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2026-01-21 11:31:29 +09:00
parent 03c8c14aa1
commit 639072c0d5
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100
.gitea/workflows/build_RC.yml Normal file
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name: Build Baron SSO RC
on:
workflow_dispatch:
inputs:
version_tag:
description: "The version tag to release to staging (e.g., v1.2601.1)"
required: true
type: string
jobs:
build-and-deploy:
runs-on: ubuntu-latest
steps:
- name: Checkout code
uses: actions/checkout@v4
- name: Install dependencies
run: sudo apt-get update && sudo apt-get install -y jq curl
- name: Login to Docker Registry
uses: docker/login-action@v3
with:
registry: ${{ vars.HARBOR_ENDPOINT }}
username: ${{ vars.HARBOR_ROBOT_ACCOUNT }}
password: ${{ secrets.HARBOR_ROBOT_KEY }}
- name: Calculate next RC tag
id: rc_calculator
env:
INPUT_TAG: ${{ github.event.inputs.version_tag }}
REGISTRY_URL: ${{ vars.HARBOR_ENDPOINT }}
HARBOR_USER: ${{ vars.HARBOR_ROBOT_ACCOUNT }}
HARBOR_PASSWORD: ${{ secrets.HARBOR_ROBOT_KEY }}
run: |
# Generate YYMM dynamically for the new tag
CURRENT_YYMM=$(date +'%y%m')
# Reconstruct the base tag with the current YYMM
MAJOR_VERSION=$(echo "${INPUT_TAG}" | cut -d'.' -f1)
MINOR_VERSION=$(echo "${INPUT_TAG}" | cut -d'.' -f3)
BASE_TAG="${MAJOR_VERSION}.${CURRENT_YYMM}.${MINOR_VERSION}"
echo "Input tag: ${INPUT_TAG}"
echo "Generated dynamic base tag: ${BASE_TAG}"
# Using the backend repository as the source for RC version calculation
API_URL="${REGISTRY_URL}/api/v2.0/projects/baron_sso/repositories/backend/artifacts?sort=-creation_time&page_size=100"
AUTH_HEADER=$(echo -n "${HARBOR_USER}:${HARBOR_PASSWORD}" | base64)
API_RESPONSE=$(curl -s -k -H "Authorization: Basic ${AUTH_HEADER}" "${API_URL}")
# Define a search pattern to find RCs across different months for the same major/minor version
# e.g., matches v1.2508.1-RC, v1.2509.1-RC, etc.
SEARCH_PATTERN="^${MAJOR_VERSION}\.[0-9]{4}\.${MINOR_VERSION}-RC"
echo "Using search pattern: ${SEARCH_PATTERN}"
# Disable pipefail for grep, as it will exit with 1 if no match is found
set +o pipefail
# Find the highest RC number regardless of the YYMM part
LATEST_RC_NUM=$(echo "${API_RESPONSE}" | jq -r '.[] | .tags[]? | .name' | grep -E "${SEARCH_PATTERN}" | sed 's/.*-RC//' | sort -rn | head -n 1)
set -o pipefail
if [ -z "$LATEST_RC_NUM" ]; then
NEXT_RC_NUM=1
else
NEXT_RC_NUM=$((LATEST_RC_NUM + 1))
fi
# Create the new tag using the dynamically generated BASE_TAG and the incremented RC number
NEW_RC_TAG="${BASE_TAG}-RC${NEXT_RC_NUM}"
echo "new_rc_tag=$NEW_RC_TAG" >> $GITHUB_OUTPUT
echo "Found latest RC number: ${LATEST_RC_NUM:-0}"
echo "Calculated new RC tag: $NEW_RC_TAG"
- name: Set up Docker Buildx
uses: docker/setup-buildx-action@v3
- name: Build and push backend RC image
uses: docker/build-push-action@v5
with:
context: .
file: ./docker/Dockerfile.backend
push: true
tags: ${{ vars.HARBOR_HOSTNAME }}/baron_sso/backend:${{ steps.rc_calculator.outputs.new_rc_tag }}
provenance: false
sbom: false
- name: Temporarily update frontend nginx port
run: sed -i 's/listen 5000;/listen 80;/g' frontend/nginx.conf
- name: Build and push frontend RC image
uses: docker/build-push-action@v5
with:
context: .
file: ./docker/Dockerfile.frontend
push: true
tags: ${{ vars.HARBOR_HOSTNAME }}/baron_sso/frontend:${{ steps.rc_calculator.outputs.new_rc_tag }}
provenance: false
sbom: false

124
.gitea/workflows/code_check.yml Normal file
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name: Code Check
on:
workflow_dispatch:
inputs:
run_lint:
description: "Run linters for Go and Flutter"
required: true
type: boolean
default: true
run_backend_tests:
description: "Run backend Go tests"
required: true
type: boolean
default: true
run_frontend_tests:
description: "Run frontend Flutter tests"
required: true
type: boolean
default: true
jobs:
lint:
if: ${{ inputs.run_lint == true }}
runs-on: ubuntu-latest
steps:
# 리포지토리에서 소스 코드를 체크아웃합니다.
- name: Checkout code
uses: actions/checkout@v4
# Go 언어 환경을 설정합니다.
- name: Setup Go
uses: actions/setup-go@v5
with:
go-version: '1.25'
# Go 백엔드 코드의 정적 분석을 수행합니다.
- name: Lint Go backend
uses: golangci/golangci-lint-action@v6
with:
version: v1.59
working-directory: backend
# Flutter SDK 환경을 설정합니다.
- name: Setup Flutter
uses: subosito/flutter-action@v2
with:
channel: 'stable'
# Flutter/Dart 프론트엔드 코드의 정적 분석을 수행합니다.
- name: Analyze Flutter frontend
run: |
cd frontend
flutter pub get
flutter analyze
backend-tests:
needs: lint
if: ${{ inputs.run_backend_tests == true }}
runs-on: ubuntu-latest
services:
# 통합 테스트에 사용될 Redis 서비스 컨테이너입니다.
# 운영 환경과 일치하도록 포트를 6399로 설정합니다.
redis:
image: redis:7-alpine
command: redis-server --port 6399
options: >
--health-cmd "redis-cli -p 6399 ping" --health-interval 10s --health-timeout 5s --health-retries 5
ports:
- 6399:6399
# 통합 테스트에 사용될 ClickHouse 서비스 컨테이너입니다.
clickhouse:
image: clickhouse/clickhouse-server:24.6
ports:
- 9000:9000
healthcheck:
test: ["CMD", "wget", "-qO-", "http://localhost:8123/ping"]
interval: 10s
timeout: 5s
retries: 5
env:
REDIS_ADDR: localhost:6399
CLICKHOUSE_HOST: localhost
CLICKHOUSE_PORT_NATIVE: 9000
steps:
# 리포지토리에서 소스 코드를 체크아웃합니다.
- name: Checkout code
uses: actions/checkout@v4
# Go 언어 환경을 설정합니다.
- name: Setup Go
uses: actions/setup-go@v5
with:
go-version: '1.25'
# 백엔드 디렉토리의 모든 Go 테스트를 실행합니다.
- name: Run backend tests
run: |
cd backend
go test -v ./...
frontend-tests:
needs: lint
if: ${{ inputs.run_frontend_tests == true }}
runs-on: ubuntu-latest
steps:
# 리포지토리에서 소스 코드를 체크아웃합니다.
- name: Checkout code
uses: actions/checkout@v4
# Flutter SDK 환경을 설정합니다.
- name: Setup Flutter
uses: subosito/flutter-action@v2
with:
channel: 'stable'
# 프론트엔드 디렉토리의 모든 위젯 테스트를 실행합니다.
- name: Run frontend tests
run: |
cd frontend
flutter pub get
flutter test

133
.gitea/workflows/production_release.yml Normal file
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name: Release Baron SSO to Production
on:
workflow_dispatch:
inputs:
rc_version_tag:
description: "The version tag to release to production (e.g., v1.2601.1-RC1)"
required: true
type: string
jobs:
release:
runs-on: ubuntu-latest
steps:
- name: Checkout code
uses: actions/checkout@v4
- name: Login to Harbor Registry
uses: docker/login-action@v3
with:
registry: ${{ vars.HARBOR_ENDPOINT }}
username: ${{ vars.HARBOR_ROBOT_ACCOUNT }}
password: ${{ secrets.HARBOR_ROBOT_KEY }}
- name: Parse RC and re-tag to final
id: retag
env:
HARBOR_HOSTNAME: ${{ vars.HARBOR_HOSTNAME }}
HARBOR_USER: ${{ vars.HARBOR_ROBOT_ACCOUNT }}
HARBOR_PASSWORD: ${{ secrets.HARBOR_ROBOT_KEY }}
run: |
BASE_TAG=$(echo "${{ github.event.inputs.rc_version_tag }}" | xargs)
if [[ ! "$BASE_TAG" =~ ^v[0-9]+\.[0-9]{4}\.[0-9]+-RC[0-9]+$ ]]; then
echo "::error::rc_version_tag must look like vX.YYMM.Z-RC## (got: $BASE_TAG)"
exit 1
fi
RE_TAG="${BASE_TAG%-RC*}"
echo "Final tag will be: ${RE_TAG}"
if ! command -v skopeo >/dev/null 2>&1; then
sudo apt-get update -y && sudo apt-get install -y skopeo
fi
# Re-tag backend image
echo "Re-tagging backend image..."
skopeo copy --preserve-digests \
--src-creds "${HARBOR_USER}:${HARBOR_PASSWORD}" --dest-creds "${HARBOR_USER}:${HARBOR_PASSWORD}" \
--src-tls-verify=false --dest-tls-verify=false \
"docker://${HARBOR_HOSTNAME}/baron_sso/backend:${BASE_TAG}" "docker://${HARBOR_HOSTNAME}/baron_sso/backend:${RE_TAG}"
# Re-tag frontend image
echo "Re-tagging frontend image..."
skopeo copy --preserve-digests \
--src-creds "${HARBOR_USER}:${HARBOR_PASSWORD}" --dest-creds "${HARBOR_USER}:${HARBOR_PASSWORD}" \
--src-tls-verify=false --dest-tls-verify=false \
"docker://${HARBOR_HOSTNAME}/baron_sso/frontend:${BASE_TAG}" "docker://${HARBOR_HOSTNAME}/baron_sso/frontend:${RE_TAG}"
echo "final_image_tag=${RE_TAG}" >> "$GITHUB_OUTPUT"
- name: Setup SSH
uses: webfactory/ssh-agent@v0.9.0
with:
ssh-private-key: ${{ secrets.PROD_SSH_PRIVATE_KEY }}
- name: Deploy to Production
env:
IMAGE_TAG: ${{ steps.retag.outputs.final_image_tag }}
BACKEND_IMAGE_NAME: ${{ vars.HARBOR_HOSTNAME }}/baron_sso/backend
FRONTEND_IMAGE_NAME: ${{ vars.HARBOR_HOSTNAME }}/baron_sso/frontend
DEPLOY_PATH: ${{ vars.PROD_DEPLOY_PATH }}
PROD_HOST: ${{ vars.PROD_HOST }}
PROD_USER: ${{ vars.PROD_USER }}
HARBOR_ENDPOINT: ${{ vars.HARBOR_ENDPOINT }}
HARBOR_ROBOT_ACCOUNT: ${{ vars.HARBOR_ROBOT_ACCOUNT }}
HARBOR_ROBOT_KEY: ${{ secrets.HARBOR_ROBOT_KEY }}
run: |
set -euo pipefail
ssh-keyscan -H "${PROD_HOST}" >> ~/.ssh/known_hosts
ssh "${PROD_USER}@${PROD_HOST}" "mkdir -p '${DEPLOY_PATH}'"
# Create the main .env file for Baron SSO on the remote server
# Note: All values are pulled from Gitea secrets and variables
printf '%s\n' \
"APP_ENV=production" \
"TZ=Asia/Seoul" \
"DB_PORT=${{ vars.PROD_DB_PORT }}" \
"CLICKHOUSE_PORT_HTTP=${{ vars.PROD_CLICKHOUSE_PORT_HTTP }}" \
"CLICKHOUSE_PORT_NATIVE=${{ vars.PROD_CLICKHOUSE_PORT_NATIVE }}" \
"CLICKHOUSE_USER=${{ vars.PROD_CLICKHOUSE_USER }}" \
"CLICKHOUSE_PASSWORD=${{ secrets.PROD_CLICKHOUSE_PASSWORD }}" \
"BACKEND_PORT=${{ vars.PROD_BACKEND_PORT }}" \
"FRONTEND_PORT=${{ vars.PROD_FRONTEND_PORT }}" \
"DB_USER=${{ vars.PROD_DB_USER }}" \
"DB_PASSWORD=${{ secrets.PROD_DB_PASSWORD }}" \
"DB_NAME=${{ vars.PROD_DB_NAME }}" \
"COOKIE_SECRET=${{ secrets.PROD_COOKIE_SECRET }}" \
"JWT_SECRET=${{ secrets.PROD_JWT_SECRET }}" \
"REDIS_ADDR=${{ vars.PROD_REDIS_ADDR }}" \
"DESCOPE_PROJECT_ID=${{ vars.DESCOPE_PROJECT_ID }}" \
"DESCOPE_MANAGEMENT_KEY=${{ secrets.DESCOPE_MANAGEMENT_KEY }}" \
"NAVER_CLOUD_ACCESS_KEY=${{ secrets.NAVER_CLOUD_ACCESS_KEY }}" \
"NAVER_CLOUD_SECRET_KEY=${{ secrets.NAVER_CLOUD_SECRET_KEY }}" \
"NAVER_CLOUD_SERVICE_ID=${{ vars.NAVER_CLOUD_SERVICE_ID }}" \
"NAVER_SENDER_PHONE_NUMBER=${{ vars.NAVER_SENDER_PHONE_NUMBER }}" \
"AWS_REGION=${{ vars.AWS_REGION }}" \
"AWS_ACCESS_KEY_ID=${{ secrets.AWS_ACCESS_KEY_ID }}" \
"AWS_SECRET_ACCESS_KEY=${{ secrets.AWS_SECRET_ACCESS_KEY }}" \
"AWS_SES_SENDER=${{ vars.AWS_SES_SENDER }}" \
"FRONTEND_URL=${{ vars.PROD_FRONTEND_URL }}" \
"BACKEND_URL=${{ vars.PROD_BACKEND_URL }}" \
> .env
# Copy compose template and .env file to the remote server
scp docker/docker-compose.template.yaml .env "${PROD_USER}@${PROD_HOST}:${DEPLOY_PATH}/"
scp docker/compose.infra.prd.yaml "${PROD_USER}@${PROD_HOST}:${DEPLOY_PATH}/compose.infra.yml"
# Deploy Baron SSO
echo "${HARBOR_ROBOT_KEY}" | ssh "${PROD_USER}@${PROD_HOST}" \
"export DEPLOY_PATH='${DEPLOY_PATH}'; \
export BACKEND_IMAGE_NAME='${BACKEND_IMAGE_NAME}'; \
export FRONTEND_IMAGE_NAME='${FRONTEND_IMAGE_NAME}'; \
export IMAGE_TAG='${IMAGE_TAG}'; \
export HARBOR_ENDPOINT='${HARBOR_ENDPOINT}'; \
export HARBOR_ROBOT_ACCOUNT='${HARBOR_ROBOT_ACCOUNT}'; \
set -e; \
cd \"\${DEPLOY_PATH}\"; \
read HARBOR_ROBOT_KEY_FROM_STDIN; \
echo \"\${HARBOR_ROBOT_KEY_FROM_STDIN}\" | docker login \"\${HARBOR_ENDPOINT}\" -u \"\${HARBOR_ROBOT_ACCOUNT}\" --password-stdin; \
envsubst < docker-compose.template.yaml > docker-compose.yml; \
docker compose -f compose.infra.yml -f docker-compose.yml pull; \
docker compose -f compose.infra.yml -f docker-compose.yml up -d --remove-orphans"