#!/usr/bin/env 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.
# TODO(jbeda): Provide a way to override project
# gcloud multiplexing for shared GCE/GKE tests.
KUBE_ROOT=$(dirname "${BASH_SOURCE[0]}")/../..
source "${KUBE_ROOT}/cluster/gce/config-common.sh"
# Specifying KUBE_GCE_API_ENDPOINT will override the default GCE Compute API endpoint (https://www.googleapis.com/compute/v1/).
# This endpoint has to be pointing to v1 api. For example, https://www.googleapis.com/compute/staging_v1/
export GCE_API_ENDPOINT=${KUBE_GCE_API_ENDPOINT:-}
ZONE=${KUBE_GCE_ZONE:-us-central1-b}
export REGION=${ZONE%-*}
RELEASE_REGION_FALLBACK=${RELEASE_REGION_FALLBACK:-false}
REGIONAL_KUBE_ADDONS=${REGIONAL_KUBE_ADDONS:-true}
NODE_SIZE=${NODE_SIZE:-e2-standard-2}
NUM_NODES=${NUM_NODES:-3}
NUM_WINDOWS_NODES=${NUM_WINDOWS_NODES:-0}
MASTER_SIZE=${MASTER_SIZE:-e2-standard-$(get-master-size)}
MASTER_MIN_CPU_ARCHITECTURE=${MASTER_MIN_CPU_ARCHITECTURE:-} # To allow choosing better architectures.
export MASTER_DISK_TYPE=pd-ssd
MASTER_DISK_SIZE=${MASTER_DISK_SIZE:-$(get-master-disk-size)}
MASTER_ROOT_DISK_SIZE=${MASTER_ROOT_DISK_SIZE:-$(get-master-root-disk-size)}
NODE_DISK_TYPE=${NODE_DISK_TYPE:-pd-standard}
NODE_DISK_SIZE=${NODE_DISK_SIZE:-100GB}
NODE_LOCAL_SSDS=${NODE_LOCAL_SSDS:-0}
NODE_LABELS=${KUBE_NODE_LABELS:-}
WINDOWS_NODE_LABELS=${WINDOWS_NODE_LABELS:-}
NODE_LOCAL_SSDS_EPHEMERAL=${NODE_LOCAL_SSDS_EPHEMERAL:-}
# Turning GRPC based Konnectivity testing on id advance of
# removing the SSHTunnel code.
export KUBE_ENABLE_EGRESS_VIA_KONNECTIVITY_SERVICE=true
export PREPARE_KONNECTIVITY_SERVICE="${KUBE_ENABLE_KONNECTIVITY_SERVICE:-true}"
export EGRESS_VIA_KONNECTIVITY="${KUBE_ENABLE_KONNECTIVITY_SERVICE:-true}"
export RUN_KONNECTIVITY_PODS="${KUBE_ENABLE_KONNECTIVITY_SERVICE:-true}"
export KONNECTIVITY_SERVICE_PROXY_PROTOCOL_MODE="${KUBE_KONNECTIVITY_SERVICE_PROXY_PROTOCOL_MODE:-grpc}"
# KUBE_CREATE_NODES can be used to avoid creating nodes, while master will be sized for NUM_NODES nodes.
# Firewalls and node templates are still created.
KUBE_CREATE_NODES=${KUBE_CREATE_NODES:-true}
# An extension to local SSDs allowing users to specify block/fs and SCSI/NVMe devices
# Format of this variable will be "#,scsi/nvme,block/fs" you can specify multiple
# configurations by separating them by a semi-colon ex. "2,scsi,fs;1,nvme,block"
# is a request for 2 SCSI formatted and mounted SSDs and 1 NVMe block device SSD.
NODE_LOCAL_SSDS_EXT=${NODE_LOCAL_SSDS_EXT:-}
NODE_ACCELERATORS=${NODE_ACCELERATORS:-''}
export REGISTER_MASTER_KUBELET=${REGISTER_MASTER:-true}
export KUBE_APISERVER_REQUEST_TIMEOUT=300
# Increase initial delay for the apiserver liveness probe, to avoid prematurely tearing it down
KUBE_APISERVER_LIVENESS_PROBE_INITIAL_DELAY_SEC=${KUBE_APISERVER_LIVENESS_PROBE_INITIAL_DELAY_SEC:-45}
# Also increase the initial delay for etcd just to be safe
ETCD_LIVENESS_PROBE_INITIAL_DELAY_SEC=${ETCD_LIVENESS_PROBE_INITIAL_DELAY_SEC:-45}
PREEMPTIBLE_NODE=${PREEMPTIBLE_NODE:-false}
PREEMPTIBLE_MASTER=${PREEMPTIBLE_MASTER:-false}
KUBE_DELETE_NODES=${KUBE_DELETE_NODES:-true}
KUBE_DELETE_NETWORK=${KUBE_DELETE_NETWORK:-true}
CREATE_CUSTOM_NETWORK=${CREATE_CUSTOM_NETWORK:-false}
MIG_WAIT_UNTIL_STABLE_TIMEOUT=${MIG_WAIT_UNTIL_STABLE_TIMEOUT:-1800}
MASTER_OS_DISTRIBUTION=${KUBE_MASTER_OS_DISTRIBUTION:-${KUBE_OS_DISTRIBUTION:-gci}}
NODE_OS_DISTRIBUTION=${KUBE_NODE_OS_DISTRIBUTION:-${KUBE_OS_DISTRIBUTION:-gci}}
WINDOWS_NODE_OS_DISTRIBUTION=${WINDOWS_NODE_OS_DISTRIBUTION:-win2019}
if [[ "${MASTER_OS_DISTRIBUTION}" = 'cos' ]]; then
MASTER_OS_DISTRIBUTION='gci'
fi
if [[ "${NODE_OS_DISTRIBUTION}" = 'cos' ]]; then
NODE_OS_DISTRIBUTION='gci'
fi
# GPUs supported in GCE do not have compatible drivers in Debian 7.
if [[ "${NODE_OS_DISTRIBUTION}" = 'debian' ]]; then
NODE_ACCELERATORS=''
fi
# To avoid failing large tests due to some flakes in starting nodes, allow
# for a small percentage of nodes to not start during cluster startup.
ALLOWED_NOTREADY_NODES=${ALLOWED_NOTREADY_NODES:-$(($(get-num-nodes) / 100))}
# By default a cluster will be started with the master and nodes
# on Container-optimized OS (cos, previously known as gci). If
# you are updating the os image versions, update this variable.
# Also please update corresponding image for node e2e at:
# https://github.com/kubernetes/kubernetes/blob/master/test/e2e_node/jenkins/image-config.yaml
#
# By default, the latest image from the image family will be used unless an
# explicit image will be set.
GCI_VERSION=${KUBE_GCI_VERSION:-}
IMAGE_FAMILY=${KUBE_IMAGE_FAMILY:-cos-109-lts}
export MASTER_IMAGE=${KUBE_GCE_MASTER_IMAGE:-}
export MASTER_IMAGE_FAMILY=${KUBE_GCE_MASTER_IMAGE_FAMILY:-${IMAGE_FAMILY}}
export MASTER_IMAGE_PROJECT=${KUBE_GCE_MASTER_PROJECT:-cos-cloud}
export NODE_IMAGE=${KUBE_GCE_NODE_IMAGE:-${GCI_VERSION}}
export NODE_IMAGE_FAMILY=${KUBE_GCE_NODE_IMAGE_FAMILY:-${IMAGE_FAMILY}}
export NODE_IMAGE_PROJECT=${KUBE_GCE_NODE_PROJECT:-cos-cloud}
export NODE_SERVICE_ACCOUNT=${KUBE_GCE_NODE_SERVICE_ACCOUNT:-default}
export CONTAINER_RUNTIME_ENDPOINT=${KUBE_CONTAINER_RUNTIME_ENDPOINT:-unix:///run/containerd/containerd.sock}
export CONTAINER_RUNTIME_NAME=${KUBE_CONTAINER_RUNTIME_NAME:-containerd}
export LOAD_IMAGE_COMMAND=${KUBE_LOAD_IMAGE_COMMAND:-ctr -n=k8s.io images import}
export LOG_DUMP_SYSTEMD_SERVICES=${LOG_DUMP_SYSTEMD_SERVICES:-containerd}
export CONTAINER_RUNTIME_TEST_HANDLER="true"
export GCI_DOCKER_VERSION=${KUBE_GCI_DOCKER_VERSION:-}
# Ability to inject custom versions (Ubuntu OS images ONLY)
# if KUBE_UBUNTU_INSTALL_CONTAINERD_VERSION or KUBE_UBUNTU_INSTALL_RUNC_VERSION
# is set to empty then we do not override the version(s) and just
# use whatever is in the default installation of containerd package
export UBUNTU_INSTALL_CONTAINERD_VERSION=${KUBE_UBUNTU_INSTALL_CONTAINERD_VERSION:-}
export UBUNTU_INSTALL_RUNC_VERSION=${KUBE_UBUNTU_INSTALL_RUNC_VERSION:-}
# Ability to inject custom versions (COS images ONLY)
# if KUBE_COS_INSTALL_CONTAINERD_VERSION or KUBE_COS_INSTALL_RUNC_VERSION
# is set to empty then we do not override the version(s) and just
# use whatever is in the default installation of containerd package
export COS_INSTALL_CONTAINERD_VERSION=${KUBE_COS_INSTALL_CONTAINERD_VERSION:-}
export COS_INSTALL_RUNC_VERSION=${KUBE_COS_INSTALL_RUNC_VERSION:-}
# MASTER_EXTRA_METADATA is the extra instance metadata on master instance separated by commas.
export MASTER_EXTRA_METADATA=${KUBE_MASTER_EXTRA_METADATA:-${KUBE_EXTRA_METADATA:-}}
# MASTER_EXTRA_METADATA is the extra instance metadata on node instance separated by commas.
export NODE_EXTRA_METADATA=${KUBE_NODE_EXTRA_METADATA:-${KUBE_EXTRA_METADATA:-}}
NETWORK=${KUBE_GCE_NETWORK:-e2e-test-${USER}}
if [[ "${CREATE_CUSTOM_NETWORK}" = true ]]; then
SUBNETWORK=${SUBNETWORK:-${NETWORK}-custom-subnet}
fi
INSTANCE_PREFIX=${KUBE_GCE_INSTANCE_PREFIX:-e2e-test-${USER}}
CLUSTER_NAME=${CLUSTER_NAME:-${INSTANCE_PREFIX}}
MASTER_NAME="${INSTANCE_PREFIX}-master"
export AGGREGATOR_MASTER_NAME="${INSTANCE_PREFIX}-aggregator"
export INITIAL_ETCD_CLUSTER=${MASTER_NAME}
export MASTER_TAG="${INSTANCE_PREFIX}-master"
export NODE_TAG="${INSTANCE_PREFIX}-minion"
CLUSTER_IP_RANGE=${CLUSTER_IP_RANGE:-$(get-cluster-ip-range)}
MASTER_IP_RANGE=${MASTER_IP_RANGE:-10.246.0.0/24}
# NODE_IP_RANGE is used when ENABLE_IP_ALIASES=true or CREATE_CUSTOM_NETWORK=true.
# It is the primary range in the subnet and is the range used for node instance IPs.
NODE_IP_RANGE=$(get-node-ip-range)
export NODE_IP_RANGE
export RUNTIME_CONFIG=${KUBE_RUNTIME_CONFIG:-}
if [[ "${KUBE_FEATURE_GATES:-}" = 'AllAlpha=true' ]]; then
RUNTIME_CONFIG=${KUBE_RUNTIME_CONFIG:-api/all=true}
fi
# By default disable gkenetworkparamset controller in CCM
RUN_CCM_CONTROLLERS="${RUN_CCM_CONTROLLERS:-*,-gkenetworkparamset}"
# Optional: set feature gates
# shellcheck disable=SC2034 # Variables sourced in other scripts.
FEATURE_GATES=${KUBE_FEATURE_GATES:-}
TERMINATED_POD_GC_THRESHOLD=${TERMINATED_POD_GC_THRESHOLD:-100}
# Extra docker options for nodes.
EXTRA_DOCKER_OPTS=${EXTRA_DOCKER_OPTS:-}
# Enable the docker debug mode.
EXTRA_DOCKER_OPTS="${EXTRA_DOCKER_OPTS} --debug"
export SERVICE_CLUSTER_IP_RANGE='10.0.0.0/16' # formerly PORTAL_NET
# When set to true, Docker Cache is enabled by default as part of the cluster bring up.
export ENABLE_DOCKER_REGISTRY_CACHE=true
# Optional: Deploy a L7 loadbalancer controller to fulfill Ingress requests:
# glbc - CE L7 Load Balancer Controller
export ENABLE_L7_LOADBALANCING=${KUBE_ENABLE_L7_LOADBALANCING:-glbc}
# Optional: Enable Metrics Server. Metrics Server should be enable everywhere,
# since it's a critical component, but in the first release we need a way to disable
# this in case of stability issues.
# TODO(piosz) remove this option once Metrics Server became a stable thing.
export ENABLE_METRICS_SERVER=${KUBE_ENABLE_METRICS_SERVER:-true}
# Optional: Metadata agent to setup as part of the cluster bring up:
# none - No metadata agent
# stackdriver - Stackdriver metadata agent
# Metadata agent is a daemon set that provides metadata of kubernetes objects
# running on the same node for exporting metrics and logs.
export ENABLE_METADATA_AGENT=${KUBE_ENABLE_METADATA_AGENT:-none}
# One special node out of NUM_NODES would be created of this type if specified.
# Useful for scheduling heapster in large clusters with nodes of small size.
HEAPSTER_MACHINE_TYPE=${HEAPSTER_MACHINE_TYPE:-}
# Optional: Additional nodes would be created if their type and number is specified.
# NUM_NODES would be lowered respectively.
# Useful for running cluster-level addons that needs more resources than would fit
# on small nodes, like network plugins.
NUM_ADDITIONAL_NODES=${NUM_ADDITIONAL_NODES:-}
ADDITIONAL_MACHINE_TYPE=${ADDITIONAL_MACHINE_TYPE:-}
# Set etcd image (e.g. registry.k8s.io/etcd) and version (e.g. v3.5.1-0) if you need
# non-default version.
export ETCD_IMAGE=${TEST_ETCD_IMAGE:-}
export ETCD_DOCKER_REPOSITORY=${TEST_ETCD_DOCKER_REPOSITORY:-}
export ETCD_VERSION=${TEST_ETCD_VERSION:-}
# Default Log level for all components in test clusters and variables to override it in specific components.
TEST_CLUSTER_LOG_LEVEL=${TEST_CLUSTER_LOG_LEVEL:---v=4}
KUBELET_TEST_LOG_LEVEL=${KUBELET_TEST_LOG_LEVEL:-$TEST_CLUSTER_LOG_LEVEL}
DOCKER_TEST_LOG_LEVEL=${DOCKER_TEST_LOG_LEVEL:---log-level=info}
API_SERVER_TEST_LOG_LEVEL=${API_SERVER_TEST_LOG_LEVEL:-$TEST_CLUSTER_LOG_LEVEL}
CONTROLLER_MANAGER_TEST_LOG_LEVEL=${CONTROLLER_MANAGER_TEST_LOG_LEVEL:-$TEST_CLUSTER_LOG_LEVEL}
SCHEDULER_TEST_LOG_LEVEL=${SCHEDULER_TEST_LOG_LEVEL:-$TEST_CLUSTER_LOG_LEVEL}
KUBEPROXY_TEST_LOG_LEVEL=${KUBEPROXY_TEST_LOG_LEVEL:-$TEST_CLUSTER_LOG_LEVEL}
VOLUME_PLUGIN_DIR=${VOLUME_PLUGIN_DIR:-/home/kubernetes/flexvolume}
TEST_CLUSTER_DELETE_COLLECTION_WORKERS=${TEST_CLUSTER_DELETE_COLLECTION_WORKERS:---delete-collection-workers=1}
TEST_CLUSTER_MAX_REQUESTS_INFLIGHT=${TEST_CLUSTER_MAX_REQUESTS_INFLIGHT:-}
TEST_CLUSTER_RESYNC_PERIOD=${TEST_CLUSTER_RESYNC_PERIOD:---min-resync-period=3m}
# ContentType used by all components to communicate with apiserver.
TEST_CLUSTER_API_CONTENT_TYPE=${TEST_CLUSTER_API_CONTENT_TYPE:-}
# Enable debug handlers (port forwarding, exec, container logs, etc.).
KUBELET_ENABLE_DEBUGGING_HANDLERS=${KUBELET_ENABLE_DEBUGGING_HANDLERS:-true}
MASTER_KUBELET_ENABLE_DEBUGGING_HANDLERS=${MASTER_KUBELET_ENABLE_DEBUGGING_HANDLERS:-${KUBELET_ENABLE_DEBUGGING_HANDLERS}}
KUBELET_TEST_ARGS="${KUBELET_TEST_ARGS:-} --serialize-image-pulls=false ${TEST_CLUSTER_API_CONTENT_TYPE}"
if [[ "${NODE_OS_DISTRIBUTION}" = 'gci' ]] || [[ "${NODE_OS_DISTRIBUTION}" = 'ubuntu' ]] || [[ "${NODE_OS_DISTRIBUTION}" = 'custom' ]]; then
NODE_KUBELET_TEST_ARGS="${NODE_KUBELET_TEST_ARGS:-} --kernel-memcg-notification=true"
fi
if [[ "${MASTER_OS_DISTRIBUTION}" = 'gci' ]] || [[ "${MASTER_OS_DISTRIBUTION}" = 'ubuntu' ]]; then
MASTER_KUBELET_TEST_ARGS="${MASTER_KUBELET_TEST_ARGS:-} --kernel-memcg-notification=true"
fi
APISERVER_TEST_ARGS="${APISERVER_TEST_ARGS:-} --runtime-config=extensions/v1beta1,scheduling.k8s.io/v1alpha1 ${TEST_CLUSTER_DELETE_COLLECTION_WORKERS} ${TEST_CLUSTER_MAX_REQUESTS_INFLIGHT}"
CONTROLLER_MANAGER_TEST_ARGS="${CONTROLLER_MANAGER_TEST_ARGS:-} ${TEST_CLUSTER_RESYNC_PERIOD} ${TEST_CLUSTER_API_CONTENT_TYPE}"
SCHEDULER_TEST_ARGS="${SCHEDULER_TEST_ARGS:-} ${TEST_CLUSTER_API_CONTENT_TYPE}"
KUBEPROXY_TEST_ARGS="${KUBEPROXY_TEST_ARGS:-} ${TEST_CLUSTER_API_CONTENT_TYPE}"
export MASTER_NODE_LABELS=${KUBE_MASTER_NODE_LABELS:-}
# NON_MASTER_NODE_LABELS are labels will only be applied on non-master nodes.
NON_MASTER_NODE_LABELS=${KUBE_NON_MASTER_NODE_LABELS:-}
WINDOWS_NON_MASTER_NODE_LABELS=${WINDOWS_NON_MASTER_NODE_LABELS:-}
if [[ "${PREEMPTIBLE_MASTER}" = 'true' ]]; then
NODE_LABELS="${NODE_LABELS},cloud.google.com/gke-preemptible=true"
WINDOWS_NODE_LABELS="${WINDOWS_NODE_LABELS},cloud.google.com/gke-preemptible=true"
elif [[ "${PREEMPTIBLE_NODE}" = 'true' ]]; then
NON_MASTER_NODE_LABELS="${NON_MASTER_NODE_LABELS},cloud.google.com/gke-preemptible=true"
WINDOWS_NON_MASTER_NODE_LABELS="${WINDOWS_NON_MASTER_NODE_LABELS},cloud.google.com/gke-preemptible=true"
fi
# Optional: Enable netd.
ENABLE_NETD=${KUBE_ENABLE_NETD:-false}
export CUSTOM_NETD_YAML=${KUBE_CUSTOM_NETD_YAML:-}
export CUSTOM_CALICO_NODE_DAEMONSET_YAML=${KUBE_CUSTOM_CALICO_NODE_DAEMONSET_YAML:-}
export CUSTOM_TYPHA_DEPLOYMENT_YAML=${KUBE_CUSTOM_TYPHA_DEPLOYMENT_YAML:-}
# To avoid running netd on a node that is not configured appropriately,
# label each Node so that the DaemonSet can run the Pods only on ready Nodes.
# Windows nodes do not support netd.
if [[ ${ENABLE_NETD:-} = 'true' ]]; then
NON_MASTER_NODE_LABELS="${NON_MASTER_NODE_LABELS:+${NON_MASTER_NODE_LABELS},}cloud.google.com/gke-netd-ready=true"
fi
export ENABLE_NODELOCAL_DNS=${KUBE_ENABLE_NODELOCAL_DNS:-false}
# To avoid running Calico on a node that is not configured appropriately,
# label each Node so that the DaemonSet can run the Pods only on ready Nodes.
# Windows nodes do not support Calico.
if [[ ${NETWORK_POLICY_PROVIDER:-} = 'calico' ]]; then
NON_MASTER_NODE_LABELS="${NON_MASTER_NODE_LABELS:+${NON_MASTER_NODE_LABELS},}projectcalico.org/ds-ready=true"
fi
# Enable metadata concealment by firewalling pod traffic to the metadata server
# and run a proxy daemonset on nodes.
ENABLE_METADATA_CONCEALMENT=${ENABLE_METADATA_CONCEALMENT:-true} # true, false
METADATA_CONCEALMENT_NO_FIREWALL=${METADATA_CONCEALMENT_NO_FIREWALL:-false} # true, false
if [[ ${ENABLE_METADATA_CONCEALMENT:-} = 'true' ]]; then
# Put the necessary label on the node so the daemonset gets scheduled.
NODE_LABELS="${NODE_LABELS},cloud.google.com/metadata-proxy-ready=true"
# Add to the provider custom variables.
PROVIDER_VARS="${PROVIDER_VARS:-} ENABLE_METADATA_CONCEALMENT METADATA_CONCEALMENT_NO_FIREWALL"
fi
# Optional: Enable node logging.
export ENABLE_NODE_LOGGING=${KUBE_ENABLE_NODE_LOGGING:-true}
export LOGGING_DESTINATION=${KUBE_LOGGING_DESTINATION:-gcp} # options: gcp
# Optional: When set to true, Elasticsearch and Kibana will be setup as part of the cluster bring up.
export ENABLE_CLUSTER_LOGGING=${KUBE_ENABLE_CLUSTER_LOGGING:-true}
export ELASTICSEARCH_LOGGING_REPLICAS=1
# Optional: Don't require https for registries in our local RFC1918 network
if [[ ${KUBE_ENABLE_INSECURE_REGISTRY:-false} = 'true' ]]; then
EXTRA_DOCKER_OPTS="${EXTRA_DOCKER_OPTS} --insecure-registry 10.0.0.0/8"
fi
if [[ -n "${NODE_ACCELERATORS}" ]]; then
if [[ "${NODE_ACCELERATORS}" =~ .*type=([a-zA-Z0-9-]+).* ]]; then
NON_MASTER_NODE_LABELS="${NON_MASTER_NODE_LABELS},cloud.google.com/gke-accelerator=${BASH_REMATCH[1]}"
fi
fi
# List of the set of feature gates recognized by the GCP CCM
export CCM_FEATURE_GATES="APIPriorityAndFairness,APIResponseCompression,APIServerIdentity,APIServerTracing,AllAlpha,AllBeta,KMSv2,OpenAPIEnums,OpenAPIV3,ServerSideFieldValidation,StorageVersionAPI,StorageVersionHash"
# Optional: Install cluster DNS.
# Set CLUSTER_DNS_CORE_DNS to 'false' to install kube-dns instead of CoreDNS.
CLUSTER_DNS_CORE_DNS=${CLUSTER_DNS_CORE_DNS:-true}
export ENABLE_CLUSTER_DNS=${KUBE_ENABLE_CLUSTER_DNS:-true}
export DNS_SERVER_IP='10.0.0.10'
export LOCAL_DNS_IP=${KUBE_LOCAL_DNS_IP:-169.254.20.10}
export DNS_DOMAIN='cluster.local'
export DNS_MEMORY_LIMIT=${KUBE_DNS_MEMORY_LIMIT:-170Mi}
# Optional: Enable DNS horizontal autoscaler
export ENABLE_DNS_HORIZONTAL_AUTOSCALER=${KUBE_ENABLE_DNS_HORIZONTAL_AUTOSCALER:-true}
# Optional: Install node problem detector.
# none - Not run node problem detector.
# daemonset - Run node problem detector as daemonset.
# standalone - Run node problem detector as standalone system daemon.
export ENABLE_NODE_PROBLEM_DETECTOR=${KUBE_ENABLE_NODE_PROBLEM_DETECTOR:-daemonset}
NODE_PROBLEM_DETECTOR_VERSION=${NODE_PROBLEM_DETECTOR_VERSION:-}
NODE_PROBLEM_DETECTOR_TAR_HASH=${NODE_PROBLEM_DETECTOR_TAR_HASH:-}
NODE_PROBLEM_DETECTOR_RELEASE_PATH=${NODE_PROBLEM_DETECTOR_RELEASE_PATH:-}
NODE_PROBLEM_DETECTOR_CUSTOM_FLAGS=${NODE_PROBLEM_DETECTOR_CUSTOM_FLAGS:-}
CNI_HASH=${CNI_HASH:-}
CNI_TAR_PREFIX=${CNI_TAR_PREFIX:-cni-plugins-linux-amd64-}
CNI_STORAGE_URL_BASE=${CNI_STORAGE_URL_BASE:-https://storage.googleapis.com/k8s-artifacts-cni/release}
# Optional: Create autoscaler for cluster's nodes.
export ENABLE_CLUSTER_AUTOSCALER=${KUBE_ENABLE_CLUSTER_AUTOSCALER:-false}
if [[ "${ENABLE_CLUSTER_AUTOSCALER}" = 'true' ]]; then
export AUTOSCALER_MIN_NODES=${KUBE_AUTOSCALER_MIN_NODES:-}
export AUTOSCALER_MAX_NODES=${KUBE_AUTOSCALER_MAX_NODES:-}
export AUTOSCALER_ENABLE_SCALE_DOWN=${KUBE_AUTOSCALER_ENABLE_SCALE_DOWN:-false}
export AUTOSCALER_EXPANDER_CONFIG=${KUBE_AUTOSCALER_EXPANDER_CONFIG:---expander=price}
fi
# Optional: Enable allocation of pod IPs using IP aliases.
#
# BETA FEATURE.
#
# IP_ALIAS_SIZE is the size of the podCIDR allocated to a node.
# IP_ALIAS_SUBNETWORK is the subnetwork to allocate from. If empty, a
# new subnetwork will be created for the cluster.
ENABLE_IP_ALIASES=${KUBE_GCE_ENABLE_IP_ALIASES:-true}
export NODE_IPAM_MODE=${KUBE_GCE_NODE_IPAM_MODE:-RangeAllocator}
if [ "${ENABLE_IP_ALIASES}" = true ]; then
# Number of Pods that can run on this node.
MAX_PODS_PER_NODE=${MAX_PODS_PER_NODE:-110}
# Size of ranges allocated to each node.
IP_ALIAS_SIZE="/$(get-alias-range-size "${MAX_PODS_PER_NODE}")"
IP_ALIAS_SUBNETWORK=${KUBE_GCE_IP_ALIAS_SUBNETWORK:-${INSTANCE_PREFIX}-subnet-default}
# If we're using custom network, use the subnet we already create for it as the one for ip-alias.
# Note that this means SUBNETWORK would override KUBE_GCE_IP_ALIAS_SUBNETWORK in case of custom network.
if [[ "${CREATE_CUSTOM_NETWORK}" = true ]]; then
IP_ALIAS_SUBNETWORK=${SUBNETWORK}
fi
export IP_ALIAS_SIZE
export IP_ALIAS_SUBNETWORK
# Reserve the services IP space to avoid being allocated for other GCP resources.
export SERVICE_CLUSTER_IP_SUBNETWORK=${KUBE_GCE_SERVICE_CLUSTER_IP_SUBNETWORK:-${INSTANCE_PREFIX}-subnet-services}
NODE_IPAM_MODE=${KUBE_GCE_NODE_IPAM_MODE:-CloudAllocator}
SECONDARY_RANGE_NAME=${SECONDARY_RANGE_NAME:-}
# Add to the provider custom variables.
PROVIDER_VARS="${PROVIDER_VARS:-} ENABLE_IP_ALIASES"
PROVIDER_VARS="${PROVIDER_VARS:-} NODE_IPAM_MODE"
PROVIDER_VARS="${PROVIDER_VARS:-} SECONDARY_RANGE_NAME"
else
if [[ -n "${MAX_PODS_PER_NODE:-}" ]]; then
# Should not have MAX_PODS_PER_NODE set for route-based clusters.
echo -e "${color_red:-}Cannot set MAX_PODS_PER_NODE for route-based projects for ${PROJECT}." >&2
exit 1
fi
if [[ "$(get-num-nodes)" -gt 100 ]]; then
echo -e "${color_red:-}Cannot create cluster with more than 100 nodes for route-based projects for ${PROJECT}." >&2
exit 1
fi
fi
# Enable GCE Alpha features.
if [[ -n "${GCE_ALPHA_FEATURES:-}" ]]; then
PROVIDER_VARS="${PROVIDER_VARS:-} GCE_ALPHA_FEATURES"
fi
# Disable Docker live-restore.
if [[ -n "${DISABLE_DOCKER_LIVE_RESTORE:-}" ]]; then
PROVIDER_VARS="${PROVIDER_VARS:-} DISABLE_DOCKER_LIVE_RESTORE"
fi
# Override default GLBC image
if [[ -n "${GCE_GLBC_IMAGE:-}" ]]; then
PROVIDER_VARS="${PROVIDER_VARS:-} GCE_GLBC_IMAGE"
fi
CUSTOM_INGRESS_YAML=${CUSTOM_INGRESS_YAML:-}
if [[ -z "${KUBE_ADMISSION_CONTROL:-}" ]]; then
ADMISSION_CONTROL='NamespaceLifecycle,LimitRanger,ServiceAccount,DefaultStorageClass,DefaultTolerationSeconds,NodeRestriction,Priority,StorageObjectInUseProtection,PersistentVolumeClaimResize,RuntimeClass'
# ResourceQuota must come last, or a creation is recorded, but the pod may be forbidden.
ADMISSION_CONTROL="${ADMISSION_CONTROL},MutatingAdmissionWebhook,ValidatingAdmissionWebhook,ResourceQuota"
else
ADMISSION_CONTROL=${KUBE_ADMISSION_CONTROL}
fi
ENABLE_APISERVER_DYNAMIC_AUDIT=${ENABLE_APISERVER_DYNAMIC_AUDIT:-false}
# Optional: if set to true kube-up will automatically check for existing resources and clean them up.
KUBE_UP_AUTOMATIC_CLEANUP=${KUBE_UP_AUTOMATIC_CLEANUP:-false}
# Optional: setting it to true denotes this is a testing cluster,
# so that we can use pulled kubernetes binaries, even if binaries
# are pre-installed in the image. Note that currently this logic
# is only supported in trusty or GCI.
TEST_CLUSTER=${TEST_CLUSTER:-true}
# Storage backend. 'etcd2' and 'etcd3' are supported.
STORAGE_BACKEND=${STORAGE_BACKEND:-}
# Storage media type: application/json and application/vnd.kubernetes.protobuf are supported.
STORAGE_MEDIA_TYPE=${STORAGE_MEDIA_TYPE:-}
NETWORK_PROVIDER=${NETWORK_PROVIDER:-kubenet} # none, kubenet
# Network Policy plugin specific settings.
NETWORK_POLICY_PROVIDER=${NETWORK_POLICY_PROVIDER:-none} # calico
export NON_MASQUERADE_CIDR='0.0.0.0/0'
# How should the kubelet configure hairpin mode?
HAIRPIN_MODE=${HAIRPIN_MODE:-hairpin-veth} # promiscuous-bridge, hairpin-veth, none
# Optional: if set to true, kube-up will configure the cluster to run e2e tests.
export E2E_STORAGE_TEST_ENVIRONMENT=${KUBE_E2E_STORAGE_TEST_ENVIRONMENT:-false}
# Evict pods whenever compute resource availability on the nodes gets below a threshold.
EVICTION_HARD=${EVICTION_HARD:-memory.available<250Mi,nodefs.available<10%,nodefs.inodesFree<5%}
# Optional: custom scheduling algorithm
SCHEDULING_ALGORITHM_PROVIDER=${SCHEDULING_ALGORITHM_PROVIDER:-}
# Optional: install a default StorageClass
ENABLE_DEFAULT_STORAGE_CLASS=${ENABLE_DEFAULT_STORAGE_CLASS:-false}
# Optional: install volume snapshot CRDs
ENABLE_VOLUME_SNAPSHOTS=${ENABLE_VOLUME_SNAPSHOTS:-true}
# Optional: Enable legacy ABAC policy that makes all service accounts superusers.
# Disabling this by default in tests ensures default RBAC policies are sufficient from 1.6+
# Upgrade test jobs that go from a version < 1.6 to a version >= 1.6 should override this to be true.
ENABLE_LEGACY_ABAC=${ENABLE_LEGACY_ABAC:-false} # true, false
# Enable a simple "AdvancedAuditing" setup for testing.
ENABLE_APISERVER_ADVANCED_AUDIT=${ENABLE_APISERVER_ADVANCED_AUDIT:-true} # true, false
ADVANCED_AUDIT_LOG_MODE=${ADVANCED_AUDIT_LOG_MODE:-batch} # batch, blocking
ENABLE_BIG_CLUSTER_SUBNETS=${ENABLE_BIG_CLUSTER_SUBNETS:-false}
# Optional: Enable log rotation for k8s services
ENABLE_LOGROTATE_FILES="${ENABLE_LOGROTATE_FILES:-true}"
PROVIDER_VARS="${PROVIDER_VARS:-} ENABLE_LOGROTATE_FILES"
if [[ -n "${LOGROTATE_FILES_MAX_COUNT:-}" ]]; then
PROVIDER_VARS="${PROVIDER_VARS:-} LOGROTATE_FILES_MAX_COUNT"
fi
if [[ -n "${LOGROTATE_MAX_SIZE:-}" ]]; then
PROVIDER_VARS="${PROVIDER_VARS:-} LOGROTATE_MAX_SIZE"
fi
# Optional: Enable log rotation for pod logs
ENABLE_POD_LOG="${ENABLE_POD_LOG:-false}"
PROVIDER_VARS="${PROVIDER_VARS:-} ENABLE_POD_LOG"
if [[ -n "${POD_LOG_MAX_FILE:-}" ]]; then
PROVIDER_VARS="${PROVIDER_VARS:-} POD_LOG_MAX_FILE"
fi
if [[ -n "${POD_LOG_MAX_SIZE:-}" ]]; then
PROVIDER_VARS="${PROVIDER_VARS:-} POD_LOG_MAX_SIZE"
fi
# Fluentd requirements
# YAML exists to trigger a configuration refresh when changes are made.
export FLUENTD_GCP_YAML_VERSION='v3.2.0'
FLUENTD_GCP_VERSION=${FLUENTD_GCP_VERSION:-1.6.17}
FLUENTD_GCP_MEMORY_LIMIT=${FLUENTD_GCP_MEMORY_LIMIT:-}
FLUENTD_GCP_CPU_REQUEST=${FLUENTD_GCP_CPU_REQUEST:-}
FLUENTD_GCP_MEMORY_REQUEST=${FLUENTD_GCP_MEMORY_REQUEST:-}
# Heapster requirements
HEAPSTER_GCP_BASE_MEMORY=${HEAPSTER_GCP_BASE_MEMORY:-140Mi}
HEAPSTER_GCP_MEMORY_PER_NODE=${HEAPSTER_GCP_MEMORY_PER_NODE:-4}
HEAPSTER_GCP_BASE_CPU=${HEAPSTER_GCP_BASE_CPU:-80m}
HEAPSTER_GCP_CPU_PER_NODE=${HEAPSTER_GCP_CPU_PER_NODE:-0.5}
# Default Stackdriver resources version exported by Fluentd-gcp addon
LOGGING_STACKDRIVER_RESOURCE_TYPES=${LOGGING_STACKDRIVER_RESOURCE_TYPES:-old}
# Adding to PROVIDER_VARS, since this is GCP-specific.
PROVIDER_VARS="${PROVIDER_VARS:-} FLUENTD_GCP_YAML_VERSION FLUENTD_GCP_VERSION FLUENTD_GCP_MEMORY_LIMIT FLUENTD_GCP_CPU_REQUEST FLUENTD_GCP_MEMORY_REQUEST HEAPSTER_GCP_BASE_MEMORY HEAPSTER_GCP_MEMORY_PER_NODE HEAPSTER_GCP_BASE_CPU HEAPSTER_GCP_CPU_PER_NODE LOGGING_STACKDRIVER_RESOURCE_TYPES"
# Fluentd configuration for node-journal
ENABLE_NODE_JOURNAL=${ENABLE_NODE_JOURNAL:-false}
# prometheus-to-sd configuration
PROMETHEUS_TO_SD_ENDPOINT=${PROMETHEUS_TO_SD_ENDPOINT:-https://monitoring.googleapis.com/}
PROMETHEUS_TO_SD_PREFIX=${PROMETHEUS_TO_SD_PREFIX:-custom.googleapis.com}
ENABLE_PROMETHEUS_TO_SD=${ENABLE_PROMETHEUS_TO_SD:-true}
# TODO(#51292): Make kube-proxy Daemonset default and remove the configuration here.
# Optional: [Experiment Only] Run kube-proxy as a DaemonSet if set to true, run as static pods otherwise.
KUBE_PROXY_DAEMONSET=${KUBE_PROXY_DAEMONSET:-false} # true, false
# Control whether the startup scripts manage the lifecycle of kube-proxy
# When true, the startup scripts do not enable kube-proxy either as a daemonset addon or as a static pod
# regardless of the value of KUBE_PROXY_DAEMONSET.
# When false, the value of KUBE_PROXY_DAEMONSET controls whether kube-proxy comes up as a static pod or
# as an addon daemonset.
KUBE_PROXY_DISABLE="${KUBE_PROXY_DISABLE:-false}" # true, false
# Optional: Change the kube-proxy implementation. Choices are [iptables, ipvs, nftables].
KUBE_PROXY_MODE=${KUBE_PROXY_MODE:-iptables}
# Will be passed into the kube-proxy via `--detect-local-mode`
DETECT_LOCAL_MODE="${DETECT_LOCAL_MODE:-NodeCIDR}"
# Optional: duration of cluster signed certificates.
CLUSTER_SIGNING_DURATION=${CLUSTER_SIGNING_DURATION:-}
# Optional: enable certificate rotation of the kubelet certificates.
ROTATE_CERTIFICATES=${ROTATE_CERTIFICATES:-}
# The number of services that are allowed to sync concurrently. Will be passed
# into kube-controller-manager via `--concurrent-service-syncs`
CONCURRENT_SERVICE_SYNCS=${CONCURRENT_SERVICE_SYNCS:-5}
# The value kubernetes.default.svc.cluster.local is only usable for full
# OIDC discovery flows in Pods in the same cluster. For some providers
# with configurations that support non-traditional KSA authentication methods,
# this value may make sense, but if the expectation is traditional OIDC, don't
# use this value in production. If you do use it, the FQDN is preferred to
# kubernetes.default.svc, to avoid something outside the cluster attempting
# to resolve the partially qualified name.
export SERVICEACCOUNT_ISSUER='https://kubernetes.default.svc.cluster.local'
# Taint Windows nodes by default to prevent Linux workloads from being
# scheduled onto them.
WINDOWS_NODE_TAINTS=${WINDOWS_NODE_TAINTS:-node.kubernetes.io/os=win1809:NoSchedule}
# Whether to set up a private GCE cluster, i.e. a cluster where nodes have only private IPs.
export GCE_PRIVATE_CLUSTER=${KUBE_GCE_PRIVATE_CLUSTER:-false}
export GCE_PRIVATE_CLUSTER_PORTS_PER_VM=${KUBE_GCE_PRIVATE_CLUSTER_PORTS_PER_VM:-}
export ETCD_LISTEN_CLIENT_IP=0.0.0.0
export GCE_UPLOAD_KUBCONFIG_TO_MASTER_METADATA=true
# Optoinal: Enable Windows CSI-Proxy
export ENABLE_CSI_PROXY="${ENABLE_CSI_PROXY:-true}"
# KUBE_APISERVER_HEALTHCHECK_ON_HOST_IP decides whether
# kube-apiserver is healthchecked on host IP instead of 127.0.0.1.
export KUBE_APISERVER_HEALTHCHECK_ON_HOST_IP="${KUBE_APISERVER_HEALTHCHECK_ON_HOST_IP:-false}"
# ETCD_PROGRESS_NOTIFY_INTERVAL defines the interval for etcd watch progress notify events.
export ETCD_PROGRESS_NOTIFY_INTERVAL="${ETCD_PROGRESS_NOTIFY_INTERVAL:-5s}"
# Optional: Install Pigz on Windows.
# Pigz is a multi-core optimized version of unzip.exe.
# It improves container image pull performance since most time is spent
# unzipping the image layers to disk.
export WINDOWS_ENABLE_PIGZ="${WINDOWS_ENABLE_PIGZ:-true}"
# Enable Windows DSR (Direct Server Return)
export WINDOWS_ENABLE_DSR="${WINDOWS_ENABLE_DSR:-false}"
# Install Node Problem Detector (NPD) on Windows nodes.
# NPD analyzes the host for problems that can disrupt workloads.
export WINDOWS_ENABLE_NODE_PROBLEM_DETECTOR="${WINDOWS_ENABLE_NODE_PROBLEM_DETECTOR:-none}"
export WINDOWS_NODE_PROBLEM_DETECTOR_CUSTOM_FLAGS="${WINDOWS_NODE_PROBLEM_DETECTOR_CUSTOM_FLAGS:-}"
# TLS_CIPHER_SUITES defines cipher suites allowed to be used by kube-apiserver.
# If this variable is unset or empty, kube-apiserver will allow its default set of cipher suites.
export TLS_CIPHER_SUITES=""
# CLOUD_PROVIDER_FLAG defines the cloud-provider value presented to KCM, apiserver,
# and kubelet
export CLOUD_PROVIDER_FLAG="${CLOUD_PROVIDER_FLAG:-external}"
# Don't run the node-ipam-controller on the KCM if cloud-provider external
if [[ "${CLOUD_PROVIDER_FLAG}" == "external" ]]; then
RUN_CONTROLLERS="${RUN_CONTROLLERS:-*,-node-ipam-controller}"
fi
# When ENABLE_AUTH_PROVIDER_GCP is set, following flags for out-of-tree credential provider for GCP
# are presented to kubelet:
# --image-credential-provider-config=${path-to-config}
# --image-credential-provider-bin-dir=${path-to-auth-provider-binary}
# Also, it is required that DisableKubeletCloudCredentialProviders and KubeletCredentialProviders
# feature gates are set to true for kubelet to use external credential provider.
export ENABLE_AUTH_PROVIDER_GCP="${ENABLE_AUTH_PROVIDER_GCP:-true}"