cri-o/vendor/k8s.io/kubernetes/cluster/gce/util.sh

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#!/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.
# A library of helper functions and constant for the local config.
# Use the config file specified in $KUBE_CONFIG_FILE, or default to
# config-default.sh.
KUBE_ROOT=$(dirname "${BASH_SOURCE}")/../..
source "${KUBE_ROOT}/cluster/gce/${KUBE_CONFIG_FILE-"config-default.sh"}"
source "${KUBE_ROOT}/cluster/common.sh"
source "${KUBE_ROOT}/cluster/lib/util.sh"
if [[ "${NODE_OS_DISTRIBUTION}" == "debian" || "${NODE_OS_DISTRIBUTION}" == "container-linux" || "${NODE_OS_DISTRIBUTION}" == "trusty" || "${NODE_OS_DISTRIBUTION}" == "gci" ]]; then
source "${KUBE_ROOT}/cluster/gce/${NODE_OS_DISTRIBUTION}/node-helper.sh"
else
echo "Cannot operate on cluster using node os distro: ${NODE_OS_DISTRIBUTION}" >&2
exit 1
fi
if [[ "${MASTER_OS_DISTRIBUTION}" == "debian" || "${MASTER_OS_DISTRIBUTION}" == "container-linux" || "${MASTER_OS_DISTRIBUTION}" == "trusty" || "${MASTER_OS_DISTRIBUTION}" == "gci" ]]; then
source "${KUBE_ROOT}/cluster/gce/${MASTER_OS_DISTRIBUTION}/master-helper.sh"
else
echo "Cannot operate on cluster using master os distro: ${MASTER_OS_DISTRIBUTION}" >&2
exit 1
fi
if [[ "${MASTER_OS_DISTRIBUTION}" == "gci" ]]; then
# If the master image is not set, we use the latest GCI image.
# Otherwise, we respect whatever is set by the user.
MASTER_IMAGE=${KUBE_GCE_MASTER_IMAGE:-${GCI_VERSION}}
MASTER_IMAGE_PROJECT=${KUBE_GCE_MASTER_PROJECT:-google-containers}
elif [[ "${MASTER_OS_DISTRIBUTION}" == "debian" ]]; then
MASTER_IMAGE=${KUBE_GCE_MASTER_IMAGE:-${CVM_VERSION}}
MASTER_IMAGE_PROJECT=${KUBE_GCE_MASTER_PROJECT:-google-containers}
fi
# Sets node image based on the specified os distro. Currently this function only
# supports gci and debian.
function set-node-image() {
if [[ "${NODE_OS_DISTRIBUTION}" == "gci" ]]; then
# If the node image is not set, we use the latest GCI image.
# Otherwise, we respect whatever is set by the user.
NODE_IMAGE=${KUBE_GCE_NODE_IMAGE:-${GCI_VERSION}}
NODE_IMAGE_PROJECT=${KUBE_GCE_NODE_PROJECT:-google-containers}
elif [[ "${NODE_OS_DISTRIBUTION}" == "debian" ]]; then
NODE_IMAGE=${KUBE_GCE_NODE_IMAGE:-${CVM_VERSION}}
NODE_IMAGE_PROJECT=${KUBE_GCE_NODE_PROJECT:-google-containers}
fi
}
set-node-image
# Verfiy cluster autoscaler configuration.
if [[ "${ENABLE_CLUSTER_AUTOSCALER}" == "true" ]]; then
if [ -z $AUTOSCALER_MIN_NODES ]; then
echo "AUTOSCALER_MIN_NODES not set."
exit 1
fi
if [ -z $AUTOSCALER_MAX_NODES ]; then
echo "AUTOSCALER_MAX_NODES not set."
exit 1
fi
fi
NODE_INSTANCE_PREFIX="${INSTANCE_PREFIX}-minion"
NODE_TAGS="${NODE_TAG}"
ALLOCATE_NODE_CIDRS=true
KUBE_PROMPT_FOR_UPDATE=${KUBE_PROMPT_FOR_UPDATE:-"n"}
# How long (in seconds) to wait for cluster initialization.
KUBE_CLUSTER_INITIALIZATION_TIMEOUT=${KUBE_CLUSTER_INITIALIZATION_TIMEOUT:-300}
function join_csv() {
local IFS=','; echo "$*";
}
# This function returns the first string before the comma
function split_csv() {
echo "$*" | cut -d',' -f1
}
# Verify prereqs
function verify-prereqs() {
local cmd
for cmd in gcloud gsutil; do
if ! which "${cmd}" >/dev/null; then
local resp="n"
if [[ "${KUBE_PROMPT_FOR_UPDATE}" == "y" ]]; then
echo "Can't find ${cmd} in PATH. Do you wish to install the Google Cloud SDK? [Y/n]"
read resp
fi
if [[ "${resp}" != "n" && "${resp}" != "N" ]]; then
curl https://sdk.cloud.google.com | bash
fi
if ! which "${cmd}" >/dev/null; then
echo "Can't find ${cmd} in PATH, please fix and retry. The Google Cloud " >&2
echo "SDK can be downloaded from https://cloud.google.com/sdk/." >&2
exit 1
fi
fi
done
update-or-verify-gcloud
}
# 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 "${KUBE_TEMP}"' EXIT
fi
}
# Use the gcloud defaults to find the project. If it is already set in the
# environment then go with that.
#
# Vars set:
# PROJECT
# PROJECT_REPORTED
function detect-project() {
if [[ -z "${PROJECT-}" ]]; then
PROJECT=$(gcloud config list project --format 'value(core.project)')
fi
if [[ -z "${PROJECT-}" ]]; then
echo "Could not detect Google Cloud Platform project. Set the default project using " >&2
echo "'gcloud config set project <PROJECT>'" >&2
exit 1
fi
if [[ -z "${PROJECT_REPORTED-}" ]]; then
echo "Project: ${PROJECT}" >&2
echo "Zone: ${ZONE}" >&2
PROJECT_REPORTED=true
fi
}
# Copy a release tar and its accompanying hash.
function copy-to-staging() {
local -r staging_path=$1
local -r gs_url=$2
local -r tar=$3
local -r hash=$4
echo "${hash}" > "${tar}.sha1"
gsutil -m -q -h "Cache-Control:private, max-age=0" cp "${tar}" "${tar}.sha1" "${staging_path}"
gsutil -m acl ch -g all:R "${gs_url}" "${gs_url}.sha1" >/dev/null 2>&1
echo "+++ $(basename ${tar}) uploaded (sha1 = ${hash})"
}
# Given the cluster zone, return the list of regional GCS release
# bucket suffixes for the release in preference order. GCS doesn't
# give us an API for this, so we hardcode it.
#
# Assumed vars:
# RELEASE_REGION_FALLBACK
# REGIONAL_KUBE_ADDONS
# ZONE
# Vars set:
# PREFERRED_REGION
# KUBE_ADDON_REGISTRY
function set-preferred-region() {
case ${ZONE} in
asia-*)
PREFERRED_REGION=("asia" "us" "eu")
;;
europe-*)
PREFERRED_REGION=("eu" "us" "asia")
;;
*)
PREFERRED_REGION=("us" "eu" "asia")
;;
esac
local -r preferred="${PREFERRED_REGION[0]}"
if [[ "${RELEASE_REGION_FALLBACK}" != "true" ]]; then
PREFERRED_REGION=( "${preferred}" )
fi
# If we're using regional GCR, and we're outside the US, go to the
# regional registry. The gcr.io/google_containers registry is
# appropriate for US (for now).
if [[ "${REGIONAL_KUBE_ADDONS}" == "true" ]] && [[ "${preferred}" != "us" ]]; then
KUBE_ADDON_REGISTRY="${preferred}.gcr.io/google_containers"
else
KUBE_ADDON_REGISTRY="gcr.io/google_containers"
fi
if [[ "${ENABLE_DOCKER_REGISTRY_CACHE:-}" == "true" ]]; then
DOCKER_REGISTRY_MIRROR_URL="https://${preferred}-mirror.gcr.io"
fi
}
# Take the local tar files and upload them to Google Storage. They will then be
# downloaded by the master as part of the start up script for the master.
#
# Assumed vars:
# PROJECT
# SERVER_BINARY_TAR
# SALT_TAR
# KUBE_MANIFESTS_TAR
# ZONE
# Vars set:
# SERVER_BINARY_TAR_URL
# SERVER_BINARY_TAR_HASH
# SALT_TAR_URL
# SALT_TAR_HASH
# KUBE_MANIFESTS_TAR_URL
# KUBE_MANIFESTS_TAR_HASH
function upload-server-tars() {
SERVER_BINARY_TAR_URL=
SERVER_BINARY_TAR_HASH=
SALT_TAR_URL=
SALT_TAR_HASH=
KUBE_MANIFESTS_TAR_URL=
KUBE_MANIFESTS_TAR_HASH=
local project_hash
if which md5 > /dev/null 2>&1; then
project_hash=$(md5 -q -s "$PROJECT")
else
project_hash=$(echo -n "$PROJECT" | md5sum | awk '{ print $1 }')
fi
# This requires 1 million projects before the probability of collision is 50%
# that's probably good enough for now :P
project_hash=${project_hash:0:10}
set-preferred-region
SERVER_BINARY_TAR_HASH=$(sha1sum-file "${SERVER_BINARY_TAR}")
SALT_TAR_HASH=$(sha1sum-file "${SALT_TAR}")
if [[ -n "${KUBE_MANIFESTS_TAR:-}" ]]; then
KUBE_MANIFESTS_TAR_HASH=$(sha1sum-file "${KUBE_MANIFESTS_TAR}")
fi
local server_binary_tar_urls=()
local salt_tar_urls=()
local kube_manifest_tar_urls=()
for region in "${PREFERRED_REGION[@]}"; do
suffix="-${region}"
if [[ "${suffix}" == "-us" ]]; then
suffix=""
fi
local staging_bucket="gs://kubernetes-staging-${project_hash}${suffix}"
# Ensure the buckets are created
if ! gsutil ls "${staging_bucket}" >/dev/null; then
echo "Creating ${staging_bucket}"
gsutil mb -l "${region}" "${staging_bucket}"
fi
local staging_path="${staging_bucket}/${INSTANCE_PREFIX}-devel"
echo "+++ Staging server tars to Google Storage: ${staging_path}"
local server_binary_gs_url="${staging_path}/${SERVER_BINARY_TAR##*/}"
local salt_gs_url="${staging_path}/${SALT_TAR##*/}"
copy-to-staging "${staging_path}" "${server_binary_gs_url}" "${SERVER_BINARY_TAR}" "${SERVER_BINARY_TAR_HASH}"
copy-to-staging "${staging_path}" "${salt_gs_url}" "${SALT_TAR}" "${SALT_TAR_HASH}"
# Convert from gs:// URL to an https:// URL
server_binary_tar_urls+=("${server_binary_gs_url/gs:\/\//https://storage.googleapis.com/}")
salt_tar_urls+=("${salt_gs_url/gs:\/\//https://storage.googleapis.com/}")
if [[ -n "${KUBE_MANIFESTS_TAR:-}" ]]; then
local kube_manifests_gs_url="${staging_path}/${KUBE_MANIFESTS_TAR##*/}"
copy-to-staging "${staging_path}" "${kube_manifests_gs_url}" "${KUBE_MANIFESTS_TAR}" "${KUBE_MANIFESTS_TAR_HASH}"
# Convert from gs:// URL to an https:// URL
kube_manifests_tar_urls+=("${kube_manifests_gs_url/gs:\/\//https://storage.googleapis.com/}")
fi
done
SERVER_BINARY_TAR_URL=$(join_csv "${server_binary_tar_urls[@]}")
SALT_TAR_URL=$(join_csv "${salt_tar_urls[@]}")
if [[ -n "${KUBE_MANIFESTS_TAR:-}" ]]; then
KUBE_MANIFESTS_TAR_URL=$(join_csv "${kube_manifests_tar_urls[@]}")
fi
}
# Detect minions created in the minion group
#
# Assumed vars:
# NODE_INSTANCE_PREFIX
# Vars set:
# NODE_NAMES
# INSTANCE_GROUPS
function detect-node-names() {
detect-project
INSTANCE_GROUPS=()
INSTANCE_GROUPS+=($(gcloud compute instance-groups managed list \
--zones "${ZONE}" --project "${PROJECT}" \
--regexp "${NODE_INSTANCE_PREFIX}-.+" \
--format='value(instanceGroup)' || true))
NODE_NAMES=()
if [[ -n "${INSTANCE_GROUPS[@]:-}" ]]; then
for group in "${INSTANCE_GROUPS[@]}"; do
NODE_NAMES+=($(gcloud compute instance-groups managed list-instances \
"${group}" --zone "${ZONE}" --project "${PROJECT}" \
--format='value(instance)'))
done
fi
echo "INSTANCE_GROUPS=${INSTANCE_GROUPS[*]:-}" >&2
echo "NODE_NAMES=${NODE_NAMES[*]:-}" >&2
}
# Detect the information about the minions
#
# Assumed vars:
# ZONE
# Vars set:
# NODE_NAMES
# KUBE_NODE_IP_ADDRESSES (array)
function detect-nodes() {
detect-project
detect-node-names
KUBE_NODE_IP_ADDRESSES=()
for (( i=0; i<${#NODE_NAMES[@]}; i++)); do
local node_ip=$(gcloud compute instances describe --project "${PROJECT}" --zone "${ZONE}" \
"${NODE_NAMES[$i]}" --format='value(networkInterfaces[0].accessConfigs[0].natIP)')
if [[ -z "${node_ip-}" ]] ; then
echo "Did not find ${NODE_NAMES[$i]}" >&2
else
echo "Found ${NODE_NAMES[$i]} at ${node_ip}"
KUBE_NODE_IP_ADDRESSES+=("${node_ip}")
fi
done
if [[ -z "${KUBE_NODE_IP_ADDRESSES-}" ]]; then
echo "Could not detect Kubernetes minion nodes. Make sure you've launched a cluster with 'kube-up.sh'" >&2
exit 1
fi
}
# Detect the IP for the master
#
# Assumed vars:
# MASTER_NAME
# ZONE
# REGION
# Vars set:
# KUBE_MASTER
# KUBE_MASTER_IP
function detect-master() {
detect-project
KUBE_MASTER=${MASTER_NAME}
echo "Trying to find master named '${MASTER_NAME}'" >&2
if [[ -z "${KUBE_MASTER_IP-}" ]]; then
local master_address_name="${MASTER_NAME}-ip"
echo "Looking for address '${master_address_name}'" >&2
KUBE_MASTER_IP=$(gcloud compute addresses describe "${master_address_name}" \
--project "${PROJECT}" --region "${REGION}" -q --format='value(address)')
fi
if [[ -z "${KUBE_MASTER_IP-}" ]]; then
echo "Could not detect Kubernetes master node. Make sure you've launched a cluster with 'kube-up.sh'" >&2
exit 1
fi
echo "Using master: $KUBE_MASTER (external IP: $KUBE_MASTER_IP)" >&2
}
# Reads kube-env metadata from master
#
# Assumed vars:
# KUBE_MASTER
# PROJECT
# ZONE
function get-master-env() {
# TODO(zmerlynn): Make this more reliable with retries.
gcloud compute --project ${PROJECT} ssh --zone ${ZONE} ${KUBE_MASTER} --command \
"curl --fail --silent -H 'Metadata-Flavor: Google' \
'http://metadata/computeMetadata/v1/instance/attributes/kube-env'" 2>/dev/null
}
# Robustly try to create a static ip.
# $1: The name of the ip to create
# $2: The name of the region to create the ip in.
function create-static-ip() {
detect-project
local attempt=0
local REGION="$2"
while true; do
if gcloud compute addresses create "$1" \
--project "${PROJECT}" \
--region "${REGION}" -q > /dev/null; then
# successful operation - wait until it's visible
start="$(date +%s)"
while true; do
now="$(date +%s)"
# Timeout set to 15 minutes
if [ $((now - start)) -gt 900 ]; then
echo "Timeout while waiting for master IP visibility"
exit 2
fi
if gcloud compute addresses describe "$1" --project "${PROJECT}" --region "${REGION}" >/dev/null 2>&1; then
break
fi
echo "Master IP not visible yet. Waiting..."
sleep 5
done
break
fi
if gcloud compute addresses describe "$1" \
--project "${PROJECT}" \
--region "${REGION}" >/dev/null 2>&1; then
# it exists - postcondition satisfied
break
fi
if (( attempt > 4 )); then
echo -e "${color_red}Failed to create static ip $1 ${color_norm}" >&2
exit 2
fi
attempt=$(($attempt+1))
echo -e "${color_yellow}Attempt $attempt failed to create static ip $1. Retrying.${color_norm}" >&2
sleep $(($attempt * 5))
done
}
# Robustly try to create a firewall rule.
# $1: The name of firewall rule.
# $2: IP ranges.
# $3: Target tags for this firewall rule.
function create-firewall-rule() {
detect-project
local attempt=0
while true; do
if ! gcloud compute firewall-rules create "$1" \
--project "${PROJECT}" \
--network "${NETWORK}" \
--source-ranges "$2" \
--target-tags "$3" \
--allow tcp,udp,icmp,esp,ah,sctp; then
if (( attempt > 4 )); then
echo -e "${color_red}Failed to create firewall rule $1 ${color_norm}" >&2
exit 2
fi
echo -e "${color_yellow}Attempt $(($attempt+1)) failed to create firewall rule $1. Retrying.${color_norm}" >&2
attempt=$(($attempt+1))
sleep $(($attempt * 5))
else
break
fi
done
}
# $1: version (required)
function get-template-name-from-version() {
# trim template name to pass gce name validation
echo "${NODE_INSTANCE_PREFIX}-template-${1}" | cut -c 1-63 | sed 's/[\.\+]/-/g;s/-*$//g'
}
# Robustly try to create an instance template.
# $1: The name of the instance template.
# $2: The scopes flag.
# $3 and others: Metadata entries (must all be from a file).
function create-node-template() {
detect-project
local template_name="$1"
# First, ensure the template doesn't exist.
# TODO(zmerlynn): To make this really robust, we need to parse the output and
# add retries. Just relying on a non-zero exit code doesn't
# distinguish an ephemeral failed call from a "not-exists".
if gcloud compute instance-templates describe "$template_name" --project "${PROJECT}" &>/dev/null; then
echo "Instance template ${1} already exists; deleting." >&2
if ! gcloud compute instance-templates delete "$template_name" --project "${PROJECT}" &>/dev/null; then
echo -e "${color_yellow}Failed to delete existing instance template${color_norm}" >&2
exit 2
fi
fi
local attempt=1
local preemptible_minions=""
if [[ "${PREEMPTIBLE_NODE}" == "true" ]]; then
preemptible_minions="--preemptible --maintenance-policy TERMINATE"
fi
while true; do
echo "Attempt ${attempt} to create ${1}" >&2
if ! gcloud compute instance-templates create "$template_name" \
--project "${PROJECT}" \
--machine-type "${NODE_SIZE}" \
--boot-disk-type "${NODE_DISK_TYPE}" \
--boot-disk-size "${NODE_DISK_SIZE}" \
--image-project="${NODE_IMAGE_PROJECT}" \
--image "${NODE_IMAGE}" \
--tags "${NODE_TAG}" \
--network "${NETWORK}" \
${preemptible_minions} \
$2 \
--can-ip-forward \
--metadata-from-file $(echo ${@:3} | tr ' ' ',') >&2; then
if (( attempt > 5 )); then
echo -e "${color_red}Failed to create instance template $template_name ${color_norm}" >&2
exit 2
fi
echo -e "${color_yellow}Attempt ${attempt} failed to create instance template $template_name. Retrying.${color_norm}" >&2
attempt=$(($attempt+1))
sleep $(($attempt * 5))
# In case the previous attempt failed with something like a
# Backend Error and left the entry laying around, delete it
# before we try again.
gcloud compute instance-templates delete "$template_name" --project "${PROJECT}" &>/dev/null || true
else
break
fi
done
}
# Robustly try to add metadata on an instance.
# $1: The name of the instance.
# $2...$n: The metadata key=value pairs to add.
function add-instance-metadata() {
local -r instance=$1
shift 1
local -r kvs=( "$@" )
detect-project
local attempt=0
while true; do
if ! gcloud compute instances add-metadata "${instance}" \
--project "${PROJECT}" \
--zone "${ZONE}" \
--metadata "${kvs[@]}"; then
if (( attempt > 5 )); then
echo -e "${color_red}Failed to add instance metadata in ${instance} ${color_norm}" >&2
exit 2
fi
echo -e "${color_yellow}Attempt $(($attempt+1)) failed to add metadata in ${instance}. Retrying.${color_norm}" >&2
attempt=$(($attempt+1))
sleep $((5 * $attempt))
else
break
fi
done
}
# Robustly try to add metadata on an instance, from a file.
# $1: The name of the instance.
# $2...$n: The metadata key=file pairs to add.
function add-instance-metadata-from-file() {
local -r instance=$1
shift 1
local -r kvs=( "$@" )
detect-project
local attempt=0
while true; do
echo "${kvs[@]}"
if ! gcloud compute instances add-metadata "${instance}" \
--project "${PROJECT}" \
--zone "${ZONE}" \
--metadata-from-file "$(join_csv ${kvs[@]})"; then
if (( attempt > 5 )); then
echo -e "${color_red}Failed to add instance metadata in ${instance} ${color_norm}" >&2
exit 2
fi
echo -e "${color_yellow}Attempt $(($attempt+1)) failed to add metadata in ${instance}. Retrying.${color_norm}" >&2
attempt=$(($attempt+1))
sleep $(($attempt * 5))
else
break
fi
done
}
# Instantiate a kubernetes cluster
#
# Assumed vars
# KUBE_ROOT
# <Various vars set in config file>
function kube-up() {
ensure-temp-dir
detect-project
load-or-gen-kube-basicauth
load-or-gen-kube-bearertoken
# Make sure we have the tar files staged on Google Storage
find-release-tars
upload-server-tars
# ensure that environmental variables specifying number of migs to create
set_num_migs
if [[ ${KUBE_USE_EXISTING_MASTER:-} == "true" ]]; then
detect-master
parse-master-env
create-nodes
elif [[ ${KUBE_REPLICATE_EXISTING_MASTER:-} == "true" ]]; then
if [[ "${MASTER_OS_DISTRIBUTION}" != "gci" && "${MASTER_OS_DISTRIBUTION}" != "debian" ]]; then
echo "Master replication supported only for gci and debian"
return 1
fi
create-loadbalancer
# If replication of master fails, we need to ensure that the replica is removed from etcd clusters.
if ! replicate-master; then
remove-replica-from-etcd 2379 || true
remove-replica-from-etcd 4002 || true
fi
else
check-existing
create-network
write-cluster-name
create-autoscaler-config
create-master
create-nodes-firewall
create-nodes-template
create-nodes
check-cluster
fi
}
function check-existing() {
local running_in_terminal=false
# May be false if tty is not allocated (for example with ssh -T).
if [ -t 1 ]; then
running_in_terminal=true
fi
if [[ ${running_in_terminal} == "true" || ${KUBE_UP_AUTOMATIC_CLEANUP} == "true" ]]; then
if ! check-resources; then
local run_kube_down="n"
echo "${KUBE_RESOURCE_FOUND} found." >&2
# Get user input only if running in terminal.
if [[ ${running_in_terminal} == "true" && ${KUBE_UP_AUTOMATIC_CLEANUP} == "false" ]]; then
read -p "Would you like to shut down the old cluster (call kube-down)? [y/N] " run_kube_down
fi
if [[ ${run_kube_down} == "y" || ${run_kube_down} == "Y" || ${KUBE_UP_AUTOMATIC_CLEANUP} == "true" ]]; then
echo "... calling kube-down" >&2
kube-down
fi
fi
fi
}
function create-network() {
if ! gcloud compute networks --project "${PROJECT}" describe "${NETWORK}" &>/dev/null; then
echo "Creating new network: ${NETWORK}"
# The network needs to be created synchronously or we have a race. The
# firewalls can be added concurrent with instance creation.
gcloud compute networks create --project "${PROJECT}" "${NETWORK}" --range "10.240.0.0/16"
fi
if ! gcloud compute firewall-rules --project "${PROJECT}" describe "${CLUSTER_NAME}-default-internal-master" &>/dev/null; then
gcloud compute firewall-rules create "${CLUSTER_NAME}-default-internal-master" \
--project "${PROJECT}" \
--network "${NETWORK}" \
--source-ranges "10.0.0.0/8" \
--allow "tcp:1-2379,tcp:2382-65535,udp:1-65535,icmp" \
--target-tags "${MASTER_TAG}"&
fi
if ! gcloud compute firewall-rules --project "${PROJECT}" describe "${CLUSTER_NAME}-default-internal-node" &>/dev/null; then
gcloud compute firewall-rules create "${CLUSTER_NAME}-default-internal-node" \
--project "${PROJECT}" \
--network "${NETWORK}" \
--source-ranges "10.0.0.0/8" \
--allow "tcp:1-65535,udp:1-65535,icmp" \
--target-tags "${NODE_TAG}"&
fi
if ! gcloud compute firewall-rules describe --project "${PROJECT}" "${NETWORK}-default-ssh" &>/dev/null; then
gcloud compute firewall-rules create "${NETWORK}-default-ssh" \
--project "${PROJECT}" \
--network "${NETWORK}" \
--source-ranges "0.0.0.0/0" \
--allow "tcp:22" &
fi
}
function delete-firewall-rules() {
for fw in $@; do
if [[ -n $(gcloud compute firewall-rules --project "${PROJECT}" describe "${fw}" --format='value(name)' 2>/dev/null || true) ]]; then
gcloud compute firewall-rules delete --project "${PROJECT}" --quiet "${fw}" &
fi
done
kube::util::wait-for-jobs || {
echo -e "${color_red}Failed to delete firewall rules.${color_norm}" >&2
}
}
function delete-network() {
if [[ -n $(gcloud compute networks --project "${PROJECT}" describe "${NETWORK}" --format='value(name)' 2>/dev/null || true) ]]; then
if ! gcloud compute networks delete --project "${PROJECT}" --quiet "${NETWORK}"; then
echo "Failed to delete network '${NETWORK}'. Listing firewall-rules:"
gcloud compute firewall-rules --project "${PROJECT}" list --filter="network=${NETWORK}"
return 1
fi
fi
}
# Assumes:
# NUM_NODES
# Sets:
# MASTER_ROOT_DISK_SIZE
function get-master-root-disk-size() {
if [[ "${NUM_NODES}" -le "1000" ]]; then
export MASTER_ROOT_DISK_SIZE="20"
else
export MASTER_ROOT_DISK_SIZE="50"
fi
}
# Assumes:
# NUM_NODES
# Sets:
# MASTER_DISK_SIZE
function get-master-disk-size() {
if [[ "${NUM_NODES}" -le "1000" ]]; then
export MASTER_DISK_SIZE="20GB"
else
export MASTER_DISK_SIZE="100GB"
fi
}
# Generates SSL certificates for etcd cluster. Uses cfssl program.
#
# Assumed vars:
# KUBE_TEMP: temporary directory
#
# Args:
# $1: host name
# $2: CA certificate
# $3: CA key
#
# If CA cert/key is empty, the function will also generate certs for CA.
#
# Vars set:
# ETCD_CA_KEY_BASE64
# ETCD_CA_CERT_BASE64
# ETCD_PEER_KEY_BASE64
# ETCD_PEER_CERT_BASE64
#
function create-etcd-certs {
local host=${1}
local ca_cert=${2:-}
local ca_key=${3:-}
download-cfssl
pushd "${KUBE_TEMP}/cfssl"
cat >ca-config.json <<EOF
{
"signing": {
"default": {
"expiry": "168h"
},
"profiles": {
"client-server": {
"expiry": "43800h",
"usages": [
"signing",
"key encipherment"
]
}
}
}
}
EOF
if [[ ! -z "${ca_key}" && ! -z "${ca_cert}" ]]; then
echo "${ca_key}" | base64 --decode > ca-key.pem
echo "${ca_cert}" | base64 --decode | gunzip > ca.pem
else
./cfssl print-defaults csr > ca-csr.json
./cfssl gencert -initca ca-csr.json | ./cfssljson -bare ca -
fi
echo '{"CN":"'"${host}"'","hosts":[""],"key":{"algo":"ecdsa","size":256}}' \
| ./cfssl gencert -ca=ca.pem -ca-key=ca-key.pem -config=ca-config.json -profile=client-server -hostname="${host}" - \
| ./cfssljson -bare etcd
ETCD_CA_KEY_BASE64=$(cat "ca-key.pem" | base64 | tr -d '\r\n')
ETCD_CA_CERT_BASE64=$(cat "ca.pem" | gzip | base64 | tr -d '\r\n')
ETCD_PEER_KEY_BASE64=$(cat "etcd-key.pem" | base64 | tr -d '\r\n')
ETCD_PEER_CERT_BASE64=$(cat "etcd.pem" | gzip | base64 | tr -d '\r\n')
popd
}
function create-master() {
echo "Starting master and configuring firewalls"
gcloud compute firewall-rules create "${MASTER_NAME}-https" \
--project "${PROJECT}" \
--network "${NETWORK}" \
--target-tags "${MASTER_TAG}" \
--allow tcp:443 &
# We have to make sure the disk is created before creating the master VM, so
# run this in the foreground.
get-master-disk-size
gcloud compute disks create "${MASTER_NAME}-pd" \
--project "${PROJECT}" \
--zone "${ZONE}" \
--type "${MASTER_DISK_TYPE}" \
--size "${MASTER_DISK_SIZE}"
# Create disk for cluster registry if enabled
if [[ "${ENABLE_CLUSTER_REGISTRY}" == true && -n "${CLUSTER_REGISTRY_DISK}" ]]; then
gcloud compute disks create "${CLUSTER_REGISTRY_DISK}" \
--project "${PROJECT}" \
--zone "${ZONE}" \
--type "${CLUSTER_REGISTRY_DISK_TYPE_GCE}" \
--size "${CLUSTER_REGISTRY_DISK_SIZE}" &
fi
# Create rule for accessing and securing etcd servers.
if ! gcloud compute firewall-rules --project "${PROJECT}" describe "${MASTER_NAME}-etcd" &>/dev/null; then
gcloud compute firewall-rules create "${MASTER_NAME}-etcd" \
--project "${PROJECT}" \
--network "${NETWORK}" \
--source-tags "${MASTER_TAG}" \
--allow "tcp:2380,tcp:2381" \
--target-tags "${MASTER_TAG}" &
fi
# Generate a bearer token for this cluster. We push this separately
# from the other cluster variables so that the client (this
# computer) can forget it later. This should disappear with
# http://issue.k8s.io/3168
KUBELET_TOKEN=$(dd if=/dev/urandom bs=128 count=1 2>/dev/null | base64 | tr -d "=+/" | dd bs=32 count=1 2>/dev/null)
KUBE_PROXY_TOKEN=$(dd if=/dev/urandom bs=128 count=1 2>/dev/null | base64 | tr -d "=+/" | dd bs=32 count=1 2>/dev/null)
# Reserve the master's IP so that it can later be transferred to another VM
# without disrupting the kubelets.
create-static-ip "${MASTER_NAME}-ip" "${REGION}"
MASTER_RESERVED_IP=$(gcloud compute addresses describe "${MASTER_NAME}-ip" \
--project "${PROJECT}" --region "${REGION}" -q --format='value(address)')
if [[ "${REGISTER_MASTER_KUBELET:-}" == "true" ]]; then
KUBELET_APISERVER="${MASTER_RESERVED_IP}"
fi
KUBERNETES_MASTER_NAME="${MASTER_RESERVED_IP}"
MASTER_ADVERTISE_ADDRESS="${MASTER_RESERVED_IP}"
create-certs "${MASTER_RESERVED_IP}"
create-etcd-certs ${MASTER_NAME}
# Sets MASTER_ROOT_DISK_SIZE that is used by create-master-instance
get-master-root-disk-size
create-master-instance "${MASTER_RESERVED_IP}" &
}
# Adds master replica to etcd cluster.
#
# Assumed vars:
# REPLICA_NAME
# PROJECT
# EXISTING_MASTER_NAME
# EXISTING_MASTER_ZONE
#
# $1: etcd client port
# $2: etcd internal port
# returns the result of ssh command which adds replica
function add-replica-to-etcd() {
local -r client_port="${1}"
local -r internal_port="${2}"
gcloud compute ssh "${EXISTING_MASTER_NAME}" \
--project "${PROJECT}" \
--zone "${EXISTING_MASTER_ZONE}" \
--command \
"curl localhost:${client_port}/v2/members -XPOST -H \"Content-Type: application/json\" -d '{\"peerURLs\":[\"https://${REPLICA_NAME}:${internal_port}\"]}' -s"
return $?
}
# Sets EXISTING_MASTER_NAME and EXISTING_MASTER_ZONE variables.
#
# Assumed vars:
# PROJECT
#
# NOTE: Must be in sync with get-replica-name-regexp
function set-existing-master() {
local existing_master=$(gcloud compute instances list \
--project "${PROJECT}" \
--regexp "$(get-replica-name-regexp)" \
--format "value(name,zone)" | head -n1)
EXISTING_MASTER_NAME="$(echo "${existing_master}" | cut -f1)"
EXISTING_MASTER_ZONE="$(echo "${existing_master}" | cut -f2)"
}
function replicate-master() {
set-replica-name
set-existing-master
echo "Experimental: replicating existing master ${EXISTING_MASTER_ZONE}/${EXISTING_MASTER_NAME} as ${ZONE}/${REPLICA_NAME}"
# Before we do anything else, we should configure etcd to expect more replicas.
if ! add-replica-to-etcd 2379 2380; then
echo "Failed to add master replica to etcd cluster."
return 1
fi
if ! add-replica-to-etcd 4002 2381; then
echo "Failed to add master replica to etcd events cluster."
return 1
fi
# We have to make sure the disk is created before creating the master VM, so
# run this in the foreground.
get-master-disk-size
gcloud compute disks create "${REPLICA_NAME}-pd" \
--project "${PROJECT}" \
--zone "${ZONE}" \
--type "${MASTER_DISK_TYPE}" \
--size "${MASTER_DISK_SIZE}"
# Sets MASTER_ROOT_DISK_SIZE that is used by create-master-instance
get-master-root-disk-size
local existing_master_replicas="$(get-all-replica-names)"
replicate-master-instance "${EXISTING_MASTER_ZONE}" "${EXISTING_MASTER_NAME}" "${existing_master_replicas}"
# Add new replica to the load balancer.
gcloud compute target-pools add-instances "${MASTER_NAME}" \
--project "${PROJECT}" \
--zone "${ZONE}" \
--instances "${REPLICA_NAME}"
}
# Detaches old and ataches new external IP to a VM.
#
# Arguments:
# $1 - VM name
# $2 - VM zone
# $3 - external static IP; if empty will use an ephemeral IP address.
function attach-external-ip() {
local NAME=${1}
local ZONE=${2}
local IP_ADDR=${3:-}
local ACCESS_CONFIG_NAME=$(gcloud compute instances describe "${NAME}" \
--project "${PROJECT}" --zone "${ZONE}" \
--format="value(networkInterfaces[0].accessConfigs[0].name)")
gcloud compute instances delete-access-config "${NAME}" \
--project "${PROJECT}" --zone "${ZONE}" \
--access-config-name "${ACCESS_CONFIG_NAME}"
if [[ -z ${IP_ADDR} ]]; then
gcloud compute instances add-access-config "${NAME}" \
--project "${PROJECT}" --zone "${ZONE}" \
--access-config-name "${ACCESS_CONFIG_NAME}"
else
gcloud compute instances add-access-config "${NAME}" \
--project "${PROJECT}" --zone "${ZONE}" \
--access-config-name "${ACCESS_CONFIG_NAME}" \
--address "${IP_ADDR}"
fi
}
# Creates load balancer in front of apiserver if it doesn't exists already. Assumes there's only one
# existing master replica.
#
# Assumes:
# PROJECT
# MASTER_NAME
# ZONE
# REGION
function create-loadbalancer() {
detect-master
# Step 0: Return early if LB is already configured.
if gcloud compute forwarding-rules describe ${MASTER_NAME} \
--project "${PROJECT}" --region ${REGION} > /dev/null 2>&1; then
echo "Load balancer already exists"
return
fi
local EXISTING_MASTER_NAME="$(get-all-replica-names)"
local EXISTING_MASTER_ZONE=$(gcloud compute instances list "${EXISTING_MASTER_NAME}" \
--project "${PROJECT}" --format="value(zone)")
echo "Creating load balancer in front of an already existing master in ${EXISTING_MASTER_ZONE}"
# Step 1: Detach master IP address and attach ephemeral address to the existing master
attach-external-ip "${EXISTING_MASTER_NAME}" "${EXISTING_MASTER_ZONE}"
# Step 2: Create target pool.
gcloud compute target-pools create "${MASTER_NAME}" --project "${PROJECT}" --region "${REGION}"
# TODO: We should also add master instances with suffixes
gcloud compute target-pools add-instances "${MASTER_NAME}" --instances "${EXISTING_MASTER_NAME}" --project "${PROJECT}" --zone "${EXISTING_MASTER_ZONE}"
# Step 3: Create forwarding rule.
# TODO: This step can take up to 20 min. We need to speed this up...
gcloud compute forwarding-rules create ${MASTER_NAME} \
--project "${PROJECT}" --region ${REGION} \
--target-pool ${MASTER_NAME} --address=${KUBE_MASTER_IP} --ports=443
echo -n "Waiting for the load balancer configuration to propagate..."
local counter=0
until $(curl -k -m1 https://${KUBE_MASTER_IP} &> /dev/null); do
counter=$((counter+1))
echo -n .
if [[ ${counter} -ge 1800 ]]; then
echo -e "${color_red}TIMEOUT${color_norm}" >&2
echo -e "${color_red}Load balancer failed to initialize within ${counter} seconds.${color_norm}" >&2
exit 2
fi
done
echo "DONE"
}
function create-nodes-firewall() {
# Create a single firewall rule for all minions.
create-firewall-rule "${NODE_TAG}-all" "${CLUSTER_IP_RANGE}" "${NODE_TAG}" &
# Report logging choice (if any).
if [[ "${ENABLE_NODE_LOGGING-}" == "true" ]]; then
echo "+++ Logging using Fluentd to ${LOGGING_DESTINATION:-unknown}"
fi
# Wait for last batch of jobs
kube::util::wait-for-jobs || {
echo -e "${color_red}Some commands failed.${color_norm}" >&2
}
}
function create-nodes-template() {
echo "Creating minions."
# TODO(zmerlynn): Refactor setting scope flags.
local scope_flags=
if [ -n "${NODE_SCOPES}" ]; then
scope_flags="--scopes ${NODE_SCOPES}"
else
scope_flags="--no-scopes"
fi
write-node-env
local template_name="${NODE_INSTANCE_PREFIX}-template"
create-node-instance-template $template_name
}
# Assumes:
# - MAX_INSTANCES_PER_MIG
# - NUM_NODES
# exports:
# - NUM_MIGS
function set_num_migs() {
local defaulted_max_instances_per_mig=${MAX_INSTANCES_PER_MIG:-1000}
if [[ ${defaulted_max_instances_per_mig} -le "0" ]]; then
echo "MAX_INSTANCES_PER_MIG cannot be negative. Assuming default 1000"
defaulted_max_instances_per_mig=1000
fi
export NUM_MIGS=$(((${NUM_NODES} + ${defaulted_max_instances_per_mig} - 1) / ${defaulted_max_instances_per_mig}))
}
# Assumes:
# - NUM_MIGS
# - NODE_INSTANCE_PREFIX
# - NUM_NODES
# - PROJECT
# - ZONE
function create-nodes() {
local template_name="${NODE_INSTANCE_PREFIX}-template"
local instances_left=${NUM_NODES}
#TODO: parallelize this loop to speed up the process
for ((i=1; i<=${NUM_MIGS}; i++)); do
local group_name="${NODE_INSTANCE_PREFIX}-group-$i"
if [[ $i == ${NUM_MIGS} ]]; then
# TODO: We don't add a suffix for the last group to keep backward compatibility when there's only one MIG.
# We should change it at some point, but note #18545 when changing this.
group_name="${NODE_INSTANCE_PREFIX}-group"
fi
# Spread the remaining number of nodes evenly
this_mig_size=$((${instances_left} / (${NUM_MIGS}-${i}+1)))
instances_left=$((instances_left-${this_mig_size}))
gcloud compute instance-groups managed \
create "${group_name}" \
--project "${PROJECT}" \
--zone "${ZONE}" \
--base-instance-name "${group_name}" \
--size "${this_mig_size}" \
--template "$template_name" || true;
gcloud compute instance-groups managed wait-until-stable \
"${group_name}" \
--zone "${ZONE}" \
--project "${PROJECT}" || true;
done
}
# Assumes:
# - NUM_MIGS
# - NODE_INSTANCE_PREFIX
# - PROJECT
# - ZONE
# - AUTOSCALER_MAX_NODES
# - AUTOSCALER_MIN_NODES
# Exports
# - AUTOSCALER_MIG_CONFIG
function create-cluster-autoscaler-mig-config() {
# Each MIG must have at least one node, so the min number of nodes
# must be greater or equal to the number of migs.
if [[ ${AUTOSCALER_MIN_NODES} < ${NUM_MIGS} ]]; then
echo "AUTOSCALER_MIN_NODES must be greater or equal ${NUM_MIGS}"
exit 2
fi
# Each MIG must have at least one node, so the min number of nodes
# must be greater or equal to the number of migs.
if [[ ${AUTOSCALER_MAX_NODES} < ${NUM_MIGS} ]]; then
echo "AUTOSCALER_MAX_NODES must be greater or equal ${NUM_MIGS}"
exit 2
fi
# The code assumes that the migs were created with create-nodes
# function which tries to evenly spread nodes across the migs.
AUTOSCALER_MIG_CONFIG=""
local left_min=${AUTOSCALER_MIN_NODES}
local left_max=${AUTOSCALER_MAX_NODES}
for ((i=1; i<=${NUM_MIGS}; i++)); do
local group_name="${NODE_INSTANCE_PREFIX}-group-$i"
if [[ $i == ${NUM_MIGS} ]]; then
# TODO: We don't add a suffix for the last group to keep backward compatibility when there's only one MIG.
# We should change it at some point, but note #18545 when changing this.
group_name="${NODE_INSTANCE_PREFIX}-group"
fi
this_mig_min=$((${left_min}/(${NUM_MIGS}-${i}+1)))
this_mig_max=$((${left_max}/(${NUM_MIGS}-${i}+1)))
left_min=$((left_min-$this_mig_min))
left_max=$((left_max-$this_mig_max))
local mig_url="https://www.googleapis.com/compute/v1/projects/${PROJECT}/zones/${ZONE}/instanceGroups/${group_name}"
AUTOSCALER_MIG_CONFIG="${AUTOSCALER_MIG_CONFIG} --nodes=${this_mig_min}:${this_mig_max}:${mig_url}"
done
AUTOSCALER_MIG_CONFIG="${AUTOSCALER_MIG_CONFIG} --scale-down-enabled=${AUTOSCALER_ENABLE_SCALE_DOWN}"
}
# Assumes:
# - NUM_MIGS
# - NODE_INSTANCE_PREFIX
# - PROJECT
# - ZONE
# - ENABLE_CLUSTER_AUTOSCALER
# - AUTOSCALER_MAX_NODES
# - AUTOSCALER_MIN_NODES
function create-autoscaler-config() {
# Create autoscaler for nodes configuration if requested
if [[ "${ENABLE_CLUSTER_AUTOSCALER}" == "true" ]]; then
create-cluster-autoscaler-mig-config
echo "Using autoscaler config: ${AUTOSCALER_MIG_CONFIG}"
fi
}
function check-cluster() {
detect-node-names
detect-master
echo "Waiting up to ${KUBE_CLUSTER_INITIALIZATION_TIMEOUT} seconds for cluster initialization."
echo
echo " This will continually check to see if the API for kubernetes is reachable."
echo " This may time out if there was some uncaught error during start up."
echo
# curl in mavericks is borked.
secure=""
if which sw_vers >& /dev/null; then
if [[ $(sw_vers | grep ProductVersion | awk '{print $2}') = "10.9."* ]]; then
secure="--insecure"
fi
fi
local start_time=$(date +%s)
until curl --cacert "${CERT_DIR}/pki/ca.crt" \
-H "Authorization: Bearer ${KUBE_BEARER_TOKEN}" \
${secure} \
--max-time 5 --fail --output /dev/null --silent \
"https://${KUBE_MASTER_IP}/api/v1/pods"; do
local elapsed=$(($(date +%s) - ${start_time}))
if [[ ${elapsed} -gt ${KUBE_CLUSTER_INITIALIZATION_TIMEOUT} ]]; then
echo -e "${color_red}Cluster failed to initialize within ${KUBE_CLUSTER_INITIALIZATION_TIMEOUT} seconds.${color_norm}" >&2
exit 2
fi
printf "."
sleep 2
done
echo "Kubernetes cluster created."
export KUBE_CERT="${CERT_DIR}/pki/issued/kubecfg.crt"
export KUBE_KEY="${CERT_DIR}/pki/private/kubecfg.key"
export CA_CERT="${CERT_DIR}/pki/ca.crt"
export CONTEXT="${PROJECT}_${INSTANCE_PREFIX}"
(
umask 077
# Update the user's kubeconfig to include credentials for this apiserver.
create-kubeconfig
create-kubeconfig-for-federation
)
# ensures KUBECONFIG is set
get-kubeconfig-basicauth
echo
echo -e "${color_green}Kubernetes cluster is running. The master is running at:"
echo
echo -e "${color_yellow} https://${KUBE_MASTER_IP}"
echo
echo -e "${color_green}The user name and password to use is located in ${KUBECONFIG}.${color_norm}"
echo
}
# Removes master replica from etcd cluster.
#
# Assumed vars:
# REPLICA_NAME
# PROJECT
# EXISTING_MASTER_NAME
# EXISTING_MASTER_ZONE
#
# $1: etcd client port
# returns the result of ssh command which removes replica
function remove-replica-from-etcd() {
local -r port="${1}"
[[ -n "${EXISTING_MASTER_NAME}" ]] || return
gcloud compute ssh "${EXISTING_MASTER_NAME}" \
--project "${PROJECT}" \
--zone "${EXISTING_MASTER_ZONE}" \
--command \
"curl -s localhost:${port}/v2/members/\$(curl -s localhost:${port}/v2/members -XGET | sed 's/{\\\"id/\n/g' | grep ${REPLICA_NAME}\\\" | cut -f 3 -d \\\") -XDELETE -L 2>/dev/null"
local -r res=$?
echo "Removing etcd replica, name: ${REPLICA_NAME}, port: ${port}, result: ${res}"
return "${res}"
}
# Delete a kubernetes cluster. This is called from test-teardown.
#
# Assumed vars:
# MASTER_NAME
# NODE_INSTANCE_PREFIX
# ZONE
# This function tears down cluster resources 10 at a time to avoid issuing too many
# API calls and exceeding API quota. It is important to bring down the instances before bringing
# down the firewall rules and routes.
function kube-down() {
local -r batch=200
detect-project
detect-node-names # For INSTANCE_GROUPS
echo "Bringing down cluster"
set +e # Do not stop on error
if [[ "${KUBE_DELETE_NODES:-}" != "false" ]]; then
# Get the name of the managed instance group template before we delete the
# managed instance group. (The name of the managed instance group template may
# change during a cluster upgrade.)
local templates=$(get-template "${PROJECT}")
for group in ${INSTANCE_GROUPS[@]:-}; do
if gcloud compute instance-groups managed describe "${group}" --project "${PROJECT}" --zone "${ZONE}" &>/dev/null; then
gcloud compute instance-groups managed delete \
--project "${PROJECT}" \
--quiet \
--zone "${ZONE}" \
"${group}" &
fi
done
# Wait for last batch of jobs
kube::util::wait-for-jobs || {
echo -e "Failed to delete instance group(s)." >&2
}
for template in ${templates[@]:-}; do
if gcloud compute instance-templates describe --project "${PROJECT}" "${template}" &>/dev/null; then
gcloud compute instance-templates delete \
--project "${PROJECT}" \
--quiet \
"${template}"
fi
done
fi
local -r REPLICA_NAME="${KUBE_REPLICA_NAME:-$(get-replica-name)}"
set-existing-master
# Un-register the master replica from etcd and events etcd.
remove-replica-from-etcd 2379
remove-replica-from-etcd 4002
# Delete the master replica (if it exists).
if gcloud compute instances describe "${REPLICA_NAME}" --zone "${ZONE}" --project "${PROJECT}" &>/dev/null; then
# If there is a load balancer in front of apiservers we need to first update its configuration.
if gcloud compute target-pools describe "${MASTER_NAME}" --region "${REGION}" --project "${PROJECT}" &>/dev/null; then
gcloud compute target-pools remove-instances "${MASTER_NAME}" \
--project "${PROJECT}" \
--zone "${ZONE}" \
--instances "${REPLICA_NAME}"
fi
# Now we can safely delete the VM.
gcloud compute instances delete \
--project "${PROJECT}" \
--quiet \
--delete-disks all \
--zone "${ZONE}" \
"${REPLICA_NAME}"
fi
# Delete the master replica pd (possibly leaked by kube-up if master create failed).
# TODO(jszczepkowski): remove also possibly leaked replicas' pds
local -r replica_pd="${REPLICA_NAME:-${MASTER_NAME}}-pd"
if gcloud compute disks describe "${replica_pd}" --zone "${ZONE}" --project "${PROJECT}" &>/dev/null; then
gcloud compute disks delete \
--project "${PROJECT}" \
--quiet \
--zone "${ZONE}" \
"${replica_pd}"
fi
# Delete disk for cluster registry if enabled
if [[ "${ENABLE_CLUSTER_REGISTRY}" == true && -n "${CLUSTER_REGISTRY_DISK}" ]]; then
if gcloud compute disks describe "${CLUSTER_REGISTRY_DISK}" --zone "${ZONE}" --project "${PROJECT}" &>/dev/null; then
gcloud compute disks delete \
--project "${PROJECT}" \
--quiet \
--zone "${ZONE}" \
"${CLUSTER_REGISTRY_DISK}"
fi
fi
# Check if this are any remaining master replicas.
local REMAINING_MASTER_COUNT=$(gcloud compute instances list \
--project "${PROJECT}" \
--regexp "$(get-replica-name-regexp)" \
--format "value(zone)" | wc -l)
# In the replicated scenario, if there's only a single master left, we should also delete load balancer in front of it.
if [[ "${REMAINING_MASTER_COUNT}" -eq 1 ]]; then
if gcloud compute forwarding-rules describe "${MASTER_NAME}" --region "${REGION}" --project "${PROJECT}" &>/dev/null; then
detect-master
local REMAINING_REPLICA_NAME="$(get-all-replica-names)"
local REMAINING_REPLICA_ZONE=$(gcloud compute instances list "${REMAINING_REPLICA_NAME}" \
--project "${PROJECT}" --format="value(zone)")
gcloud compute forwarding-rules delete \
--project "${PROJECT}" \
--region "${REGION}" \
--quiet \
"${MASTER_NAME}"
attach-external-ip "${REMAINING_REPLICA_NAME}" "${REMAINING_REPLICA_ZONE}" "${KUBE_MASTER_IP}"
gcloud compute target-pools delete \
--project "${PROJECT}" \
--region "${REGION}" \
--quiet \
"${MASTER_NAME}"
fi
fi
# If there are no more remaining master replicas, we should delete all remaining network resources.
if [[ "${REMAINING_MASTER_COUNT}" -eq 0 ]]; then
# Delete firewall rule for the master, etcd servers, and nodes.
delete-firewall-rules "${MASTER_NAME}-https" "${MASTER_NAME}-etcd" "${NODE_TAG}-all"
# Delete the master's reserved IP
if gcloud compute addresses describe "${MASTER_NAME}-ip" --region "${REGION}" --project "${PROJECT}" &>/dev/null; then
gcloud compute addresses delete \
--project "${PROJECT}" \
--region "${REGION}" \
--quiet \
"${MASTER_NAME}-ip"
fi
fi
if [[ "${KUBE_DELETE_NODES:-}" != "false" ]]; then
# Find out what minions are running.
local -a minions
minions=( $(gcloud compute instances list \
--project "${PROJECT}" --zones "${ZONE}" \
--regexp "${NODE_INSTANCE_PREFIX}-.+" \
--format='value(name)') )
# If any minions are running, delete them in batches.
while (( "${#minions[@]}" > 0 )); do
echo Deleting nodes "${minions[*]::${batch}}"
gcloud compute instances delete \
--project "${PROJECT}" \
--quiet \
--delete-disks boot \
--zone "${ZONE}" \
"${minions[@]::${batch}}"
minions=( "${minions[@]:${batch}}" )
done
fi
# If there are no more remaining master replicas: delete routes, pd for influxdb and update kubeconfig
if [[ "${REMAINING_MASTER_COUNT}" -eq 0 ]]; then
# Delete routes.
local -a routes
# Clean up all routes w/ names like "<cluster-name>-<node-GUID>"
# e.g. "kubernetes-12345678-90ab-cdef-1234-567890abcdef". The name is
# determined by the node controller on the master.
# Note that this is currently a noop, as synchronously deleting the node MIG
# first allows the master to cleanup routes itself.
local TRUNCATED_PREFIX="${INSTANCE_PREFIX:0:26}"
routes=( $(gcloud compute routes list --project "${PROJECT}" \
--regexp "${TRUNCATED_PREFIX}-.{8}-.{4}-.{4}-.{4}-.{12}" \
--format='value(name)') )
while (( "${#routes[@]}" > 0 )); do
echo Deleting routes "${routes[*]::${batch}}"
gcloud compute routes delete \
--project "${PROJECT}" \
--quiet \
"${routes[@]::${batch}}"
routes=( "${routes[@]:${batch}}" )
done
# Delete persistent disk for influx-db.
if gcloud compute disks describe "${INSTANCE_PREFIX}"-influxdb-pd --zone "${ZONE}" --project "${PROJECT}" &>/dev/null; then
gcloud compute disks delete \
--project "${PROJECT}" \
--quiet \
--zone "${ZONE}" \
"${INSTANCE_PREFIX}"-influxdb-pd
fi
# Delete all remaining firewall rules and network.
delete-firewall-rules \
"${CLUSTER_NAME}-default-internal-master" \
"${CLUSTER_NAME}-default-internal-node" \
"${NETWORK}-default-ssh" \
"${NETWORK}-default-internal" # Pre-1.5 clusters
if [[ "${KUBE_DELETE_NETWORK}" == "true" ]]; then
delete-network || true # might fail if there are leaked firewall rules
fi
# If there are no more remaining master replicas, we should update kubeconfig.
export CONTEXT="${PROJECT}_${INSTANCE_PREFIX}"
clear-kubeconfig
else
# If some master replicas remain: cluster has been changed, we need to re-validate it.
echo "... calling validate-cluster" >&2
# Override errexit
(validate-cluster) && validate_result="$?" || validate_result="$?"
# We have two different failure modes from validate cluster:
# - 1: fatal error - cluster won't be working correctly
# - 2: weak error - something went wrong, but cluster probably will be working correctly
# We just print an error message in case 2).
if [[ "${validate_result}" -eq 1 ]]; then
exit 1
elif [[ "${validate_result}" -eq 2 ]]; then
echo "...ignoring non-fatal errors in validate-cluster" >&2
fi
fi
set -e
}
# Prints name of one of the master replicas in the current zone. It will be either
# just MASTER_NAME or MASTER_NAME with a suffix for a replica (see get-replica-name-regexp).
#
# Assumed vars:
# PROJECT
# ZONE
# MASTER_NAME
#
# NOTE: Must be in sync with get-replica-name-regexp and set-replica-name.
function get-replica-name() {
echo $(gcloud compute instances list \
--project "${PROJECT}" \
--zones "${ZONE}" \
--regexp "$(get-replica-name-regexp)" \
--format "value(name)" | head -n1)
}
# Prints comma-separated names of all of the master replicas in all zones.
#
# Assumed vars:
# PROJECT
# MASTER_NAME
#
# NOTE: Must be in sync with get-replica-name-regexp and set-replica-name.
function get-all-replica-names() {
echo $(gcloud compute instances list \
--project "${PROJECT}" \
--regexp "$(get-replica-name-regexp)" \
--format "value(name)" | tr "\n" "," | sed 's/,$//')
}
# Prints the number of all of the master replicas in all zones.
#
# Assumed vars:
# MASTER_NAME
function get-master-replicas-count() {
detect-project
local num_masters=$(gcloud compute instances list \
--project "${PROJECT}" \
--regexp "$(get-replica-name-regexp)" \
--format "value(zone)" | wc -l)
echo -n "${num_masters}"
}
# Prints regexp for full master machine name. In a cluster with replicated master,
# VM names may either be MASTER_NAME or MASTER_NAME with a suffix for a replica.
function get-replica-name-regexp() {
echo "${MASTER_NAME}(-...)?"
}
# Sets REPLICA_NAME to a unique name for a master replica that will match
# expected regexp (see get-replica-name-regexp).
#
# Assumed vars:
# PROJECT
# ZONE
# MASTER_NAME
#
# Sets:
# REPLICA_NAME
function set-replica-name() {
local instances=$(gcloud compute instances list \
--project "${PROJECT}" \
--regexp "$(get-replica-name-regexp)" \
--format "value(name)")
suffix=""
while echo "${instances}" | grep "${suffix}" &>/dev/null; do
suffix="$(date | md5sum | head -c3)"
done
REPLICA_NAME="${MASTER_NAME}-${suffix}"
}
# Gets the instance template for given NODE_INSTANCE_PREFIX. It echos the template name so that the function
# output can be used.
# Assumed vars:
# NODE_INSTANCE_PREFIX
#
# $1: project
function get-template() {
gcloud compute instance-templates list -r "${NODE_INSTANCE_PREFIX}-template(-(${KUBE_RELEASE_VERSION_DASHED_REGEX}|${KUBE_CI_VERSION_DASHED_REGEX}))?" \
--project="${1}" --format='value(name)'
}
# Checks if there are any present resources related kubernetes cluster.
#
# Assumed vars:
# MASTER_NAME
# NODE_INSTANCE_PREFIX
# ZONE
# REGION
# Vars set:
# KUBE_RESOURCE_FOUND
function check-resources() {
detect-project
detect-node-names
echo "Looking for already existing resources"
KUBE_RESOURCE_FOUND=""
if [[ -n "${INSTANCE_GROUPS[@]:-}" ]]; then
KUBE_RESOURCE_FOUND="Managed instance groups ${INSTANCE_GROUPS[@]}"
return 1
fi
if gcloud compute instance-templates describe --project "${PROJECT}" "${NODE_INSTANCE_PREFIX}-template" &>/dev/null; then
KUBE_RESOURCE_FOUND="Instance template ${NODE_INSTANCE_PREFIX}-template"
return 1
fi
if gcloud compute instances describe --project "${PROJECT}" "${MASTER_NAME}" --zone "${ZONE}" &>/dev/null; then
KUBE_RESOURCE_FOUND="Kubernetes master ${MASTER_NAME}"
return 1
fi
if gcloud compute disks describe --project "${PROJECT}" "${MASTER_NAME}"-pd --zone "${ZONE}" &>/dev/null; then
KUBE_RESOURCE_FOUND="Persistent disk ${MASTER_NAME}-pd"
return 1
fi
if gcloud compute disks describe --project "${PROJECT}" "${CLUSTER_REGISTRY_DISK}" --zone "${ZONE}" &>/dev/null; then
KUBE_RESOURCE_FOUND="Persistent disk ${CLUSTER_REGISTRY_DISK}"
return 1
fi
# Find out what minions are running.
local -a minions
minions=( $(gcloud compute instances list \
--project "${PROJECT}" --zones "${ZONE}" \
--regexp "${NODE_INSTANCE_PREFIX}-.+" \
--format='value(name)') )
if (( "${#minions[@]}" > 0 )); then
KUBE_RESOURCE_FOUND="${#minions[@]} matching matching ${NODE_INSTANCE_PREFIX}-.+"
return 1
fi
if gcloud compute firewall-rules describe --project "${PROJECT}" "${MASTER_NAME}-https" &>/dev/null; then
KUBE_RESOURCE_FOUND="Firewall rules for ${MASTER_NAME}-https"
return 1
fi
if gcloud compute firewall-rules describe --project "${PROJECT}" "${NODE_TAG}-all" &>/dev/null; then
KUBE_RESOURCE_FOUND="Firewall rules for ${MASTER_NAME}-all"
return 1
fi
local -a routes
routes=( $(gcloud compute routes list --project "${PROJECT}" \
--regexp "${INSTANCE_PREFIX}-minion-.{4}" --format='value(name)') )
if (( "${#routes[@]}" > 0 )); then
KUBE_RESOURCE_FOUND="${#routes[@]} routes matching ${INSTANCE_PREFIX}-minion-.{4}"
return 1
fi
if gcloud compute addresses describe --project "${PROJECT}" "${MASTER_NAME}-ip" --region "${REGION}" &>/dev/null; then
KUBE_RESOURCE_FOUND="Master's reserved IP"
return 1
fi
# No resources found.
return 0
}
# Prepare to push new binaries to kubernetes cluster
# $1 - whether prepare push to node
function prepare-push() {
local node="${1-}"
#TODO(dawnchen): figure out how to upgrade a Container Linux node
if [[ "${node}" == "true" && "${NODE_OS_DISTRIBUTION}" != "debian" ]]; then
echo "Updating nodes in a kubernetes cluster with ${NODE_OS_DISTRIBUTION} is not supported yet." >&2
exit 1
fi
if [[ "${node}" != "true" && "${MASTER_OS_DISTRIBUTION}" != "debian" ]]; then
echo "Updating the master in a kubernetes cluster with ${MASTER_OS_DISTRIBUTION} is not supported yet." >&2
exit 1
fi
OUTPUT=${KUBE_ROOT}/_output/logs
mkdir -p ${OUTPUT}
ensure-temp-dir
detect-project
detect-master
detect-node-names
get-kubeconfig-basicauth
get-kubeconfig-bearertoken
# Make sure we have the tar files staged on Google Storage
tars_from_version
# Prepare node env vars and update MIG template
if [[ "${node}" == "true" ]]; then
write-node-env
# TODO(zmerlynn): Refactor setting scope flags.
local scope_flags=
if [ -n "${NODE_SCOPES}" ]; then
scope_flags="--scopes ${NODE_SCOPES}"
else
scope_flags="--no-scopes"
fi
# Ugly hack: Since it is not possible to delete instance-template that is currently
# being used, create a temp one, then delete the old one and recreate it once again.
local tmp_template_name="${NODE_INSTANCE_PREFIX}-template-tmp"
create-node-instance-template $tmp_template_name
local template_name="${NODE_INSTANCE_PREFIX}-template"
for group in ${INSTANCE_GROUPS[@]:-}; do
gcloud compute instance-groups managed \
set-instance-template "${group}" \
--template "$tmp_template_name" \
--zone "${ZONE}" \
--project "${PROJECT}" || true;
done
gcloud compute instance-templates delete \
--project "${PROJECT}" \
--quiet \
"$template_name" || true
create-node-instance-template "$template_name"
for group in ${INSTANCE_GROUPS[@]:-}; do
gcloud compute instance-groups managed \
set-instance-template "${group}" \
--template "$template_name" \
--zone "${ZONE}" \
--project "${PROJECT}" || true;
done
gcloud compute instance-templates delete \
--project "${PROJECT}" \
--quiet \
"$tmp_template_name" || true
fi
}
# Push binaries to kubernetes master
function push-master() {
echo "Updating master metadata ..."
write-master-env
prepare-startup-script
add-instance-metadata-from-file "${KUBE_MASTER}" "kube-env=${KUBE_TEMP}/master-kube-env.yaml" "startup-script=${KUBE_TEMP}/configure-vm.sh"
echo "Pushing to master (log at ${OUTPUT}/push-${KUBE_MASTER}.log) ..."
cat ${KUBE_TEMP}/configure-vm.sh | gcloud compute ssh --ssh-flag="-o LogLevel=quiet" --project "${PROJECT}" --zone "${ZONE}" "${KUBE_MASTER}" --command "sudo bash -s -- --push" &> ${OUTPUT}/push-"${KUBE_MASTER}".log
}
# Push binaries to kubernetes node
function push-node() {
node=${1}
echo "Updating node ${node} metadata... "
prepare-startup-script
add-instance-metadata-from-file "${node}" "kube-env=${KUBE_TEMP}/node-kube-env.yaml" "startup-script=${KUBE_TEMP}/configure-vm.sh"
echo "Start upgrading node ${node} (log at ${OUTPUT}/push-${node}.log) ..."
cat ${KUBE_TEMP}/configure-vm.sh | gcloud compute ssh --ssh-flag="-o LogLevel=quiet" --project "${PROJECT}" --zone "${ZONE}" "${node}" --command "sudo bash -s -- --push" &> ${OUTPUT}/push-"${node}".log
}
# Push binaries to kubernetes cluster
function kube-push() {
# Disable this until it's fixed.
# See https://github.com/kubernetes/kubernetes/issues/17397
echo "./cluster/kube-push.sh is currently not supported in GCE."
echo "Please use ./cluster/gce/upgrade.sh."
exit 1
prepare-push true
push-master
for (( i=0; i<${#NODE_NAMES[@]}; i++)); do
push-node "${NODE_NAMES[$i]}" &
done
kube::util::wait-for-jobs || {
echo -e "${color_red}Some commands failed.${color_norm}" >&2
}
# TODO(zmerlynn): Re-create instance-template with the new
# node-kube-env. This isn't important until the node-ip-range issue
# is solved (because that's blocking automatic dynamic nodes from
# working). The node-kube-env has to be composed with the KUBELET_TOKEN
# and KUBE_PROXY_TOKEN. Ideally we would have
# http://issue.k8s.io/3168
# implemented before then, though, so avoiding this mess until then.
echo
echo "Kubernetes cluster is running. The master is running at:"
echo
echo " https://${KUBE_MASTER_IP}"
echo
echo "The user name and password to use is located in ~/.kube/config"
echo
}
# -----------------------------------------------------------------------------
# Cluster specific test helpers used from hack/e2e.go
# Execute prior to running tests to build a release if required for env.
#
# Assumed Vars:
# KUBE_ROOT
function test-build-release() {
# Make a release
"${KUBE_ROOT}/build/release.sh"
}
# Execute prior to running tests to initialize required structure. This is
# called from hack/e2e.go only when running -up.
#
# Assumed vars:
# Variables from config.sh
function test-setup() {
# Detect the project into $PROJECT if it isn't set
detect-project
if [[ ${MULTIZONE:-} == "true" && -n ${E2E_ZONES:-} ]]; then
for KUBE_GCE_ZONE in ${E2E_ZONES}
do
KUBE_GCE_ZONE="${KUBE_GCE_ZONE}" KUBE_USE_EXISTING_MASTER="${KUBE_USE_EXISTING_MASTER:-}" "${KUBE_ROOT}/cluster/kube-up.sh"
KUBE_USE_EXISTING_MASTER="true" # For subsequent zones we use the existing master
done
else
"${KUBE_ROOT}/cluster/kube-up.sh"
fi
# Open up port 80 & 8080 so common containers on minions can be reached
# TODO(roberthbailey): Remove this once we are no longer relying on hostPorts.
local start=`date +%s`
gcloud compute firewall-rules create \
--project "${PROJECT}" \
--target-tags "${NODE_TAG}" \
--allow tcp:80,tcp:8080 \
--network "${NETWORK}" \
"${NODE_TAG}-${INSTANCE_PREFIX}-http-alt" 2> /dev/null || true
# As there is no simple way to wait longer for this operation we need to manually
# wait some additional time (20 minutes altogether).
while ! gcloud compute firewall-rules describe --project "${PROJECT}" "${NODE_TAG}-${INSTANCE_PREFIX}-http-alt" 2> /dev/null; do
if [[ $(($start + 1200)) -lt `date +%s` ]]; then
echo -e "${color_red}Failed to create firewall ${NODE_TAG}-${INSTANCE_PREFIX}-http-alt in ${PROJECT}" >&2
exit 1
fi
sleep 5
done
# Open up the NodePort range
# TODO(justinsb): Move to main setup, if we decide whether we want to do this by default.
start=`date +%s`
gcloud compute firewall-rules create \
--project "${PROJECT}" \
--target-tags "${NODE_TAG}" \
--allow tcp:30000-32767,udp:30000-32767 \
--network "${NETWORK}" \
"${NODE_TAG}-${INSTANCE_PREFIX}-nodeports" 2> /dev/null || true
# As there is no simple way to wait longer for this operation we need to manually
# wait some additional time (20 minutes altogether).
while ! gcloud compute firewall-rules describe --project "${PROJECT}" "${NODE_TAG}-${INSTANCE_PREFIX}-nodeports" 2> /dev/null; do
if [[ $(($start + 1200)) -lt `date +%s` ]]; then
echo -e "${color_red}Failed to create firewall ${NODE_TAG}-${INSTANCE_PREFIX}-nodeports in ${PROJECT}" >&2
exit 1
fi
sleep 5
done
}
# Execute after running tests to perform any required clean-up. This is called
# from hack/e2e.go
function test-teardown() {
detect-project
echo "Shutting down test cluster in background."
delete-firewall-rules \
"${NODE_TAG}-${INSTANCE_PREFIX}-http-alt" \
"${NODE_TAG}-${INSTANCE_PREFIX}-nodeports"
if [[ ${MULTIZONE:-} == "true" && -n ${E2E_ZONES:-} ]]; then
local zones=( ${E2E_ZONES} )
# tear them down in reverse order, finally tearing down the master too.
for ((zone_num=${#zones[@]}-1; zone_num>0; zone_num--))
do
KUBE_GCE_ZONE="${zones[zone_num]}" KUBE_USE_EXISTING_MASTER="true" "${KUBE_ROOT}/cluster/kube-down.sh"
done
KUBE_GCE_ZONE="${zones[0]}" KUBE_USE_EXISTING_MASTER="false" "${KUBE_ROOT}/cluster/kube-down.sh"
else
"${KUBE_ROOT}/cluster/kube-down.sh"
fi
}
# SSH to a node by name ($1) and run a command ($2).
function ssh-to-node() {
local node="$1"
local cmd="$2"
# Loop until we can successfully ssh into the box
for try in {1..5}; do
if gcloud compute ssh --ssh-flag="-o LogLevel=quiet" --ssh-flag="-o ConnectTimeout=30" --project "${PROJECT}" --zone="${ZONE}" "${node}" --command "echo test > /dev/null"; then
break
fi
sleep 5
done
# Then actually try the command.
gcloud compute ssh --ssh-flag="-o LogLevel=quiet" --ssh-flag="-o ConnectTimeout=30" --project "${PROJECT}" --zone="${ZONE}" "${node}" --command "${cmd}"
}
# Perform preparations required to run e2e tests
function prepare-e2e() {
detect-project
}
# Writes configure-vm.sh to a temporary location with comments stripped. GCE
# limits the size of metadata fields to 32K, and stripping comments is the
# easiest way to buy us a little more room.
function prepare-startup-script() {
# Find a standard sed instance (and ensure that the command works as expected on a Mac).
SED=sed
if which gsed &>/dev/null; then
SED=gsed
fi
if ! ($SED --version 2>&1 | grep -q GNU); then
echo "!!! GNU sed is required. If on OS X, use 'brew install gnu-sed'."
exit 1
fi
$SED '/^\s*#\([^!].*\)*$/ d' ${KUBE_ROOT}/cluster/gce/configure-vm.sh > ${KUBE_TEMP}/configure-vm.sh
}