#!/bin/bash # Copyright 2016 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. # Due to the GCE custom metadata size limit, we split the entire script into two # files configure.sh and configure-helper.sh. The functionality of downloading # kubernetes configuration, manifests, docker images, and binary files are # put in configure.sh, which is uploaded via GCE custom metadata. set -o errexit set -o nounset set -o pipefail ### Hardcoded constants DEFAULT_CNI_VERSION="v0.6.0" DEFAULT_CNI_SHA1="d595d3ded6499a64e8dac02466e2f5f2ce257c9f" DEFAULT_NPD_VERSION="v0.4.1" DEFAULT_NPD_SHA1="a57a3fe64cab8a18ec654f5cef0aec59dae62568" DEFAULT_MOUNTER_TAR_SHA="8003b798cf33c7f91320cd6ee5cec4fa22244571" ### # Use --retry-connrefused opt only if it's supported by curl. CURL_RETRY_CONNREFUSED="" if curl --help | grep -q -- '--retry-connrefused'; then CURL_RETRY_CONNREFUSED='--retry-connrefused' fi function set-broken-motd { cat > /etc/motd < "${KUBE_HOME}/kube-env") rm -f "${tmp_kube_env}" ) } function download-kube-master-certs { # Fetch kube-env from GCE metadata server. (umask 700; local -r tmp_kube_master_certs="/tmp/kube-master-certs.yaml" curl --fail --retry 5 --retry-delay 3 ${CURL_RETRY_CONNREFUSED} --silent --show-error \ -H "X-Google-Metadata-Request: True" \ -o "${tmp_kube_master_certs}" \ http://metadata.google.internal/computeMetadata/v1/instance/attributes/kube-master-certs # Convert the yaml format file into a shell-style file. eval $(python -c ''' import pipes,sys,yaml for k,v in yaml.load(sys.stdin).iteritems(): print("readonly {var}={value}".format(var = k, value = pipes.quote(str(v)))) ''' < "${tmp_kube_master_certs}" > "${KUBE_HOME}/kube-master-certs") rm -f "${tmp_kube_master_certs}" ) } function validate-hash { local -r file="$1" local -r expected="$2" actual=$(sha1sum ${file} | awk '{ print $1 }') || true if [[ "${actual}" != "${expected}" ]]; then echo "== ${file} corrupted, sha1 ${actual} doesn't match expected ${expected} ==" return 1 fi } # Retry a download until we get it. Takes a hash and a set of URLs. # # $1 is the sha1 of the URL. Can be "" if the sha1 is unknown. # $2+ are the URLs to download. function download-or-bust { local -r hash="$1" shift 1 local -r urls=( $* ) while true; do for url in "${urls[@]}"; do local file="${url##*/}" rm -f "${file}" if ! curl -f --ipv4 -Lo "${file}" --connect-timeout 20 --max-time 300 --retry 6 --retry-delay 10 ${CURL_RETRY_CONNREFUSED} "${url}"; then echo "== Failed to download ${url}. Retrying. ==" elif [[ -n "${hash}" ]] && ! validate-hash "${file}" "${hash}"; then echo "== Hash validation of ${url} failed. Retrying. ==" else if [[ -n "${hash}" ]]; then echo "== Downloaded ${url} (SHA1 = ${hash}) ==" else echo "== Downloaded ${url} ==" fi return fi done done } function is-preloaded { local -r key=$1 local -r value=$2 grep -qs "${key},${value}" "${KUBE_HOME}/preload_info" } function split-commas { echo $1 | tr "," "\n" } function remount-flexvolume-directory { local -r flexvolume_plugin_dir=$1 mkdir -p $flexvolume_plugin_dir mount --bind $flexvolume_plugin_dir $flexvolume_plugin_dir mount -o remount,exec $flexvolume_plugin_dir } function install-gci-mounter-tools { CONTAINERIZED_MOUNTER_HOME="${KUBE_HOME}/containerized_mounter" local -r mounter_tar_sha="${DEFAULT_MOUNTER_TAR_SHA}" if is-preloaded "mounter" "${mounter_tar_sha}"; then echo "mounter is preloaded." return fi echo "Downloading gci mounter tools." mkdir -p "${CONTAINERIZED_MOUNTER_HOME}" chmod a+x "${CONTAINERIZED_MOUNTER_HOME}" mkdir -p "${CONTAINERIZED_MOUNTER_HOME}/rootfs" download-or-bust "${mounter_tar_sha}" "https://storage.googleapis.com/kubernetes-release/gci-mounter/mounter.tar" cp "${KUBE_HOME}/kubernetes/server/bin/mounter" "${CONTAINERIZED_MOUNTER_HOME}/mounter" chmod a+x "${CONTAINERIZED_MOUNTER_HOME}/mounter" mv "${KUBE_HOME}/mounter.tar" /tmp/mounter.tar tar xf /tmp/mounter.tar -C "${CONTAINERIZED_MOUNTER_HOME}/rootfs" rm /tmp/mounter.tar mkdir -p "${CONTAINERIZED_MOUNTER_HOME}/rootfs/var/lib/kubelet" } # Install node problem detector binary. function install-node-problem-detector { if [[ -n "${NODE_PROBLEM_DETECTOR_VERSION:-}" ]]; then local -r npd_version="${NODE_PROBLEM_DETECTOR_VERSION}" local -r npd_sha1="${NODE_PROBLEM_DETECTOR_TAR_HASH}" else local -r npd_version="${DEFAULT_NPD_VERSION}" local -r npd_sha1="${DEFAULT_NPD_SHA1}" fi if is-preloaded "node-problem-detector" "${npd_sha1}"; then echo "node-problem-detector is preloaded." return fi echo "Downloading node problem detector." local -r npd_release_path="https://storage.googleapis.com/kubernetes-release" local -r npd_tar="node-problem-detector-${npd_version}.tar.gz" download-or-bust "${npd_sha1}" "${npd_release_path}/node-problem-detector/${npd_tar}" local -r npd_dir="${KUBE_HOME}/node-problem-detector" mkdir -p "${npd_dir}" tar xzf "${KUBE_HOME}/${npd_tar}" -C "${npd_dir}" --overwrite mv "${npd_dir}/bin"/* "${KUBE_BIN}" chmod a+x "${KUBE_BIN}/node-problem-detector" rmdir "${npd_dir}/bin" rm -f "${KUBE_HOME}/${npd_tar}" } function install-cni-binaries { local -r cni_tar="cni-plugins-amd64-${DEFAULT_CNI_VERSION}.tgz" local -r cni_sha1="${DEFAULT_CNI_SHA1}" if is-preloaded "${cni_tar}" "${cni_sha1}"; then echo "${cni_tar} is preloaded." return fi echo "Downloading cni binaries" download-or-bust "${cni_sha1}" "https://storage.googleapis.com/kubernetes-release/network-plugins/${cni_tar}" local -r cni_dir="${KUBE_HOME}/cni" mkdir -p "${cni_dir}/bin" tar xzf "${KUBE_HOME}/${cni_tar}" -C "${cni_dir}/bin" --overwrite mv "${cni_dir}/bin"/* "${KUBE_BIN}" rmdir "${cni_dir}/bin" rm -f "${KUBE_HOME}/${cni_tar}" } function install-kube-manifests { # Put kube-system pods manifests in ${KUBE_HOME}/kube-manifests/. local dst_dir="${KUBE_HOME}/kube-manifests" mkdir -p "${dst_dir}" local -r manifests_tar_urls=( $(split-commas "${KUBE_MANIFESTS_TAR_URL}") ) local -r manifests_tar="${manifests_tar_urls[0]##*/}" if [ -n "${KUBE_MANIFESTS_TAR_HASH:-}" ]; then local -r manifests_tar_hash="${KUBE_MANIFESTS_TAR_HASH}" else echo "Downloading k8s manifests sha1 (not found in env)" download-or-bust "" "${manifests_tar_urls[@]/.tar.gz/.tar.gz.sha1}" local -r manifests_tar_hash=$(cat "${manifests_tar}.sha1") fi if is-preloaded "${manifests_tar}" "${manifests_tar_hash}"; then echo "${manifests_tar} is preloaded." return fi echo "Downloading k8s manifests tar" download-or-bust "${manifests_tar_hash}" "${manifests_tar_urls[@]}" tar xzf "${KUBE_HOME}/${manifests_tar}" -C "${dst_dir}" --overwrite local -r kube_addon_registry="${KUBE_ADDON_REGISTRY:-k8s.gcr.io}" if [[ "${kube_addon_registry}" != "k8s.gcr.io" ]]; then find "${dst_dir}" -name \*.yaml -or -name \*.yaml.in | \ xargs sed -ri "s@(image:\s.*)k8s.gcr.io@\1${kube_addon_registry}@" find "${dst_dir}" -name \*.manifest -or -name \*.json | \ xargs sed -ri "s@(image\":\s+\")k8s.gcr.io@\1${kube_addon_registry}@" fi cp "${dst_dir}/kubernetes/gci-trusty/gci-configure-helper.sh" "${KUBE_BIN}/configure-helper.sh" cp "${dst_dir}/kubernetes/gci-trusty/health-monitor.sh" "${KUBE_BIN}/health-monitor.sh" rm -f "${KUBE_HOME}/${manifests_tar}" rm -f "${KUBE_HOME}/${manifests_tar}.sha1" } # A helper function for loading a docker image. It keeps trying up to 5 times. # # $1: Full path of the docker image function try-load-docker-image { local -r img=$1 echo "Try to load docker image file ${img}" # Temporarily turn off errexit, because we don't want to exit on first failure. set +e local -r max_attempts=5 local -i attempt_num=1 until timeout 30 ${LOAD_IMAGE_COMMAND:-docker load -i} "${img}"; do if [[ "${attempt_num}" == "${max_attempts}" ]]; then echo "Fail to load docker image file ${img} after ${max_attempts} retries. Exit!!" exit 1 else attempt_num=$((attempt_num+1)) sleep 5 fi done # Re-enable errexit. set -e } # Loads kube-system docker images. It is better to do it before starting kubelet, # as kubelet will restart docker daemon, which may interfere with loading images. function load-docker-images { echo "Start loading kube-system docker images" local -r img_dir="${KUBE_HOME}/kube-docker-files" if [[ "${KUBERNETES_MASTER:-}" == "true" ]]; then try-load-docker-image "${img_dir}/kube-apiserver.tar" try-load-docker-image "${img_dir}/kube-controller-manager.tar" try-load-docker-image "${img_dir}/kube-scheduler.tar" else try-load-docker-image "${img_dir}/kube-proxy.tar" fi } # Downloads kubernetes binaries and kube-system manifest tarball, unpacks them, # and places them into suitable directories. Files are placed in /home/kubernetes. function install-kube-binary-config { cd "${KUBE_HOME}" local -r server_binary_tar_urls=( $(split-commas "${SERVER_BINARY_TAR_URL}") ) local -r server_binary_tar="${server_binary_tar_urls[0]##*/}" if [[ -n "${SERVER_BINARY_TAR_HASH:-}" ]]; then local -r server_binary_tar_hash="${SERVER_BINARY_TAR_HASH}" else echo "Downloading binary release sha1 (not found in env)" download-or-bust "" "${server_binary_tar_urls[@]/.tar.gz/.tar.gz.sha1}" local -r server_binary_tar_hash=$(cat "${server_binary_tar}.sha1") fi if is-preloaded "${server_binary_tar}" "${server_binary_tar_hash}"; then echo "${server_binary_tar} is preloaded." else echo "Downloading binary release tar" download-or-bust "${server_binary_tar_hash}" "${server_binary_tar_urls[@]}" tar xzf "${KUBE_HOME}/${server_binary_tar}" -C "${KUBE_HOME}" --overwrite # Copy docker_tag and image files to ${KUBE_HOME}/kube-docker-files. local -r src_dir="${KUBE_HOME}/kubernetes/server/bin" local dst_dir="${KUBE_HOME}/kube-docker-files" mkdir -p "${dst_dir}" cp "${src_dir}/"*.docker_tag "${dst_dir}" if [[ "${KUBERNETES_MASTER:-}" == "false" ]]; then cp "${src_dir}/kube-proxy.tar" "${dst_dir}" else cp "${src_dir}/kube-apiserver.tar" "${dst_dir}" cp "${src_dir}/kube-controller-manager.tar" "${dst_dir}" cp "${src_dir}/kube-scheduler.tar" "${dst_dir}" cp -r "${KUBE_HOME}/kubernetes/addons" "${dst_dir}" fi load-docker-images mv "${src_dir}/kubelet" "${KUBE_BIN}" mv "${src_dir}/kubectl" "${KUBE_BIN}" mv "${KUBE_HOME}/kubernetes/LICENSES" "${KUBE_HOME}" mv "${KUBE_HOME}/kubernetes/kubernetes-src.tar.gz" "${KUBE_HOME}" fi if [[ "${KUBERNETES_MASTER:-}" == "false" ]] && \ [[ "${ENABLE_NODE_PROBLEM_DETECTOR:-}" == "standalone" ]]; then install-node-problem-detector fi if [[ "${NETWORK_PROVIDER:-}" == "kubenet" ]] || \ [[ "${NETWORK_PROVIDER:-}" == "cni" ]]; then install-cni-binaries fi # Put kube-system pods manifests in ${KUBE_HOME}/kube-manifests/. install-kube-manifests chmod -R 755 "${KUBE_BIN}" # Install gci mounter related artifacts to allow mounting storage volumes in GCI install-gci-mounter-tools # Remount the Flexvolume directory with the "exec" option, if needed. if [[ "${REMOUNT_VOLUME_PLUGIN_DIR:-}" == "true" && -n "${VOLUME_PLUGIN_DIR:-}" ]]; then remount-flexvolume-directory "${VOLUME_PLUGIN_DIR}" fi # Clean up. rm -rf "${KUBE_HOME}/kubernetes" rm -f "${KUBE_HOME}/${server_binary_tar}" rm -f "${KUBE_HOME}/${server_binary_tar}.sha1" } ######### Main Function ########## echo "Start to install kubernetes files" set-broken-motd KUBE_HOME="/home/kubernetes" KUBE_BIN="${KUBE_HOME}/bin" download-kube-env source "${KUBE_HOME}/kube-env" if [[ "${KUBERNETES_MASTER:-}" == "true" ]]; then download-kube-master-certs fi install-kube-binary-config echo "Done for installing kubernetes files"