bgpls module create folder

# Copyright 2022-2023 ETSI TeraFlowSDN - TFS OSG (https://tfs.etsi.org/)

#

# 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.

# Build, tag, and push the Docker image to the GitLab Docker registry

build service:

  variables:

    IMAGE_NAME: 'bgpls_speaker' # name of the microservice

    IMAGE_TAG: 'latest' # tag of the container image (production, development, etc)

  stage: build

  before_script:

    - docker login -u "$CI_REGISTRY_USER" -p "$CI_REGISTRY_PASSWORD" $CI_REGISTRY

  script:

    - docker build -t "$IMAGE_NAME:$IMAGE_TAG" -f ./src/$IMAGE_NAME/Dockerfile .

    - docker tag "$IMAGE_NAME:$IMAGE_TAG" "$CI_REGISTRY_IMAGE/$IMAGE_NAME:$IMAGE_TAG"

    - docker push "$CI_REGISTRY_IMAGE/$IMAGE_NAME:$IMAGE_TAG"

  after_script:

    - docker images --filter="dangling=true" --quiet | xargs -r docker rmi

  rules:

    - if: '$CI_PIPELINE_SOURCE == "merge_request_event" && ($CI_MERGE_REQUEST_TARGET_BRANCH_NAME == "develop" || $CI_MERGE_REQUEST_TARGET_BRANCH_NAME == $CI_DEFAULT_BRANCH)'

    - if: '$CI_PIPELINE_SOURCE == "push" && $CI_COMMIT_BRANCH == "develop"'

    - changes:

      - src/common/**/*.py

      - proto/*.proto

      - src/$IMAGE_NAME/**/*.{py,in,yml}

      - src/$IMAGE_NAME/Dockerfile

      - src/$IMAGE_NAME/tests/*.py

      - manifests/${IMAGE_NAME}service.yaml

      - .gitlab-ci.yml

# Apply unit test to the component

unit_test service:

  variables:

    IMAGE_NAME: 'bgpls_speaker' # name of the microservice

    IMAGE_TAG: 'latest' # tag of the container image (production, development, etc)

  stage: unit_test

  needs:

    - build service

  before_script:

    - docker login -u "$CI_REGISTRY_USER" -p "$CI_REGISTRY_PASSWORD" $CI_REGISTRY

    - if docker network list | grep teraflowbridge; then echo "teraflowbridge is already created"; else docker network create --driver=bridge teraflowbridge; fi

    # Context-related

    - if docker container ls | grep crdb; then docker rm -f crdb; else echo "CockroachDB container is not in the system"; fi

    - if docker volume ls | grep crdb; then docker volume rm -f crdb; else echo "CockroachDB volume is not in the system"; fi

    - if docker container ls | grep nats; then docker rm -f nats; else echo "NATS container is not in the system"; fi

    # Device-related

    - if docker container ls | grep context; then docker rm -f context; else echo "context image is not in the system"; fi

    - if docker container ls | grep device; then docker rm -f device; else echo "device image is not in the system"; fi

    # Pathcomp-related

    - if docker container ls | grep pathcomp-frontend; then docker rm -f pathcomp-frontend; else echo "pathcomp-frontend image is not in the system"; fi

    - if docker container ls | grep pathcomp-backend; then docker rm -f pathcomp-backend; else echo "pathcomp-backend image is not in the system"; fi

    # Service-related

    - if docker container ls | grep $IMAGE_NAME; then docker rm -f $IMAGE_NAME; else echo "$IMAGE_NAME image is not in the system"; fi

  script:

    - docker pull "cockroachdb/cockroach:latest-v22.2"

    - docker pull "nats:2.9"

    - docker pull "$CI_REGISTRY_IMAGE/context:$IMAGE_TAG"

    - docker pull "$CI_REGISTRY_IMAGE/device:$IMAGE_TAG"

    - docker pull "$CI_REGISTRY_IMAGE/pathcomp-frontend:$IMAGE_TAG"

    - docker pull "$CI_REGISTRY_IMAGE/pathcomp-backend:$IMAGE_TAG"

    - docker pull "$CI_REGISTRY_IMAGE/$IMAGE_NAME:$IMAGE_TAG"

    # Context preparation

    - docker volume create crdb

    - >

      docker run --name crdb -d --network=teraflowbridge -p 26257:26257 -p 8080:8080

      --env COCKROACH_DATABASE=tfs_test --env COCKROACH_USER=tfs --env COCKROACH_PASSWORD=tfs123

      --volume "crdb:/cockroach/cockroach-data"

      cockroachdb/cockroach:latest-v22.2 start-single-node

    - >

      docker run --name nats -d --network=teraflowbridge -p 4222:4222 -p 8222:8222

      nats:2.9 --http_port 8222 --user tfs --pass tfs123

    - echo "Waiting for initialization..."

    - while ! docker logs crdb 2>&1 | grep -q 'finished creating default user \"tfs\"'; do sleep 1; done

    - docker logs crdb

    - while ! docker logs nats 2>&1 | grep -q 'Server is ready'; do sleep 1; done

    - docker logs nats

    - docker ps -a

    - CRDB_ADDRESS=$(docker inspect crdb --format "{{.NetworkSettings.Networks.teraflowbridge.IPAddress}}")

    - echo $CRDB_ADDRESS

    - NATS_ADDRESS=$(docker inspect nats --format "{{.NetworkSettings.Networks.teraflowbridge.IPAddress}}")

    - echo $NATS_ADDRESS

    - >

      docker run --name context -d -p 1010:1010

      --env "CRDB_URI=cockroachdb://tfs:tfs123@${CRDB_ADDRESS}:26257/tfs_test?sslmode=require"

      --env "MB_BACKEND=nats"

      --env "NATS_URI=nats://tfs:tfs123@${NATS_ADDRESS}:4222"

      --network=teraflowbridge

      $CI_REGISTRY_IMAGE/context:$IMAGE_TAG

    - CONTEXTSERVICE_SERVICE_HOST=$(docker inspect context --format "{{.NetworkSettings.Networks.teraflowbridge.IPAddress}}")

    - echo $CONTEXTSERVICE_SERVICE_HOST

    # Device preparation

    - >

      docker run --name device -d -p 2020:2020

      --env "CONTEXTSERVICE_SERVICE_HOST=${CONTEXTSERVICE_SERVICE_HOST}"

      --network=teraflowbridge

      $CI_REGISTRY_IMAGE/device:$IMAGE_TAG

    - DEVICESERVICE_SERVICE_HOST=$(docker inspect device --format "{{.NetworkSettings.Networks.teraflowbridge.IPAddress}}")

    - echo $DEVICESERVICE_SERVICE_HOST

    # PathComp preparation

    - >

      docker run --name pathcomp-backend -d -p 8081:8081

      --network=teraflowbridge

      $CI_REGISTRY_IMAGE/pathcomp-backend:$IMAGE_TAG

    - PATHCOMP_BACKEND_HOST=$(docker inspect pathcomp-backend --format "{{.NetworkSettings.Networks.teraflowbridge.IPAddress}}")

    - echo $PATHCOMP_BACKEND_HOST

    - sleep 1

    - >

      docker run --name pathcomp-frontend -d -p 10020:10020

      --env "CONTEXTSERVICE_SERVICE_HOST=${CONTEXTSERVICE_SERVICE_HOST}"

      --env "PATHCOMP_BACKEND_HOST=${PATHCOMP_BACKEND_HOST}"

      --env "PATHCOMP_BACKEND_PORT=8081"

      --network=teraflowbridge

      $CI_REGISTRY_IMAGE/pathcomp-frontend:$IMAGE_TAG

    - sleep 1

    - PATHCOMPSERVICE_SERVICE_HOST=$(docker inspect pathcomp-frontend --format "{{.NetworkSettings.Networks.teraflowbridge.IPAddress}}")

    - echo $PATHCOMPSERVICE_SERVICE_HOST

    # Service preparation

    - >

      docker run --name $IMAGE_NAME -d -p 3030:3030

      --env "CONTEXTSERVICE_SERVICE_HOST=${CONTEXTSERVICE_SERVICE_HOST}"

      --env "DEVICESERVICE_SERVICE_HOST=${DEVICESERVICE_SERVICE_HOST}"

      --env "PATHCOMPSERVICE_SERVICE_HOST=${PATHCOMPSERVICE_SERVICE_HOST}"

      --volume "$PWD/src/$IMAGE_NAME/tests:/opt/results"

      --network=teraflowbridge

      $CI_REGISTRY_IMAGE/$IMAGE_NAME:$IMAGE_TAG

    # Check status before the tests

    - sleep 5

    - docker ps -a

    - docker logs context

    - docker logs device

    - docker logs pathcomp-frontend

    - docker logs pathcomp-backend

    - docker logs $IMAGE_NAME

    # Run the tests

    - >

      docker exec -i $IMAGE_NAME bash -c

      "coverage run -m pytest --log-level=INFO --verbose $IMAGE_NAME/tests/test_unitary.py --junitxml=/opt/results/${IMAGE_NAME}_report.xml"

    - docker exec -i $IMAGE_NAME bash -c "coverage report --include='${IMAGE_NAME}/*' --show-missing"

  coverage: '/TOTAL\s+\d+\s+\d+\s+(\d+%)/'

  after_script:

    # Check status after the tests

    - docker ps -a

    - docker logs context

    - docker logs device

    - docker logs pathcomp-frontend

    - docker logs pathcomp-backend

    - docker logs $IMAGE_NAME

    - docker rm -f $IMAGE_NAME

    - docker rm -f pathcomp-frontend

    - docker rm -f pathcomp-backend

    - docker rm -f device

    - docker rm -f context

    - docker rm -f $IMAGE_NAME crdb nats

    - docker volume rm -f crdb

    - docker network rm teraflowbridge

    - docker volume prune --force

    - docker image prune --force

  rules:

    - if: '$CI_PIPELINE_SOURCE == "merge_request_event" && ($CI_MERGE_REQUEST_TARGET_BRANCH_NAME == "develop" || $CI_MERGE_REQUEST_TARGET_BRANCH_NAME == $CI_DEFAULT_BRANCH)'

    - if: '$CI_PIPELINE_SOURCE == "push" && $CI_COMMIT_BRANCH == "develop"'

    - changes:

      - src/common/**/*.py

      - proto/*.proto

      - src/$IMAGE_NAME/**/*.{py,in,yml}

      - src/$IMAGE_NAME/Dockerfile

      - src/$IMAGE_NAME/tests/*.py

      - manifests/${IMAGE_NAME}service.yaml

      - .gitlab-ci.yml

  artifacts:

      when: always

      reports:

        junit: src/$IMAGE_NAME/tests/${IMAGE_NAME}_report.xml

## Deployment of the service in Kubernetes Cluster

#deploy service:

#  variables:

#    IMAGE_NAME: 'service' # name of the microservice

#    IMAGE_TAG: 'latest' # tag of the container image (production, development, etc)

#  stage: deploy

#  needs:

#    - unit test service

#    # - integ_test execute

#  script:

#    - 'sed -i "s/$IMAGE_NAME:.*/$IMAGE_NAME:$IMAGE_TAG/" manifests/${IMAGE_NAME}service.yaml'

#    - kubectl version

#    - kubectl get all

#    - kubectl apply -f "manifests/${IMAGE_NAME}service.yaml"

#    - kubectl get all

#  # environment:

#  #   name: test

#  #   url: https://example.com

#  #   kubernetes:

#  #     namespace: test

#  rules:

#    - if: '$CI_PIPELINE_SOURCE == "merge_request_event" && ($CI_MERGE_REQUEST_TARGET_BRANCH_NAME == "develop" || $CI_MERGE_REQUEST_TARGET_BRANCH_NAME == $CI_DEFAULT_BRANCH)'

#      when: manual    

#    - if: '$CI_PIPELINE_SOURCE == "push" && $CI_COMMIT_BRANCH == "develop"'

#      when: manual

# Copyright 2022-2023 ETSI TeraFlowSDN - TFS OSG (https://tfs.etsi.org/)

#

# 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.

# Copyright 2022-2023 ETSI TeraFlowSDN - TFS OSG (https://tfs.etsi.org/)

#

# 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.

#

# Maven install stage

#

# ----------------------------------------------

FROM maven:3.6.0-jdk-11-slim AS build

RUN mkdir -p /var/teraflow/java_speaker/

WORKDIR /var/teraflow/java_speaker

RUN mkdir -p protocols/

COPY netphony-network-protocols/src protocols/src

COPY netphony-network-protocols/pom.xml protocols/pom.xml

# RUN mvn dependency:resolve

# RUN mvn clean verify

WORKDIR /var/teraflow/java_speaker/protocols

RUN mvn clean install

RUN mkdir -p /var/teraflow/java_speaker

WORKDIR /var/teraflow/java_speaker

COPY src/bgpls_speaker/service/resources/java/netphony-topology-dev src/

COPY src/bgpls_speaker/service/resources/java/netphony-topology-dev/pom.xml pom.xml

COPY src/bgpls_speaker/service/resources/java/netphony-topology-dev/target/generated-sources/ src/target/generated-sources/

RUN mvn package -X

# -------------------------------------------

# jar created in  /netphony-topology-dev/target/bgp-ls-speaker-jar-with-dependencies.jar

#

# Stage 2

#

FROM python:3.9-slim

# Install dependencies

RUN apt-get --yes --quiet --quiet update && \

    apt-get --yes --quiet --quiet install wget g++ && \

    rm -rf /var/lib/apt/lists/*

# Set Python to show logs as they occur

ENV PYTHONUNBUFFERED=0

# Download the gRPC health probe

RUN GRPC_HEALTH_PROBE_VERSION=v0.2.0 && \

    wget -qO/bin/grpc_health_probe https://github.com/grpc-ecosystem/grpc-health-probe/releases/download/${GRPC_HEALTH_PROBE_VERSION}/grpc_health_probe-linux-amd64 && \

    chmod +x /bin/grpc_health_probe

# Get generic Python packages

RUN python3 -m pip install --upgrade pip

RUN python3 -m pip install --upgrade setuptools wheel

RUN python3 -m pip install --upgrade pip-tools

# Install OpenJDK-11

RUN apt-get update && \

    apt-get install -y openjdk-11-jre-headless && \

    apt-get clean;

COPY --from=build /var/teraflow/java_speaker/target/topology-1.4.0-SNAPSHOT.jar /var/teraflow/java_speaker/

# Get common Python packages

# Note: this step enables sharing the previous Docker build steps among all the Python components

WORKDIR /var/teraflow

COPY common_requirements.in common_requirements.in

RUN pip-compile --quiet --output-file=common_requirements.txt common_requirements.in

RUN python3 -m pip install -r common_requirements.txt

# Add common files into working directory

WORKDIR /var/teraflow/common

COPY src/common/. ./

RUN rm -rf proto

# Create proto sub-folder, copy .proto files, and generate Python code

RUN mkdir -p /var/teraflow/common/proto

WORKDIR /var/teraflow/common/proto

RUN touch __init__.py

COPY proto/*.proto ./

RUN python3 -m grpc_tools.protoc -I=. --python_out=. --grpc_python_out=. *.proto

RUN rm *.proto

RUN find . -type f -exec sed -i -E 's/(import\ .*)_pb2/from . \1_pb2/g' {} \;

# Create component sub-folders, get specific Python packages

RUN mkdir -p /var/teraflow/bgpls_speaker

WORKDIR /var/teraflow/bgpls_speaker

COPY src/bgpls_speaker/requirements.in requirements.in

RUN pip-compile --quiet --output-file=requirements.txt requirements.in

RUN python3 -m pip install -r requirements.txt

# Java module necessary config files

WORKDIR /var/teraflow/bgpls_speaker

RUN mkdir -p /resources

COPY src/bgpls_speaker/service/resources/* /resources/ 

# Add component files into working directory

WORKDIR /var/teraflow

COPY src/context/. context/

COPY src/device/. device/

COPY src/pathcomp/frontend/. pathcomp/frontend/

COPY src/service/. service/

COPY src/bgpls_speaker/. bgpls_speaker/

# Start the service

ENTRYPOINT ["python", "-m", "bgpls_speaker.service"]

# Copyright 2022-2023 ETSI TeraFlowSDN - TFS OSG (https://tfs.etsi.org/)

#

# 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.