mikicv/tt-booking
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
Files
54240a2cfddd2503621377f949118d9990a7b5c5
tt-booking/docs/DEPLOYMENT_GUIDE.md
T

507 lines
12 KiB
Markdown
Raw Blame History

# Deployment Strategy for Table Tennis Booking System
## Overview
This document outlines comprehensive deployment strategies for the Table Tennis Booking System, considering both self-hosting and cloud deployment options. The application is a Next.js-based system with SQLite database, designed for production use.
## 1. Self-Hosting Strategy
### Option A: Raspberry Pi + Cloudflare Tunnel (Recommended)
**Architecture:**
```
Internet → Cloudflare → Cloudflare Tunnel → Raspberry Pi → Docker Container
```
**Requirements:**
- Raspberry Pi 4 (4GB+ RAM recommended)
- Stable internet connection
- Cloudflare account (free tier sufficient)
- Domain name (can be managed through Cloudflare)
**Setup Steps:**
1. **Raspberry Pi Preparation**
```bash
# Update system
sudo apt update && sudo apt upgrade -y
# Install Docker
curl -fsSL https://get.docker.com -o get-docker.sh
sudo sh get-docker.sh
sudo usermod -aG docker $USER
# Install Docker Compose
sudo apt install docker-compose -y
```
2. **Application Deployment**
```bash
# Clone repository
git clone <your-repo-url>
cd tt-booking
# Create production environment file
cp .env.example .env.production
# Edit .env.production with your values
# Deploy with Docker
docker-compose -f docker-compose.production.yml up -d
```
3. **Cloudflare Tunnel Setup**
```bash
# Install cloudflared
wget https://github.com/cloudflare/cloudflared/releases/latest/download/cloudflared-linux-arm64.deb
sudo dpkg -i cloudflared-linux-arm64.deb
# Authenticate
cloudflared tunnel login
# Create tunnel
cloudflared tunnel create tt-booking
# Configure tunnel (create config.yml)
cloudflared tunnel route dns tt-booking yourdomain.com
# Run tunnel
cloudflared tunnel run tt-booking
```
**Cloudflare Tunnel Config (`~/.cloudflared/config.yml`):**
```yaml
tunnel: <tunnel-id>
credentials-file: /home/pi/.cloudflared/<tunnel-id>.json
ingress:
- hostname: yourdomain.com
service: http://localhost:3000
- service: http_status:404
```
**Production Docker Compose (`docker-compose.production.yml`):**
```yaml
version: '3.8'
services:
tt-booking:
build: .
ports:
- '3000:3000'
environment:
- NODE_ENV=production
- DATABASE_URL=/app/data/sqlite.db
- NEXTAUTH_URL=https://yourdomain.com
- NEXTAUTH_SECRET=${NEXTAUTH_SECRET}
- EMAIL_USER=${EMAIL_USER}
- EMAIL_PASSWORD=${EMAIL_PASSWORD}
- ADMIN_EMAIL=${ADMIN_EMAIL}
- ADMIN_PASSWORD=${ADMIN_PASSWORD}
volumes:
- ./data:/app/data
- ./backups:/app/backups
restart: unless-stopped
healthcheck:
test: ['CMD', 'curl', '-f', 'http://localhost:3000/api/health']
interval: 30s
timeout: 10s
retries: 3
# Backup service
backup:
image: alpine:latest
volumes:
- ./data:/data:ro
- ./backups:/backups
command: >
sh -c "
while true; do
cp /data/sqlite.db /backups/sqlite-$(date +%Y%m%d-%H%M%S).db
find /backups -name 'sqlite-*.db' -mtime +7 -delete
sleep 86400
done"
restart: unless-stopped
```
**Advantages:**
- No need for port forwarding or exposing home IP
- Free SSL certificates through Cloudflare
- DDoS protection and CDN benefits
- Easy domain management
- Cost-effective (only domain cost ~$10-15/year)
**Disadvantages:**
- Dependent on home internet stability
- Limited by residential bandwidth
- Requires basic Linux administration skills
### Option B: Traditional Self-Hosting with Reverse Proxy
**Architecture:**
```
Internet → Router/Firewall → Nginx → Docker Container
```
**Requirements:**
- Dedicated server or powerful Raspberry Pi
- Static IP address or Dynamic DNS service
- SSL certificate (Let's Encrypt)
- Port forwarding configuration
**Setup includes all the Docker setup above, plus:**
1. **Nginx Configuration**
```bash
# Install Nginx
sudo apt install nginx certbot python3-certbot-nginx
# Configure SSL
sudo certbot --nginx -d yourdomain.com
```
2. **Updated Docker Compose with Nginx**
Use the existing [docker-compose.yml](docker-compose.yml) with Nginx service.
**Advantages:**
- Full control over infrastructure
- No dependency on third-party tunneling services
- Better performance for local network access
**Disadvantages:**
- Requires static IP or Dynamic DNS
- More complex firewall/security configuration
- SSL certificate management overhead
## 2. Cloud Deployment Strategies
### Option A: DigitalOcean App Platform (Recommended for Small Scale)
**Cost Estimate:** $12-25/month
**Features:**
- Automatic deployments from Git
- Built-in SSL certificates
- Automatic scaling
- Integrated monitoring
**Deployment:**
1. Connect GitHub repository
2. Configure environment variables
3. Add persistent volume for SQLite database
4. Deploy with zero-config
**Configuration:**
```yaml
# .do/app.yaml
name: tt-booking
services:
- name: web
source_dir: /
github:
repo: your-username/tt-booking
branch: main
run_command: npm start
environment_slug: node-js
instance_count: 1
instance_size_slug: basic-xxs
envs:
- key: NODE_ENV
value: production
- key: DATABASE_URL
value: /app/data/sqlite.db
```
### Option B: Railway (Developer-Friendly)
**Cost Estimate:** $5-20/month
**Features:**
- Git-based deployments
- Built-in databases available
- Simple pricing model
- Excellent developer experience
**Deployment:**
```bash
# Install Railway CLI
npm install -g @railway/cli
# Login and deploy
railway login
railway init
railway up
```
### Option C: Vercel + PlanetScale (Serverless)
**Cost Estimate:** $0-20/month (depending on usage)
**Modifications needed:**
- Replace SQLite with PlanetScale MySQL
- Update database schema for MySQL compatibility
- Modify connection configuration
**Deployment:**
```bash
# Install Vercel CLI
npm install -g vercel
# Deploy
vercel --prod
```
### Option D: AWS/GCP/Azure (Enterprise Scale)
**Cost Estimate:** $30-100+/month
**AWS Deployment Options:**
1. **ECS Fargate + RDS**
- Container-based deployment
- Managed database
- Auto-scaling capabilities
2. **Elastic Beanstalk**
- Simple deployment model
- Built-in monitoring
- Easy environment management
3. **App Runner**
- Serverless container platform
- Automatic scaling
- Pay-per-use pricing
## 3. Database Considerations
### For Self-Hosting
- **SQLite**: Perfect for small to medium loads
- **Backup Strategy**: Automated daily backups to external storage
- **Monitoring**: Simple file-based health checks
### For Cloud Deployment
- **Small Scale**: Keep SQLite with persistent volumes
- **Medium Scale**: PostgreSQL (Railway, DigitalOcean Managed DB)
- **Large Scale**: Multi-region database (AWS RDS, Google Cloud SQL)
## 4. Monitoring and Maintenance
### Essential Monitoring
```bash
# Add to crontab for health checks
*/5 * * * * curl -f https://yourdomain.com/api/health || echo "App down" | mail -s "Alert" admin@example.com
```
### Backup Strategy
1. **Database Backups**: Daily automated SQLite file copies
2. **Environment Config**: Version controlled `.env` files
3. **Application Code**: Git-based source control
### Update Strategy
```bash
#!/bin/bash
# update.sh
cd /path/to/tt-booking
git pull origin main
docker-compose -f docker-compose.production.yml down
docker-compose -f docker-compose.production.yml up -d --build
```
## 5. Security Considerations
### Self-Hosting Security Checklist
- [ ] Firewall configured (only necessary ports open)
- [ ] Regular OS updates automated
- [ ] Non-root user for application
- [ ] SSL certificates properly configured
- [ ] Database backups encrypted
- [ ] Rate limiting configured (already in nginx.conf)
- [ ] Log monitoring for suspicious activity
### Cloud Security
- [ ] Environment variables properly secured
- [ ] Database access restricted
- [ ] API rate limiting enabled
- [ ] Regular dependency updates
- [ ] Security headers configured (already in app)
## 6. Cost Comparison
| Deployment Method | Monthly Cost | Effort | Scalability | Reliability |
| ------------------------- | ------------ | -------- | ----------- | ----------- |
| Raspberry Pi + CF Tunnel | $1-2 | Medium | Low | Medium |
| Traditional Self-Host | $5-10 | High | Low | Medium |
| DigitalOcean App Platform | $12-25 | Low | Medium | High |
| Railway | $5-20 | Very Low | Medium | High |
| Vercel + PlanetScale | $0-20 | Low | High | High |
| AWS/GCP/Azure | $30-100+ | High | Very High | Very High |
## 7. Recommended Approach
### For Personal/Small Group Use:
**Raspberry Pi + Cloudflare Tunnel** - Most cost-effective with good reliability
### For Small Business:
**Railway or DigitalOcean App Platform** - Balance of simplicity and reliability
### For Enterprise:
**AWS/GCP with proper CI/CD pipeline** - Maximum scalability and reliability
## 8. Local Development Best Practices
### Standalone Development
```bash
# Quick development setup
npm install
npm run dev
```
### Docker Development
```bash
# Development with Docker
docker-compose up -d
```
### Production-like Local Testing
```bash
# Test production build locally
npm run build
npm start
```
## 9. Health Check Endpoint
The application includes a health check endpoint at `/api/health` for monitoring purposes. You should create this endpoint:
```typescript
// app/api/health/route.ts
import { NextResponse } from 'next/server';
import { db } from '@/lib/db';
export async function GET() {
try {
// Basic database connectivity check
await db.select().from(settings).limit(1);
return NextResponse.json({
status: 'healthy',
timestamp: new Date().toISOString(),
uptime: process.uptime(),
});
} catch (error) {
return NextResponse.json({ status: 'unhealthy', error: 'Database connection failed' }, { status: 500 });
}
}
```
## 10. Environment Variables for Production
Create a `.env.production` file with the following required variables:
```bash
# Application
NODE_ENV=production
NEXTAUTH_URL=https://yourdomain.com
NEXTAUTH_SECRET=your-very-long-random-secret-here
# Database
DATABASE_URL=/app/data/sqlite.db
# Email Configuration (optional)
EMAIL_USER=your-email@gmail.com
EMAIL_PASSWORD=your-app-specific-password
# Admin Account
ADMIN_EMAIL=admin@yourdomain.com
ADMIN_PASSWORD=secure-admin-password
# Optional: Rate limiting
RATE_LIMIT_MAX=100
RATE_LIMIT_WINDOW=900000
```
## 11. Docker Production Optimization
Create a production-optimized `Dockerfile.production`:
```dockerfile
FROM node:18-alpine AS base
# Install dependencies only when needed
FROM base AS deps
WORKDIR /app
COPY package.json package-lock.json* ./
RUN npm ci --only=production && npm cache clean --force
# Rebuild the source code only when needed
FROM base AS builder
WORKDIR /app
COPY --from=deps /app/node_modules ./node_modules
COPY . .
RUN npm run build
# Production image, copy all the files and run next
FROM base AS runner
WORKDIR /app
ENV NODE_ENV production
RUN addgroup --system --gid 1001 nodejs
RUN adduser --system --uid 1001 nextjs
# Copy built application
COPY --from=builder --chown=nextjs:nodejs /app/.next ./.next
COPY --from=builder /app/node_modules ./node_modules
COPY --from=builder /app/package.json ./package.json
COPY --from=builder /app/public ./public
# Create data directory for SQLite
RUN mkdir -p /app/data && chown nextjs:nodejs /app/data
USER nextjs
EXPOSE 3000
ENV PORT 3000
ENV HOSTNAME "0.0.0.0"
CMD ["npm", "start"]
```
This deployment strategy provides multiple pathways depending on your technical expertise, budget, and scaling requirements. The Cloudflare Tunnel approach is particularly attractive for self-hosting as it eliminates many traditional networking complexities while maintaining security and reliability.
Reference in New Issue View Git Blame Copy Permalink