52baf68d50
Signed-off-by: Michał Żyłowski <michal.zylowski@intel.com>
464 lines
15 KiB
Bash
464 lines
15 KiB
Bash
#!/bin/bash
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# Copyright 2015 The Kubernetes Authors.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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# Script that starts kubelet on kubemark-master as a supervisord process
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# and then runs the master components as pods using kubelet.
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# Define key path variables.
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KUBE_ROOT="/home/kubernetes"
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KUBE_BINDIR="${KUBE_ROOT}/kubernetes/server/bin"
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function config-ip-firewall {
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echo "Configuring IP firewall rules"
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# The GCI image has host firewall which drop most inbound/forwarded packets.
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# We need to add rules to accept all TCP/UDP/ICMP packets.
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if iptables -L INPUT | grep "Chain INPUT (policy DROP)" > /dev/null; then
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echo "Add rules to accept all inbound TCP/UDP/ICMP packets"
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iptables -A INPUT -w -p TCP -j ACCEPT
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iptables -A INPUT -w -p UDP -j ACCEPT
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iptables -A INPUT -w -p ICMP -j ACCEPT
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fi
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if iptables -L FORWARD | grep "Chain FORWARD (policy DROP)" > /dev/null; then
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echo "Add rules to accept all forwarded TCP/UDP/ICMP packets"
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iptables -A FORWARD -w -p TCP -j ACCEPT
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iptables -A FORWARD -w -p UDP -j ACCEPT
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iptables -A FORWARD -w -p ICMP -j ACCEPT
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fi
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}
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function create-dirs {
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echo "Creating required directories"
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mkdir -p /var/lib/kubelet
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mkdir -p /etc/kubernetes/manifests
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mkdir -p /etc/kubernetes/addons
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}
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# Setup working directory for kubelet.
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function setup-kubelet-dir {
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echo "Making /var/lib/kubelet executable for kubelet"
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mount -B /var/lib/kubelet /var/lib/kubelet/
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mount -B -o remount,exec,suid,dev /var/lib/kubelet
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}
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# Remove any default etcd config dirs/files.
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function delete-default-etcd-configs {
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if [[ -d /etc/etcd ]]; then
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rm -rf /etc/etcd
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fi
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if [[ -e /etc/default/etcd ]]; then
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rm -f /etc/default/etcd
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fi
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if [[ -e /etc/systemd/system/etcd.service ]]; then
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rm -f /etc/systemd/system/etcd.service
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fi
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if [[ -e /etc/init.d/etcd ]]; then
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rm -f /etc/init.d/etcd
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fi
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}
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# Compute etcd related variables.
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function compute-etcd-variables {
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ETCD_IMAGE="${ETCD_IMAGE:-}"
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ETCD_QUOTA_BYTES=""
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if [ "${ETCD_VERSION:0:2}" == "3." ]; then
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# TODO: Set larger quota to see if that helps with
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# 'mvcc: database space exceeded' errors. If so, pipe
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# though our setup scripts.
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ETCD_QUOTA_BYTES=" --quota-backend-bytes=4294967296 "
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fi
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}
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# Formats the given device ($1) if needed and mounts it at given mount point
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# ($2).
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function safe-format-and-mount() {
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device=$1
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mountpoint=$2
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# Format only if the disk is not already formatted.
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if ! tune2fs -l "${device}" ; then
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echo "Formatting '${device}'"
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mkfs.ext4 -F "${device}"
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fi
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mkdir -p "${mountpoint}"
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echo "Mounting '${device}' at '${mountpoint}'"
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mount -o discard,defaults "${device}" "${mountpoint}"
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}
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# Finds a PD device with name '$1' attached to the master.
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function find-attached-pd() {
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local -r pd_name=$1
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if [[ ! -e /dev/disk/by-id/${pd_name} ]]; then
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echo ""
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fi
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device_info=$(ls -l /dev/disk/by-id/${pd_name})
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relative_path=${device_info##* }
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echo "/dev/disk/by-id/${relative_path}"
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}
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# Mounts a persistent disk (formatting if needed) to store the persistent data
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# on the master. safe-format-and-mount only formats an unformatted disk, and
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# mkdir -p will leave a directory be if it already exists.
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function mount-pd() {
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local -r pd_name=$1
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local -r mount_point=$2
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if [[ -z "${find-attached-pd ${pd_name}}" ]]; then
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echo "Can't find ${pd_name}. Skipping mount."
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return
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fi
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local -r pd_path="/dev/disk/by-id/${pd_name}"
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echo "Mounting PD '${pd_path}' at '${mount_point}'"
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# Format and mount the disk, create directories on it for all of the master's
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# persistent data, and link them to where they're used.
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mkdir -p "${mount_point}"
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safe-format-and-mount "${pd_path}" "${mount_point}"
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echo "Mounted PD '${pd_path}' at '${mount_point}'"
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# NOTE: These locations on the PD store persistent data, so to maintain
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# upgradeability, these locations should not change. If they do, take care
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# to maintain a migration path from these locations to whatever new
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# locations.
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}
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# Create kubeconfig for controller-manager's service account authentication.
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function create-kubecontrollermanager-kubeconfig {
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echo "Creating kube-controller-manager kubeconfig file"
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mkdir -p /etc/srv/kubernetes/kube-controller-manager
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cat <<EOF >/etc/srv/kubernetes/kube-controller-manager/kubeconfig
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apiVersion: v1
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kind: Config
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users:
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- name: kube-controller-manager
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user:
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token: ${KUBE_CONTROLLER_MANAGER_TOKEN}
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clusters:
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- name: local
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cluster:
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insecure-skip-tls-verify: true
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server: https://localhost:443
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contexts:
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- context:
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cluster: local
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user: kube-controller-manager
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name: service-account-context
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current-context: service-account-context
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EOF
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}
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function assemble-docker-flags {
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echo "Assemble docker command line flags"
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local docker_opts="-p /var/run/docker.pid --iptables=false --ip-masq=false"
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docker_opts+=" --log-level=debug" # Since it's a test cluster
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# TODO(shyamjvs): Incorporate network plugin options, etc later.
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echo "DOCKER_OPTS=\"${docker_opts}\"" > /etc/default/docker
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echo "DOCKER_NOFILE=65536" >> /etc/default/docker # For setting ulimit -n
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systemctl restart docker
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}
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# A helper function for loading a docker image. It keeps trying up to 5 times.
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#
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# $1: Full path of the docker image
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function try-load-docker-image {
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local -r img=$1
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echo "Try to load docker image file ${img}"
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# Temporarily turn off errexit, because we don't want to exit on first failure.
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set +e
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local -r max_attempts=5
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local -i attempt_num=1
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until timeout 30 docker load -i "${img}"; do
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if [[ "${attempt_num}" == "${max_attempts}" ]]; then
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echo "Fail to load docker image file ${img} after ${max_attempts} retries. Exit!!"
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exit 1
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else
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attempt_num=$((attempt_num+1))
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sleep 5
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fi
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done
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# Re-enable errexit.
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set -e
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}
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# Loads kube-system docker images. It is better to do it before starting kubelet,
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# as kubelet will restart docker daemon, which may interfere with loading images.
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function load-docker-images {
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echo "Start loading kube-system docker images"
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local -r img_dir="${KUBE_BINDIR}"
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try-load-docker-image "${img_dir}/kube-apiserver.tar"
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try-load-docker-image "${img_dir}/kube-controller-manager.tar"
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try-load-docker-image "${img_dir}/kube-scheduler.tar"
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}
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# Computes command line arguments to be passed to kubelet.
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function compute-kubelet-params {
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local params="${KUBELET_TEST_ARGS:-}"
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params+=" --allow-privileged=true"
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params+=" --babysit-daemons=true"
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params+=" --cgroup-root=/"
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params+=" --cloud-provider=gce"
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params+=" --config=/etc/kubernetes/manifests"
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if [[ -n "${KUBELET_PORT:-}" ]]; then
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params+=" --port=${KUBELET_PORT}"
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fi
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params+=" --enable-debugging-handlers=false"
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params+=" --hairpin-mode=none"
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echo "${params}"
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}
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# Creates the systemd config file for kubelet.service.
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function create-kubelet-conf() {
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local -r kubelet_bin="$1"
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local -r kubelet_env_file="/etc/default/kubelet"
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local -r flags=$(compute-kubelet-params)
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echo "KUBELET_OPTS=\"${flags}\"" > "${kubelet_env_file}"
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# Write the systemd service file for kubelet.
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cat <<EOF >/etc/systemd/system/kubelet.service
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[Unit]
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Description=Kubermark kubelet
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Requires=network-online.target
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After=network-online.target
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[Service]
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Restart=always
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RestartSec=10
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EnvironmentFile=${kubelet_env_file}
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ExecStart=${kubelet_bin} \$KUBELET_OPTS
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[Install]
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WantedBy=multi-user.target
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EOF
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}
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# This function assembles the kubelet systemd service file and starts it using
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# systemctl, on the kubemark master.
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function start-kubelet {
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# Create systemd config.
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local -r kubelet_bin="/usr/bin/kubelet"
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create-kubelet-conf "${kubelet_bin}"
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# Flush iptables nat table
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iptables -t nat -F || true
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# Start the kubelet service.
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systemctl start kubelet.service
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}
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# Create the log file and set its properties.
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#
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# $1 is the file to create.
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function prepare-log-file {
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touch $1
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chmod 644 $1
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chown root:root $1
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}
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# A helper function for copying addon manifests and set dir/files
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# permissions.
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#
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# $1: addon category under /etc/kubernetes
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# $2: manifest source dir
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function setup-addon-manifests {
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local -r src_dir="${KUBE_ROOT}/$2"
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local -r dst_dir="/etc/kubernetes/$1/$2"
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if [[ ! -d "${dst_dir}" ]]; then
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mkdir -p "${dst_dir}"
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fi
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local files=$(find "${src_dir}" -maxdepth 1 -name "*.yaml")
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if [[ -n "${files}" ]]; then
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cp "${src_dir}/"*.yaml "${dst_dir}"
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fi
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chown -R root:root "${dst_dir}"
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chmod 755 "${dst_dir}"
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chmod 644 "${dst_dir}"/*
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}
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# Computes command line arguments to be passed to etcd.
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function compute-etcd-params {
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local params="${ETCD_TEST_ARGS:-}"
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params+=" --listen-peer-urls=http://127.0.0.1:2380"
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params+=" --advertise-client-urls=http://127.0.0.1:2379"
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params+=" --listen-client-urls=http://0.0.0.0:2379"
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params+=" --data-dir=/var/etcd/data"
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params+=" ${ETCD_QUOTA_BYTES}"
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echo "${params}"
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}
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# Computes command line arguments to be passed to etcd-events.
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function compute-etcd-events-params {
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local params="${ETCD_TEST_ARGS:-}"
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params+=" --listen-peer-urls=http://127.0.0.1:2381"
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params+=" --advertise-client-urls=http://127.0.0.1:4002"
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params+=" --listen-client-urls=http://0.0.0.0:4002"
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params+=" --data-dir=/var/etcd/data-events"
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params+=" ${ETCD_QUOTA_BYTES}"
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echo "${params}"
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}
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# Computes command line arguments to be passed to apiserver.
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function compute-kube-apiserver-params {
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local params="${APISERVER_TEST_ARGS:-}"
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params+=" --insecure-bind-address=0.0.0.0"
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params+=" --etcd-servers=http://127.0.0.1:2379"
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params+=" --etcd-servers-overrides=/events#${EVENT_STORE_URL}"
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params+=" --tls-cert-file=/etc/srv/kubernetes/server.cert"
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params+=" --tls-private-key-file=/etc/srv/kubernetes/server.key"
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params+=" --client-ca-file=/etc/srv/kubernetes/ca.crt"
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params+=" --token-auth-file=/etc/srv/kubernetes/known_tokens.csv"
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params+=" --secure-port=443"
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params+=" --basic-auth-file=/etc/srv/kubernetes/basic_auth.csv"
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params+=" --target-ram-mb=$((${NUM_NODES} * 60))"
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params+=" --storage-backend=${STORAGE_BACKEND}"
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params+=" --service-cluster-ip-range=${SERVICE_CLUSTER_IP_RANGE}"
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params+=" --admission-control=${CUSTOM_ADMISSION_PLUGINS}"
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params+=" --authorization-mode=RBAC"
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echo "${params}"
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}
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# Computes command line arguments to be passed to controller-manager.
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function compute-kube-controller-manager-params {
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local params="${CONTROLLER_MANAGER_TEST_ARGS:-}"
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params+=" --use-service-account-credentials"
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params+=" --kubeconfig=/etc/srv/kubernetes/kube-controller-manager/kubeconfig"
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params+=" --service-account-private-key-file=/etc/srv/kubernetes/server.key"
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params+=" --root-ca-file=/etc/srv/kubernetes/ca.crt"
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params+=" --allocate-node-cidrs=${ALLOCATE_NODE_CIDRS}"
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params+=" --cluster-cidr=${CLUSTER_IP_RANGE}"
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params+=" --service-cluster-ip-range=${SERVICE_CLUSTER_IP_RANGE}"
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params+=" --terminated-pod-gc-threshold=${TERMINATED_POD_GC_THRESHOLD}"
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echo "${params}"
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}
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# Computes command line arguments to be passed to scheduler.
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function compute-kube-scheduler-params {
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local params="${SCHEDULER_TEST_ARGS:-}"
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params+=" --master=127.0.0.1:8080"
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echo "${params}"
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}
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# Computes command line arguments to be passed to addon-manager.
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function compute-kube-addon-manager-params {
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echo ""
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}
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# Start a kubernetes master component '$1' which can be any of the following:
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# 1. etcd
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# 2. etcd-events
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# 3. kube-apiserver
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# 4. kube-controller-manager
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# 5. kube-scheduler
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# 6. kube-addon-manager
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#
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# It prepares the log file, loads the docker tag, calculates variables, sets them
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# in the manifest file, and then copies the manifest file to /etc/kubernetes/manifests.
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#
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# Assumed vars:
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# DOCKER_REGISTRY
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function start-kubemaster-component() {
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echo "Start master component $1"
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local -r component=$1
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prepare-log-file /var/log/"${component}".log
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local -r src_file="${KUBE_ROOT}/${component}.yaml"
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local -r params=$(compute-${component}-params)
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# Evaluate variables.
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sed -i -e "s@{{params}}@${params}@g" "${src_file}"
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sed -i -e "s@{{kube_docker_registry}}@${DOCKER_REGISTRY}@g" "${src_file}"
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sed -i -e "s@{{instance_prefix}}@${INSTANCE_PREFIX}@g" "${src_file}"
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if [ "${component:0:4}" == "etcd" ]; then
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sed -i -e "s@{{etcd_image}}@${ETCD_IMAGE}@g" "${src_file}"
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elif [ "${component}" == "kube-addon-manager" ]; then
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setup-addon-manifests "addons" "kubemark-rbac-bindings"
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else
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local -r component_docker_tag=$(cat ${KUBE_BINDIR}/${component}.docker_tag)
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sed -i -e "s@{{${component}_docker_tag}}@${component_docker_tag}@g" "${src_file}"
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fi
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cp "${src_file}" /etc/kubernetes/manifests
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}
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############################### Main Function ########################################
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echo "Start to configure master instance for kubemark"
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# Extract files from the server tar and setup master env variables.
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cd "${KUBE_ROOT}"
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tar xzf kubernetes-server-linux-amd64.tar.gz
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source "${KUBE_ROOT}/kubemark-master-env.sh"
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# Setup IP firewall rules, required directory structure and etcd config.
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config-ip-firewall
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create-dirs
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setup-kubelet-dir
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delete-default-etcd-configs
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compute-etcd-variables
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# Setup authentication token and kubeconfig for controller-manager.
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KUBE_CONTROLLER_MANAGER_TOKEN=$(dd if=/dev/urandom bs=128 count=1 2>/dev/null | base64 | tr -d "=+/" | dd bs=32 count=1 2>/dev/null)
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echo "${KUBE_CONTROLLER_MANAGER_TOKEN},system:kube-controller-manager,uid:system:kube-controller-manager" >> /etc/srv/kubernetes/known_tokens.csv
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create-kubecontrollermanager-kubeconfig
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# Mount master PD for etcd and create symbolic links to it.
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{
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main_etcd_mount_point="/mnt/disks/master-pd"
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mount-pd "google-master-pd" "${main_etcd_mount_point}"
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# Contains all the data stored in etcd.
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mkdir -m 700 -p "${main_etcd_mount_point}/var/etcd"
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ln -s -f "${main_etcd_mount_point}/var/etcd" /var/etcd
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mkdir -p /etc/srv
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# Contains the dynamically generated apiserver auth certs and keys.
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mkdir -p "${main_etcd_mount_point}/srv/kubernetes"
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ln -s -f "${main_etcd_mount_point}/srv/kubernetes" /etc/srv/kubernetes
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# Directory for kube-apiserver to store SSH key (if necessary).
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mkdir -p "${main_etcd_mount_point}/srv/sshproxy"
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ln -s -f "${main_etcd_mount_point}/srv/sshproxy" /etc/srv/sshproxy
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}
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# Mount master PD for event-etcd (if required) and create symbolic links to it.
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{
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EVENT_STORE_IP="${EVENT_STORE_IP:-127.0.0.1}"
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EVENT_STORE_URL="${EVENT_STORE_URL:-http://${EVENT_STORE_IP}:4002}"
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EVENT_PD="${EVENT_PD:-false}"
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if [ "${EVENT_PD:-false}" == "true" ]; then
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event_etcd_mount_point="/mnt/disks/master-event-pd"
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mount-pd "google-master-event-pd" "${event_etcd_mount_point}"
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# Contains all the data stored in event etcd.
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mkdir -m 700 -p "${event_etcd_mount_point}/var/etcd/events"
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ln -s -f "${event_etcd_mount_point}/var/etcd/events" /var/etcd/events
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fi
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}
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# Setup docker flags and load images of the master components.
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assemble-docker-flags
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DOCKER_REGISTRY="gcr.io/google_containers"
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load-docker-images
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# Start kubelet as a supervisord process and master components as pods.
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start-kubelet
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start-kubemaster-component "etcd"
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if [ "${EVENT_STORE_IP:-}" == "127.0.0.1" ]; then
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start-kubemaster-component "etcd-events"
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|
fi
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|
start-kubemaster-component "kube-apiserver"
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|
start-kubemaster-component "kube-controller-manager"
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|
start-kubemaster-component "kube-scheduler"
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|
start-kubemaster-component "kube-addon-manager"
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|
|
|
# Wait till apiserver is working fine.
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|
until [ "$(curl 127.0.0.1:8080/healthz 2> /dev/null)" == "ok" ]; do
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|
sleep 1
|
|
done
|
|
|
|
echo "Done for the configuration for kubermark master"
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