#!/bin/bash
# Copyright 2016 Telefónica Investigación y Desarrollo S.A.U.
#
# 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.
function usage(){
echo -e "usage: $0 [OPTIONS]"
echo -e "Install OSM from binaries or source code (by default, from binaries)"
echo -e " OPTIONS"
echo -e " -h / --help: print this help"
echo -e " -y: do not prompt for confirmation, assumes yes"
echo -e " -r <repo>: use specified repository name for osm packages"
echo -e " -R <release>: use specified release for osm binaries (deb packages, lxd images, ...)"
echo -e " -u <repo base>: use specified repository url for osm packages"
echo -e " -k <repo key>: use specified repository public key url"
echo -e " -b <refspec>: install OSM from source code using a specific branch (master, v2.0, ...) or tag"
echo -e " -b master (main dev branch)"
echo -e " -b v2.0 (v2.0 branch)"
echo -e " -b tags/v1.1.0 (a specific tag)"
echo -e " ..."
echo -e " -c <orchestrator> deploy osm services using container <orchestrator>. Valid values are <k8s> or <swarm>. If -c is not used then osm will be deployed using default orchestrator. When used with --uninstall, osm services deployed by the orchestrator will be uninstalled"
echo -e " -s <stack name> or <namespace> user defined stack name when installed using swarm or namespace when installed using k8s, default is osm"
echo -e " -H <VCA host> use specific juju host controller IP"
echo -e " -S <VCA secret> use VCA/juju secret key"
echo -e " -P <VCA pubkey> use VCA/juju public key file"
echo -e " -C <VCA cacert> use VCA/juju CA certificate file"
echo -e " -A <VCA apiproxy> use VCA/juju API proxy"
echo -e " --vimemu: additionally deploy the VIM emulator as a docker container"
echo -e " --elk_stack: additionally deploy an ELK docker stack for event logging"
echo -e " --pla: install the PLA module for placement support"
echo -e " -m <MODULE>: install OSM but only rebuild or pull the specified docker images (NG-UI, NBI, LCM, RO, MON, POL, PLA, KAFKA, MONGO, PROMETHEUS, PROMETHEUS-CADVISOR, KEYSTONE-DB, NONE)"
echo -e " -o <ADDON>: ONLY (un)installs one of the addons (vimemu, elk_stack, k8s_monitor)"
echo -e " -O <openrc file path/cloud name>: Install OSM to an OpenStack infrastructure. <openrc file/cloud name> is required. If a <cloud name> is used, the clouds.yaml file should be under ~/.config/openstack/ or /etc/openstack/"
echo -e " -N <openstack public network name/ID>: Public network name required to setup OSM to OpenStack"
echo -e " -f <path to SSH public key>: Public SSH key to use to deploy OSM to OpenStack"
echo -e " -F <path to cloud-init file>: Cloud-Init userdata file to deploy OSM to OpenStack"
echo -e " -D <devops path> use local devops installation path"
echo -e " -w <work dir> Location to store runtime installation"
echo -e " -t <docker tag> specify osm docker tag (default is latest)"
echo -e " -l: LXD cloud yaml file"
echo -e " -L: LXD credentials yaml file"
echo -e " -K: Specifies the name of the controller to use - The controller must be already bootstrapped"
echo -e " -d <docker registry URL> use docker registry URL instead of dockerhub"
echo -e " -p <docker proxy URL> set docker proxy URL as part of docker CE configuration"
echo -e " -T <docker tag> specify docker tag for the modules specified with option -m"
echo -e " --nocachelxdimages: do not cache local lxd images, do not create cronjob for that cache (will save installation time, might affect instantiation time)"
echo -e " --nolxd: do not install and configure LXD, allowing unattended installations (assumes LXD is already installed and confifured)"
echo -e " --nodocker: do not install docker, do not initialize a swarm (assumes docker is already installed and a swarm has been initialized)"
echo -e " --nojuju: do not juju, assumes already installed"
echo -e " --nodockerbuild:do not build docker images (use existing locally cached images)"
echo -e " --nohostports: do not expose docker ports to host (useful for creating multiple instances of osm on the same host)"
echo -e " --nohostclient: do not install the osmclient"
echo -e " --uninstall: uninstall OSM: remove the containers and delete NAT rules"
echo -e " --source: install OSM from source code using the latest stable tag"
echo -e " --develop: (deprecated, use '-b master') install OSM from source code using the master branch"
echo -e " --pullimages: pull/run osm images from docker.io/opensourcemano"
echo -e " --k8s_monitor: install the OSM kubernetes monitoring with prometheus and grafana"
echo -e " --volume: create a VM volume when installing to OpenStack"
# echo -e " --reconfigure: reconfigure the modules (DO NOT change NAT rules)"
# echo -e " --update: update to the latest stable release or to the latest commit if using a specific branch"
echo -e " --showopts: print chosen options and exit (only for debugging)"
echo -e " --charmed: Deploy and operate OSM with Charms on k8s"
echo -e " [--bundle <bundle path>]: Specify with which bundle to deploy OSM with charms (--charmed option)"
echo -e " [--k8s <kubeconfig path>]: Specify with which kubernetes to deploy OSM with charms (--charmed option)"
echo -e " [--vca <name>]: Specifies the name of the controller to use - The controller must be already bootstrapped (--charmed option)"
echo -e " [--lxd <yaml path>]: Takes a YAML file as a parameter with the LXD Cloud information (--charmed option)"
echo -e " [--lxd-cred <yaml path>]: Takes a YAML file as a parameter with the LXD Credentials information (--charmed option)"
echo -e " [--microstack]: Installs microstack as a vim. (--charmed option)"
echo -e " [--overlay]: Add an overlay to override some defaults of the default bundle (--charmed option)"
echo -e " [--ha]: Installs High Availability bundle. (--charmed option)"
echo -e " [--tag]: Docker image tag. (--charmed option)"
echo -e " [--registry]: Docker registry with optional credentials as user:pass@hostname:port (--charmed option)"
}
# takes a juju/accounts.yaml file and returns the password specific
# for a controller. I wrote this using only bash tools to minimize
# additions of other packages
function parse_juju_password {
password_file="${HOME}/.local/share/juju/accounts.yaml"
local controller_name=$1
local s='[[:space:]]*' w='[a-zA-Z0-9_-]*' fs=$(echo @|tr @ '\034')
sed -ne "s|^\($s\):|\1|" \
-e "s|^\($s\)\($w\)$s:$s[\"']\(.*\)[\"']$s\$|\1$fs\2$fs\3|p" \
-e "s|^\($s\)\($w\)$s:$s\(.*\)$s\$|\1$fs\2$fs\3|p" $password_file |
awk -F$fs -v controller=$controller_name '{
indent = length($1)/2;
vname[indent] = $2;
for (i in vname) {if (i > indent) {delete vname[i]}}
if (length($3) > 0) {
vn=""; for (i=0; i<indent; i++) {vn=(vn)(vname[i])("_")}
if (match(vn,controller) && match($2,"password")) {
printf("%s",$3);
}
}
}'
}
function generate_secret() {
head /dev/urandom | tr -dc A-Za-z0-9 | head -c 32
}
function remove_volumes() {
if [ -n "$KUBERNETES" ]; then
k8_volume=$1
echo "Removing ${k8_volume}"
$WORKDIR_SUDO rm -rf ${k8_volume}
else
stack=$1
volumes="mongo_db mon_db osm_packages ro_db pol_db prom_db ro"
for volume in $volumes; do
sg docker -c "docker volume rm ${stack}_${volume}"
done
fi
}
function remove_network() {
stack=$1
sg docker -c "docker network rm net${stack}"
}
function remove_iptables() {
stack=$1
if [ -z "$OSM_VCA_HOST" ]; then
OSM_VCA_HOST=`sg lxd -c "juju show-controller ${stack}"|grep api-endpoints|awk -F\' '{print $2}'|awk -F\: '{print $1}'`
[ -z "$OSM_VCA_HOST" ] && FATAL "Cannot obtain juju controller IP address"
fi
if [ -z "$DEFAULT_IP" ]; then
DEFAULT_IF=$(ip route list|awk '$1=="default" {print $5; exit}')
[ -z "$DEFAULT_IF" ] && DEFAULT_IF=$(ip route list|awk '$1=="default" {print $5; exit}')
[ -z "$DEFAULT_IF" ] && FATAL "Not possible to determine the interface with the default route 0.0.0.0"
DEFAULT_IP=`ip -o -4 a |grep ${DEFAULT_IF}|awk '{split($4,a,"/"); print a[1]}'`
[ -z "$DEFAULT_IP" ] && FATAL "Not possible to determine the IP address of the interface with the default route"
fi
if sudo iptables -t nat -C PREROUTING -p tcp -m tcp -d $DEFAULT_IP --dport 17070 -j DNAT --to-destination $OSM_VCA_HOST; then
sudo iptables -t nat -D PREROUTING -p tcp -m tcp -d $DEFAULT_IP --dport 17070 -j DNAT --to-destination $OSM_VCA_HOST
sudo netfilter-persistent save
fi
}
function remove_stack() {
stack=$1
if sg docker -c "docker stack ps ${stack}" ; then
echo -e "\nRemoving stack ${stack}" && sg docker -c "docker stack rm ${stack}"
COUNTER=0
result=1
while [ ${COUNTER} -lt 30 ]; do
result=$(sg docker -c "docker stack ps ${stack}" | wc -l)
#echo "Dockers running: $result"
if [ "${result}" == "0" ]; then
break
fi
let COUNTER=COUNTER+1
sleep 1
done
if [ "${result}" == "0" ]; then
echo "All dockers of the stack ${stack} were removed"
else
FATAL "Some dockers of the stack ${stack} could not be removed. Could not clean it."
fi
sleep 5
fi
}
#removes osm deployments and services
function remove_k8s_namespace() {
kubectl delete ns $1
}
#removes helm only if there is nothing deployed in helm
function remove_helm() {
if [ "$(helm ls -q)" == "" ] ; then
sudo helm reset --force
kubectl delete --namespace kube-system serviceaccount tiller
kubectl delete clusterrolebinding tiller-cluster-rule
sudo rm /usr/local/bin/helm
rm -rf $HOME/.helm
fi
}
function remove_crontab_job() {
crontab -l | grep -v '${OSM_DEVOPS}/installers/update-juju-lxc-images' | crontab -
}
#Uninstall osmclient
function uninstall_osmclient() {
sudo apt-get remove --purge -y python-osmclient
sudo apt-get remove --purge -y python3-osmclient
}
#Uninstall lightweight OSM: remove dockers
function uninstall_lightweight() {
if [ -n "$INSTALL_ONLY" ]; then
if [ -n "$INSTALL_ELK" ]; then
echo -e "\nUninstalling OSM ELK stack"
remove_stack osm_elk
$WORKDIR_SUDO rm -rf $OSM_DOCKER_WORK_DIR/osm_elk
fi
else
echo -e "\nUninstalling OSM"
if [ -n "$KUBERNETES" ]; then
if [ -n "$INSTALL_K8S_MONITOR" ]; then
# uninstall OSM MONITORING
uninstall_k8s_monitoring
fi
remove_k8s_namespace $OSM_STACK_NAME
else
remove_stack $OSM_STACK_NAME
remove_stack osm_elk
fi
echo "Now osm docker images and volumes will be deleted"
# TODO: clean-up of images should take into account if other tags were used for specific modules
newgrp docker << EONG
for module in ro lcm keystone nbi mon pol pla osmclient; do
docker image rm ${DOCKER_REGISTRY_URL}${DOCKER_USER}/${module}:${OSM_DOCKER_TAG}
done
EONG
sg docker -c "docker image rm ${DOCKER_REGISTRY_URL}${DOCKER_USER}/ng-ui:${OSM_DOCKER_TAG}"
if [ -n "$KUBERNETES" ]; then
OSM_NAMESPACE_VOL="${OSM_HOST_VOL}/${OSM_STACK_NAME}"
remove_volumes $OSM_NAMESPACE_VOL
else
remove_volumes $OSM_STACK_NAME
remove_network $OSM_STACK_NAME
[ -z "$CONTROLLER_NAME" ] && remove_iptables $OSM_STACK_NAME
fi
echo "Removing $OSM_DOCKER_WORK_DIR"
$WORKDIR_SUDO rm -rf $OSM_DOCKER_WORK_DIR
[ -z "$CONTROLLER_NAME" ] && sg lxd -c "juju kill-controller -t 0 -y $OSM_STACK_NAME"
fi
remove_crontab_job
# Cleanup Openstack installer venv
if [ -d "$OPENSTACK_PYTHON_VENV" ]; then
rm -r $OPENSTACK_PYTHON_VENV
fi
[ -z "$INSTALL_NOHOSTCLIENT" ] && uninstall_osmclient
echo "Some docker images will be kept in case they are used by other docker stacks"
echo "To remove them, just run 'docker image prune' in a terminal"
return 0
}
#Safe unattended install of iptables-persistent
function check_install_iptables_persistent(){
echo -e "\nChecking required packages: iptables-persistent"
if ! dpkg -l iptables-persistent &>/dev/null; then
echo -e " Not installed.\nInstalling iptables-persistent requires root privileges"
echo iptables-persistent iptables-persistent/autosave_v4 boolean true | sudo debconf-set-selections
echo iptables-persistent iptables-persistent/autosave_v6 boolean true | sudo debconf-set-selections
sudo apt-get -yq install iptables-persistent
fi
}
#Configure NAT rules, based on the current IP addresses of containers
function nat(){
check_install_iptables_persistent
echo -e "\nConfiguring NAT rules"
echo -e " Required root privileges"
sudo $OSM_DEVOPS/installers/nat_osm
}
function FATAL(){
echo "FATAL error: Cannot install OSM due to \"$1\""
exit 1
}
function update_juju_images(){
crontab -l | grep update-juju-lxc-images || (crontab -l 2>/dev/null; echo "0 4 * * 6 $USER ${OSM_DEVOPS}/installers/update-juju-lxc-images --xenial --bionic") | crontab -
${OSM_DEVOPS}/installers/update-juju-lxc-images --xenial --bionic
}
function install_lxd() {
# Apply sysctl production values for optimal performance
sudo cp ${OSM_DEVOPS}/installers/60-lxd-production.conf /etc/sysctl.d/60-lxd-production.conf
sudo sysctl --system
# Install LXD snap
sudo apt-get remove --purge -y liblxc1 lxc-common lxcfs lxd lxd-client
sudo snap install lxd
# Configure LXD
sudo usermod -a -G lxd `whoami`
cat ${OSM_DEVOPS}/installers/lxd-preseed.conf | sed 's/^config: {}/config:\n core.https_address: '$DEFAULT_IP':8443/' | sg lxd -c "lxd init --preseed"
sg lxd -c "lxd waitready"
DEFAULT_INTERFACE=$(ip route list|awk '$1=="default" {print $5; exit}')
[ -z "$DEFAULT_INTERFACE" ] && DEFAULT_INTERFACE=$(route -n |awk '$1~/^0.0.0.0/ {print $8; exit}')
DEFAULT_MTU=$(ip addr show $DEFAULT_INTERFACE | perl -ne 'if (/mtu\s(\d+)/) {print $1;}')
sg lxd -c "lxc profile device set default eth0 mtu $DEFAULT_MTU"
sg lxd -c "lxc network set lxdbr0 bridge.mtu $DEFAULT_MTU"
#sudo systemctl stop lxd-bridge
#sudo systemctl --system daemon-reload
#sudo systemctl enable lxd-bridge
#sudo systemctl start lxd-bridge
}
function ask_user(){
# ask to the user and parse a response among 'y', 'yes', 'n' or 'no'. Case insensitive
# Params: $1 text to ask; $2 Action by default, can be 'y' for yes, 'n' for no, other or empty for not allowed
# Return: true(0) if user type 'yes'; false (1) if user type 'no'
read -e -p "$1" USER_CONFIRMATION
while true ; do
[ -z "$USER_CONFIRMATION" ] && [ "$2" == 'y' ] && return 0
[ -z "$USER_CONFIRMATION" ] && [ "$2" == 'n' ] && return 1
[ "${USER_CONFIRMATION,,}" == "yes" ] || [ "${USER_CONFIRMATION,,}" == "y" ] && return 0
[ "${USER_CONFIRMATION,,}" == "no" ] || [ "${USER_CONFIRMATION,,}" == "n" ] && return 1
read -e -p "Please type 'yes' or 'no': " USER_CONFIRMATION
done
}
function install_osmclient(){
CLIENT_RELEASE=${RELEASE#"-R "}
CLIENT_REPOSITORY_KEY="OSM%20ETSI%20Release%20Key.gpg"
CLIENT_REPOSITORY=${REPOSITORY#"-r "}
CLIENT_REPOSITORY_BASE=${REPOSITORY_BASE#"-u "}
key_location=$CLIENT_REPOSITORY_BASE/$CLIENT_RELEASE/$CLIENT_REPOSITORY_KEY
curl $key_location | sudo apt-key add -
sudo add-apt-repository -y "deb [arch=amd64] $CLIENT_REPOSITORY_BASE/$CLIENT_RELEASE $CLIENT_REPOSITORY osmclient IM"
sudo apt-get update
sudo apt-get install -y python3-pip
sudo -H LC_ALL=C python3 -m pip install -U pip
sudo -H LC_ALL=C python3 -m pip install -U python-magic pyangbind verboselogs
sudo apt-get install -y python3-osm-im python3-osmclient
if [ -f /usr/lib/python3/dist-packages/osm_im/requirements.txt ]; then
python3 -m pip install -r /usr/lib/python3/dist-packages/osm_im/requirements.txt
fi
if [ -f /usr/lib/python3/dist-packages/osmclient/requirements.txt ]; then
sudo apt-get install -y libcurl4-openssl-dev libssl-dev
python3 -m pip install -r /usr/lib/python3/dist-packages/osmclient/requirements.txt
fi
#sed 's,OSM_SOL005=[^$]*,OSM_SOL005=True,' -i ${HOME}/.bashrc
#echo 'export OSM_HOSTNAME=localhost' >> ${HOME}/.bashrc
#echo 'export OSM_SOL005=True' >> ${HOME}/.bashrc
[ -z "$INSTALL_LIGHTWEIGHT" ] && export OSM_HOSTNAME=`lxc list | awk '($2=="SO-ub"){print $6}'`
[ -z "$INSTALL_LIGHTWEIGHT" ] && export OSM_RO_HOSTNAME=`lxc list | awk '($2=="RO"){print $6}'`
echo -e "\nOSM client installed"
if [ -z "$INSTALL_LIGHTWEIGHT" ]; then
echo -e "You might be interested in adding the following OSM client env variables to your .bashrc file:"
echo " export OSM_HOSTNAME=${OSM_HOSTNAME}"
echo " export OSM_RO_HOSTNAME=${OSM_RO_HOSTNAME}"
else
echo -e "OSM client assumes that OSM host is running in localhost (127.0.0.1)."
echo -e "In case you want to interact with a different OSM host, you will have to configure this env variable in your .bashrc file:"
echo " export OSM_HOSTNAME=<OSM_host>"
fi
return 0
}
function install_prometheus_nodeexporter(){
if (systemctl -q is-active node_exporter)
then
echo "Node Exporter is already running."
else
echo "Node Exporter is not active, installing..."
if getent passwd node_exporter > /dev/null 2>&1; then
echo "node_exporter user exists"
else
echo "Creating user node_exporter"
sudo useradd --no-create-home --shell /bin/false node_exporter
fi
wget -q https://github.com/prometheus/node_exporter/releases/download/v$PROMETHEUS_NODE_EXPORTER_TAG/node_exporter-$PROMETHEUS_NODE_EXPORTER_TAG.linux-amd64.tar.gz -P /tmp/
sudo tar -C /tmp -xf /tmp/node_exporter-$PROMETHEUS_NODE_EXPORTER_TAG.linux-amd64.tar.gz
sudo cp /tmp/node_exporter-$PROMETHEUS_NODE_EXPORTER_TAG.linux-amd64/node_exporter /usr/local/bin
sudo chown node_exporter:node_exporter /usr/local/bin/node_exporter
sudo rm -rf /tmp/node_exporter-$PROMETHEUS_NODE_EXPORTER_TAG.linux-amd64*
sudo cp ${OSM_DEVOPS}/installers/docker/prometheus_exporters/node_exporter.service /etc/systemd/system/node_exporter.service
sudo systemctl daemon-reload
sudo systemctl restart node_exporter
sudo systemctl enable node_exporter
echo "Node Exporter has been activated in this host."
fi
return 0
}
function uninstall_prometheus_nodeexporter(){
sudo systemctl stop node_exporter
sudo systemctl disable node_exporter
sudo rm /etc/systemd/system/node_exporter.service
sudo systemctl daemon-reload
sudo userdel node_exporter
sudo rm /usr/local/bin/node_exporter
return 0
}
function install_docker_ce() {
# installs and configures Docker CE
echo "Installing Docker CE ..."
sudo apt-get -qq update
sudo apt-get install -y apt-transport-https ca-certificates software-properties-common
curl -fsSL https://download.docker.com/linux/ubuntu/gpg | sudo apt-key add -
sudo add-apt-repository "deb [arch=amd64] https://download.docker.com/linux/ubuntu $(lsb_release -cs) stable"
sudo apt-get -qq update
sudo apt-get install -y docker-ce
echo "Adding user to group 'docker'"
sudo groupadd -f docker
sudo usermod -aG docker $USER
sleep 2
sudo service docker restart
echo "... restarted Docker service"
if [ -n "${DOCKER_PROXY_URL}" ]; then
echo "Configuring docker proxy ..."
if [ -f /etc/docker/daemon.json ]; then
if grep -q registry-mirrors /etc/docker/daemon.json; then
sudo sed -i "s|registry-mirrors.*|registry-mirrors\": [\"${DOCKER_PROXY_URL}\"] |" /etc/docker/daemon.json
else
sudo sed -i "s|{|{\n \"registry-mirrors\": [\"${DOCKER_PROXY_URL}\"],|" /etc/docker/daemon.json
fi
else
sudo bash -c "cat << EOF > /etc/docker/daemon.json
{
\"registry-mirrors\": [\"${DOCKER_PROXY_URL}\"]
}
EOF"
fi
sudo systemctl daemon-reload
sudo service docker restart
echo "... restarted Docker service again"
fi
sg docker -c "docker version" || FATAL "Docker installation failed"
echo "... Docker CE installation done"
return 0
}
function install_docker_compose() {
# installs and configures docker-compose
echo "Installing Docker Compose ..."
sudo curl -L https://github.com/docker/compose/releases/download/1.18.0/docker-compose-`uname -s`-`uname -m` -o /usr/local/bin/docker-compose
sudo chmod +x /usr/local/bin/docker-compose
echo "... Docker Compose installation done"
}
function install_juju() {
echo "Installing juju"
sudo snap install juju --classic --channel=2.8/stable
[[ ":$PATH": != *":/snap/bin:"* ]] && PATH="/snap/bin:${PATH}"
[ -n "$INSTALL_NOCACHELXDIMAGES" ] || update_juju_images
echo "Finished installation of juju"
return 0
}
function juju_createcontroller() {
if ! juju show-controller $OSM_STACK_NAME &> /dev/null; then
# Not found created, create the controller
sudo usermod -a -G lxd ${USER}
sg lxd -c "juju bootstrap --bootstrap-series=xenial --agent-version=$JUJU_AGENT_VERSION $OSM_VCA_CLOUDNAME $OSM_STACK_NAME"
fi
[ $(juju controllers | awk "/^${OSM_STACK_NAME}[\*| ]/{print $1}"|wc -l) -eq 1 ] || FATAL "Juju installation failed"
juju controller-config features=[k8s-operators]
}
function juju_addk8s() {
cat $HOME/.kube/config | juju add-k8s $OSM_VCA_K8S_CLOUDNAME --controller $OSM_STACK_NAME --storage openebs-hostpath
}
function juju_createcontroller_k8s(){
cat $HOME/.kube/config | juju add-k8s $OSM_VCA_K8S_CLOUDNAME --client
juju bootstrap $OSM_VCA_K8S_CLOUDNAME $OSM_STACK_NAME \
--config controller-service-type=loadbalancer \
--agent-version=$JUJU_AGENT_VERSION
}
function juju_addlxd_cloud(){
mkdir -p /tmp/.osm
OSM_VCA_CLOUDNAME="lxd-cloud"
LXDENDPOINT=$DEFAULT_IP
LXD_CLOUD=/tmp/.osm/lxd-cloud.yaml
LXD_CREDENTIALS=/tmp/.osm/lxd-credentials.yaml
cat << EOF > $LXD_CLOUD
clouds:
$OSM_VCA_CLOUDNAME:
type: lxd
auth-types: [certificate]
endpoint: "https://$LXDENDPOINT:8443"
config:
ssl-hostname-verification: false
EOF
openssl req -nodes -new -x509 -keyout /tmp/.osm/client.key -out /tmp/.osm/client.crt -days 365 -subj "/C=FR/ST=Nice/L=Nice/O=ETSI/OU=OSM/CN=osm.etsi.org"
local server_cert=`cat /var/snap/lxd/common/lxd/server.crt | sed 's/^/ /'`
local client_cert=`cat /tmp/.osm/client.crt | sed 's/^/ /'`
local client_key=`cat /tmp/.osm/client.key | sed 's/^/ /'`
cat << EOF > $LXD_CREDENTIALS
credentials:
$OSM_VCA_CLOUDNAME:
lxd-cloud:
auth-type: certificate
server-cert: |
$server_cert
client-cert: |
$client_cert
client-key: |
$client_key
EOF
lxc config trust add local: /tmp/.osm/client.crt
juju add-cloud -c $OSM_STACK_NAME $OSM_VCA_CLOUDNAME $LXD_CLOUD --force
juju add-credential -c $OSM_STACK_NAME $OSM_VCA_CLOUDNAME -f $LXD_CREDENTIALS
sg lxd -c "lxd waitready"
juju controller-config features=[k8s-operators]
}
function juju_createproxy() {
check_install_iptables_persistent
if ! sudo iptables -t nat -C PREROUTING -p tcp -m tcp -d $DEFAULT_IP --dport 17070 -j DNAT --to-destination $OSM_VCA_HOST; then
sudo iptables -t nat -A PREROUTING -p tcp -m tcp -d $DEFAULT_IP --dport 17070 -j DNAT --to-destination $OSM_VCA_HOST
sudo netfilter-persistent save
fi
}
function docker_login() {
echo "Docker login"
sg docker -c "docker login -u ${DOCKER_REGISTRY_USER} -p ${DOCKER_REGISTRY_PASSWORD}"
}
function generate_docker_images() {
echo "Pulling and generating docker images"
[ -n "${DOCKER_REGISTRY_URL}" ] && docker_login
echo "Pulling docker images"
if [ -z "$TO_REBUILD" ] || echo $TO_REBUILD | grep -q KAFKA ; then
sg docker -c "docker pull wurstmeister/zookeeper" || FATAL "cannot get zookeeper docker image"
sg docker -c "docker pull wurstmeister/kafka:${KAFKA_TAG}" || FATAL "cannot get kafka docker image"
fi
if [ -z "$TO_REBUILD" ] || echo $TO_REBUILD | grep -q MONGO ; then
sg docker -c "docker pull mongo" || FATAL "cannot get mongo docker image"
fi
if [ -z "$TO_REBUILD" ] || echo $TO_REBUILD | grep -q PROMETHEUS ; then
sg docker -c "docker pull prom/prometheus:${PROMETHEUS_TAG}" || FATAL "cannot get prometheus docker image"
fi
if [ -z "$TO_REBUILD" ] || echo $TO_REBUILD | grep -q PROMETHEUS-CADVISOR ; then
sg docker -c "docker pull google/cadvisor:${PROMETHEUS_CADVISOR_TAG}" || FATAL "cannot get prometheus cadvisor docker image"
fi
if [ -z "$TO_REBUILD" ] || echo $TO_REBUILD | grep -q GRAFANA ; then
sg docker -c "docker pull grafana/grafana:${GRAFANA_TAG}" || FATAL "cannot get grafana docker image"
fi
if [ -z "$TO_REBUILD" ] || echo $TO_REBUILD | grep -q NBI || echo $TO_REBUILD | grep -q KEYSTONE-DB ; then
sg docker -c "docker pull mariadb:${KEYSTONEDB_TAG}" || FATAL "cannot get keystone-db docker image"
fi
if [ -z "$TO_REBUILD" ] || echo $TO_REBUILD | grep -q RO ; then
sg docker -c "docker pull mysql:5" || FATAL "cannot get mysql docker image"
fi
if [ -n "$PULL_IMAGES" ]; then
echo "Pulling OSM docker images"
for module in MON POL NBI KEYSTONE RO LCM NG-UI PLA osmclient; do
module_lower=${module,,}
if [ $module == "PLA" -a ! -n "$INSTALL_PLA" ]; then
continue
fi
module_tag="${OSM_DOCKER_TAG}"
if [ -n "${MODULE_DOCKER_TAG}" ] && echo $TO_REBUILD | grep -q $module ; then
module_tag="${MODULE_DOCKER_TAG}"
fi
echo "Pulling ${DOCKER_REGISTRY_URL}${DOCKER_USER}/${module_lower}:${module_tag} docker image"
sg docker -c "docker pull ${DOCKER_REGISTRY_URL}${DOCKER_USER}/${module_lower}:${module_tag}" || FATAL "cannot pull $module docker image"
done
else
_build_from=$COMMIT_ID
[ -z "$_build_from" ] && _build_from="latest"
echo "OSM Docker images generated from $_build_from"
for module in MON POL NBI KEYSTONE RO LCM NG-UI PLA; do
if [ -z "$TO_REBUILD" ] || echo $TO_REBUILD | grep -q ${module} ; then
module_lower=${module,,}
if [ $module == "PLA" -a ! -n "$INSTALL_PLA" ]; then
continue
fi
git -C ${LWTEMPDIR} clone https://osm.etsi.org/gerrit/osm/$module
git -C ${LWTEMPDIR}/${module} checkout ${COMMIT_ID}
sg docker -c "docker build ${LWTEMPDIR}/${module} -f ${LWTEMPDIR}/${module}/docker/Dockerfile -t ${DOCKER_USER}/${module_lower} --no-cache" || FATAL "cannot build ${module} docker image"
fi
done
if [ -z "$TO_REBUILD" ] || echo $TO_REBUILD | grep -q osmclient; then
BUILD_ARGS+=(--build-arg REPOSITORY="$REPOSITORY")
BUILD_ARGS+=(--build-arg RELEASE="$RELEASE")
BUILD_ARGS+=(--build-arg REPOSITORY_KEY="$REPOSITORY_KEY")
BUILD_ARGS+=(--build-arg REPOSITORY_BASE="$REPOSITORY_BASE")
sg docker -c "docker build -t ${DOCKER_USER}/osmclient ${BUILD_ARGS[@]} -f $OSM_DEVOPS/docker/osmclient ."
fi
echo "Finished generation of docker images"
fi
echo "Finished pulling and generating docker images"
}
function cmp_overwrite() {
file1="$1"
file2="$2"
if ! $(cmp "${file1}" "${file2}" >/dev/null 2>&1); then
if [ -f "${file2}" ]; then
ask_user "The file ${file2} already exists. Overwrite (y/N)? " n && cp -b ${file1} ${file2}
else
cp -b ${file1} ${file2}
fi
fi
}
function generate_docker_compose_files() {
$WORKDIR_SUDO cp -b ${OSM_DEVOPS}/installers/docker/docker-compose.yaml $OSM_DOCKER_WORK_DIR/docker-compose.yaml
$WORKDIR_SUDO cp -b ${OSM_DEVOPS}/installers/docker/docker-compose-ngui.yaml $OSM_DOCKER_WORK_DIR/docker-compose-ui.yaml
if [ -n "$INSTALL_PLA" ]; then
$WORKDIR_SUDO cp -b ${OSM_DEVOPS}/installers/docker/osm_pla/docker-compose.yaml $OSM_DOCKER_WORK_DIR/osm_pla/docker-compose.yaml
fi
}
function generate_k8s_manifest_files() {
#Kubernetes resources
$WORKDIR_SUDO cp -bR ${OSM_DEVOPS}/installers/docker/osm_pods $OSM_DOCKER_WORK_DIR
$WORKDIR_SUDO rm -f $OSM_K8S_WORK_DIR/mongo.yaml
$WORKDIR_SUDO rm -f $OSM_K8S_WORK_DIR/ng-ui.yaml
}
function generate_prometheus_grafana_files() {
[ -n "$KUBERNETES" ] && return
# Prometheus files
$WORKDIR_SUDO mkdir -p $OSM_DOCKER_WORK_DIR/prometheus
$WORKDIR_SUDO cp -b ${OSM_DEVOPS}/installers/docker/prometheus/prometheus.yml $OSM_DOCKER_WORK_DIR/prometheus/prometheus.yml
# Grafana files
$WORKDIR_SUDO mkdir -p $OSM_DOCKER_WORK_DIR/grafana
$WORKDIR_SUDO cp -b ${OSM_DEVOPS}/installers/docker/grafana/dashboards-osm.yml $OSM_DOCKER_WORK_DIR/grafana/dashboards-osm.yml
$WORKDIR_SUDO cp -b ${OSM_DEVOPS}/installers/docker/grafana/datasource-prometheus.yml $OSM_DOCKER_WORK_DIR/grafana/datasource-prometheus.yml
$WORKDIR_SUDO cp -b ${OSM_DEVOPS}/installers/docker/grafana/osm-sample-dashboard.json $OSM_DOCKER_WORK_DIR/grafana/osm-sample-dashboard.json
$WORKDIR_SUDO cp -b ${OSM_DEVOPS}/installers/docker/grafana/osm-system-dashboard.json $OSM_DOCKER_WORK_DIR/grafana/osm-system-dashboard.json
# Prometheus Exporters files
$WORKDIR_SUDO mkdir -p $OSM_DOCKER_WORK_DIR/prometheus_exporters
$WORKDIR_SUDO cp -b ${OSM_DEVOPS}/installers/docker/prometheus_exporters/node_exporter.service $OSM_DOCKER_WORK_DIR/prometheus_exporters/node_exporter.service
}
function generate_docker_env_files() {
echo "Doing a backup of existing env files"
$WORKDIR_SUDO cp $OSM_DOCKER_WORK_DIR/keystone-db.env{,~}
$WORKDIR_SUDO cp $OSM_DOCKER_WORK_DIR/keystone.env{,~}
$WORKDIR_SUDO cp $OSM_DOCKER_WORK_DIR/lcm.env{,~}
$WORKDIR_SUDO cp $OSM_DOCKER_WORK_DIR/mon.env{,~}
$WORKDIR_SUDO cp $OSM_DOCKER_WORK_DIR/nbi.env{,~}
$WORKDIR_SUDO cp $OSM_DOCKER_WORK_DIR/pol.env{,~}
$WORKDIR_SUDO cp $OSM_DOCKER_WORK_DIR/ro-db.env{,~}
$WORKDIR_SUDO cp $OSM_DOCKER_WORK_DIR/ro.env{,~}
echo "Generating docker env files"
# LCM
if [ ! -f $OSM_DOCKER_WORK_DIR/lcm.env ]; then
echo "OSMLCM_DATABASE_COMMONKEY=${OSM_DATABASE_COMMONKEY}" | $WORKDIR_SUDO tee -a $OSM_DOCKER_WORK_DIR/lcm.env
fi
if ! grep -Fq "OSMLCM_VCA_HOST" $OSM_DOCKER_WORK_DIR/lcm.env; then
echo "OSMLCM_VCA_HOST=${OSM_VCA_HOST}" | $WORKDIR_SUDO tee -a $OSM_DOCKER_WORK_DIR/lcm.env
else
$WORKDIR_SUDO sed -i "s|OSMLCM_VCA_HOST.*|OSMLCM_VCA_HOST=$OSM_VCA_HOST|g" $OSM_DOCKER_WORK_DIR/lcm.env
fi
if ! grep -Fq "OSMLCM_VCA_SECRET" $OSM_DOCKER_WORK_DIR/lcm.env; then
echo "OSMLCM_VCA_SECRET=${OSM_VCA_SECRET}" | $WORKDIR_SUDO tee -a $OSM_DOCKER_WORK_DIR/lcm.env
else
$WORKDIR_SUDO sed -i "s|OSMLCM_VCA_SECRET.*|OSMLCM_VCA_SECRET=$OSM_VCA_SECRET|g" $OSM_DOCKER_WORK_DIR/lcm.env
fi
if ! grep -Fq "OSMLCM_VCA_PUBKEY" $OSM_DOCKER_WORK_DIR/lcm.env; then
echo "OSMLCM_VCA_PUBKEY=${OSM_VCA_PUBKEY}" | $WORKDIR_SUDO tee -a $OSM_DOCKER_WORK_DIR/lcm.env
else
$WORKDIR_SUDO sed -i "s|OSMLCM_VCA_PUBKEY.*|OSMLCM_VCA_PUBKEY=${OSM_VCA_PUBKEY}|g" $OSM_DOCKER_WORK_DIR/lcm.env
fi
if ! grep -Fq "OSMLCM_VCA_CACERT" $OSM_DOCKER_WORK_DIR/lcm.env; then
echo "OSMLCM_VCA_CACERT=${OSM_VCA_CACERT}" | $WORKDIR_SUDO tee -a $OSM_DOCKER_WORK_DIR/lcm.env
else
$WORKDIR_SUDO sed -i "s|OSMLCM_VCA_CACERT.*|OSMLCM_VCA_CACERT=${OSM_VCA_CACERT}|g" $OSM_DOCKER_WORK_DIR/lcm.env
fi
if [ -n "$OSM_VCA_APIPROXY" ]; then
if ! grep -Fq "OSMLCM_VCA_APIPROXY" $OSM_DOCKER_WORK_DIR/lcm.env; then
echo "OSMLCM_VCA_APIPROXY=${OSM_VCA_APIPROXY}" | $WORKDIR_SUDO tee -a $OSM_DOCKER_WORK_DIR/lcm.env
else
$WORKDIR_SUDO sed -i "s|OSMLCM_VCA_APIPROXY.*|OSMLCM_VCA_APIPROXY=${OSM_VCA_APIPROXY}|g" $OSM_DOCKER_WORK_DIR/lcm.env
fi
fi
if ! grep -Fq "OSMLCM_VCA_ENABLEOSUPGRADE" $OSM_DOCKER_WORK_DIR/lcm.env; then
echo "# OSMLCM_VCA_ENABLEOSUPGRADE=false" | $WORKDIR_SUDO tee -a $OSM_DOCKER_WORK_DIR/lcm.env
fi
if ! grep -Fq "OSMLCM_VCA_APTMIRROR" $OSM_DOCKER_WORK_DIR/lcm.env; then
echo "# OSMLCM_VCA_APTMIRROR=http://archive.ubuntu.com/ubuntu/" | $WORKDIR_SUDO tee -a $OSM_DOCKER_WORK_DIR/lcm.env
fi
if ! grep -Fq "OSMLCM_VCA_CLOUD" $OSM_DOCKER_WORK_DIR/lcm.env; then
echo "OSMLCM_VCA_CLOUD=${OSM_VCA_CLOUDNAME}" | $WORKDIR_SUDO tee -a $OSM_DOCKER_WORK_DIR/lcm.env
else
$WORKDIR_SUDO sed -i "s|OSMLCM_VCA_CLOUD.*|OSMLCM_VCA_CLOUD=${OSM_VCA_CLOUDNAME}|g" $OSM_DOCKER_WORK_DIR/lcm.env
fi
if ! grep -Fq "OSMLCM_VCA_K8S_CLOUD" $OSM_DOCKER_WORK_DIR/lcm.env; then
echo "OSMLCM_VCA_K8S_CLOUD=${OSM_VCA_K8S_CLOUDNAME}" | $WORKDIR_SUDO tee -a $OSM_DOCKER_WORK_DIR/lcm.env
else
$WORKDIR_SUDO sed -i "s|OSMLCM_VCA_K8S_CLOUD.*|OSMLCM_VCA_K8S_CLOUD=${OSM_VCA_K8S_CLOUDNAME}|g" $OSM_DOCKER_WORK_DIR/lcm.env
fi
# RO
MYSQL_ROOT_PASSWORD=$(generate_secret)
if [ ! -f $OSM_DOCKER_WORK_DIR/ro-db.env ]; then
echo "MYSQL_ROOT_PASSWORD=${MYSQL_ROOT_PASSWORD}" |$WORKDIR_SUDO tee $OSM_DOCKER_WORK_DIR/ro-db.env
fi
if [ ! -f $OSM_DOCKER_WORK_DIR/ro.env ]; then
echo "RO_DB_ROOT_PASSWORD=${MYSQL_ROOT_PASSWORD}" |$WORKDIR_SUDO tee $OSM_DOCKER_WORK_DIR/ro.env
fi
if ! grep -Fq "OSMRO_DATABASE_COMMONKEY" $OSM_DOCKER_WORK_DIR/ro.env; then
echo "OSMRO_DATABASE_COMMONKEY=${OSM_DATABASE_COMMONKEY}" | $WORKDIR_SUDO tee -a $OSM_DOCKER_WORK_DIR/ro.env
fi
# Keystone
KEYSTONE_DB_PASSWORD=$(generate_secret)
SERVICE_PASSWORD=$(generate_secret)
if [ ! -f $OSM_DOCKER_WORK_DIR/keystone-db.env ]; then
echo "MYSQL_ROOT_PASSWORD=${MYSQL_ROOT_PASSWORD}" |$WORKDIR_SUDO tee $OSM_DOCKER_WORK_DIR/keystone-db.env
fi
if [ ! -f $OSM_DOCKER_WORK_DIR/keystone.env ]; then
echo "ROOT_DB_PASSWORD=${MYSQL_ROOT_PASSWORD}" |$WORKDIR_SUDO tee $OSM_DOCKER_WORK_DIR/keystone.env
echo "KEYSTONE_DB_PASSWORD=${KEYSTONE_DB_PASSWORD}" |$WORKDIR_SUDO tee -a $OSM_DOCKER_WORK_DIR/keystone.env
echo "SERVICE_PASSWORD=${SERVICE_PASSWORD}" |$WORKDIR_SUDO tee -a $OSM_DOCKER_WORK_DIR/keystone.env
fi
# NBI
if [ ! -f $OSM_DOCKER_WORK_DIR/nbi.env ]; then
echo "OSMNBI_AUTHENTICATION_SERVICE_PASSWORD=${SERVICE_PASSWORD}" |$WORKDIR_SUDO tee $OSM_DOCKER_WORK_DIR/nbi.env
echo "OSMNBI_DATABASE_COMMONKEY=${OSM_DATABASE_COMMONKEY}" | $WORKDIR_SUDO tee -a $OSM_DOCKER_WORK_DIR/nbi.env
fi
# MON
if [ ! -f $OSM_DOCKER_WORK_DIR/mon.env ]; then
echo "OSMMON_KEYSTONE_SERVICE_PASSWORD=${SERVICE_PASSWORD}" | $WORKDIR_SUDO tee -a $OSM_DOCKER_WORK_DIR/mon.env
echo "OSMMON_DATABASE_COMMONKEY=${OSM_DATABASE_COMMONKEY}" | $WORKDIR_SUDO tee -a $OSM_DOCKER_WORK_DIR/mon.env
echo "OSMMON_SQL_DATABASE_URI=mysql://root:${MYSQL_ROOT_PASSWORD}@mysql:3306/mon" | $WORKDIR_SUDO tee -a $OSM_DOCKER_WORK_DIR/mon.env
fi
if ! grep -Fq "OS_NOTIFIER_URI" $OSM_DOCKER_WORK_DIR/mon.env; then
echo "OS_NOTIFIER_URI=http://${DEFAULT_IP}:8662" |$WORKDIR_SUDO tee -a $OSM_DOCKER_WORK_DIR/mon.env
else
$WORKDIR_SUDO sed -i "s|OS_NOTIFIER_URI.*|OS_NOTIFIER_URI=http://$DEFAULT_IP:8662|g" $OSM_DOCKER_WORK_DIR/mon.env
fi
if ! grep -Fq "OSMMON_VCA_HOST" $OSM_DOCKER_WORK_DIR/mon.env; then
echo "OSMMON_VCA_HOST=${OSM_VCA_HOST}" | $WORKDIR_SUDO tee -a $OSM_DOCKER_WORK_DIR/mon.env
else
$WORKDIR_SUDO sed -i "s|OSMMON_VCA_HOST.*|OSMMON_VCA_HOST=$OSM_VCA_HOST|g" $OSM_DOCKER_WORK_DIR/mon.env
fi
if ! grep -Fq "OSMMON_VCA_SECRET" $OSM_DOCKER_WORK_DIR/mon.env; then
echo "OSMMON_VCA_SECRET=${OSM_VCA_SECRET}" | $WORKDIR_SUDO tee -a $OSM_DOCKER_WORK_DIR/mon.env
else
$WORKDIR_SUDO sed -i "s|OSMMON_VCA_SECRET.*|OSMMON_VCA_SECRET=$OSM_VCA_SECRET|g" $OSM_DOCKER_WORK_DIR/mon.env
fi
if ! grep -Fq "OSMMON_VCA_CACERT" $OSM_DOCKER_WORK_DIR/mon.env; then
echo "OSMMON_VCA_CACERT=${OSM_VCA_CACERT}" | $WORKDIR_SUDO tee -a $OSM_DOCKER_WORK_DIR/mon.env
else
$WORKDIR_SUDO sed -i "s|OSMMON_VCA_CACERT.*|OSMMON_VCA_CACERT=${OSM_VCA_CACERT}|g" $OSM_DOCKER_WORK_DIR/mon.env
fi
# POL
if [ ! -f $OSM_DOCKER_WORK_DIR/pol.env ]; then
echo "OSMPOL_SQL_DATABASE_URI=mysql://root:${MYSQL_ROOT_PASSWORD}@mysql:3306/pol" | $WORKDIR_SUDO tee -a $OSM_DOCKER_WORK_DIR/pol.env
fi
echo "Finished generation of docker env files"
}
function generate_osmclient_script () {
echo "docker run -ti --network net${OSM_STACK_NAME} ${DOCKER_REGISTRY_URL}${DOCKER_USER}/osmclient:${OSM_DOCKER_TAG}" | $WORKDIR_SUDO tee $OSM_DOCKER_WORK_DIR/osm
$WORKDIR_SUDO chmod +x "$OSM_DOCKER_WORK_DIR/osm"
echo "osmclient sidecar container can be found at: $OSM_DOCKER_WORK_DIR/osm"
}
#installs kubernetes packages
function install_kube() {
sudo apt-get update && sudo apt-get install -y apt-transport-https
curl -fsSL https://packages.cloud.google.com/apt/doc/apt-key.gpg | sudo apt-key add -
sudo add-apt-repository "deb https://apt.kubernetes.io/ kubernetes-xenial main"
sudo apt-get update
echo "Installing Kubernetes Packages ..."
sudo apt-get install -y kubelet=1.15.0-00 kubeadm=1.15.0-00 kubectl=1.15.0-00
sudo apt-mark hold kubelet kubeadm kubectl
}
#initializes kubernetes control plane
function init_kubeadm() {
sudo swapoff -a
sudo sed -i.bak '/.*none.*swap/s/^\(.*\)$/#\1/g' /etc/fstab
sudo kubeadm init --config $1
sleep 5
}
function kube_config_dir() {
[ ! -d $K8S_MANIFEST_DIR ] && FATAL "Cannot Install Kubernetes"
mkdir -p $HOME/.kube
sudo cp /etc/kubernetes/admin.conf $HOME/.kube/config
sudo chown $(id -u):$(id -g) $HOME/.kube/config
}
function install_k8s_storageclass() {
OPENEBS_DIR="$(mktemp -d -q --tmpdir "openebs.XXXXXX")"
trap 'rm -rf "${OPENEBS_DIR}"' EXIT
wget -q https://openebs.github.io/charts/openebs-operator-1.6.0.yaml -P $OPENEBS_DIR
kubectl apply -f $OPENEBS_DIR
local storageclass_timeout=400
local counter=0
local storageclass_ready=""
echo "Waiting for storageclass"
while (( counter < storageclass_timeout ))
do
kubectl get storageclass openebs-hostpath &> /dev/null
if [ $? -eq 0 ] ; then
echo "Storageclass available"
storageclass_ready="y"
break
else
counter=$((counter + 15))
sleep 15
fi
done
[ -n "$storageclass_ready" ] || FATAL "Storageclass not ready after $storageclass_timeout seconds. Cannot install openebs"
kubectl patch storageclass openebs-hostpath -p '{"metadata": {"annotations":{"storageclass.kubernetes.io/is-default-class":"true"}}}'
}
function install_k8s_metallb() {
METALLB_IP_RANGE=$DEFAULT_IP-$DEFAULT_IP
cat ${OSM_DEVOPS}/installers/k8s/metallb/metallb.yaml | kubectl apply -f -
echo "apiVersion: v1
kind: ConfigMap
metadata:
namespace: metallb-system
name: config
data:
config: |
address-pools:
- name: default
protocol: layer2
addresses:
- $METALLB_IP_RANGE" | kubectl apply -f -
}
#deploys flannel as daemonsets
function deploy_cni_provider() {
CNI_DIR="$(mktemp -d -q --tmpdir "flannel.XXXXXX")"
trap 'rm -rf "${CNI_DIR}"' EXIT
wget -q https://raw.githubusercontent.com/coreos/flannel/master/Documentation/kube-flannel.yml -P $CNI_DIR
kubectl apply -f $CNI_DIR
[ $? -ne 0 ] && FATAL "Cannot Install Flannel"
}
#creates secrets from env files which will be used by containers
function kube_secrets(){
kubectl create ns $OSM_STACK_NAME
kubectl create secret generic lcm-secret -n $OSM_STACK_NAME --from-env-file=$OSM_DOCKER_WORK_DIR/lcm.env
kubectl create secret generic mon-secret -n $OSM_STACK_NAME --from-env-file=$OSM_DOCKER_WORK_DIR/mon.env
kubectl create secret generic nbi-secret -n $OSM_STACK_NAME --from-env-file=$OSM_DOCKER_WORK_DIR/nbi.env
kubectl create secret generic ro-db-secret -n $OSM_STACK_NAME --from-env-file=$OSM_DOCKER_WORK_DIR/ro-db.env
kubectl create secret generic ro-secret -n $OSM_STACK_NAME --from-env-file=$OSM_DOCKER_WORK_DIR/ro.env
kubectl create secret generic keystone-secret -n $OSM_STACK_NAME --from-env-file=$OSM_DOCKER_WORK_DIR/keystone.env
kubectl create secret generic pol-secret -n $OSM_STACK_NAME --from-env-file=$OSM_DOCKER_WORK_DIR/pol.env
}
#taints K8s master node
function taint_master_node() {
K8S_MASTER=$(kubectl get nodes | awk '$3~/master/'| awk '{print $1}')
kubectl taint node $K8S_MASTER node-role.kubernetes.io/master:NoSchedule-
sleep 5
}
#deploys osm pods and services
function deploy_osm_services() {
kubectl apply -n $OSM_STACK_NAME -f $OSM_K8S_WORK_DIR
}
#deploy charmed services
function deploy_charmed_services() {
juju add-model $OSM_STACK_NAME $OSM_VCA_K8S_CLOUDNAME
# deploy mongodb charm
namespace=$OSM_STACK_NAME
juju deploy cs:~charmed-osm/mongodb-k8s \
--config enable-sidecar=true \
--config replica-set=rs0 \
--config namespace=$namespace \
-m $namespace
}
function deploy_osm_pla_service() {
# corresponding to namespace_vol
$WORKDIR_SUDO sed -i "s#path: /var/lib/osm#path: $OSM_NAMESPACE_VOL#g" $OSM_DOCKER_WORK_DIR/osm_pla/pla.yaml
# corresponding to deploy_osm_services
kubectl apply -n $OSM_STACK_NAME -f $OSM_DOCKER_WORK_DIR/osm_pla
}
#Install helm and tiller
function install_helm() {
helm > /dev/null 2>&1
if [ $? != 0 ] ; then
# Helm is not installed. Install helm
echo "Helm is not installed, installing ..."
curl https://get.helm.sh/helm-v2.15.2-linux-amd64.tar.gz --output helm-v2.15.2.tar.gz
tar -zxvf helm-v2.15.2.tar.gz
sudo mv linux-amd64/helm /usr/local/bin/helm
rm -r linux-amd64
rm helm-v2.15.2.tar.gz
fi
# Checking if tiller has being configured
kubectl --namespace kube-system get serviceaccount tiller > /dev/null 2>&1
if [ $? == 1 ] ; then
# tiller account for kubernetes
kubectl --namespace kube-system create serviceaccount tiller
kubectl create clusterrolebinding tiller-cluster-rule --clusterrole=cluster-admin --serviceaccount=kube-system:tiller
# HELM initialization
helm init --stable-repo-url https://charts.helm.sh/stable --service-account tiller
# Wait for Tiller to be up and running. If timeout expires, continue installing
tiller_timeout=120;
counter=0;
tiller_status=""
while (( counter < tiller_timeout ))
do
tiller_status=`kubectl -n kube-system get deployment.apps/tiller-deploy --no-headers | awk '{print $2'}`
( [ ! -z "$tiller_status" ] && [ $tiller_status == "1/1" ] ) && echo "Tiller ready" && break
counter=$((counter + 5))
sleep 5
done
[ "$tiller_status" != "1/1" ] && echo "Tiller is NOT READY YET. Installation will continue"
fi
}
function parse_yaml() {
TAG=$1
shift
services=$@
for module in $services; do
if [ "$module" == "pla" ]; then
if [ -n "$INSTALL_PLA" ]; then
echo "Updating K8s manifest file from opensourcemano\/${module}:.* to ${DOCKER_REGISTRY_URL}${DOCKER_USER}\/${module}:${TAG}"
$WORKDIR_SUDO sed -i "s#opensourcemano/pla:.*#${DOCKER_REGISTRY_URL}${DOCKER_USER}/pla:${TAG}#g" ${OSM_DOCKER_WORK_DIR}/osm_pla/pla.yaml
fi
else
echo "Updating K8s manifest file from opensourcemano\/${module}:.* to ${DOCKER_REGISTRY_URL}${DOCKER_USER}\/${module}:${TAG}"
$WORKDIR_SUDO sed -i "s#opensourcemano/${module}:.*#${DOCKER_REGISTRY_URL}${DOCKER_USER}/${module}:${TAG}#g" ${OSM_K8S_WORK_DIR}/${module}.yaml
fi
done
}
function update_manifest_files() {
osm_services="nbi lcm ro pol mon ng-ui keystone pla"
list_of_services=""
for module in $osm_services; do
module_upper="${module^^}"
if ! echo $TO_REBUILD | grep -q $module_upper ; then
list_of_services="$list_of_services $module"
fi
done
if [ ! "$OSM_DOCKER_TAG" == "9" ]; then
parse_yaml $OSM_DOCKER_TAG $list_of_services
fi
if [ -n "$MODULE_DOCKER_TAG" ]; then
parse_yaml $MODULE_DOCKER_TAG $list_of_services_to_rebuild
fi
}
function namespace_vol() {
osm_services="nbi lcm ro pol mon kafka mysql prometheus"
for osm in $osm_services; do
$WORKDIR_SUDO sed -i "s#path: /var/lib/osm#path: $OSM_NAMESPACE_VOL#g" $OSM_K8S_WORK_DIR/$osm.yaml
done
}
function init_docker_swarm() {
if [ "${DEFAULT_MTU}" != "1500" ]; then
DOCKER_NETS=`sg docker -c "docker network list" | awk '{print $2}' | egrep -v "^ID$" | paste -d " " -s`
DOCKER_GW_NET=`sg docker -c "docker network inspect ${DOCKER_NETS}" | grep Subnet | awk -F\" '{print $4}' | egrep "^172" | sort -u | tail -1 | awk -F\. '{if ($2 != 255) print $1"."$2+1"."$3"."$4; else print "-1";}'`
sg docker -c "docker network create --subnet ${DOCKER_GW_NET} --opt com.docker.network.bridge.name=docker_gwbridge --opt com.docker.network.bridge.enable_icc=false --opt com.docker.network.bridge.enable_ip_masquerade=true --opt com.docker.network.driver.mtu=${DEFAULT_MTU} docker_gwbridge"
fi
sg docker -c "docker swarm init --advertise-addr ${DEFAULT_IP}"
return 0
}
function create_docker_network() {
echo "creating network"
sg docker -c "docker network create --driver=overlay --attachable --opt com.docker.network.driver.mtu=${DEFAULT_MTU} net${OSM_STACK_NAME}"
echo "creating network DONE"
}
function deploy_lightweight() {
echo "Deploying lightweight build"
OSM_NBI_PORT=9999
OSM_RO_PORT=9090
OSM_KEYSTONE_PORT=5000
OSM_UI_PORT=80
OSM_MON_PORT=8662
OSM_PROM_PORT=9090
OSM_PROM_CADVISOR_PORT=8080
OSM_PROM_HOSTPORT=9091
OSM_GRAFANA_PORT=3000
[ -n "$INSTALL_ELK" ] && OSM_ELK_PORT=5601
#[ -n "$INSTALL_PERFMON" ] && OSM_PM_PORT=3000
if [ -n "$NO_HOST_PORTS" ]; then
OSM_PORTS+=(OSM_NBI_PORTS=$OSM_NBI_PORT)
OSM_PORTS+=(OSM_RO_PORTS=$OSM_RO_PORT)
OSM_PORTS+=(OSM_KEYSTONE_PORTS=$OSM_KEYSTONE_PORT)
OSM_PORTS+=(OSM_UI_PORTS=$OSM_UI_PORT)
OSM_PORTS+=(OSM_MON_PORTS=$OSM_MON_PORT)
OSM_PORTS+=(OSM_PROM_PORTS=$OSM_PROM_PORT)
OSM_PORTS+=(OSM_PROM_CADVISOR_PORTS=$OSM_PROM_CADVISOR_PORT)
OSM_PORTS+=(OSM_GRAFANA_PORTS=$OSM_GRAFANA_PORT)
#[ -n "$INSTALL_PERFMON" ] && OSM_PORTS+=(OSM_PM_PORTS=$OSM_PM_PORT)
[ -n "$INSTALL_ELK" ] && OSM_PORTS+=(OSM_ELK_PORTS=$OSM_ELK_PORT)
else
OSM_PORTS+=(OSM_NBI_PORTS=$OSM_NBI_PORT:$OSM_NBI_PORT)
OSM_PORTS+=(OSM_RO_PORTS=$OSM_RO_PORT:$OSM_RO_PORT)
OSM_PORTS+=(OSM_KEYSTONE_PORTS=$OSM_KEYSTONE_PORT:$OSM_KEYSTONE_PORT)
OSM_PORTS+=(OSM_UI_PORTS=$OSM_UI_PORT:$OSM_UI_PORT)
OSM_PORTS+=(OSM_MON_PORTS=$OSM_MON_PORT:$OSM_MON_PORT)
OSM_PORTS+=(OSM_PROM_PORTS=$OSM_PROM_HOSTPORT:$OSM_PROM_PORT)
OSM_PORTS+=(OSM_PROM_CADVISOR_PORTS=$OSM_PROM_CADVISOR_PORT:$OSM_PROM_CADVISOR_PORT)
OSM_PORTS+=(OSM_GRAFANA_PORTS=$OSM_GRAFANA_PORT:$OSM_GRAFANA_PORT)
#[ -n "$INSTALL_PERFMON" ] && OSM_PORTS+=(OSM_PM_PORTS=$OSM_PM_PORT:$OSM_PM_PORT)
[ -n "$INSTALL_ELK" ] && OSM_PORTS+=(OSM_ELK_PORTS=$OSM_ELK_PORT:$OSM_ELK_PORT)
fi
echo "export ${OSM_PORTS[@]}" | $WORKDIR_SUDO tee $OSM_DOCKER_WORK_DIR/osm_ports.sh
echo "export OSM_NETWORK=net${OSM_STACK_NAME}" | $WORKDIR_SUDO tee --append $OSM_DOCKER_WORK_DIR/osm_ports.sh
echo "export TAG=${OSM_DOCKER_TAG}" | $WORKDIR_SUDO tee --append $OSM_DOCKER_WORK_DIR/osm_ports.sh
echo "export DOCKER_USER=${DOCKER_USER}" | $WORKDIR_SUDO tee --append $OSM_DOCKER_WORK_DIR/osm_ports.sh
echo "export KAFKA_TAG=${KAFKA_TAG}" | $WORKDIR_SUDO tee --append $OSM_DOCKER_WORK_DIR/osm_ports.sh
echo "export PROMETHEUS_TAG=${PROMETHEUS_TAG}" | $WORKDIR_SUDO tee --append $OSM_DOCKER_WORK_DIR/osm_ports.sh
echo "export KEYSTONEDB_TAG=${KEYSTONEDB_TAG}" | $WORKDIR_SUDO tee --append $OSM_DOCKER_WORK_DIR/osm_ports.sh
echo "export PROMETHEUS_CADVISOR_TAG=${PROMETHEUS_CADVISOR_TAG}" | $WORKDIR_SUDO tee --append $OSM_DOCKER_WORK_DIR/osm_ports.sh
echo "export GRAFANA_TAG=${GRAFANA_TAG}" | $WORKDIR_SUDO tee --append $OSM_DOCKER_WORK_DIR/osm_ports.sh
pushd $OSM_DOCKER_WORK_DIR
if [ -n "$INSTALL_PLA" ]; then
track deploy_osm_pla
sg docker -c ". ./osm_ports.sh; docker stack deploy -c $OSM_DOCKER_WORK_DIR/docker-compose.yaml -c $OSM_DOCKER_WORK_DIR/docker-compose-ui.yaml -c $OSM_DOCKER_WORK_DIR/osm_pla/docker-compose.yaml $OSM_STACK_NAME"
else
sg docker -c ". ./osm_ports.sh; docker stack deploy -c $OSM_DOCKER_WORK_DIR/docker-compose.yaml -c $OSM_DOCKER_WORK_DIR/docker-compose-ui.yaml $OSM_STACK_NAME"
fi
popd
echo "Finished deployment of lightweight build"
}
function deploy_elk() {
echo "Pulling docker images for ELK"
sg docker -c "docker pull docker.elastic.co/elasticsearch/elasticsearch-oss:${ELASTIC_VERSION}" || FATAL "cannot get elasticsearch docker image"
sg docker -c "docker pull docker.elastic.co/beats/metricbeat:${ELASTIC_VERSION}" || FATAL "cannot get metricbeat docker image"
sg docker -c "docker pull docker.elastic.co/beats/filebeat:${ELASTIC_VERSION}" || FATAL "cannot get filebeat docker image"
sg docker -c "docker pull docker.elastic.co/kibana/kibana-oss:${ELASTIC_VERSION}" || FATAL "cannot get kibana docker image"
sg docker -c "docker pull bobrik/curator:${ELASTIC_CURATOR_VERSION}" || FATAL "cannot get curator docker image"
echo "Finished pulling elk docker images"
$WORKDIR_SUDO mkdir -p "$OSM_DOCKER_WORK_DIR/osm_elk"
$WORKDIR_SUDO cp -b ${OSM_DEVOPS}/installers/docker/osm_elk/* $OSM_DOCKER_WORK_DIR/osm_elk
remove_stack osm_elk
echo "Deploying ELK stack"
sg docker -c "OSM_NETWORK=net${OSM_STACK_NAME} docker stack deploy -c $OSM_DOCKER_WORK_DIR/osm_elk/docker-compose.yml osm_elk"
echo "Waiting for ELK stack to be up and running"
time=0
step=5
timelength=40
elk_is_up=1
while [ $time -le $timelength ]; do
if [[ $(curl -f -XGET http://127.0.0.1:5601/status -I 2>/dev/null | grep "HTTP/1.1 200 OK" | wc -l ) -eq 1 ]]; then
elk_is_up=0
break
fi
sleep $step
time=$((time+step))
done
if [ $elk_is_up -eq 0 ]; then
echo "ELK is up and running. Trying to create index pattern..."
#Create index pattern
curl -f -XPOST -H "Content-Type: application/json" -H "kbn-xsrf: anything" \
"http://127.0.0.1:5601/api/saved_objects/index-pattern/filebeat-*" \
-d"{\"attributes\":{\"title\":\"filebeat-*\",\"timeFieldName\":\"@timestamp\"}}" 2>/dev/null
#Make it the default index
curl -f -XPOST -H "Content-Type: application/json" -H "kbn-xsrf: anything" \
"http://127.0.0.1:5601/api/kibana/settings/defaultIndex" \
-d"{\"value\":\"filebeat-*\"}" 2>/dev/null
else
echo "Cannot connect to Kibana to create index pattern."
echo "Once Kibana is running, you can use the following instructions to create index pattern:"
echo 'curl -f -XPOST -H "Content-Type: application/json" -H "kbn-xsrf: anything" \
"http://127.0.0.1:5601/api/saved_objects/index-pattern/filebeat-*" \
-d"{\"attributes\":{\"title\":\"filebeat-*\",\"timeFieldName\":\"@timestamp\"}}"'
echo 'curl -XPOST -H "Content-Type: application/json" -H "kbn-xsrf: anything" \
"http://127.0.0.1:5601/api/kibana/settings/defaultIndex" \
-d"{\"value\":\"filebeat-*\"}"'
fi
echo "Finished deployment of ELK stack"
return 0
}
function add_local_k8scluster() {
/usr/bin/osm --all-projects vim-create \
--name _system-osm-vim \
--account_type dummy \
--auth_url http://dummy \
--user osm --password osm --tenant osm \
--description "dummy" \
--config '{management_network_name: mgmt}'
/usr/bin/osm --all-projects k8scluster-add \
--creds ${HOME}/.kube/config \
--vim _system-osm-vim \
--k8s-nets '{"net1": null}' \
--version '1.15' \
--description "OSM Internal Cluster" \
_system-osm-k8s
}
function install_lightweight() {
track checkingroot
[ "$USER" == "root" ] && FATAL "You are running the installer as root. The installer is prepared to be executed as a normal user with sudo privileges."
track noroot
if [ -n "$KUBERNETES" ]; then
[ -z "$ASSUME_YES" ] && ! ask_user "The installation will do the following
1. Install and configure LXD
2. Install juju
3. Install docker CE
4. Disable swap space
5. Install and initialize Kubernetes
as pre-requirements.
Do you want to proceed (Y/n)? " y && echo "Cancelled!" && exit 1
else
[ -z "$ASSUME_YES" ] && ! ask_user "The installation will configure LXD, install juju, install docker CE and init a docker swarm, as pre-requirements. Do you want to proceed (Y/n)? " y && echo "Cancelled!" && exit 1
fi
track proceed
echo "Installing lightweight build of OSM"
LWTEMPDIR="$(mktemp -d -q --tmpdir "installosmlight.XXXXXX")"
trap 'rm -rf "${LWTEMPDIR}"' EXIT
DEFAULT_IF=$(ip route list|awk '$1=="default" {print $5; exit}')
[ -z "$DEFAULT_IF" ] && DEFAULT_IF=$(route -n |awk '$1~/^0.0.0.0/ {print $8; exit}')
[ -z "$DEFAULT_IF" ] && FATAL "Not possible to determine the interface with the default route 0.0.0.0"
DEFAULT_IP=`ip -o -4 a s ${DEFAULT_IF} |awk '{split($4,a,"/"); print a[1]}'`
[ -z "$DEFAULT_IP" ] && FATAL "Not possible to determine the IP address of the interface with the default route"
DEFAULT_MTU=$(ip addr show ${DEFAULT_IF} | perl -ne 'if (/mtu\s(\d+)/) {print $1;}')
# if no host is passed in, we need to install lxd/juju, unless explicilty asked not to
if [ -z "$OSM_VCA_HOST" ] && [ -z "$INSTALL_NOLXD" ] && [ -z "$LXD_CLOUD_FILE" ]; then
need_packages_lw="snapd"
echo -e "Checking required packages: $need_packages_lw"
dpkg -l $need_packages_lw &>/dev/null \
|| ! echo -e "One or several required packages are not installed. Updating apt cache requires root privileges." \
|| sudo apt-get update \
|| FATAL "failed to run apt-get update"
dpkg -l $need_packages_lw &>/dev/null \
|| ! echo -e "Installing $need_packages_lw requires root privileges." \
|| sudo apt-get install -y $need_packages_lw \
|| FATAL "failed to install $need_packages_lw"
install_lxd
fi
track prereqok
[ -n "$INSTALL_NODOCKER" ] || (install_docker_ce && track docker_ce)
echo "Creating folders for installation"
[ ! -d "$OSM_DOCKER_WORK_DIR" ] && $WORKDIR_SUDO mkdir -p $OSM_DOCKER_WORK_DIR
[ ! -d "$OSM_DOCKER_WORK_DIR/osm_pla" -a -n "$INSTALL_PLA" ] && $WORKDIR_SUDO mkdir -p $OSM_DOCKER_WORK_DIR/osm_pla
[ -n "$KUBERNETES" ] && $WORKDIR_SUDO cp -b $OSM_DEVOPS/installers/docker/cluster-config.yaml $OSM_DOCKER_WORK_DIR/cluster-config.yaml
#Installs Kubernetes
if [ -n "$KUBERNETES" ]; then
install_kube
track install_k8s
init_kubeadm $OSM_DOCKER_WORK_DIR/cluster-config.yaml
kube_config_dir
track init_k8s
if [ -n "$INSTALL_K8S_MONITOR" ]; then
# uninstall OSM MONITORING
uninstall_k8s_monitoring
track uninstall_k8s_monitoring
fi
#remove old namespace
remove_k8s_namespace $OSM_STACK_NAME
deploy_cni_provider
taint_master_node
install_k8s_storageclass
track k8s_storageclass
install_k8s_metallb
track k8s_metallb
else
#install_docker_compose
[ -n "$INSTALL_NODOCKER" ] || init_docker_swarm
track docker_swarm
fi
[ -z "$INSTALL_NOJUJU" ] && install_juju
track juju_install
if [ -z "$OSM_VCA_HOST" ]; then
if [ -z "$CONTROLLER_NAME" ]; then
if [ -n "$KUBERNETES" ]; then
juju_createcontroller_k8s
juju_addlxd_cloud
else
if [ -n "$LXD_CLOUD_FILE" ]; then
[ -z "$LXD_CRED_FILE" ] && FATAL "The installer needs the LXD credential yaml if the LXD is external"
OSM_VCA_CLOUDNAME="lxd-cloud"
juju add-cloud $OSM_VCA_CLOUDNAME $LXD_CLOUD_FILE --force || juju update-cloud $OSM_VCA_CLOUDNAME --client -f $LXD_CLOUD_FILE
juju add-credential $OSM_VCA_CLOUDNAME -f $LXD_CRED_FILE || juju update-credential $OSM_VCA_CLOUDNAME lxd-cloud-creds -f $LXD_CRED_FILE
fi
juju_createcontroller
juju_createproxy
fi
else
OSM_VCA_CLOUDNAME="lxd-cloud"
if [ -n "$LXD_CLOUD_FILE" ]; then
[ -z "$LXD_CRED_FILE" ] && FATAL "The installer needs the LXD credential yaml if the LXD is external"
juju add-cloud -c $CONTROLLER_NAME $OSM_VCA_CLOUDNAME $LXD_CLOUD_FILE --force || juju update-cloud lxd-cloud -c $CONTROLLER_NAME -f $LXD_CLOUD_FILE
juju add-credential -c $CONTROLLER_NAME $OSM_VCA_CLOUDNAME -f $LXD_CRED_FILE || juju update-credential lxd-cloud -c $CONTROLLER_NAME -f $LXD_CRED_FILE
else
mkdir -p ~/.osm
cat << EOF > ~/.osm/lxd-cloud.yaml
clouds:
lxd-cloud:
type: lxd
auth-types: [certificate]
endpoint: "https://$DEFAULT_IP:8443"
config:
ssl-hostname-verification: false
EOF
openssl req -nodes -new -x509 -keyout ~/.osm/client.key -out ~/.osm/client.crt -days 365 -subj "/C=FR/ST=Nice/L=Nice/O=ETSI/OU=OSM/CN=osm.etsi.org"
local server_cert=`cat /var/snap/lxd/common/lxd/server.crt | sed 's/^/ /'`
local client_cert=`cat ~/.osm/client.crt | sed 's/^/ /'`
local client_key=`cat ~/.osm/client.key | sed 's/^/ /'`
cat << EOF > ~/.osm/lxd-credentials.yaml
credentials:
lxd-cloud:
lxd-cloud:
auth-type: certificate
server-cert: |
$server_cert
client-cert: |
$client_cert
client-key: |
$client_key
EOF
lxc config trust add local: ~/.osm/client.crt
juju add-cloud -c $CONTROLLER_NAME $OSM_VCA_CLOUDNAME ~/.osm/lxd-cloud.yaml --force || juju update-cloud lxd-cloud -c $CONTROLLER_NAME -f ~/.osm/lxd-cloud.yaml
juju add-credential -c $CONTROLLER_NAME $OSM_VCA_CLOUDNAME -f ~/.osm/lxd-credentials.yaml || juju update-credential lxd-cloud -c $CONTROLLER_NAME -f ~/.osm/lxd-credentials.yaml
fi
fi
[ -z "$CONTROLLER_NAME" ] && OSM_VCA_HOST=`sg lxd -c "juju show-controller $OSM_STACK_NAME"|grep api-endpoints|awk -F\' '{print $2}'|awk -F\: '{print $1}'`
[ -n "$CONTROLLER_NAME" ] && OSM_VCA_HOST=`juju show-controller $CONTROLLER_NAME |grep api-endpoints|awk -F\' '{print $2}'|awk -F\: '{print $1}'`
[ -z "$OSM_VCA_HOST" ] && FATAL "Cannot obtain juju controller IP address"
fi
track juju_controller
if [ -z "$OSM_VCA_SECRET" ]; then
[ -z "$CONTROLLER_NAME" ] && OSM_VCA_SECRET=$(parse_juju_password $OSM_STACK_NAME)
[ -n "$CONTROLLER_NAME" ] && OSM_VCA_SECRET=$(parse_juju_password $CONTROLLER_NAME)
[ -z "$OSM_VCA_SECRET" ] && FATAL "Cannot obtain juju secret"
fi
if [ -z "$OSM_VCA_PUBKEY" ]; then
OSM_VCA_PUBKEY=$(cat $HOME/.local/share/juju/ssh/juju_id_rsa.pub)
[ -z "$OSM_VCA_PUBKEY" ] && FATAL "Cannot obtain juju public key"
fi
if [ -z "$OSM_VCA_CACERT" ]; then
[ -z "$CONTROLLER_NAME" ] && OSM_VCA_CACERT=$(juju controllers --format json | jq -r --arg controller $OSM_STACK_NAME '.controllers[$controller]["ca-cert"]' | base64 | tr -d \\n)
[ -n "$CONTROLLER_NAME" ] && OSM_VCA_CACERT=$(juju controllers --format json | jq -r --arg controller $CONTROLLER_NAME '.controllers[$controller]["ca-cert"]' | base64 | tr -d \\n)
[ -z "$OSM_VCA_CACERT" ] && FATAL "Cannot obtain juju CA certificate"
fi
# Set OSM_VCA_APIPROXY only when it is not a k8s installation
if [ -z "$KUBERNETES" ]; then
if [ -z "$OSM_VCA_APIPROXY" ]; then
OSM_VCA_APIPROXY=$DEFAULT_IP
[ -z "$OSM_VCA_APIPROXY" ] && FATAL "Cannot obtain juju api proxy"
fi
juju_createproxy
fi
track juju
if [ -z "$OSM_DATABASE_COMMONKEY" ]; then
OSM_DATABASE_COMMONKEY=$(generate_secret)
[ -z "OSM_DATABASE_COMMONKEY" ] && FATAL "Cannot generate common db secret"
fi
# Deploy OSM services
[ -z "$DOCKER_NOBUILD" ] && generate_docker_images
track docker_build
if [ -n "$KUBERNETES" ]; then
generate_k8s_manifest_files
else
generate_docker_compose_files
fi
track manifest_files
generate_prometheus_grafana_files
generate_docker_env_files
track env_files
if [ -n "$KUBERNETES" ]; then
deploy_charmed_services
kube_secrets
update_manifest_files
namespace_vol
deploy_osm_services
if [ -n "$INSTALL_PLA"]; then
# optional PLA install
deploy_osm_pla_service
track deploy_osm_pla
fi
track deploy_osm_services_k8s
install_helm
track install_helm
if [ -n "$INSTALL_K8S_MONITOR" ]; then
# install OSM MONITORING
install_k8s_monitoring
track install_k8s_monitoring
fi
else
# remove old stack
remove_stack $OSM_STACK_NAME
create_docker_network
deploy_lightweight
generate_osmclient_script
track docker_deploy
install_prometheus_nodeexporter
track nodeexporter
[ -n "$INSTALL_VIMEMU" ] && install_vimemu && track vimemu
[ -n "$INSTALL_ELK" ] && deploy_elk && track elk
fi
[ -z "$INSTALL_NOHOSTCLIENT" ] && install_osmclient
track osmclient
echo -e "Checking OSM health state..."
if [ -n "$KUBERNETES" ]; then
$OSM_DEVOPS/installers/osm_health.sh -s ${OSM_STACK_NAME} -k || \
echo -e "OSM is not healthy, but will probably converge to a healthy state soon." && \
echo -e "Check OSM status with: kubectl -n ${OSM_STACK_NAME} get all" && \
track osm_unhealthy
else
$OSM_DEVOPS/installers/osm_health.sh -s ${OSM_STACK_NAME} || \
echo -e "OSM is not healthy, but will probably converge to a healthy state soon." && \
echo -e "Check OSM status with: docker service ls; docker stack ps ${OSM_STACK_NAME}" && \
track osm_unhealthy
fi
track after_healthcheck
[ -n "$KUBERNETES" ] && add_local_k8scluster
track add_local_k8scluster
wget -q -O- https://osm-download.etsi.org/ftp/osm-9.0-nine/README2.txt &> /dev/null
track end
return 0
}
function install_to_openstack() {
if [ -z "$2" ]; then
FATAL "OpenStack installer requires a valid external network name"
fi
# Install Pip for Python3
$WORKDIR_SUDO apt install -y python3-pip python3-venv
$WORKDIR_SUDO -H LC_ALL=C python3 -m pip install -U pip
# Create a venv to avoid conflicts with the host installation
python3 -m venv $OPENSTACK_PYTHON_VENV
source $OPENSTACK_PYTHON_VENV/bin/activate
# Install Ansible, OpenStack client and SDK, latest openstack version supported is Train
python -m pip install -U wheel
python -m pip install -U "python-openstackclient<=4.0.2" "openstacksdk>=0.12.0,<=0.36.2" "ansible>=2.10,<2.11"
# Install the Openstack cloud module (ansible>=2.10)
ansible-galaxy collection install openstack.cloud
export ANSIBLE_CONFIG="$OSM_DEVOPS/installers/openstack/ansible.cfg"
OSM_INSTALLER_ARGS="${REPO_ARGS[@]}"
ANSIBLE_VARS="external_network_name=$2 setup_volume=$3 server_name=$OPENSTACK_VM_NAME"
if [ -n "$OPENSTACK_SSH_KEY_FILE" ]; then
ANSIBLE_VARS+=" key_file=$OPENSTACK_SSH_KEY_FILE"
fi
if [ -n "$OPENSTACK_USERDATA_FILE" ]; then
ANSIBLE_VARS+=" userdata_file=$OPENSTACK_USERDATA_FILE"
fi
# Execute the Ansible playbook based on openrc or clouds.yaml
if [ -e "$1" ]; then
. $1
ansible-playbook -e installer_args="\"$OSM_INSTALLER_ARGS\"" -e "$ANSIBLE_VARS" \
$OSM_DEVOPS/installers/openstack/site.yml
else
ansible-playbook -e installer_args="\"$OSM_INSTALLER_ARGS\"" -e "$ANSIBLE_VARS" \
-e cloud_name=$1 $OSM_DEVOPS/installers/openstack/site.yml
fi
# Exit from venv
deactivate
return 0
}
function install_vimemu() {
echo "\nInstalling vim-emu"
EMUTEMPDIR="$(mktemp -d -q --tmpdir "installosmvimemu.XXXXXX")"
trap 'rm -rf "${EMUTEMPDIR}"' EXIT
# install prerequisites (OVS is a must for the emulator to work)
sudo apt-get install openvswitch-switch
# clone vim-emu repository (attention: branch is currently master only)
echo "Cloning vim-emu repository ..."
git clone https://osm.etsi.org/gerrit/osm/vim-emu.git $EMUTEMPDIR
# build vim-emu docker
echo "Building vim-emu Docker container..."
sg docker -c "docker build -t vim-emu-img -f $EMUTEMPDIR/Dockerfile --no-cache $EMUTEMPDIR/" || FATAL "cannot build vim-emu-img docker image"
# start vim-emu container as daemon
echo "Starting vim-emu Docker container 'vim-emu' ..."
if [ -n "$INSTALL_LIGHTWEIGHT" ]; then
# in lightweight mode, the emulator needs to be attached to netOSM
sg docker -c "docker run --name vim-emu -t -d --restart always --privileged --pid='host' --network=net${OSM_STACK_NAME} -v /var/run/docker.sock:/var/run/docker.sock vim-emu-img python examples/osm_default_daemon_topology_2_pop.py"
else
# classic build mode
sg docker -c "docker run --name vim-emu -t -d --restart always --privileged --pid='host' -v /var/run/docker.sock:/var/run/docker.sock vim-emu-img python examples/osm_default_daemon_topology_2_pop.py"
fi
echo "Waiting for 'vim-emu' container to start ..."
sleep 5
export VIMEMU_HOSTNAME=$(sg docker -c "docker inspect -f '{{range .NetworkSettings.Networks}}{{.IPAddress}}{{end}}' vim-emu")
echo "vim-emu running at ${VIMEMU_HOSTNAME} ..."
# print vim-emu connection info
echo -e "\nYou might be interested in adding the following vim-emu env variables to your .bashrc file:"
echo " export VIMEMU_HOSTNAME=${VIMEMU_HOSTNAME}"
echo -e "To add the emulated VIM to OSM you should do:"
echo " osm vim-create --name emu-vim1 --user username --password password --auth_url http://${VIMEMU_HOSTNAME}:6001/v2.0 --tenant tenantName --account_type openstack"
}
function install_k8s_monitoring() {
# install OSM monitoring
$WORKDIR_SUDO chmod +x $OSM_DEVOPS/installers/k8s/*.sh
$WORKDIR_SUDO $OSM_DEVOPS/installers/k8s/install_osm_k8s_monitoring.sh
}
function uninstall_k8s_monitoring() {
# uninstall OSM monitoring
$WORKDIR_SUDO $OSM_DEVOPS/installers/k8s/uninstall_osm_k8s_monitoring.sh
}
function dump_vars(){
echo "DEVELOP=$DEVELOP"
echo "INSTALL_FROM_SOURCE=$INSTALL_FROM_SOURCE"
echo "UNINSTALL=$UNINSTALL"
echo "UPDATE=$UPDATE"
echo "RECONFIGURE=$RECONFIGURE"
echo "TEST_INSTALLER=$TEST_INSTALLER"
echo "INSTALL_VIMEMU=$INSTALL_VIMEMU"
echo "INSTALL_PLA=$INSTALL_PLA"
echo "INSTALL_LXD=$INSTALL_LXD"
echo "INSTALL_LIGHTWEIGHT=$INSTALL_LIGHTWEIGHT"
echo "INSTALL_ONLY=$INSTALL_ONLY"
echo "INSTALL_ELK=$INSTALL_ELK"
echo "INSTALL_NOCACHELXDIMAGES=$INSTALL_NOCACHELXDIMAGES"
#echo "INSTALL_PERFMON=$INSTALL_PERFMON"
echo "INSTALL_TO_OPENSTACK=$INSTALL_TO_OPENSTACK"
echo "OPENSTACK_PUBLIC_NET_NAME=$OPENSTACK_PUBLIC_NET_NAME"
echo "OPENSTACK_OPENRC_FILE_OR_CLOUD=$OPENSTACK_OPENRC_FILE_OR_CLOUD"
echo "OPENSTACK_ATTACH_VOLUME=$OPENSTACK_ATTACH_VOLUME"
echo "OPENSTACK_SSH_KEY_FILE"="$OPENSTACK_SSH_KEY_FILE"
echo "OPENSTACK_USERDATA_FILE"="$OPENSTACK_USERDATA_FILE"
echo "OPENSTACK_VM_NAME"="$OPENSTACK_VM_NAME"
echo "INSTALL_K8S_MONITOR=$INSTALL_K8S_MONITOR"
echo "TO_REBUILD=$TO_REBUILD"
echo "INSTALL_NOLXD=$INSTALL_NOLXD"
echo "INSTALL_NODOCKER=$INSTALL_NODOCKER"
echo "INSTALL_NOJUJU=$INSTALL_NOJUJU"
echo "RELEASE=$RELEASE"
echo "REPOSITORY=$REPOSITORY"
echo "REPOSITORY_BASE=$REPOSITORY_BASE"
echo "REPOSITORY_KEY=$REPOSITORY_KEY"
echo "OSM_DEVOPS=$OSM_DEVOPS"
echo "OSM_VCA_HOST=$OSM_VCA_HOST"
echo "OSM_VCA_SECRET=$OSM_VCA_SECRET"
echo "OSM_VCA_PUBKEY=$OSM_VCA_PUBKEY"
echo "NO_HOST_PORTS=$NO_HOST_PORTS"
echo "DOCKER_NOBUILD=$DOCKER_NOBUILD"
echo "WORKDIR_SUDO=$WORKDIR_SUDO"
echo "OSM_WORK_DIR=$OSM_WORK_DIR"
echo "OSM_DOCKER_TAG=$OSM_DOCKER_TAG"
echo "DOCKER_USER=$DOCKER_USER"
echo "OSM_STACK_NAME=$OSM_STACK_NAME"
echo "PULL_IMAGES=$PULL_IMAGES"
echo "KUBERNETES=$KUBERNETES"
echo "DOCKER_REGISTRY_URL=$DOCKER_REGISTRY_URL"
echo "DOCKER_PROXY_URL=$DOCKER_PROXY_URL"
echo "SHOWOPTS=$SHOWOPTS"
echo "Install from specific refspec (-b): $COMMIT_ID"
}
function track(){
ctime=`date +%s`
duration=$((ctime - SESSION_ID))
url="http://www.woopra.com/track/ce?project=osm.etsi.org&cookie=${SESSION_ID}"
#url="${url}&ce_campaign_name=${CAMPAIGN_NAME}"
event_name="bin"
[ -z "$INSTALL_LIGHTWEIGHT" ] && [ -n "$INSTALL_FROM_SOURCE" ] && event_name="binsrc"
[ -z "$INSTALL_LIGHTWEIGHT" ] && [ -n "$INSTALL_FROM_LXDIMAGES" ] && event_name="lxd"
[ -n "$INSTALL_LIGHTWEIGHT" ] && event_name="lw"
event_name="${event_name}_$1"
url="${url}&event=${event_name}&ce_duration=${duration}"
wget -q -O /dev/null $url
}
function parse_docker_registry_url() {
DOCKER_REGISTRY_USER=$(echo "$DOCKER_REGISTRY_URL" | awk '{split($1,a,"@"); split(a[1],b,":"); print b[1]}')
DOCKER_REGISTRY_PASSWORD=$(echo "$DOCKER_REGISTRY_URL" | awk '{split($1,a,"@"); split(a[1],b,":"); print b[2]}')
DOCKER_REGISTRY_URL=$(echo "$DOCKER_REGISTRY_URL" | awk '{split($1,a,"@"); print a[2]}')
}
JUJU_AGENT_VERSION=2.8.6
UNINSTALL=""
DEVELOP=""
UPDATE=""
RECONFIGURE=""
TEST_INSTALLER=""
INSTALL_LXD=""
SHOWOPTS=""
COMMIT_ID=""
ASSUME_YES=""
INSTALL_FROM_SOURCE=""
RELEASE="ReleaseNINE"
REPOSITORY="stable"
INSTALL_VIMEMU=""
INSTALL_PLA=""
LXD_REPOSITORY_BASE="https://osm-download.etsi.org/repository/osm/lxd"
LXD_REPOSITORY_PATH=""
INSTALL_LIGHTWEIGHT="y"
INSTALL_TO_OPENSTACK=""
OPENSTACK_OPENRC_FILE_OR_CLOUD=""
OPENSTACK_PUBLIC_NET_NAME=""
OPENSTACK_ATTACH_VOLUME="false"
OPENSTACK_SSH_KEY_FILE=""
OPENSTACK_USERDATA_FILE=""
OPENSTACK_VM_NAME="server-osm"
OPENSTACK_PYTHON_VENV="$HOME/.virtual-envs/osm"
INSTALL_ONLY=""
INSTALL_ELK=""
TO_REBUILD=""
INSTALL_NOLXD=""
INSTALL_NODOCKER=""
INSTALL_NOJUJU=""
KUBERNETES="y"
INSTALL_K8S_MONITOR=""
INSTALL_NOHOSTCLIENT=""
INSTALL_NOCACHELXDIMAGES=""
SESSION_ID=`date +%s`
OSM_DEVOPS=
OSM_VCA_HOST=
OSM_VCA_SECRET=
OSM_VCA_PUBKEY=
OSM_VCA_CLOUDNAME="localhost"
OSM_VCA_K8S_CLOUDNAME="k8scloud"
OSM_STACK_NAME=osm
NO_HOST_PORTS=""
DOCKER_NOBUILD=""
REPOSITORY_KEY="OSM%20ETSI%20Release%20Key.gpg"
REPOSITORY_BASE="https://osm-download.etsi.org/repository/osm/debian"
WORKDIR_SUDO=sudo
OSM_WORK_DIR="/etc/osm"
OSM_DOCKER_WORK_DIR="/etc/osm/docker"
OSM_K8S_WORK_DIR="${OSM_DOCKER_WORK_DIR}/osm_pods"
OSM_HOST_VOL="/var/lib/osm"
OSM_NAMESPACE_VOL="${OSM_HOST_VOL}/${OSM_STACK_NAME}"
OSM_DOCKER_TAG=latest
DOCKER_USER=opensourcemano
PULL_IMAGES="y"
KAFKA_TAG=2.11-1.0.2
PROMETHEUS_TAG=v2.4.3
GRAFANA_TAG=latest
PROMETHEUS_NODE_EXPORTER_TAG=0.18.1
PROMETHEUS_CADVISOR_TAG=latest
KEYSTONEDB_TAG=10
OSM_DATABASE_COMMONKEY=
ELASTIC_VERSION=6.4.2
ELASTIC_CURATOR_VERSION=5.5.4
POD_NETWORK_CIDR=10.244.0.0/16
K8S_MANIFEST_DIR="/etc/kubernetes/manifests"
RE_CHECK='^[a-z0-9]([-a-z0-9]*[a-z0-9])?$'
DOCKER_REGISTRY_URL=
DOCKER_PROXY_URL=
MODULE_DOCKER_TAG=
while getopts ":b:r:c:n:k:u:R:D:o:O:m:N:H:S:s:w:t:U:P:A:l:L:K:d:p:T:f:F:-: hy" o; do
case "${o}" in
b)
COMMIT_ID=${OPTARG}
PULL_IMAGES=""
;;
r)
REPOSITORY="${OPTARG}"
REPO_ARGS+=(-r "$REPOSITORY")
;;
c)
[ "${OPTARG}" == "swarm" ] && KUBERNETES="" && REPO_ARGS+=(-c "${OPTARG}") && continue
[ "${OPTARG}" == "k8s" ] && KUBERNETES="y" && continue
echo -e "Invalid argument for -i : ' $OPTARG'\n" >&2
usage && exit 1
;;
k)
REPOSITORY_KEY="${OPTARG}"
REPO_ARGS+=(-k "$REPOSITORY_KEY")
;;
u)
REPOSITORY_BASE="${OPTARG}"
REPO_ARGS+=(-u "$REPOSITORY_BASE")
;;
R)
RELEASE="${OPTARG}"
REPO_ARGS+=(-R "$RELEASE")
;;
D)
OSM_DEVOPS="${OPTARG}"
;;
o)
INSTALL_ONLY="y"
[ "${OPTARG}" == "vimemu" ] && INSTALL_VIMEMU="y" && continue
[ "${OPTARG}" == "elk_stack" ] && INSTALL_ELK="y" && continue
[ "${OPTARG}" == "k8s_monitor" ] && INSTALL_K8S_MONITOR="y" && continue
;;
O)
INSTALL_TO_OPENSTACK="y"
if [ -n "${OPTARG}" ]; then
OPENSTACK_OPENRC_FILE_OR_CLOUD="${OPTARG}"
else
echo -e "Invalid argument for -O : ' $OPTARG'\n" >&2
usage && exit 1
fi
;;
f)
OPENSTACK_SSH_KEY_FILE="${OPTARG}"
;;
F)
OPENSTACK_USERDATA_FILE="${OPTARG}"
;;
N)
OPENSTACK_PUBLIC_NET_NAME="${OPTARG}"
;;
m)
[ "${OPTARG}" == "NG-UI" ] && TO_REBUILD="$TO_REBUILD NG-UI" && continue
[ "${OPTARG}" == "NBI" ] && TO_REBUILD="$TO_REBUILD NBI" && continue
[ "${OPTARG}" == "LCM" ] && TO_REBUILD="$TO_REBUILD LCM" && continue
[ "${OPTARG}" == "RO" ] && TO_REBUILD="$TO_REBUILD RO" && continue
[ "${OPTARG}" == "MON" ] && TO_REBUILD="$TO_REBUILD MON" && continue
[ "${OPTARG}" == "POL" ] && TO_REBUILD="$TO_REBUILD POL" && continue
[ "${OPTARG}" == "PLA" ] && TO_REBUILD="$TO_REBUILD PLA" && continue
[ "${OPTARG}" == "osmclient" ] && TO_REBUILD="$TO_REBUILD osmclient" && continue
[ "${OPTARG}" == "KAFKA" ] && TO_REBUILD="$TO_REBUILD KAFKA" && continue
[ "${OPTARG}" == "MONGO" ] && TO_REBUILD="$TO_REBUILD MONGO" && continue
[ "${OPTARG}" == "PROMETHEUS" ] && TO_REBUILD="$TO_REBUILD PROMETHEUS" && continue
[ "${OPTARG}" == "PROMETHEUS-CADVISOR" ] && TO_REBUILD="$TO_REBUILD PROMETHEUS-CADVISOR" && continue
[ "${OPTARG}" == "KEYSTONE-DB" ] && TO_REBUILD="$TO_REBUILD KEYSTONE-DB" && continue
[ "${OPTARG}" == "GRAFANA" ] && TO_REBUILD="$TO_REBUILD GRAFANA" && continue
[ "${OPTARG}" == "NONE" ] && TO_REBUILD="$TO_REBUILD NONE" && continue
;;
H)
OSM_VCA_HOST="${OPTARG}"
;;
S)
OSM_VCA_SECRET="${OPTARG}"
;;
s)
OSM_STACK_NAME="${OPTARG}" && [ -n "$KUBERNETES" ] && [[ ! "${OPTARG}" =~ $RE_CHECK ]] && echo "Namespace $OPTARG is invalid. Regex used for validation is $RE_CHECK" && exit 0
;;
w)
# when specifying workdir, do not use sudo for access
WORKDIR_SUDO=
OSM_WORK_DIR="${OPTARG}"
;;
t)
OSM_DOCKER_TAG="${OPTARG}"
REPO_ARGS+=(-t "$OSM_DOCKER_TAG")
;;
U)
DOCKER_USER="${OPTARG}"
;;
P)
OSM_VCA_PUBKEY=$(cat ${OPTARG})
;;
A)
OSM_VCA_APIPROXY="${OPTARG}"
;;
l)
LXD_CLOUD_FILE="${OPTARG}"
;;
L)
LXD_CRED_FILE="${OPTARG}"
;;
K)
CONTROLLER_NAME="${OPTARG}"
;;
d)
DOCKER_REGISTRY_URL="${OPTARG}"
;;
p)
DOCKER_PROXY_URL="${OPTARG}"
;;
T)
MODULE_DOCKER_TAG="${OPTARG}"
;;
-)
[ "${OPTARG}" == "help" ] && usage && exit 0
[ "${OPTARG}" == "source" ] && INSTALL_FROM_SOURCE="y" && PULL_IMAGES="" && continue
[ "${OPTARG}" == "develop" ] && DEVELOP="y" && continue
[ "${OPTARG}" == "uninstall" ] && UNINSTALL="y" && continue
[ "${OPTARG}" == "update" ] && UPDATE="y" && continue
[ "${OPTARG}" == "reconfigure" ] && RECONFIGURE="y" && continue
[ "${OPTARG}" == "test" ] && TEST_INSTALLER="y" && continue
[ "${OPTARG}" == "lxdinstall" ] && INSTALL_LXD="y" && continue
[ "${OPTARG}" == "nolxd" ] && INSTALL_NOLXD="y" && continue
[ "${OPTARG}" == "nodocker" ] && INSTALL_NODOCKER="y" && continue
[ "${OPTARG}" == "lightweight" ] && INSTALL_LIGHTWEIGHT="y" && continue
[ "${OPTARG}" == "vimemu" ] && INSTALL_VIMEMU="y" && continue
[ "${OPTARG}" == "elk_stack" ] && INSTALL_ELK="y" && continue
[ "${OPTARG}" == "showopts" ] && SHOWOPTS="y" && continue
[ "${OPTARG}" == "nohostports" ] && NO_HOST_PORTS="y" && continue
[ "${OPTARG}" == "nojuju" ] && INSTALL_NOJUJU="y" && continue
[ "${OPTARG}" == "nodockerbuild" ] && DOCKER_NOBUILD="y" && continue
[ "${OPTARG}" == "nohostclient" ] && INSTALL_NOHOSTCLIENT="y" && continue
[ "${OPTARG}" == "pullimages" ] && continue
[ "${OPTARG}" == "k8s_monitor" ] && INSTALL_K8S_MONITOR="y" && continue
[ "${OPTARG}" == "charmed" ] && CHARMED="y" && continue
[ "${OPTARG}" == "bundle" ] && continue
[ "${OPTARG}" == "k8s" ] && continue
[ "${OPTARG}" == "lxd" ] && continue
[ "${OPTARG}" == "lxd-cred" ] && continue
[ "${OPTARG}" == "microstack" ] && continue
[ "${OPTARG}" == "overlay" ] && continue
[ "${OPTARG}" == "only-vca" ] && continue
[ "${OPTARG}" == "vca" ] && continue
[ "${OPTARG}" == "ha" ] && continue
[ "${OPTARG}" == "tag" ] && continue
[ "${OPTARG}" == "registry" ] && continue
[ "${OPTARG}" == "pla" ] && INSTALL_PLA="y" && continue
[ "${OPTARG}" == "volume" ] && OPENSTACK_ATTACH_VOLUME="true" && continue
[ "${OPTARG}" == "nocachelxdimages" ] && INSTALL_NOCACHELXDIMAGES="y" && continue
echo -e "Invalid option: '--$OPTARG'\n" >&2
usage && exit 1
;;
:)
echo "Option -$OPTARG requires an argument" >&2
usage && exit 1
;;
\?)
echo -e "Invalid option: '-$OPTARG'\n" >&2
usage && exit 1
;;
h)
usage && exit 0
;;
y)
ASSUME_YES="y"
;;
*)
usage && exit 1
;;
esac
done
[ -n "$DOCKER_REGISTRY_URL" ] && parse_docker_registry_url
[ -n "$TO_REBUILD" ] && [ "$TO_REBUILD" != " NONE" ] && echo $TO_REBUILD | grep -q NONE && FATAL "Incompatible option: -m NONE cannot be used with other -m options"
[ -n "$TO_REBUILD" ] && [ "$TO_REBUILD" == " PLA" ] && [ -z "$INSTALL_PLA" ] && FATAL "Incompatible option: -m PLA cannot be used without --pla option"
if [ -n "$SHOWOPTS" ]; then
dump_vars
exit 0
fi
if [ -n "$CHARMED" ]; then
if [ -n "$UNINSTALL" ]; then
${OSM_DEVOPS}/installers/charmed_uninstall.sh -R $RELEASE -r $REPOSITORY -u $REPOSITORY_BASE -D /usr/share/osm-devops -t $DOCKER_TAG "$@"
else
${OSM_DEVOPS}/installers/charmed_install.sh -R $RELEASE -r $REPOSITORY -u $REPOSITORY_BASE -D /usr/share/osm-devops -t $DOCKER_TAG "$@"
fi
exit 0
fi
# if develop, we force master
[ -z "$COMMIT_ID" ] && [ -n "$DEVELOP" ] && COMMIT_ID="master"
need_packages="git wget curl tar"
[ -n "$INSTALL_TO_OPENSTACK" ] && install_to_openstack $OPENSTACK_OPENRC_FILE_OR_CLOUD $OPENSTACK_PUBLIC_NET_NAME $OPENSTACK_ATTACH_VOLUME && echo -e "\nDONE" && exit 0
echo -e "Checking required packages: $need_packages"
dpkg -l $need_packages &>/dev/null \
|| ! echo -e "One or several required packages are not installed. Updating apt cache requires root privileges." \
|| sudo apt-get update \
|| FATAL "failed to run apt-get update"
dpkg -l $need_packages &>/dev/null \
|| ! echo -e "Installing $need_packages requires root privileges." \
|| sudo apt-get install -y $need_packages \
|| FATAL "failed to install $need_packages"
sudo snap install jq
if [ -z "$OSM_DEVOPS" ]; then
if [ -n "$TEST_INSTALLER" ]; then
echo -e "\nUsing local devops repo for OSM installation"
OSM_DEVOPS="$(dirname $(realpath $(dirname $0)))"
else
echo -e "\nCreating temporary dir for OSM installation"
OSM_DEVOPS="$(mktemp -d -q --tmpdir "installosm.XXXXXX")"
trap 'rm -rf "$OSM_DEVOPS"' EXIT
git clone https://osm.etsi.org/gerrit/osm/devops.git $OSM_DEVOPS
if [ -z "$COMMIT_ID" ]; then
echo -e "\nGuessing the current stable release"
LATEST_STABLE_DEVOPS=`git -C $OSM_DEVOPS tag -l v[0-9].* | sort -V | tail -n1`
[ -z "$LATEST_STABLE_DEVOPS" ] && echo "Could not find the current latest stable release" && exit 0
echo "Latest tag in devops repo: $LATEST_STABLE_DEVOPS"
COMMIT_ID="tags/$LATEST_STABLE_DEVOPS"
else
echo -e "\nDEVOPS Using commit $COMMIT_ID"
fi
git -C $OSM_DEVOPS checkout $COMMIT_ID
fi
fi
. $OSM_DEVOPS/common/all_funcs
[ "${OSM_STACK_NAME}" == "osm" ] || OSM_DOCKER_WORK_DIR="$OSM_WORK_DIR/stack/$OSM_STACK_NAME"
[ -n "$KUBERNETES" ] && OSM_K8S_WORK_DIR="$OSM_DOCKER_WORK_DIR/osm_pods" && OSM_NAMESPACE_VOL="${OSM_HOST_VOL}/${OSM_STACK_NAME}"
[ -n "$INSTALL_LIGHTWEIGHT" ] && [ -n "$UNINSTALL" ] && uninstall_lightweight && echo -e "\nDONE" && exit 0
[ -n "$INSTALL_ONLY" ] && [ -n "$INSTALL_ELK" ] && deploy_elk
#[ -n "$INSTALL_ONLY" ] && [ -n "$INSTALL_PERFMON" ] && deploy_perfmon
[ -n "$INSTALL_ONLY" ] && [ -n "$INSTALL_VIMEMU" ] && install_vimemu
[ -n "$INSTALL_ONLY" ] && [ -n "$INSTALL_K8S_MONITOR" ] && install_k8s_monitoring
[ -n "$INSTALL_ONLY" ] && echo -e "\nDONE" && exit 0
#Installation starts here
wget -q -O- https://osm-download.etsi.org/ftp/osm-9.0-nine/README.txt &> /dev/null
track start
[ -n "$INSTALL_LIGHTWEIGHT" ] && install_lightweight && echo -e "\nDONE" && exit 0
echo -e "\nInstalling OSM from refspec: $COMMIT_ID"
if [ -n "$INSTALL_FROM_SOURCE" ] && [ -z "$ASSUME_YES" ]; then
! ask_user "The installation will take about 75-90 minutes. Continue (Y/n)? " y && echo "Cancelled!" && exit 1
fi
echo -e "Checking required packages: lxd"
lxd --version &>/dev/null || FATAL "lxd not present, exiting."
[ -n "$INSTALL_LXD" ] && echo -e "\nInstalling and configuring lxd" && install_lxd
# use local devops for containers
export OSM_USE_LOCAL_DEVOPS=true
#Install osmclient
#Install vim-emu (optional)
[ -n "$INSTALL_VIMEMU" ] && install_docker_ce && install_vimemu
wget -q -O- https://osm-download.etsi.org/ftp/osm-9.0-nine/README2.txt &> /dev/null
track end
echo -e "\nDONE"