${ETCD_PORT}" get "/${ETCD_PREFIX}/${resource}/${namespace}${name}" | grep ${old_storage_version} done killApiServer ####################################################### # Step 2: Start a server which supports both the old and new api versions, # but KUBE_NEW_API_VERSION is the latest (storage) version. # Still use KUBE_STORAGE_MEDIA_TYPE_JSON for storage encoding. ####################################################### KUBE_API_VERSIONS="v1,${KUBE_NEW_API_VERSION},${KUBE_OLD_API_VERSION}" RUNTIME_CONFIG="api/all=false,api/v1=true,${KUBE_OLD_API_VERSION}=true,${KUBE_NEW_API_VERSION}=true" startApiServer ${KUBE_NEW_STORAGE_VERSIONS} ${KUBE_STORAGE_MEDIA_TYPE_JSON} # Update etcd objects, so that will now be stored in the new api version. kube::log::status "Updating storage versions in etcd" ${UPDATE_ETCD_OBJECTS_SCRIPT} # Verify that the storage version was changed in etcd for test in ${tests[@]}; do IFS=',' read -ra test_data <<<"$test" resource=${test_data[1]} namespace=${test_data[2]} name=${test_data[3]} new_storage_version=${test_data[5]} if [ -n "${namespace}" ]; then namespace="${namespace}/" fi kube::log::status "Verifying ${resource}/${namespace}${name} has updated storage version ${new_storage_version} in etcd" ETCDCTL_API=3 ${ETCDCTL} --endpoints="http://${ETCD_HOST}:${ETCD_PORT}" get "/${ETCD_PREFIX}/${resource}/${namespace}${name}" | grep ${new_storage_version} done killApiServer ####################################################### # Step 3 : Start a server which supports only the new api version. # However, change storage encoding to KUBE_STORAGE_MEDIA_TYPE_PROTOBUF. ####################################################### KUBE_API_VERSIONS="v1,${KUBE_NEW_API_VERSION}" RUNTIME_CONFIG="api/all=false,api/v1=true,${KUBE_NEW_API_VERSION}=true" # This seems to reduce flakiness. sleep 1 startApiServer ${KUBE_NEW_STORAGE_VERSIONS} ${KUBE_STORAGE_MEDIA_TYPE_PROTOBUF} for test in ${tests[@]}; do IFS=',' read -ra test_data <<<"$test" resource=${test_data[1]} namespace=${test_data[2]} name=${test_data[3]} namespace_flag="" # Verify that the server is able to read the object. if [ -n "${namespace}" ]; then namespace_flag="--namespace=${namespace}" namespace="${namespace}/" fi kube::log::status "Verifying we can retrieve ${resource}/${namespace}${name} via kubectl" # We have to remove the cached discovery information about the old version; otherwise, # the 'kubectl get' will use that and fail to find the resource. rm -rf ${HOME}/.kube/cache/discovery/localhost_8080/${KUBE_OLD_STORAGE_VERSIONS} ${KUBECTL} get ${namespace_flag} ${resource}/${name} done killApiServer