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server-deploy

通用项目部署到远程服务器。自动识别项目类型(Node.js/Python/Rust/Go/静态站),SSH 配置、环境安装、项目上传、进程管理、Nginx 反向代理、Cloudflare SSL、安全加固。当用户需要部署项目、上线服务、配置域名时使用

Ver fuenteRepositorio: spellbook
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git clone --depth 1 https://github.com/majiayu000/spellbook /tmp/server-deploy && cp -r /tmp/server-deploy/skills/server-deploy ~/.claude/skills/server-deploy
Después abre una sesión nueva de Claude Code; el skill carga automáticamente.
Definición

SKILL.md

# 通用服务器部署

将本地项目一键部署到远程 Linux 服务器。自动识别项目类型,适配对应的构建、运行和进程管理方案。

---

## 第零步:项目识别与信息收集

### 0a. 自动识别项目类型

扫描项目根目录,按以下规则判断类型:

| 标志文件 | 项目类型 | 运行时 | 进程管理 |
|---------|---------|--------|---------|
| `package.json` | Node.js | node | PM2 |
| `Cargo.toml` | Rust | 编译产物 | systemd |
| `go.mod` | Go | 编译产物 | systemd |
| `pyproject.toml` / `requirements.txt` / `setup.py` | Python | python3 | systemd / gunicorn |
| `Dockerfile` / `docker-compose.yml` | Docker | docker | docker compose |
| `index.html`(无其他标志) | 静态站点 | 无 | Nginx 直接托管 |

如果检测到多个标志文件(如 package.json + Dockerfile),用 AskUserQuestion 让用户选择部署方式。

### 0b. 收集信息

用 AskUserQuestion 收集以下信息(上下文已有的跳过):

1. **SSH 连接**(header: "服务器")
   - 根据上下文动态生成选项(如之前用过的服务器 IP)
   - 兜底选项"其他服务器"

2. **项目路径**(header: "项目")
   - 根据当前工作目录自动推断
   - 如果不确定,询问用户

3. **域名**(header: "域名")
   - 已有域名(让用户输入)
   - 仅用 IP 访问(跳过域名和 SSL 配置)

4. **运行端口**(header: "端口")
   - 自动检测:
     - Node.js:从 package.json scripts 或 .env 中提取
     - Python:从 main.py / app.py / manage.py 中提取
     - Rust/Go:从 main.rs / main.go 或配置文件中提取
   - 如检测不到,让用户指定
   - 禁止使用 3000, 3001, 4000, 5000, 5173, 8000, 8080, 8888

### 0c. 变量定义

| 变量 | 说明 |
|------|------|
| `$SSH_TARGET` | SSH 连接串(如 `root@192.168.1.1`) |
| `$PROJECT_DIR` | 本地项目绝对路径 |
| `$PROJECT_NAME` | 项目名称 |
| `$PROJECT_TYPE` | 项目类型:`nodejs` / `python` / `rust` / `go` / `docker` / `static` |
| `$REMOTE_DIR` | 远程部署目录(默认 `/opt/$PROJECT_NAME`) |
| `$PORT` | 应用运行端口 |
| `$DOMAIN` | 域名(可选) |

---

## 第一步:SSH 连接与密钥配置

### 1a. 检查本地 SSH 公钥

```bash
cat ~/.ssh/id_rsa.pub 2>/dev/null || cat ~/.ssh/id_ed25519.pub 2>/dev/null
```

如果没有公钥,生成一个:`ssh-keygen -t ed25519 -N "" -f ~/.ssh/id_ed25519`

### 1b. 测试免密登录

```bash
ssh -o ConnectTimeout=5 -o BatchMode=yes $SSH_TARGET "echo ok" 2>/dev/null
```

如果失败,用密码登录并添加公钥:

```bash
sshpass -p '<PASSWORD>' ssh -o StrictHostKeyChecking=no $SSH_TARGET \
  "mkdir -p ~/.ssh && chmod 700 ~/.ssh && echo '<PUBLIC_KEY>' >> ~/.ssh/authorized_keys && chmod 600 ~/.ssh/authorized_keys"
```

### 1c. 验证免密登录

```bash
ssh -o ConnectTimeout=5 $SSH_TARGET "echo '免密登录成功' && uname -a"
```

---

## 第二步:服务器环境检查

**单条命令获取全部信息**:

```bash
ssh $SSH_TARGET "echo '=== 系统 ===' && cat /etc/os-release | grep PRETTY_NAME && uname -m && echo '=== CPU ===' && nproc && echo '=== 内存 ===' && free -h && echo '=== 磁盘 ===' && df -h / && echo '=== 包管理器 ===' && which apt yum dnf pacman 2>/dev/null && echo '=== Node.js ===' && node -v 2>/dev/null || echo '未安装' && echo '=== Python ===' && python3 --version 2>/dev/null || echo '未安装' && echo '=== Rust ===' && rustc --version 2>/dev/null || echo '未安装' && echo '=== Go ===' && go version 2>/dev/null || echo '未安装' && echo '=== Docker ===' && docker --version 2>/dev/null || echo '未安装' && echo '=== Nginx ===' && nginx -v 2>&1 || echo '未安装'"
```

**检查要点**:
- 磁盘空间是否足够
- 内存:Node.js ≥ 512MB,Rust 编译 ≥ 1GB(或本地交叉编译)
- 架构:`x86_64` / `aarch64`(Rust/Go 需匹配编译目标)
- 记录缺少的组件,后续统一安装

---

## 第三步:安装运行时环境

根据 `$PROJECT_TYPE` 安装对应运行时。仅安装缺少的组件。

### Node.js 项目

```bash
# 安装 Node.js 20(如未安装)
ssh $SSH_TARGET "curl -fsSL https://deb.nodesource.com/setup_20.x | bash - && apt-get install -y nodejs"
# 安装 PM2
ssh $SSH_TARGET "npm install -g pm2"
```

### Python 项目

```bash
# 安装 Python3 + pip + venv(如未安装)
ssh $SSH_TARGET "apt-get install -y python3 python3-pip python3-venv"
```

### Rust 项目

两种方案,根据服务器资源选择:

**方案 A:服务器编译(内存 ≥ 1GB)**
```bash
ssh $SSH_TARGET "curl --proto '=https' --tlsv1.2 -sSf https://sh.rustup.rs | sh -s -- -y && source ~/.cargo/env"
```

**方案 B:本地交叉编译(推荐低配服务器)**
```bash
# 本地编译(需安装对应 target)
rustup target add x86_64-unknown-linux-gnu  # 或 aarch64-unknown-linux-gnu
cargo build --release --target x86_64-unknown-linux-gnu
# 仅上传编译产物
```

### Go 项目

同样两种方案:

**方案 A:服务器编译**
```bash
ssh $SSH_TARGET "wget -q https://go.dev/dl/go1.22.0.linux-amd64.tar.gz && tar -C /usr/local -xzf go1.22.0.linux-amd64.tar.gz && echo 'export PATH=\$PATH:/usr/local/go/bin' >> ~/.bashrc"
```

**方案 B:本地交叉编译(推荐)**
```bash
GOOS=linux GOARCH=amd64 go build -o $PROJECT_NAME .
# 仅上传二进制文件
```

### Docker 项目

```bash
# 安装 Docker(如未安装)
ssh $SSH_TARGET "curl -fsSL https://get.docker.com | sh && systemctl enable docker && systemctl start docker"
```

### Nginx(有域名时必装)

```bash
ssh $SSH_TARGET "apt-get install -y nginx && systemctl enable nginx && systemctl start nginx"
```

---

## 第四步:上传项目

### 4a. 排除项(按项目类型)

| 项目类型 | 排除目录/文件 |
|---------|-------------|
| Node.js | `node_modules/`, `.next/`, `dist/`, `.git/` |
| Python | `__pycache__/`, `.venv/`, `venv/`, `*.pyc`, `.git/` |
| Rust | `target/`, `.git/`(方案 B 仅上传 `target/release/$BINARY`) |
| Go | `vendor/`(如有), `.git/`(方案 B 仅上传二进制) |
| Docker | `.git/`(需要上传 Dockerfile) |
| 静态站 | `.git/`, `node_modules/` |

### 4b. rsync 上传

**注意**:大文件传输时 SSH 可能断连。使用保活参数:

```bash
rsync -avz --timeout=300 \
  -e "ssh -o ServerAliveInterval=30 -o ServerAliveCountMax=10" \
  --exclude='.git' --exclude='<TYPE_SPECIFIC_EXCLUDES>' \
  $PROJECT_DIR/ $SSH_TARGET:$REMOTE_DIR/
```

**如果文件很大(>500MB)**:先上传代码,再单独上传大文件。

**如果 SSH 频繁断连**:调整服务器 SSH 配置:
```bash
ssh $SSH_TARGET "sed -i 's/#ClientAliveInterval.*/ClientAliveInterval 60/' /etc/ssh/sshd_config && sed -i 's/#ClientAliveCountMax.*/ClientAliveCountMax 120/' /etc/ssh/sshd_config && systemctl reload ssh || systemctl reload sshd"
```

### 4c. 安装依赖 + 构建

**用 nohup 后台执行**,防止断连中断:

| 项目类型 | 命令 |
|---------|------|
| Node.js | `nohup bash -c 'npm install && npm run build' > /tmp/build.log 2>&1 &` |
| Python | `nohup bash -c 'python3 -m venv .venv && .venv/bin/pip install -r requirements.txt' > /tmp/build.log 2>&1 &` |
| Rust (方案A) | `nohup bash -c 'source ~/.cargo/env && cargo build --release' > /tmp/build.log 2>&1 &` |
| Go (方案A) | `nohup bash -c 'go build -o $PROJECT_NAME .' > /tmp/build.log 2>&1 &` |
| Docker | `nohup bash -c 'docker compose build' > /tmp/build.log 2>&1 &` |
| 静态站 | 无需构建 |

等待后查看构建结果:`ssh $SSH_TARGET "tail -20 /tmp/build.log"`

---

## 第五步:启动应用与进程管理

根据项目类型选择对应的进程管理方案。

### Node.js → PM2

```bash
ssh $SSH_TARGET "cd $REMOTE_DIR && pm2 start npm --name $PROJECT_NAME -- start && pm2 star
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