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#!/bin/bash
# Copyright 2021-2023 H2020 TeraFlow (https://www.teraflow-h2020.eu/)
#
# 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.
########################################################################################################################
########################################################################################################################
# If not already set, set the URL of your local Docker registry where the images will be uploaded to.
# Leave it blank if you do not want to use any Docker registry.
export TFS_REGISTRY_IMAGE=${TFS_REGISTRY_IMAGE:-""}
#export TFS_REGISTRY_IMAGE="http://my-container-registry.local/"
# If not already set, set the list of components you want to build images for, and deploy.
# By default, only basic components are deployed
export TFS_COMPONENTS=${TFS_COMPONENTS:-"context device monitoring service compute webui"}
# If not already set, set the tag you want to use for your images.
export TFS_IMAGE_TAG=${TFS_IMAGE_TAG:-"dev"}
# If not already set, set the name of the Kubernetes namespace to deploy to.
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# If not already set, set additional manifest files to be applied after the deployment
export TFS_EXTRA_MANIFESTS=${TFS_EXTRA_MANIFESTS:-""}
# If not already set, set the neew Grafana admin password
export TFS_GRAFANA_PASSWORD=${TFS_GRAFANA_PASSWORD:-"admin123+"}
########################################################################################################################
# Automated steps start here
########################################################################################################################
# Constants
GITLAB_REPO_URL="registry.gitlab.com/teraflow-h2020/controller"
TMP_FOLDER="./tmp"
# Create a tmp folder for files modified during the deployment
TMP_MANIFESTS_FOLDER="$TMP_FOLDER/manifests"
mkdir -p $TMP_MANIFESTS_FOLDER
TMP_LOGS_FOLDER="$TMP_FOLDER/logs"
mkdir -p $TMP_LOGS_FOLDER
echo "Deleting and Creating a new namespace..."
kubectl delete namespace $TFS_K8S_NAMESPACE
kubectl create namespace $TFS_K8S_NAMESPACE
printf "\n"
echo "Deploying components and collecting environment variables..."
ENV_VARS_SCRIPT=tfs_runtime_env_vars.sh
echo "# Environment variables for TeraFlowSDN deployment" > $ENV_VARS_SCRIPT
PYTHONPATH=$(pwd)/src
echo "export PYTHONPATH=${PYTHONPATH}" >> $ENV_VARS_SCRIPT
for COMPONENT in $TFS_COMPONENTS; do
echo "Processing '$COMPONENT' component..."
IMAGE_NAME="$COMPONENT:$TFS_IMAGE_TAG"
IMAGE_URL=$(echo "$TFS_REGISTRY_IMAGE/$IMAGE_NAME" | sed 's,//,/,g' | sed 's,http:/,,g')
echo " Building Docker image..."
BUILD_LOG="$TMP_LOGS_FOLDER/build_${COMPONENT}.log"
if [ "$COMPONENT" == "automation" ] || [ "$COMPONENT" == "policy" ]; then
docker build -t "$IMAGE_NAME" -f ./src/"$COMPONENT"/Dockerfile ./src/"$COMPONENT"/ > "$BUILD_LOG"
elif [ "$COMPONENT" == "pathcomp" ]; then
BUILD_LOG="$TMP_LOGS_FOLDER/build_${COMPONENT}-frontend.log"
docker build -t "$COMPONENT-frontend:$TFS_IMAGE_TAG" -f ./src/"$COMPONENT"/frontend/Dockerfile . >> "$BUILD_LOG"
BUILD_LOG="$TMP_LOGS_FOLDER/build_${COMPONENT}-backend.log"
docker build -t "$COMPONENT-backend:$TFS_IMAGE_TAG" -f ./src/"$COMPONENT"/backend/Dockerfile . >> "$BUILD_LOG"
# next command is redundant, but helpful to keep cache updated between rebuilds
docker build -t "$COMPONENT-backend:$TFS_IMAGE_TAG-builder" --target builder -f ./src/"$COMPONENT"/backend/Dockerfile . >> "$BUILD_LOG"
else
docker build -t "$IMAGE_NAME" -f ./src/"$COMPONENT"/Dockerfile . > "$BUILD_LOG"
fi
if [ -n "$TFS_REGISTRY_IMAGE" ]; then
echo " Pushing Docker image to '$TFS_REGISTRY_IMAGE'..."
if [ "$COMPONENT" == "pathcomp" ]; then
TAG_LOG="$TMP_LOGS_FOLDER/tag_${COMPONENT}-frontend.log"
docker tag "$COMPONENT-frontend:$TFS_IMAGE_TAG" "$IMAGE_URL-frontend" > "$TAG_LOG"
TAG_LOG="$TMP_LOGS_FOLDER/tag_${COMPONENT}-backend.log"
docker tag "$COMPONENT-backend:$TFS_IMAGE_TAG" "$IMAGE_URL-backend" > "$TAG_LOG"
PUSH_LOG="$TMP_LOGS_FOLDER/push_${COMPONENT}-frontend.log"
docker push "$IMAGE_URL-frontend" > "$PUSH_LOG"
PUSH_LOG="$TMP_LOGS_FOLDER/push_${COMPONENT}-backend.log"
docker push "$IMAGE_URL-backend" > "$PUSH_LOG"
else
TAG_LOG="$TMP_LOGS_FOLDER/tag_${COMPONENT}.log"
docker tag "$IMAGE_NAME" "$IMAGE_URL" > "$TAG_LOG"
PUSH_LOG="$TMP_LOGS_FOLDER/push_${COMPONENT}.log"
docker push "$IMAGE_URL" > "$PUSH_LOG"
fi
fi
echo " Adapting '$COMPONENT' manifest file..."
MANIFEST="$TMP_MANIFESTS_FOLDER/${COMPONENT}service.yaml"
cp ./manifests/"${COMPONENT}"service.yaml "$MANIFEST"
if [ -n "$TFS_REGISTRY_IMAGE" ]; then
# Registry is set
if [ "$COMPONENT" == "pathcomp" ]; then
VERSION=$(grep -i "${GITLAB_REPO_URL}/${COMPONENT}-frontend:" "$MANIFEST" | cut -d ":" -f3)
sed -E -i "s#image: $GITLAB_REPO_URL/$COMPONENT-frontend:${VERSION}#image: $IMAGE_URL-frontend#g" "$MANIFEST"
VERSION=$(grep -i "${GITLAB_REPO_URL}/${COMPONENT}-backend:" "$MANIFEST" | cut -d ":" -f3)
sed -E -i "s#image: $GITLAB_REPO_URL/$COMPONENT-backend:${VERSION}#image: $IMAGE_URL-backend#g" "$MANIFEST"
sed -E -i "s#imagePullPolicy: .*#imagePullPolicy: Always#g" "$MANIFEST"
else
VERSION=$(grep -i "${GITLAB_REPO_URL}/${COMPONENT}:" "$MANIFEST" | cut -d ":" -f3)
sed -E -i "s#image: $GITLAB_REPO_URL/$COMPONENT:${VERSION}#image: $IMAGE_URL#g" "$MANIFEST"
sed -E -i "s#imagePullPolicy: .*#imagePullPolicy: Always#g" "$MANIFEST"
fi
if [ "$COMPONENT" == "pathcomp" ]; then
VERSION=$(grep -i "${GITLAB_REPO_URL}/${COMPONENT}-frontend:" "$MANIFEST" | cut -d ":" -f3)
sed -E -i "s#image: $GITLAB_REPO_URL/$COMPONENT-frontend:${VERSION}#image: $IMAGE_NAME-frontend#g" "$MANIFEST"
VERSION=$(grep -i "${GITLAB_REPO_URL}/${COMPONENT}-backend:" "$MANIFEST" | cut -d ":" -f3)
sed -E -i "s#image: $GITLAB_REPO_URL/$COMPONENT-backend:${VERSION}#image: $IMAGE_NAME-backend#g" "$MANIFEST"
sed -E -i "s#imagePullPolicy: .*#imagePullPolicy: Never#g" "$MANIFEST"
else
VERSION=$(grep -i "${GITLAB_REPO_URL}/${COMPONENT}:" "$MANIFEST" | cut -d ":" -f3)
sed -E -i "s#image: $GITLAB_REPO_URL/$COMPONENT:${VERSION}#image: $IMAGE_NAME#g" "$MANIFEST"
sed -E -i "s#imagePullPolicy: .*#imagePullPolicy: Never#g" "$MANIFEST"
fi
# TODO: harmonize names of the monitoring component
echo " Deploying '$COMPONENT' component to Kubernetes..."
DEPLOY_LOG="$TMP_LOGS_FOLDER/deploy_${COMPONENT}.log"
kubectl --namespace $TFS_K8S_NAMESPACE apply -f "$MANIFEST" > "$DEPLOY_LOG"
COMPONENT_OBJNAME=$(echo "${COMPONENT}" | sed "s/\_/-/")
kubectl --namespace $TFS_K8S_NAMESPACE scale deployment --replicas=0 ${COMPONENT_OBJNAME}service >> "$DEPLOY_LOG"
kubectl --namespace $TFS_K8S_NAMESPACE scale deployment --replicas=1 ${COMPONENT_OBJNAME}service >> "$DEPLOY_LOG"
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echo " Collecting env-vars for '$COMPONENT' component..."
SERVICE_DATA=$(kubectl get service ${COMPONENT}service --namespace $TFS_K8S_NAMESPACE -o json)
if [ -z "${SERVICE_DATA}" ]; then continue; fi
# Env vars for service's host address
SERVICE_HOST=$(echo ${SERVICE_DATA} | jq -r '.spec.clusterIP')
if [ -z "${SERVICE_HOST}" ]; then continue; fi
ENVVAR_HOST=$(echo "${COMPONENT}service_SERVICE_HOST" | tr '[:lower:]' '[:upper:]')
echo "export ${ENVVAR_HOST}=${SERVICE_HOST}" >> $ENV_VARS_SCRIPT
# Env vars for service's 'grpc' port (if any)
SERVICE_PORT_GRPC=$(echo ${SERVICE_DATA} | jq -r '.spec.ports[] | select(.name=="grpc") | .port')
if [ -n "${SERVICE_PORT_GRPC}" ]; then
ENVVAR_PORT_GRPC=$(echo "${COMPONENT}service_SERVICE_PORT_GRPC" | tr '[:lower:]' '[:upper:]')
echo "export ${ENVVAR_PORT_GRPC}=${SERVICE_PORT_GRPC}" >> $ENV_VARS_SCRIPT
fi
# Env vars for service's 'http' port (if any)
SERVICE_PORT_HTTP=$(echo ${SERVICE_DATA} | jq -r '.spec.ports[] | select(.name=="http") | .port')
if [ -n "${SERVICE_PORT_HTTP}" ]; then
ENVVAR_PORT_HTTP=$(echo "${COMPONENT}service_SERVICE_PORT_HTTP" | tr '[:lower:]' '[:upper:]')
echo "export ${ENVVAR_PORT_HTTP}=${SERVICE_PORT_HTTP}" >> $ENV_VARS_SCRIPT
fi
printf "\n"
done
echo "Deploying extra manifests..."
for EXTRA_MANIFEST in $TFS_EXTRA_MANIFESTS; do
echo "Processing manifest '$EXTRA_MANIFEST'..."
kubectl --namespace $TFS_K8S_NAMESPACE apply -f $EXTRA_MANIFEST
printf "\n"
done
# By now, leave this control here. Some component dependencies are not well handled
for COMPONENT in $TFS_COMPONENTS; do
echo "Waiting for '$COMPONENT' component..."
kubectl wait --namespace $TFS_K8S_NAMESPACE \
--for='condition=available' --timeout=300s deployment/${COMPONENT}service
printf "\n"
done
if [[ "$TFS_COMPONENTS" == *"webui"* ]] && [[ "$TFS_COMPONENTS" == *"monitoring"* ]]; then
echo "Configuring WebUI DataStores and Dashboards..."
# INFLUXDB_HOST="monitoringservice"
# INFLUXDB_PORT=$(kubectl --namespace $TFS_K8S_NAMESPACE get service/monitoringservice -o jsonpath='{.spec.ports[?(@.name=="influxdb")].port}')
# INFLUXDB_URL="http://${INFLUXDB_HOST}:${INFLUXDB_PORT}"
# INFLUXDB_USER=$(kubectl --namespace $TFS_K8S_NAMESPACE get secrets influxdb-secrets -o jsonpath='{.data.INFLUXDB_ADMIN_USER}' | base64 --decode)
# INFLUXDB_PASSWORD=$(kubectl --namespace $TFS_K8S_NAMESPACE get secrets influxdb-secrets -o jsonpath='{.data.INFLUXDB_ADMIN_PASSWORD}' | base64 --decode)
# INFLUXDB_DATABASE=$(kubectl --namespace $TFS_K8S_NAMESPACE get secrets influxdb-secrets -o jsonpath='{.data.INFLUXDB_DB}' | base64 --decode)
# Exposed through the ingress controller "tfs-ingress"
GRAFANA_HOSTNAME="127.0.0.1"
GRAFANA_PORT="80"
GRAFANA_BASEURL="/grafana"
# Default Grafana credentials
GRAFANA_USERNAME="admin"
GRAFANA_PASSWORD="admin"
# Default Grafana API URL
GRAFANA_URL_DEFAULT="http://${GRAFANA_USERNAME}:${GRAFANA_PASSWORD}@${GRAFANA_HOSTNAME}:${GRAFANA_PORT}${GRAFANA_BASEURL}"
# Updated Grafana API URL
GRAFANA_URL_UPDATED="http://${GRAFANA_USERNAME}:${TFS_GRAFANA_PASSWORD}@${GRAFANA_HOSTNAME}:${GRAFANA_PORT}${GRAFANA_BASEURL}"
echo "export GRAFANA_URL_UPDATED=${GRAFANA_URL_UPDATED}" >> $ENV_VARS_SCRIPT
echo "Connecting to grafana at URL: ${GRAFANA_URL_DEFAULT}..."
# Configure Grafana Admin Password
# Ref: https://grafana.com/docs/grafana/latest/http_api/user/#change-password
curl -X PUT -H "Content-Type: application/json" -d '{
"oldPassword": "'${GRAFANA_PASSWORD}'",
"newPassword": "'${TFS_GRAFANA_PASSWORD}'",
"confirmNew" : "'${TFS_GRAFANA_PASSWORD}'"
}' ${GRAFANA_URL_DEFAULT}/api/user/password
echo
# Ref: https://grafana.com/docs/grafana/latest/http_api/data_source/
# TODO: replace user, password and database by variables to be saved
echo "Creating a datasource..."
curl -X POST -H "Content-Type: application/json" -H "Accept: application/json" -d '{
"access" : "proxy",
"type" : "postgres",
"name" : "monitoringdb",
"url" : "monitoringservice:8812",
"database" : "monitoring",
"user" : "admin",
"jsonData" : {
"sslmode" : "disable",
"postgresVersion" : 1100,
"maxOpenConns" : 0,
"maxIdleConns" : 2,
"connMaxLifetime" : 14400,
"tlsAuth" : false,
"tlsAuthWithCACert" : false,
"timescaledb" : false,
"tlsConfigurationMethod": "file-path",
},
}
}' ${GRAFANA_URL_UPDATED}/api/datasources
echo
# Create Monitoring Dashboard
# Ref: https://grafana.com/docs/grafana/latest/http_api/dashboard/
curl -X POST -H "Content-Type: application/json" \
${GRAFANA_URL_UPDATED}/api/dashboards/db
echo
DASHBOARD_URL="${GRAFANA_URL_UPDATED}/api/dashboards/uid/tf-l3-monit"
DASHBOARD_ID=$(curl -s "${DASHBOARD_URL}" | jq '.dashboard.id')
curl -X POST ${GRAFANA_URL_UPDATED}/api/user/stars/dashboard/${DASHBOARD_ID}
printf "\n\n"
fi
./show_deploy.sh
echo "Done!"