ceph-csi/vendor/k8s.io/kubernetes/test/kubemark/start-kubemark.sh
Serguei Bezverkhi 7b24313bd6 vendor files
2018-01-10 13:42:26 -05:00

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#!/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.
# Script that creates a Kubemark cluster for any given cloud provider.
set -o errexit
set -o nounset
set -o pipefail
TMP_ROOT="$(dirname "${BASH_SOURCE}")/../.."
KUBE_ROOT=$(readlink -e ${TMP_ROOT} 2> /dev/null || perl -MCwd -e 'print Cwd::abs_path shift' ${TMP_ROOT})
source "${KUBE_ROOT}/test/kubemark/skeleton/util.sh"
source "${KUBE_ROOT}/test/kubemark/cloud-provider-config.sh"
source "${KUBE_ROOT}/test/kubemark/${CLOUD_PROVIDER}/util.sh"
source "${KUBE_ROOT}/cluster/kubemark/${CLOUD_PROVIDER}/config-default.sh"
source "${KUBE_ROOT}/cluster/kubemark/util.sh"
# hack/lib/init.sh will ovewrite ETCD_VERSION if this is unset
# what what is default in hack/lib/etcd.sh
# To avoid it, if it is empty, we set it to 'avoid-overwrite' and
# clean it after that.
if [ -z "${ETCD_VERSION:-}" ]; then
ETCD_VERSION="avoid-overwrite"
fi
source "${KUBE_ROOT}/hack/lib/init.sh"
if [ "${ETCD_VERSION:-}" == "avoid-overwrite" ]; then
ETCD_VERSION=""
fi
KUBECTL="${KUBE_ROOT}/cluster/kubectl.sh"
KUBEMARK_DIRECTORY="${KUBE_ROOT}/test/kubemark"
RESOURCE_DIRECTORY="${KUBEMARK_DIRECTORY}/resources"
# Write all environment variables that we need to pass to the kubemark master,
# locally to the file ${RESOURCE_DIRECTORY}/kubemark-master-env.sh.
function create-master-environment-file {
cat > "${RESOURCE_DIRECTORY}/kubemark-master-env.sh" <<EOF
# Generic variables.
INSTANCE_PREFIX="${INSTANCE_PREFIX:-}"
SERVICE_CLUSTER_IP_RANGE="${SERVICE_CLUSTER_IP_RANGE:-}"
EVENT_PD="${EVENT_PD:-}"
# Etcd related variables.
ETCD_IMAGE="${ETCD_IMAGE:-3.1.10}"
ETCD_VERSION="${ETCD_VERSION:-}"
# Controller-manager related variables.
CONTROLLER_MANAGER_TEST_ARGS="${CONTROLLER_MANAGER_TEST_ARGS:-}"
ALLOCATE_NODE_CIDRS="${ALLOCATE_NODE_CIDRS:-}"
CLUSTER_IP_RANGE="${CLUSTER_IP_RANGE:-}"
TERMINATED_POD_GC_THRESHOLD="${TERMINATED_POD_GC_THRESHOLD:-}"
# Scheduler related variables.
SCHEDULER_TEST_ARGS="${SCHEDULER_TEST_ARGS:-}"
# Apiserver related variables.
APISERVER_TEST_ARGS="${APISERVER_TEST_ARGS:-}"
STORAGE_MEDIA_TYPE="${STORAGE_MEDIA_TYPE:-}"
STORAGE_BACKEND="${STORAGE_BACKEND:-etcd3}"
ETCD_QUORUM_READ="${ETCD_QUORUM_READ:-}"
RUNTIME_CONFIG="${RUNTIME_CONFIG:-}"
NUM_NODES="${NUM_NODES:-}"
CUSTOM_ADMISSION_PLUGINS="${CUSTOM_ADMISSION_PLUGINS:-}"
FEATURE_GATES="${FEATURE_GATES:-}"
KUBE_APISERVER_REQUEST_TIMEOUT="${KUBE_APISERVER_REQUEST_TIMEOUT:-}"
ENABLE_APISERVER_ADVANCED_AUDIT="${ENABLE_APISERVER_ADVANCED_AUDIT:-}"
EOF
echo "Created the environment file for master."
}
# Generate certs/keys for CA, master, kubelet and kubecfg, and tokens for kubelet
# and kubeproxy.
function generate-pki-config {
kube::util::ensure-temp-dir
gen-kube-bearertoken
gen-kube-basicauth
create-certs ${MASTER_IP}
KUBELET_TOKEN=$(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=$(dd if=/dev/urandom bs=128 count=1 2>/dev/null | base64 | tr -d "=+/" | dd bs=32 count=1 2>/dev/null)
NODE_PROBLEM_DETECTOR_TOKEN=$(dd if=/dev/urandom bs=128 count=1 2>/dev/null | base64 | tr -d "=+/" | dd bs=32 count=1 2>/dev/null)
HEAPSTER_TOKEN=$(dd if=/dev/urandom bs=128 count=1 2>/dev/null | base64 | tr -d "=+/" | dd bs=32 count=1 2>/dev/null)
CLUSTER_AUTOSCALER_TOKEN=$(dd if=/dev/urandom bs=128 count=1 2>/dev/null | base64 | tr -d "=+/" | dd bs=32 count=1 2>/dev/null)
echo "Generated PKI authentication data for kubemark."
}
# Wait for the master to be reachable for executing commands on it. We do this by
# trying to run the bash noop(:) on the master, with 10 retries.
function wait-for-master-reachability {
execute-cmd-on-master-with-retries ":" 10
echo "Checked master reachability for remote command execution."
}
# Write all the relevant certs/keys/tokens to the master.
function write-pki-config-to-master {
PKI_SETUP_CMD="sudo mkdir /home/kubernetes/k8s_auth_data -p && \
sudo bash -c \"echo ${CA_CERT_BASE64} | base64 --decode > /home/kubernetes/k8s_auth_data/ca.crt\" && \
sudo bash -c \"echo ${MASTER_CERT_BASE64} | base64 --decode > /home/kubernetes/k8s_auth_data/server.cert\" && \
sudo bash -c \"echo ${MASTER_KEY_BASE64} | base64 --decode > /home/kubernetes/k8s_auth_data/server.key\" && \
sudo bash -c \"echo ${REQUESTHEADER_CA_CERT_BASE64} | base64 --decode > /home/kubernetes/k8s_auth_data/aggr_ca.crt\" && \
sudo bash -c \"echo ${PROXY_CLIENT_CERT_BASE64} | base64 --decode > /home/kubernetes/k8s_auth_data/proxy_client.crt\" && \
sudo bash -c \"echo ${PROXY_CLIENT_KEY_BASE64} | base64 --decode > /home/kubernetes/k8s_auth_data/proxy_client.key\" && \
sudo bash -c \"echo ${KUBECFG_CERT_BASE64} | base64 --decode > /home/kubernetes/k8s_auth_data/kubecfg.crt\" && \
sudo bash -c \"echo ${KUBECFG_KEY_BASE64} | base64 --decode > /home/kubernetes/k8s_auth_data/kubecfg.key\" && \
sudo bash -c \"echo \"${KUBE_BEARER_TOKEN},admin,admin\" > /home/kubernetes/k8s_auth_data/known_tokens.csv\" && \
sudo bash -c \"echo \"${KUBELET_TOKEN},system:node:node-name,uid:kubelet,system:nodes\" >> /home/kubernetes/k8s_auth_data/known_tokens.csv\" && \
sudo bash -c \"echo \"${KUBE_PROXY_TOKEN},system:kube-proxy,uid:kube_proxy\" >> /home/kubernetes/k8s_auth_data/known_tokens.csv\" && \
sudo bash -c \"echo \"${HEAPSTER_TOKEN},system:heapster,uid:heapster\" >> /home/kubernetes/k8s_auth_data/known_tokens.csv\" && \
sudo bash -c \"echo \"${CLUSTER_AUTOSCALER_TOKEN},system:cluster-autoscaler,uid:cluster-autoscaler\" >> /home/kubernetes/k8s_auth_data/known_tokens.csv\" && \
sudo bash -c \"echo \"${NODE_PROBLEM_DETECTOR_TOKEN},system:node-problem-detector,uid:system:node-problem-detector\" >> /home/kubernetes/k8s_auth_data/known_tokens.csv\" && \
sudo bash -c \"echo ${KUBE_PASSWORD},admin,admin > /home/kubernetes/k8s_auth_data/basic_auth.csv\""
execute-cmd-on-master-with-retries "${PKI_SETUP_CMD}" 3
echo "Wrote PKI certs, keys, tokens and admin password to master."
}
# Write kubeconfig to ${RESOURCE_DIRECTORY}/kubeconfig.kubemark in order to
# use kubectl locally.
function write-local-kubeconfig {
LOCAL_KUBECONFIG="${RESOURCE_DIRECTORY}/kubeconfig.kubemark"
cat > "${LOCAL_KUBECONFIG}" << EOF
apiVersion: v1
kind: Config
users:
- name: kubecfg
user:
client-certificate-data: "${KUBECFG_CERT_BASE64}"
client-key-data: "${KUBECFG_KEY_BASE64}"
username: admin
password: admin
clusters:
- name: kubemark
cluster:
certificate-authority-data: "${CA_CERT_BASE64}"
server: https://${MASTER_IP}
contexts:
- context:
cluster: kubemark
user: kubecfg
name: kubemark-context
current-context: kubemark-context
EOF
echo "Kubeconfig file for kubemark master written to ${LOCAL_KUBECONFIG}."
}
# Copy all the necessary resource files (scripts/configs/manifests) to the master.
function copy-resource-files-to-master {
copy-files \
"${SERVER_BINARY_TAR}" \
"${RESOURCE_DIRECTORY}/kubemark-master-env.sh" \
"${RESOURCE_DIRECTORY}/start-kubemark-master.sh" \
"${RESOURCE_DIRECTORY}/kubeconfig.kubemark" \
"${KUBEMARK_DIRECTORY}/configure-kubectl.sh" \
"${RESOURCE_DIRECTORY}/manifests/etcd.yaml" \
"${RESOURCE_DIRECTORY}/manifests/etcd-events.yaml" \
"${RESOURCE_DIRECTORY}/manifests/kube-apiserver.yaml" \
"${RESOURCE_DIRECTORY}/manifests/kube-scheduler.yaml" \
"${RESOURCE_DIRECTORY}/manifests/kube-controller-manager.yaml" \
"${RESOURCE_DIRECTORY}/manifests/kube-addon-manager.yaml" \
"${RESOURCE_DIRECTORY}/manifests/addons/kubemark-rbac-bindings" \
"kubernetes@${MASTER_NAME}":/home/kubernetes/
echo "Copied server binary, master startup scripts, configs and resource manifests to master."
}
# Make startup scripts executable and run start-kubemark-master.sh.
function start-master-components {
echo ""
MASTER_STARTUP_CMD="sudo bash /home/kubernetes/start-kubemark-master.sh"
execute-cmd-on-master-with-retries "${MASTER_STARTUP_CMD}"
echo "The master has started and is now live."
}
# Finds the right kubemark binary for 'linux/amd64' platform and uses it to
# create a docker image for hollow-node and upload it to the appropriate
# docker container registry for the cloud provider.
function create-and-upload-hollow-node-image {
MAKE_DIR="${KUBE_ROOT}/cluster/images/kubemark"
KUBEMARK_BIN="$(kube::util::find-binary-for-platform kubemark linux/amd64)"
if [[ -z "${KUBEMARK_BIN}" ]]; then
echo 'Cannot find cmd/kubemark binary'
exit 1
fi
echo "Copying kubemark binary to ${MAKE_DIR}"
cp "${KUBEMARK_BIN}" "${MAKE_DIR}"
CURR_DIR=`pwd`
cd "${MAKE_DIR}"
RETRIES=3
for attempt in $(seq 1 ${RETRIES}); do
if ! REGISTRY="${CONTAINER_REGISTRY}" PROJECT="${PROJECT}" make "${KUBEMARK_IMAGE_MAKE_TARGET}"; then
if [[ $((attempt)) -eq "${RETRIES}" ]]; then
echo "${color_red}Make failed. Exiting.${color_norm}"
exit 1
fi
echo -e "${color_yellow}Make attempt $(($attempt)) failed. Retrying.${color_norm}" >& 2
sleep $(($attempt * 5))
else
break
fi
done
rm kubemark
cd $CURR_DIR
echo "Created and uploaded the kubemark hollow-node image to docker registry."
}
# Use bazel rule to create a docker image for hollow-node and upload
# it to the appropriate docker container registry for the cloud provider.
function create-and-upload-hollow-node-image-bazel {
RETRIES=3
for attempt in $(seq 1 ${RETRIES}); do
if ! bazel run //cluster/images/kubemark:push --define PROJECT="${PROJECT}"; then
if [[ $((attempt)) -eq "${RETRIES}" ]]; then
echo "${color_red}Image push failed. Exiting.${color_norm}"
exit 1
fi
echo -e "${color_yellow}Make attempt $(($attempt)) failed. Retrying.${color_norm}" >& 2
sleep $(($attempt * 5))
else
break
fi
done
echo "Created and uploaded the kubemark hollow-node image to docker registry."
}
# Generate secret and configMap for the hollow-node pods to work, prepare
# manifests of the hollow-node and heapster replication controllers from
# templates, and finally create these resources through kubectl.
function create-kube-hollow-node-resources {
# Create kubeconfig for Kubelet.
KUBELET_KUBECONFIG_CONTENTS=$(echo "apiVersion: v1
kind: Config
users:
- name: kubelet
user:
client-certificate-data: "${KUBELET_CERT_BASE64}"
client-key-data: "${KUBELET_KEY_BASE64}"
clusters:
- name: kubemark
cluster:
certificate-authority-data: "${CA_CERT_BASE64}"
server: https://${MASTER_IP}
contexts:
- context:
cluster: kubemark
user: kubelet
name: kubemark-context
current-context: kubemark-context")
# Create kubeconfig for Kubeproxy.
KUBEPROXY_KUBECONFIG_CONTENTS=$(echo "apiVersion: v1
kind: Config
users:
- name: kube-proxy
user:
token: ${KUBE_PROXY_TOKEN}
clusters:
- name: kubemark
cluster:
insecure-skip-tls-verify: true
server: https://${MASTER_IP}
contexts:
- context:
cluster: kubemark
user: kube-proxy
name: kubemark-context
current-context: kubemark-context")
# Create kubeconfig for Heapster.
HEAPSTER_KUBECONFIG_CONTENTS=$(echo "apiVersion: v1
kind: Config
users:
- name: heapster
user:
token: ${HEAPSTER_TOKEN}
clusters:
- name: kubemark
cluster:
insecure-skip-tls-verify: true
server: https://${MASTER_IP}
contexts:
- context:
cluster: kubemark
user: heapster
name: kubemark-context
current-context: kubemark-context")
# Create kubeconfig for Cluster Autoscaler.
CLUSTER_AUTOSCALER_KUBECONFIG_CONTENTS=$(echo "apiVersion: v1
kind: Config
users:
- name: cluster-autoscaler
user:
token: ${CLUSTER_AUTOSCALER_TOKEN}
clusters:
- name: kubemark
cluster:
insecure-skip-tls-verify: true
server: https://${MASTER_IP}
contexts:
- context:
cluster: kubemark
user: cluster-autoscaler
name: kubemark-context
current-context: kubemark-context")
# Create kubeconfig for NodeProblemDetector.
NPD_KUBECONFIG_CONTENTS=$(echo "apiVersion: v1
kind: Config
users:
- name: node-problem-detector
user:
token: ${NODE_PROBLEM_DETECTOR_TOKEN}
clusters:
- name: kubemark
cluster:
insecure-skip-tls-verify: true
server: https://${MASTER_IP}
contexts:
- context:
cluster: kubemark
user: node-problem-detector
name: kubemark-context
current-context: kubemark-context")
# Create kubemark namespace.
"${KUBECTL}" create -f "${RESOURCE_DIRECTORY}/kubemark-ns.json"
# Create configmap for configuring hollow- kubelet, proxy and npd.
"${KUBECTL}" create configmap "node-configmap" --namespace="kubemark" \
--from-literal=content.type="${TEST_CLUSTER_API_CONTENT_TYPE}" \
--from-file=kernel.monitor="${RESOURCE_DIRECTORY}/kernel-monitor.json"
# Create secret for passing kubeconfigs to kubelet, kubeproxy and npd.
"${KUBECTL}" create secret generic "kubeconfig" --type=Opaque --namespace="kubemark" \
--from-literal=kubelet.kubeconfig="${KUBELET_KUBECONFIG_CONTENTS}" \
--from-literal=kubeproxy.kubeconfig="${KUBEPROXY_KUBECONFIG_CONTENTS}" \
--from-literal=heapster.kubeconfig="${HEAPSTER_KUBECONFIG_CONTENTS}" \
--from-literal=cluster_autoscaler.kubeconfig="${CLUSTER_AUTOSCALER_KUBECONFIG_CONTENTS}" \
--from-literal=npd.kubeconfig="${NPD_KUBECONFIG_CONTENTS}"
# Create addon pods.
# Heapster.
mkdir -p "${RESOURCE_DIRECTORY}/addons"
sed "s/{{MASTER_IP}}/${MASTER_IP}/g" "${RESOURCE_DIRECTORY}/heapster_template.json" > "${RESOURCE_DIRECTORY}/addons/heapster.json"
metrics_mem_per_node=4
metrics_mem=$((200 + ${metrics_mem_per_node}*${NUM_NODES}))
sed -i'' -e "s/{{METRICS_MEM}}/${metrics_mem}/g" "${RESOURCE_DIRECTORY}/addons/heapster.json"
metrics_cpu_per_node_numerator=${NUM_NODES}
metrics_cpu_per_node_denominator=2
metrics_cpu=$((80 + metrics_cpu_per_node_numerator / metrics_cpu_per_node_denominator))
sed -i'' -e "s/{{METRICS_CPU}}/${metrics_cpu}/g" "${RESOURCE_DIRECTORY}/addons/heapster.json"
eventer_mem_per_node=500
eventer_mem=$((200 * 1024 + ${eventer_mem_per_node}*${NUM_NODES}))
sed -i'' -e "s/{{EVENTER_MEM}}/${eventer_mem}/g" "${RESOURCE_DIRECTORY}/addons/heapster.json"
# Cluster Autoscaler.
if [[ "${ENABLE_KUBEMARK_CLUSTER_AUTOSCALER}" == "true" ]]; then
echo "Setting up Cluster Autoscaler"
KUBEMARK_AUTOSCALER_MIG_NAME="${KUBEMARK_AUTOSCALER_MIG_NAME:-${NODE_INSTANCE_PREFIX}-group}"
KUBEMARK_AUTOSCALER_MIN_NODES="${KUBEMARK_AUTOSCALER_MIN_NODES:-0}"
KUBEMARK_AUTOSCALER_MAX_NODES="${KUBEMARK_AUTOSCALER_MAX_NODES:-10}"
NUM_NODES=${KUBEMARK_AUTOSCALER_MAX_NODES}
echo "Setting maximum cluster size to ${NUM_NODES}."
KUBEMARK_MIG_CONFIG="autoscaling.k8s.io/nodegroup: ${KUBEMARK_AUTOSCALER_MIG_NAME}"
sed "s/{{master_ip}}/${MASTER_IP}/g" "${RESOURCE_DIRECTORY}/cluster-autoscaler_template.json" > "${RESOURCE_DIRECTORY}/addons/cluster-autoscaler.json"
sed -i'' -e "s/{{kubemark_autoscaler_mig_name}}/${KUBEMARK_AUTOSCALER_MIG_NAME}/g" "${RESOURCE_DIRECTORY}/addons/cluster-autoscaler.json"
sed -i'' -e "s/{{kubemark_autoscaler_min_nodes}}/${KUBEMARK_AUTOSCALER_MIN_NODES}/g" "${RESOURCE_DIRECTORY}/addons/cluster-autoscaler.json"
sed -i'' -e "s/{{kubemark_autoscaler_max_nodes}}/${KUBEMARK_AUTOSCALER_MAX_NODES}/g" "${RESOURCE_DIRECTORY}/addons/cluster-autoscaler.json"
fi
"${KUBECTL}" create -f "${RESOURCE_DIRECTORY}/addons" --namespace="kubemark"
# Create the replication controller for hollow-nodes.
# We allow to override the NUM_REPLICAS when running Cluster Autoscaler.
NUM_REPLICAS=${NUM_REPLICAS:-${NUM_NODES}}
sed "s/{{numreplicas}}/${NUM_REPLICAS}/g" "${RESOURCE_DIRECTORY}/hollow-node_template.yaml" > "${RESOURCE_DIRECTORY}/hollow-node.yaml"
proxy_cpu=20
if [ "${NUM_NODES}" -gt 1000 ]; then
proxy_cpu=50
fi
proxy_mem_per_node=50
proxy_mem=$((100 * 1024 + ${proxy_mem_per_node}*${NUM_NODES}))
sed -i'' -e "s/{{HOLLOW_PROXY_CPU}}/${proxy_cpu}/g" "${RESOURCE_DIRECTORY}/hollow-node.yaml"
sed -i'' -e "s/{{HOLLOW_PROXY_MEM}}/${proxy_mem}/g" "${RESOURCE_DIRECTORY}/hollow-node.yaml"
sed -i'' -e "s/{{registry}}/${CONTAINER_REGISTRY}/g" "${RESOURCE_DIRECTORY}/hollow-node.yaml"
sed -i'' -e "s/{{project}}/${PROJECT}/g" "${RESOURCE_DIRECTORY}/hollow-node.yaml"
sed -i'' -e "s/{{master_ip}}/${MASTER_IP}/g" "${RESOURCE_DIRECTORY}/hollow-node.yaml"
sed -i'' -e "s/{{kubelet_verbosity_level}}/${KUBELET_TEST_LOG_LEVEL}/g" "${RESOURCE_DIRECTORY}/hollow-node.yaml"
sed -i'' -e "s/{{kubeproxy_verbosity_level}}/${KUBEPROXY_TEST_LOG_LEVEL}/g" "${RESOURCE_DIRECTORY}/hollow-node.yaml"
sed -i'' -e "s/{{use_real_proxier}}/${USE_REAL_PROXIER}/g" "${RESOURCE_DIRECTORY}/hollow-node.yaml"
sed -i'' -e "s'{{kubemark_mig_config}}'${KUBEMARK_MIG_CONFIG:-}'g" "${RESOURCE_DIRECTORY}/hollow-node.yaml"
"${KUBECTL}" create -f "${RESOURCE_DIRECTORY}/hollow-node.yaml" --namespace="kubemark"
echo "Created secrets, configMaps, replication-controllers required for hollow-nodes."
}
# Wait until all hollow-nodes are running or there is a timeout.
function wait-for-hollow-nodes-to-run-or-timeout {
echo -n "Waiting for all hollow-nodes to become Running"
start=$(date +%s)
nodes=$("${KUBECTL}" --kubeconfig="${LOCAL_KUBECONFIG}" get node 2> /dev/null) || true
ready=$(($(echo "${nodes}" | grep -v "NotReady" | wc -l) - 1))
until [[ "${ready}" -ge "${NUM_REPLICAS}" ]]; do
echo -n "."
sleep 1
now=$(date +%s)
# Fail it if it already took more than 30 minutes.
if [ $((now - start)) -gt 1800 ]; then
echo ""
echo -e "${color_red} Timeout waiting for all hollow-nodes to become Running. ${color_norm}"
# Try listing nodes again - if it fails it means that API server is not responding
if "${KUBECTL}" --kubeconfig="${LOCAL_KUBECONFIG}" get node &> /dev/null; then
echo "Found only ${ready} ready hollow-nodes while waiting for ${NUM_NODES}."
else
echo "Got error while trying to list hollow-nodes. Probably API server is down."
fi
pods=$("${KUBECTL}" get pods -l name=hollow-node --namespace=kubemark) || true
running=$(($(echo "${pods}" | grep "Running" | wc -l)))
echo "${running} hollow-nodes are reported as 'Running'"
not_running=$(($(echo "${pods}" | grep -v "Running" | wc -l) - 1))
echo "${not_running} hollow-nodes are reported as NOT 'Running'"
echo $(echo "${pods}" | grep -v "Running")
exit 1
fi
nodes=$("${KUBECTL}" --kubeconfig="${LOCAL_KUBECONFIG}" get node 2> /dev/null) || true
ready=$(($(echo "${nodes}" | grep -v "NotReady" | wc -l) - 1))
done
echo -e "${color_green} Done!${color_norm}"
}
############################### Main Function ########################################
detect-project &> /dev/null
# Setup for master.
echo -e "${color_yellow}STARTING SETUP FOR MASTER${color_norm}"
find-release-tars
create-master-environment-file
create-master-instance-with-resources
generate-pki-config
wait-for-master-reachability
write-pki-config-to-master
write-local-kubeconfig
copy-resource-files-to-master
start-master-components
# Setup for hollow-nodes.
echo ""
echo -e "${color_yellow}STARTING SETUP FOR HOLLOW-NODES${color_norm}"
if [[ "${KUBEMARK_BAZEL_BUILD:-}" =~ ^[yY]$ ]]; then
create-and-upload-hollow-node-image-bazel
else
create-and-upload-hollow-node-image
fi
create-kube-hollow-node-resources
wait-for-hollow-nodes-to-run-or-timeout
echo ""
echo "Master IP: ${MASTER_IP}"
echo "Password to kubemark master: ${KUBE_PASSWORD}"
echo "Kubeconfig for kubemark master is written in ${LOCAL_KUBECONFIG}"