#!/bin/bash # Copyright 2015 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. # Common utilites for kube-up/kube-down set -o errexit set -o nounset set -o pipefail KUBE_ROOT=$(cd $(dirname "${BASH_SOURCE}")/.. && pwd) DEFAULT_KUBECONFIG="${HOME}/.kube/config" source "${KUBE_ROOT}/cluster/lib/util.sh" source "${KUBE_ROOT}/cluster/lib/logging.sh" # KUBE_RELEASE_VERSION_REGEX matches things like "v1.2.3" or "v1.2.3-alpha.4" # # NOTE This must match the version_regex in build/common.sh # kube::release::parse_and_validate_release_version() KUBE_RELEASE_VERSION_REGEX="^v(0|[1-9][0-9]*)\\.(0|[1-9][0-9]*)\\.(0|[1-9][0-9]*)(-(beta|alpha)\\.(0|[1-9][0-9]*))?$" KUBE_RELEASE_VERSION_DASHED_REGEX="v(0|[1-9][0-9]*)-(0|[1-9][0-9]*)-(0|[1-9][0-9]*)(-(beta|alpha)-(0|[1-9][0-9]*))?" # KUBE_CI_VERSION_REGEX matches things like "v1.2.3-alpha.4.56+abcdefg" This # # NOTE This must match the version_regex in build/common.sh # kube::release::parse_and_validate_ci_version() KUBE_CI_VERSION_REGEX="^v(0|[1-9][0-9]*)\\.(0|[1-9][0-9]*)\\.(0|[1-9][0-9]*)-(beta|alpha)\\.(0|[1-9][0-9]*)(\\.(0|[1-9][0-9]*)\\+[-0-9a-z]*)?$" KUBE_CI_VERSION_DASHED_REGEX="^v(0|[1-9][0-9]*)-(0|[1-9][0-9]*)-(0|[1-9][0-9]*)-(beta|alpha)-(0|[1-9][0-9]*)(-(0|[1-9][0-9]*)\\+[-0-9a-z]*)?" # Generate kubeconfig data for the created cluster. # Assumed vars: # KUBE_USER # KUBE_PASSWORD # KUBE_MASTER_IP # KUBECONFIG # CONTEXT # # If the apiserver supports bearer auth, also provide: # KUBE_BEARER_TOKEN # # If the kubeconfig context being created should NOT be set as the current context # SECONDARY_KUBECONFIG=true # # To explicitly name the context being created, use OVERRIDE_CONTEXT # # The following can be omitted for --insecure-skip-tls-verify # KUBE_CERT # KUBE_KEY # CA_CERT function create-kubeconfig() { KUBECONFIG=${KUBECONFIG:-$DEFAULT_KUBECONFIG} local kubectl="${KUBE_ROOT}/cluster/kubectl.sh" SECONDARY_KUBECONFIG=${SECONDARY_KUBECONFIG:-} OVERRIDE_CONTEXT=${OVERRIDE_CONTEXT:-} if [[ "$OVERRIDE_CONTEXT" != "" ]];then CONTEXT=$OVERRIDE_CONTEXT fi # KUBECONFIG determines the file we write to, but it may not exist yet OLD_IFS=$IFS IFS=':' for cfg in ${KUBECONFIG} ; do if [[ ! -e "${cfg}" ]]; then mkdir -p "$(dirname "${cfg}")" touch "${cfg}" fi done IFS=$OLD_IFS local cluster_args=( "--server=${KUBE_SERVER:-https://${KUBE_MASTER_IP}}" ) if [[ -z "${CA_CERT:-}" ]]; then cluster_args+=("--insecure-skip-tls-verify=true") else cluster_args+=( "--certificate-authority=${CA_CERT}" "--embed-certs=true" ) fi local user_args=() if [[ ! -z "${KUBE_BEARER_TOKEN:-}" ]]; then user_args+=( "--token=${KUBE_BEARER_TOKEN}" ) elif [[ ! -z "${KUBE_USER:-}" && ! -z "${KUBE_PASSWORD:-}" ]]; then user_args+=( "--username=${KUBE_USER}" "--password=${KUBE_PASSWORD}" ) fi if [[ ! -z "${KUBE_CERT:-}" && ! -z "${KUBE_KEY:-}" ]]; then user_args+=( "--client-certificate=${KUBE_CERT}" "--client-key=${KUBE_KEY}" "--embed-certs=true" ) fi KUBECONFIG="${KUBECONFIG}" "${kubectl}" config set-cluster "${CONTEXT}" "${cluster_args[@]}" if [[ -n "${user_args[@]:-}" ]]; then KUBECONFIG="${KUBECONFIG}" "${kubectl}" config set-credentials "${CONTEXT}" "${user_args[@]}" fi KUBECONFIG="${KUBECONFIG}" "${kubectl}" config set-context "${CONTEXT}" --cluster="${CONTEXT}" --user="${CONTEXT}" if [[ "${SECONDARY_KUBECONFIG}" != "true" ]];then KUBECONFIG="${KUBECONFIG}" "${kubectl}" config use-context "${CONTEXT}" --cluster="${CONTEXT}" fi # If we have a bearer token, also create a credential entry with basic auth # so that it is easy to discover the basic auth password for your cluster # to use in a web browser. if [[ ! -z "${KUBE_BEARER_TOKEN:-}" && ! -z "${KUBE_USER:-}" && ! -z "${KUBE_PASSWORD:-}" ]]; then KUBECONFIG="${KUBECONFIG}" "${kubectl}" config set-credentials "${CONTEXT}-basic-auth" "--username=${KUBE_USER}" "--password=${KUBE_PASSWORD}" fi echo "Wrote config for ${CONTEXT} to ${KUBECONFIG}" } # Clear kubeconfig data for a context # Assumed vars: # KUBECONFIG # CONTEXT # # To explicitly name the context being removed, use OVERRIDE_CONTEXT function clear-kubeconfig() { export KUBECONFIG=${KUBECONFIG:-$DEFAULT_KUBECONFIG} OVERRIDE_CONTEXT=${OVERRIDE_CONTEXT:-} if [[ "$OVERRIDE_CONTEXT" != "" ]];then CONTEXT=$OVERRIDE_CONTEXT fi local kubectl="${KUBE_ROOT}/cluster/kubectl.sh" # Unset the current-context before we delete it, as otherwise kubectl errors. local cc=$("${kubectl}" config view -o jsonpath='{.current-context}') if [[ "${cc}" == "${CONTEXT}" ]]; then "${kubectl}" config unset current-context fi "${kubectl}" config unset "clusters.${CONTEXT}" "${kubectl}" config unset "users.${CONTEXT}" "${kubectl}" config unset "users.${CONTEXT}-basic-auth" "${kubectl}" config unset "contexts.${CONTEXT}" echo "Cleared config for ${CONTEXT} from ${KUBECONFIG}" } # Creates a kubeconfig file with the credentials for only the current-context # cluster. This is used by federation to create secrets in test setup. function create-kubeconfig-for-federation() { if [[ "${FEDERATION:-}" == "true" ]]; then echo "creating kubeconfig for federation secret" local kubectl="${KUBE_ROOT}/cluster/kubectl.sh" local cc=$("${kubectl}" config view -o jsonpath='{.current-context}') KUBECONFIG_DIR=$(dirname ${KUBECONFIG:-$DEFAULT_KUBECONFIG}) KUBECONFIG_PATH="${KUBECONFIG_DIR}/federation/kubernetes-apiserver/${cc}" mkdir -p "${KUBECONFIG_PATH}" "${kubectl}" config view --minify --flatten > "${KUBECONFIG_PATH}/kubeconfig" fi } function tear_down_alive_resources() { local kubectl="${KUBE_ROOT}/cluster/kubectl.sh" "${kubectl}" delete deployments --all || true "${kubectl}" delete rc --all || true "${kubectl}" delete pods --all || true "${kubectl}" delete svc --all || true "${kubectl}" delete pvc --all || true } # Gets username, password for the current-context in kubeconfig, if they exist. # Assumed vars: # KUBECONFIG # if unset, defaults to global # KUBE_CONTEXT # if unset, defaults to current-context # # Vars set: # KUBE_USER # KUBE_PASSWORD # # KUBE_USER,KUBE_PASSWORD will be empty if no current-context is set, or # the current-context user does not exist or contain basicauth entries. function get-kubeconfig-basicauth() { export KUBECONFIG=${KUBECONFIG:-$DEFAULT_KUBECONFIG} local cc=$("${KUBE_ROOT}/cluster/kubectl.sh" config view -o jsonpath="{.current-context}") if [[ ! -z "${KUBE_CONTEXT:-}" ]]; then cc="${KUBE_CONTEXT}" fi local user=$("${KUBE_ROOT}/cluster/kubectl.sh" config view -o jsonpath="{.contexts[?(@.name == \"${cc}\")].context.user}") get-kubeconfig-user-basicauth "${user}" if [[ -z "${KUBE_USER:-}" || -z "${KUBE_PASSWORD:-}" ]]; then # kube-up stores username/password in a an additional kubeconfig section # suffixed with "-basic-auth". Cloudproviders like GKE store in directly # in the top level section along with the other credential information. # TODO: Handle this uniformly, either get rid of "basic-auth" or # consolidate its usage into a function across scripts in cluster/ get-kubeconfig-user-basicauth "${user}-basic-auth" fi } # Sets KUBE_USER and KUBE_PASSWORD to the username and password specified in # the kubeconfig section corresponding to $1. # # Args: # $1 kubeconfig section to look for basic auth (eg: user or user-basic-auth). # Assumed vars: # KUBE_ROOT # Vars set: # KUBE_USER # KUBE_PASSWORD function get-kubeconfig-user-basicauth() { KUBE_USER=$("${KUBE_ROOT}/cluster/kubectl.sh" config view -o jsonpath="{.users[?(@.name == \"$1\")].user.username}") KUBE_PASSWORD=$("${KUBE_ROOT}/cluster/kubectl.sh" config view -o jsonpath="{.users[?(@.name == \"$1\")].user.password}") } # Generate basic auth user and password. # Vars set: # KUBE_USER # KUBE_PASSWORD function gen-kube-basicauth() { KUBE_USER=admin KUBE_PASSWORD=$(python -c 'import string,random; print("".join(random.SystemRandom().choice(string.ascii_letters + string.digits) for _ in range(16)))') } # Get the bearer token for the current-context in kubeconfig if one exists. # Assumed vars: # KUBECONFIG # if unset, defaults to global # KUBE_CONTEXT # if unset, defaults to current-context # # Vars set: # KUBE_BEARER_TOKEN # # KUBE_BEARER_TOKEN will be empty if no current-context is set, or the # current-context user does not exist or contain a bearer token entry. function get-kubeconfig-bearertoken() { export KUBECONFIG=${KUBECONFIG:-$DEFAULT_KUBECONFIG} local cc=$("${KUBE_ROOT}/cluster/kubectl.sh" config view -o jsonpath="{.current-context}") if [[ ! -z "${KUBE_CONTEXT:-}" ]]; then cc="${KUBE_CONTEXT}" fi local user=$("${KUBE_ROOT}/cluster/kubectl.sh" config view -o jsonpath="{.contexts[?(@.name == \"${cc}\")].context.user}") KUBE_BEARER_TOKEN=$("${KUBE_ROOT}/cluster/kubectl.sh" config view -o jsonpath="{.users[?(@.name == \"${user}\")].user.token}") } # Generate bearer token. # # Vars set: # KUBE_BEARER_TOKEN function gen-kube-bearertoken() { KUBE_BEARER_TOKEN=$(dd if=/dev/urandom bs=128 count=1 2>/dev/null | base64 | tr -d "=+/" | dd bs=32 count=1 2>/dev/null) } # Generate uid # This function only works on systems with python. It generates a time based # UID instead of a UUID because GCE has a name length limit. # # Vars set: # KUBE_UID function gen-uid { KUBE_UID=$(python -c 'import uuid; print(uuid.uuid1().fields[0])') } function load-or-gen-kube-basicauth() { if [[ ! -z "${KUBE_CONTEXT:-}" ]]; then get-kubeconfig-basicauth fi if [[ -z "${KUBE_USER:-}" || -z "${KUBE_PASSWORD:-}" ]]; then gen-kube-basicauth fi # Make sure they don't contain any funny characters. if ! [[ "${KUBE_USER}" =~ ^[-._@a-zA-Z0-9]+$ ]]; then echo "Bad KUBE_USER string." exit 1 fi if ! [[ "${KUBE_PASSWORD}" =~ ^[-._@#%/a-zA-Z0-9]+$ ]]; then echo "Bad KUBE_PASSWORD string." exit 1 fi } function load-or-gen-kube-bearertoken() { if [[ ! -z "${KUBE_CONTEXT:-}" ]]; then get-kubeconfig-bearertoken fi if [[ -z "${KUBE_BEARER_TOKEN:-}" ]]; then gen-kube-bearertoken fi } # Create a temp dir that'll be deleted at the end of this bash session. # # Vars set: # KUBE_TEMP function ensure-temp-dir { if [[ -z ${KUBE_TEMP-} ]]; then KUBE_TEMP=$(mktemp -d -t kubernetes.XXXXXX) trap 'rm -rf "${KUBE_TEMP}"' EXIT fi } # Get the master IP for the current-context in kubeconfig if one exists. # # Assumed vars: # KUBECONFIG # if unset, defaults to global # KUBE_CONTEXT # if unset, defaults to current-context # # Vars set: # KUBE_MASTER_URL # # KUBE_MASTER_URL will be empty if no current-context is set, or the # current-context user does not exist or contain a server entry. function detect-master-from-kubeconfig() { export KUBECONFIG=${KUBECONFIG:-$DEFAULT_KUBECONFIG} local cc=$("${KUBE_ROOT}/cluster/kubectl.sh" config view -o jsonpath="{.current-context}") if [[ ! -z "${KUBE_CONTEXT:-}" ]]; then cc="${KUBE_CONTEXT}" fi local cluster=$("${KUBE_ROOT}/cluster/kubectl.sh" config view -o jsonpath="{.contexts[?(@.name == \"${cc}\")].context.cluster}") KUBE_MASTER_URL=$("${KUBE_ROOT}/cluster/kubectl.sh" config view -o jsonpath="{.clusters[?(@.name == \"${cluster}\")].cluster.server}") } # Sets KUBE_VERSION variable to the proper version number (e.g. "v1.0.6", # "v1.2.0-alpha.1.881+376438b69c7612") or a version' publication of the form # / (e.g. "release/stable",' "ci/latest-1"). # # See the docs on getting builds for more information about version # publication. # # Args: # $1 version string from command line # Vars set: # KUBE_VERSION function set_binary_version() { if [[ "${1}" =~ "/" ]]; then IFS='/' read -a path <<< "${1}" if [[ "${path[0]}" == "release" ]]; then KUBE_VERSION=$(gsutil cat "gs://kubernetes-release/${1}.txt") else KUBE_VERSION=$(gsutil cat "gs://kubernetes-release-dev/${1}.txt") fi else KUBE_VERSION=${1} fi } # Figure out which binary use on the server and assure it is available. # If KUBE_VERSION is specified use binaries specified by it, otherwise # use local dev binaries. # # Assumed vars: # KUBE_VERSION # KUBE_RELEASE_VERSION_REGEX # KUBE_CI_VERSION_REGEX # Vars set: # KUBE_TAR_HASH # SERVER_BINARY_TAR_URL # SERVER_BINARY_TAR_HASH # SALT_TAR_URL # SALT_TAR_HASH function tars_from_version() { local sha1sum="" if which sha1sum >/dev/null 2>&1; then sha1sum="sha1sum" else sha1sum="shasum -a1" fi if [[ -z "${KUBE_VERSION-}" ]]; then find-release-tars upload-server-tars elif [[ ${KUBE_VERSION} =~ ${KUBE_RELEASE_VERSION_REGEX} ]]; then SERVER_BINARY_TAR_URL="https://storage.googleapis.com/kubernetes-release/release/${KUBE_VERSION}/kubernetes-server-linux-amd64.tar.gz" SALT_TAR_URL="https://storage.googleapis.com/kubernetes-release/release/${KUBE_VERSION}/kubernetes-salt.tar.gz" # TODO: Clean this up. KUBE_MANIFESTS_TAR_URL="${SERVER_BINARY_TAR_URL/server-linux-amd64/manifests}" KUBE_MANIFESTS_TAR_HASH=$(curl ${KUBE_MANIFESTS_TAR_URL} --silent --show-error | ${sha1sum} | awk '{print $1}') elif [[ ${KUBE_VERSION} =~ ${KUBE_CI_VERSION_REGEX} ]]; then SERVER_BINARY_TAR_URL="https://storage.googleapis.com/kubernetes-release-dev/ci/${KUBE_VERSION}/kubernetes-server-linux-amd64.tar.gz" SALT_TAR_URL="https://storage.googleapis.com/kubernetes-release-dev/ci/${KUBE_VERSION}/kubernetes-salt.tar.gz" # TODO: Clean this up. KUBE_MANIFESTS_TAR_URL="${SERVER_BINARY_TAR_URL/server-linux-amd64/manifests}" KUBE_MANIFESTS_TAR_HASH=$(curl ${KUBE_MANIFESTS_TAR_URL} --silent --show-error | ${sha1sum} | awk '{print $1}') else echo "Version doesn't match regexp" >&2 exit 1 fi if ! SERVER_BINARY_TAR_HASH=$(curl -Ss --fail "${SERVER_BINARY_TAR_URL}.sha1"); then echo "Failure trying to curl release .sha1" fi if ! SALT_TAR_HASH=$(curl -Ss --fail "${SALT_TAR_URL}.sha1"); then echo "Failure trying to curl Salt tar .sha1" fi if ! curl -Ss --head "${SERVER_BINARY_TAR_URL}" >&/dev/null; then echo "Can't find release at ${SERVER_BINARY_TAR_URL}" >&2 exit 1 fi if ! curl -Ss --head "${SALT_TAR_URL}" >&/dev/null; then echo "Can't find Salt tar at ${SALT_TAR_URL}" >&2 exit 1 fi } # Search for the specified tarball in the various known output locations, # echoing the location if found. # # Assumed vars: # KUBE_ROOT # # Args: # $1 name of tarball to search for function find-tar() { local -r tarball=$1 locations=( "${KUBE_ROOT}/server/${tarball}" "${KUBE_ROOT}/_output/release-tars/${tarball}" "${KUBE_ROOT}/bazel-bin/build/release-tars/${tarball}" ) location=$( (ls -t "${locations[@]}" 2>/dev/null || true) | head -1 ) if [[ ! -f "${location}" ]]; then echo "!!! Cannot find ${tarball}" >&2 exit 1 fi echo "${location}" } # Verify and find the various tar files that we are going to use on the server. # # Assumed vars: # KUBE_ROOT # Vars set: # SERVER_BINARY_TAR # SALT_TAR # KUBE_MANIFESTS_TAR function find-release-tars() { SERVER_BINARY_TAR=$(find-tar kubernetes-server-linux-amd64.tar.gz) SALT_TAR=$(find-tar kubernetes-salt.tar.gz) # This tarball is used by GCI, Ubuntu Trusty, and Container Linux. KUBE_MANIFESTS_TAR= if [[ "${MASTER_OS_DISTRIBUTION:-}" == "trusty" || "${MASTER_OS_DISTRIBUTION:-}" == "gci" || "${MASTER_OS_DISTRIBUTION:-}" == "container-linux" ]] || \ [[ "${NODE_OS_DISTRIBUTION:-}" == "trusty" || "${NODE_OS_DISTRIBUTION:-}" == "gci" || "${NODE_OS_DISTRIBUTION:-}" == "container-linux" ]] ; then KUBE_MANIFESTS_TAR=$(find-tar kubernetes-manifests.tar.gz) fi } # Discover the git version of the current build package # # Assumed vars: # KUBE_ROOT # Vars set: # KUBE_GIT_VERSION function find-release-version() { KUBE_GIT_VERSION="" if [[ -f "${KUBE_ROOT}/version" ]]; then KUBE_GIT_VERSION="$(cat ${KUBE_ROOT}/version)" fi if [[ -f "${KUBE_ROOT}/_output/release-stage/full/kubernetes/version" ]]; then KUBE_GIT_VERSION="$(cat ${KUBE_ROOT}/_output/release-stage/full/kubernetes/version)" fi if [[ -z "${KUBE_GIT_VERSION}" ]]; then echo "!!! Cannot find release version" exit 1 fi } function stage-images() { find-release-version find-release-tars KUBE_IMAGE_TAG="$(echo """${KUBE_GIT_VERSION}""" | sed 's/+/-/g')" local docker_wrapped_binaries=( "kube-apiserver" "kube-controller-manager" "kube-scheduler" "kube-proxy" ) local docker_cmd=("docker") if [[ "${KUBE_DOCKER_REGISTRY}" == "gcr.io/"* ]]; then local docker_push_cmd=("gcloud" "docker") else local docker_push_cmd=("${docker_cmd[@]}") fi local temp_dir="$(mktemp -d -t 'kube-server-XXXX')" tar xzfv "${SERVER_BINARY_TAR}" -C "${temp_dir}" &> /dev/null for binary in "${docker_wrapped_binaries[@]}"; do local docker_tag="$(cat ${temp_dir}/kubernetes/server/bin/${binary}.docker_tag)" ( "${docker_cmd[@]}" load -i "${temp_dir}/kubernetes/server/bin/${binary}.tar" docker rmi "${KUBE_DOCKER_REGISTRY}/${binary}:${KUBE_IMAGE_TAG}" || true "${docker_cmd[@]}" tag "gcr.io/google_containers/${binary}:${docker_tag}" "${KUBE_DOCKER_REGISTRY}/${binary}:${KUBE_IMAGE_TAG}" "${docker_push_cmd[@]}" push "${KUBE_DOCKER_REGISTRY}/${binary}:${KUBE_IMAGE_TAG}" ) &> "${temp_dir}/${binary}-push.log" & done kube::util::wait-for-jobs || { kube::log::error "unable to push images. See ${temp_dir}/*.log for more info." return 1 } rm -rf "${temp_dir}" return 0 } # Quote something appropriate for a yaml string. # # TODO(zmerlynn): Note that this function doesn't so much "quote" as # "strip out quotes", and we really should be using a YAML library for # this, but PyYAML isn't shipped by default, and *rant rant rant ... SIGH* function yaml-quote { echo "'$(echo "${@:-}" | sed -e "s/'/''/g")'" } # Builds the RUNTIME_CONFIG var from other feature enable options (such as # features in alpha) function build-runtime-config() { # There is nothing to do here for now. Just using this function as a placeholder. : } # Writes the cluster name into a temporary file. # Assumed vars # CLUSTER_NAME function write-cluster-name { cat >"${KUBE_TEMP}/cluster-name.txt" << EOF ${CLUSTER_NAME} EOF } function write-master-env { # If the user requested that the master be part of the cluster, set the # environment variable to program the master kubelet to register itself. if [[ "${REGISTER_MASTER_KUBELET:-}" == "true" && -z "${KUBELET_APISERVER:-}" ]]; then KUBELET_APISERVER="${MASTER_NAME}" fi if [[ -z "${KUBERNETES_MASTER_NAME:-}" ]]; then KUBERNETES_MASTER_NAME="${MASTER_NAME}" fi build-kube-env true "${KUBE_TEMP}/master-kube-env.yaml" build-kube-master-certs "${KUBE_TEMP}/kube-master-certs.yaml" } function write-node-env { if [[ -z "${KUBERNETES_MASTER_NAME:-}" ]]; then KUBERNETES_MASTER_NAME="${MASTER_NAME}" fi build-kube-env false "${KUBE_TEMP}/node-kube-env.yaml" } function build-kube-master-certs { local file=$1 rm -f ${file} cat >$file <$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file <>$file </dev/null 2>&1; then sha1sum "$1" | awk '{ print $1 }' else shasum -a1 "$1" | awk '{ print $1 }' fi } # Downloads cfssl into ${KUBE_TEMP}/cfssl directory # # Assumed vars: # KUBE_TEMP: temporary directory # function download-cfssl { mkdir -p "${KUBE_TEMP}/cfssl" pushd "${KUBE_TEMP}/cfssl" kernel=$(uname -s) case "${kernel}" in Linux) curl -s -L -o cfssl https://pkg.cfssl.org/R1.2/cfssl_linux-amd64 curl -s -L -o cfssljson https://pkg.cfssl.org/R1.2/cfssljson_linux-amd64 ;; Darwin) curl -s -L -o cfssl https://pkg.cfssl.org/R1.2/cfssl_darwin-amd64 curl -s -L -o cfssljson https://pkg.cfssl.org/R1.2/cfssljson_darwin-amd64 ;; *) echo "Unknown, unsupported platform: ${kernel}." >&2 echo "Supported platforms: Linux, Darwin." >&2 exit 2 esac chmod +x cfssl chmod +x cfssljson popd } # Create certificate pairs for the cluster. # $1: The public IP for the master. # # These are used for static cert distribution (e.g. static clustering) at # cluster creation time. This will be obsoleted once we implement dynamic # clustering. # # The following certificate pairs are created: # # - ca (the cluster's certificate authority) # - server # - kubelet # - kubecfg (for kubectl) # # TODO(roberthbailey): Replace easyrsa with a simple Go program to generate # the certs that we need. # # Assumed vars # KUBE_TEMP # MASTER_NAME # # Vars set: # CERT_DIR # CA_CERT_BASE64 # MASTER_CERT_BASE64 # MASTER_KEY_BASE64 # KUBELET_CERT_BASE64 # KUBELET_KEY_BASE64 # KUBECFG_CERT_BASE64 # KUBECFG_KEY_BASE64 function create-certs { local -r primary_cn="${1}" # Determine extra certificate names for master local octets=($(echo "${SERVICE_CLUSTER_IP_RANGE}" | sed -e 's|/.*||' -e 's/\./ /g')) ((octets[3]+=1)) local -r service_ip=$(echo "${octets[*]}" | sed 's/ /./g') local sans="" for extra in $@; do if [[ -n "${extra}" ]]; then sans="${sans}IP:${extra}," fi done sans="${sans}IP:${service_ip},DNS:kubernetes,DNS:kubernetes.default,DNS:kubernetes.default.svc,DNS:kubernetes.default.svc.${DNS_DOMAIN},DNS:${MASTER_NAME}" echo "Generating certs for alternate-names: ${sans}" PRIMARY_CN="${primary_cn}" SANS="${sans}" generate-certs CERT_DIR="${KUBE_TEMP}/easy-rsa-master/easyrsa3" # By default, linux wraps base64 output every 76 cols, so we use 'tr -d' to remove whitespaces. # Note 'base64 -w0' doesn't work on Mac OS X, which has different flags. CA_KEY_BASE64=$(cat "${CERT_DIR}/pki/private/ca.key" | base64 | tr -d '\r\n') CA_CERT_BASE64=$(cat "${CERT_DIR}/pki/ca.crt" | base64 | tr -d '\r\n') MASTER_CERT_BASE64=$(cat "${CERT_DIR}/pki/issued/${MASTER_NAME}.crt" | base64 | tr -d '\r\n') MASTER_KEY_BASE64=$(cat "${CERT_DIR}/pki/private/${MASTER_NAME}.key" | base64 | tr -d '\r\n') KUBELET_CERT_BASE64=$(cat "${CERT_DIR}/pki/issued/kubelet.crt" | base64 | tr -d '\r\n') KUBELET_KEY_BASE64=$(cat "${CERT_DIR}/pki/private/kubelet.key" | base64 | tr -d '\r\n') KUBECFG_CERT_BASE64=$(cat "${CERT_DIR}/pki/issued/kubecfg.crt" | base64 | tr -d '\r\n') KUBECFG_KEY_BASE64=$(cat "${CERT_DIR}/pki/private/kubecfg.key" | base64 | tr -d '\r\n') KUBELET_AUTH_CA_CERT_BASE64=$(cat "${KUBE_TEMP}/easy-rsa-master/kubelet/pki/ca.crt" | base64 | tr -d '\r\n') KUBEAPISERVER_CERT_BASE64=$(cat "${KUBE_TEMP}/easy-rsa-master/kubelet/pki/issued/kube-apiserver.crt" | base64 | tr -d '\r\n') KUBEAPISERVER_KEY_BASE64=$(cat "${KUBE_TEMP}/easy-rsa-master/kubelet/pki/private/kube-apiserver.key" | base64 | tr -d '\r\n') } # Runs the easy RSA commands to generate certificate files. # The generated files are at ${KUBE_TEMP}/easy-rsa-master/easyrsa3 # # Assumed vars # KUBE_TEMP # MASTER_NAME # PRIMARY_CN: Primary canonical name # SANS: Subject alternate names # # function generate-certs { local -r cert_create_debug_output=$(mktemp "${KUBE_TEMP}/cert_create_debug_output.XXX") # Note: This was heavily cribbed from make-ca-cert.sh (set -x cd "${KUBE_TEMP}" curl -L -O --connect-timeout 20 --retry 6 --retry-delay 2 https://storage.googleapis.com/kubernetes-release/easy-rsa/easy-rsa.tar.gz tar xzf easy-rsa.tar.gz mkdir easy-rsa-master/kubelet cp -r easy-rsa-master/easyrsa3/* easy-rsa-master/kubelet cd easy-rsa-master/easyrsa3 ./easyrsa init-pki # this puts the cert into pki/ca.crt and the key into pki/private/ca.key ./easyrsa --batch "--req-cn=${PRIMARY_CN}@$(date +%s)" build-ca nopass ./easyrsa --subject-alt-name="${SANS}" build-server-full "${MASTER_NAME}" nopass download-cfssl # make the config for the signer echo '{"signing":{"default":{"expiry":"43800h","usages":["signing","key encipherment","client auth"]}}}' > "ca-config.json" # create the kubelet client cert with the correct groups echo '{"CN":"kubelet","names":[{"O":"system:nodes"}],"hosts":[""],"key":{"algo":"rsa","size":2048}}' | "${KUBE_TEMP}/cfssl/cfssl" gencert -ca=pki/ca.crt -ca-key=pki/private/ca.key -config=ca-config.json - | "${KUBE_TEMP}/cfssl/cfssljson" -bare kubelet mv "kubelet-key.pem" "pki/private/kubelet.key" mv "kubelet.pem" "pki/issued/kubelet.crt" rm -f "kubelet.csr" # Make a superuser client cert with subject "O=system:masters, CN=kubecfg" ./easyrsa --dn-mode=org \ --req-cn=kubecfg --req-org=system:masters \ --req-c= --req-st= --req-city= --req-email= --req-ou= \ build-client-full kubecfg nopass cd ../kubelet ./easyrsa init-pki ./easyrsa --batch "--req-cn=kubelet@$(date +%s)" build-ca nopass ./easyrsa build-client-full kube-apiserver nopass) &>${cert_create_debug_output} || { # If there was an error in the subshell, just die. # TODO(roberthbailey): add better error handling here cat "${cert_create_debug_output}" >&2 echo "=== Failed to generate certificates: Aborting ===" >&2 exit 2 } } # # Using provided master env, extracts value from provided key. # # Args: # $1 master env (kube-env of master; result of calling get-master-env) # $2 env key to use function get-env-val() { local match=`(echo "${1}" | grep ${2}) || echo ""` if [[ -z ${match} ]]; then echo "" fi echo ${match} | cut -d : -f 2 | cut -d \' -f 2 } # Load the master env by calling get-master-env, and extract important values function parse-master-env() { # Get required master env vars local master_env=$(get-master-env) KUBELET_TOKEN=$(get-env-val "${master_env}" "KUBELET_TOKEN") KUBE_PROXY_TOKEN=$(get-env-val "${master_env}" "KUBE_PROXY_TOKEN") CA_CERT_BASE64=$(get-env-val "${master_env}" "CA_CERT") EXTRA_DOCKER_OPTS=$(get-env-val "${master_env}" "EXTRA_DOCKER_OPTS") KUBELET_CERT_BASE64=$(get-env-val "${master_env}" "KUBELET_CERT") KUBELET_KEY_BASE64=$(get-env-val "${master_env}" "KUBELET_KEY") } # Update or verify required gcloud components are installed # at minimum required version. # Assumed vars # KUBE_PROMPT_FOR_UPDATE function update-or-verify-gcloud() { local sudo_prefix="" if [ ! -w $(dirname `which gcloud`) ]; then sudo_prefix="sudo" fi # update and install components as needed if [[ "${KUBE_PROMPT_FOR_UPDATE}" == "y" ]]; then ${sudo_prefix} gcloud ${gcloud_prompt:-} components install alpha ${sudo_prefix} gcloud ${gcloud_prompt:-} components install beta ${sudo_prefix} gcloud ${gcloud_prompt:-} components update else local version=$(gcloud version --format=json) python -c' import json,sys from distutils import version minVersion = version.LooseVersion("1.3.0") required = [ "alpha", "beta", "core" ] data = json.loads(sys.argv[1]) rel = data.get("Google Cloud SDK") if rel != "HEAD" and version.LooseVersion(rel) < minVersion: print("gcloud version out of date ( < %s )" % minVersion) exit(1) missing = [] for c in required: if not data.get(c): missing += [c] if missing: for c in missing: print ("missing required gcloud component \"{0}\"".format(c)) exit(1) ' """${version}""" fi } # Check whether required client and server binaries exist, prompting to download # if missing. # If KUBERNETES_SKIP_CONFIRM is set to y, we'll automatically download binaries # without prompting. function verify-kube-binaries() { local missing_binaries=false if ! "${KUBE_ROOT}/cluster/kubectl.sh" version --client >&/dev/null; then echo "!!! kubectl appears to be broken or missing" missing_binaries=true fi if ! $(find-release-tars); then missing_binaries=true fi if ! "${missing_binaries}"; then return fi get_binaries_script="${KUBE_ROOT}/cluster/get-kube-binaries.sh" local resp="y" if [[ ! "${KUBERNETES_SKIP_CONFIRM:-n}" =~ ^[yY]$ ]]; then echo "Required binaries appear to be missing. Do you wish to download them? [Y/n]" read resp fi if [[ "${resp}" =~ ^[nN]$ ]]; then echo "You must download binaries to continue. You can use " echo " ${get_binaries_script}" echo "to do this for your automatically." exit 1 fi "${get_binaries_script}" }