Initial release: CPCHECK cloud port detection tool

Web-based TCP/UDP port checker with firewall/GFW diagnosis, PM2 deployment config, and Ubuntu one-click install script.

Co-authored-by: Cursor <cursoragent@cursor.com>
This commit is contained in:
dekun
2026-06-16 15:24:40 +08:00
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venv/
__pycache__/
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dist/
build/
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logs/
*.log
.DS_Store
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# CPCHECK 部署文档
本文档详细说明如何在 Ubuntu 服务器上部署 CPCHECK 端口检测工具。
## 环境要求
| 项目 | 要求 |
|------|------|
| 操作系统 | Ubuntu 20.04 / 22.04 / 24.04 |
| 用户权限 | root |
| Python | >= 3.10 |
| 安装路径 | /opt/cpcheck |
| 服务端口 | 5230 |
| 进程管理 | PM2 |
> **注意**: 本工具仅支持 Ubuntu Linux,不支持 Windows 及其他发行版。
## 一键部署
### 1. 获取代码
```bash
git clone https://git.bz121.com/dekun/cpcheck.git
cd cpcheck
```
### 2. 执行部署脚本
```bash
sudo bash deploy/install.sh
```
部署脚本会自动完成以下操作:
1. 检测 Ubuntu 系统和 root 权限
2. 安装系统依赖(python3、ping、curl 等)
3. 安装 Node.js 和 PM2(如未安装)
4. 复制代码到 `/opt/cpcheck`
5. 创建 Python 虚拟环境并安装依赖
6. 通过 PM2 启动服务
7. 配置 PM2 开机自启
8. 放行防火墙端口 5230(如 UFW 已启用)
9. 执行健康检查
### 3. 验证部署
```bash
# 检查 PM2 服务状态
pm2 status
# 健康检查
curl http://127.0.0.1:5230/api/health
# 测试端口检测
curl -X POST http://127.0.0.1:5230/api/check \
-H "Content-Type: application/json" \
-d '{"host":"example.com","port":80,"protocol":"tcp"}'
```
### 4. 访问 Web 界面
浏览器打开: `http://<服务器公网IP>:5230`
## 手动部署
如需手动部署,按以下步骤操作:
```bash
# 1. 安装依赖
apt-get update
apt-get install -y python3 python3-venv python3-pip iputils-ping curl git
# 2. 安装 Node.js 和 PM2
curl -fsSL https://deb.nodesource.com/setup_20.x | bash -
apt-get install -y nodejs
npm install -g pm2
# 3. 部署代码
mkdir -p /opt/cpcheck
cp -r . /opt/cpcheck/
cd /opt/cpcheck
# 4. 创建虚拟环境
python3 -m venv venv
venv/bin/pip install -r requirements.txt
# 5. 创建日志目录
mkdir -p logs
# 6. 启动服务
pm2 start ecosystem.config.js
pm2 save
pm2 startup systemd -u root --hp /root
```
## 更新部署
```bash
cd /path/to/cpcheck
git pull
sudo bash deploy/install.sh
```
部署脚本会自动重启服务。
## 防火墙配置
### UFW
```bash
ufw allow 5230/tcp
ufw reload
```
### iptables
```bash
iptables -A INPUT -p tcp --dport 5230 -j ACCEPT
```
### 云服务商安全组
在云服务商控制台的安全组/防火墙规则中,放行入站 TCP 5230 端口。
## 目录结构(部署后)
```
/opt/cpcheck/
├── app/ # 后端代码
├── static/ # 前端静态文件
├── venv/ # Python 虚拟环境
├── logs/ # PM2 日志
│ ├── error.log
│ └── out.log
├── ecosystem.config.js # PM2 配置
└── requirements.txt
```
## 运维管理
### 常用 PM2 命令
```bash
pm2 status # 查看所有进程状态
pm2 logs cpcheck # 实时查看日志
pm2 logs cpcheck --lines 100 # 查看最近 100 行
pm2 restart cpcheck # 重启服务
pm2 stop cpcheck # 停止服务
pm2 delete cpcheck # 删除进程
pm2 monit # 监控面板
```
### 查看日志
```bash
# PM2 日志
pm2 logs cpcheck
# 日志文件
tail -f /opt/cpcheck/logs/out.log
tail -f /opt/cpcheck/logs/error.log
```
### 修改配置
编辑 `/opt/cpcheck/app/config.py` 可修改超时时间等参数:
```python
CONNECT_TIMEOUT = 5 # TCP 连接超时(秒)
UDP_TIMEOUT = 5 # UDP 检测超时(秒)
PING_TIMEOUT = 3 # Ping 超时(秒)
```
修改后重启: `pm2 restart cpcheck`
## 故障排查
### 服务无法启动
```bash
# 查看错误日志
pm2 logs cpcheck --err
# 手动测试启动
cd /opt/cpcheck
venv/bin/uvicorn app.main:app --host 0.0.0.0 --port 5230
```
### 端口被占用
```bash
# 查看 5230 端口占用
ss -tlnp | grep 5230
# 或
lsof -i :5230
```
### 检测功能异常
```bash
# 确认 ping 命令可用
ping -c 1 8.8.8.8
# 确认 DNS 解析正常
nslookup example.com
# 手动测试 TCP 连接
nc -zv example.com 80
```
### PM2 开机不自启
```bash
pm2 save
pm2 startup systemd -u root --hp /root
# 执行输出的命令
```
## 卸载
```bash
pm2 stop cpcheck
pm2 delete cpcheck
pm2 save
rm -rf /opt/cpcheck
```
## 安全建议
1. 建议通过 Nginx 反向代理并配置 HTTPS
2. 限制访问 IP 或使用认证(如需公网暴露)
3. 定期更新系统和依赖包
4. 监控服务器资源使用情况
## Nginx 反向代理(可选)
```nginx
server {
listen 80;
server_name check.example.com;
location / {
proxy_pass http://127.0.0.1:5230;
proxy_set_header Host $host;
proxy_set_header X-Real-IP $remote_addr;
proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for;
}
}
```
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# CPCHECK - 云服务器端口检测工具
CPCHECK 是一款面向云服务器的端口检测工具,提供 Web 界面,支持 TCP/UDP 端口检测,并能快速定位端口问题是「未开放」「防火墙拦截」还是「被墙/网络过滤」。
## 功能特性
- **TCP/UDP 端口检测** — 输入域名或 IP + 端口,一键检测
- **智能问题诊断** — 自动分析并给出结论:
- 端口开放,服务正常可达
- 端口未开放(目标无服务监听)
- 可能被防火墙拦截(主机可达但端口超时)
- 可能被墙或上游网络过滤(主机不可达 + 端口超时)
- DNS 解析失败
- UDP 状态不确定(协议特性)
- **Web 界面** — 简洁现代的前端,实时展示检测结果与详情
- **一键部署** — Ubuntu 下 root 用户运行部署脚本即可完成安装
## 系统要求
- **操作系统**: Ubuntu(仅支持 Linux,不支持 Windows
- **Python**: >= 3.10
- **权限**: root 用户
- **端口**: 5230Web 服务)
## 快速开始
```bash
# 克隆仓库
git clone https://git.bz121.com/dekun/cpcheck.git
cd cpcheck
# 一键部署(需 root
sudo bash deploy/install.sh
```
部署完成后访问: `http://<服务器IP>:5230`
详细部署说明请参阅 [DEPLOY.md](DEPLOY.md)。
## 使用方法
1. 打开浏览器访问 `http://<服务器IP>:5230`
2. 输入目标域名或 IP 地址
3. 输入端口号(1-65535
4. 选择协议(TCP 或 UDP
5. 点击「开始检测」,查看诊断结论
## 诊断逻辑说明
| 检测现象 | 诊断结论 |
|---------|---------|
| TCP 连接成功 | 端口开放 |
| TCP Connection Refused | 端口未开放 |
| TCP 超时 + 主机 Ping 可达 | 可能被防火墙拦截 |
| TCP 超时 + 主机 Ping 不可达 | 可能被墙或网络过滤 |
| DNS 解析失败 | 域名问题 |
| UDP 无响应 | 状态不确定(开放或被过滤) |
| UDP ICMP Port Unreachable | 端口未开放 |
## API 接口
### 健康检查
```
GET /api/health
```
### 端口检测
```
POST /api/check
Content-Type: application/json
{
"host": "example.com",
"port": 443,
"protocol": "tcp"
}
```
响应示例:
```json
{
"success": true,
"data": {
"host": "example.com",
"port": 443,
"protocol": "tcp",
"resolved_ip": "93.184.216.34",
"port_status": "open",
"diagnosis": "port_open",
"diagnosis_message": "端口开放,服务正常可达",
"host_reachable": true,
"dns_ok": true,
"latency_ms": 45.2,
"details": ["DNS 解析成功: example.com -> 93.184.216.34", "..."],
"elapsed_ms": 1200.5
}
}
```
## 项目结构
```
cpcheck/
├── app/
│ ├── main.py # FastAPI 应用入口
│ ├── detector.py # 端口检测与诊断逻辑
│ └── config.py # 配置
├── static/
│ ├── index.html # Web 前端页面
│ ├── css/style.css
│ └── js/app.js
├── deploy/
│ └── install.sh # 一键部署脚本
├── tests/
│ └── test_detector.py # 单元测试
├── ecosystem.config.js # PM2 配置
├── requirements.txt
├── README.md
└── DEPLOY.md
```
## 运维命令
```bash
pm2 status # 查看服务状态
pm2 logs cpcheck # 查看日志
pm2 restart cpcheck # 重启服务
pm2 stop cpcheck # 停止服务
```
## 运行测试
```bash
cd /opt/cpcheck
venv/bin/python -m pytest tests/ -v
# 或使用 unittest
venv/bin/python -m unittest discover -s tests -v
```
## 许可证
MIT License
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"""CPCHECK 应用包"""
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"""应用配置"""
HOST = "0.0.0.0"
PORT = 5230
CONNECT_TIMEOUT = 5
UDP_TIMEOUT = 5
PING_TIMEOUT = 3
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"""端口检测与问题诊断模块"""
import socket
import subprocess
import time
from dataclasses import dataclass, field
from enum import Enum
class PortStatus(str, Enum):
OPEN = "open"
CLOSED = "closed"
FILTERED = "filtered"
UNKNOWN = "unknown"
class DiagnosisType(str, Enum):
PORT_OPEN = "port_open"
PORT_NOT_OPEN = "port_not_open"
LIKELY_FIREWALL = "likely_firewall"
LIKELY_BLOCKED = "likely_blocked"
HOST_UNREACHABLE = "host_unreachable"
DNS_FAILED = "dns_failed"
UDP_AMBIGUOUS = "udp_ambiguous"
DIAGNOSIS_MESSAGES = {
DiagnosisType.PORT_OPEN: "端口开放,服务正常可达",
DiagnosisType.PORT_NOT_OPEN: "端口未开放,目标主机上该端口无服务监听",
DiagnosisType.LIKELY_FIREWALL: "端口可能被防火墙拦截,主机可达但端口无响应",
DiagnosisType.LIKELY_BLOCKED: "端口可能被墙或上游网络过滤,连接超时",
DiagnosisType.HOST_UNREACHABLE: "目标主机不可达,请检查 IP/域名是否正确",
DiagnosisType.DNS_FAILED: "域名解析失败,请检查域名是否正确",
DiagnosisType.UDP_AMBIGUOUS: "UDP 端口状态不确定,可能开放或被过滤(UDP 协议特性)",
}
@dataclass
class CheckResult:
host: str
port: int
protocol: str
resolved_ip: str = ""
port_status: PortStatus = PortStatus.UNKNOWN
diagnosis: DiagnosisType = DiagnosisType.UDP_AMBIGUOUS
diagnosis_message: str = ""
host_reachable: bool = False
dns_ok: bool = False
latency_ms: float | None = None
details: list[str] = field(default_factory=list)
elapsed_ms: float = 0
def resolve_host(host: str) -> tuple[str | None, str | None]:
"""解析域名,返回 (ip, error)"""
try:
ip = socket.gethostbyname(host.strip())
return ip, None
except socket.gaierror as e:
return None, str(e)
def ping_host(host: str, timeout: int = 3) -> bool:
"""检测主机是否可达(ICMP ping"""
try:
result = subprocess.run(
["ping", "-c", "1", "-W", str(timeout), host],
capture_output=True,
timeout=timeout + 2,
)
return result.returncode == 0
except (subprocess.TimeoutExpired, FileNotFoundError, OSError):
return False
def check_tcp(host: str, port: int, timeout: float = 5) -> tuple[PortStatus, float | None, str]:
"""TCP 端口检测,返回 (状态, 延迟ms, 详情)"""
start = time.monotonic()
sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
sock.settimeout(timeout)
try:
sock.connect((host, port))
latency = (time.monotonic() - start) * 1000
return PortStatus.OPEN, round(latency, 2), f"TCP 连接成功,耗时 {latency:.0f}ms"
except ConnectionRefusedError:
return PortStatus.CLOSED, None, "TCP 连接被拒绝 (Connection Refused)"
except socket.timeout:
return PortStatus.FILTERED, None, f"TCP 连接超时 ({timeout}s)"
except OSError as e:
if e.errno in (113,): # EHOSTUNREACH
return PortStatus.FILTERED, None, f"主机不可达: {e}"
return PortStatus.UNKNOWN, None, f"TCP 检测异常: {e}"
finally:
sock.close()
def check_udp(host: str, port: int, timeout: float = 5) -> tuple[PortStatus, float | None, str]:
"""UDP 端口检测,返回 (状态, 延迟ms, 详情)"""
start = time.monotonic()
sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
sock.settimeout(timeout)
try:
sock.connect((host, port))
sock.send(b"\x00")
try:
sock.recv(1024)
latency = (time.monotonic() - start) * 1000
return PortStatus.OPEN, round(latency, 2), f"UDP 收到响应,耗时 {latency:.0f}ms"
except ConnectionRefusedError:
return PortStatus.CLOSED, None, "UDP 收到 ICMP Port Unreachable,端口未开放"
except socket.timeout:
return PortStatus.UNKNOWN, None, "UDP 无响应(开放或被过滤,无法确定)"
except OSError as e:
return PortStatus.UNKNOWN, None, f"UDP 检测异常: {e}"
finally:
sock.close()
def diagnose(
port_status: PortStatus,
protocol: str,
host_reachable: bool,
dns_ok: bool,
) -> tuple[DiagnosisType, str]:
"""根据检测结果给出诊断结论"""
if not dns_ok:
return DiagnosisType.DNS_FAILED, DIAGNOSIS_MESSAGES[DiagnosisType.DNS_FAILED]
if port_status == PortStatus.OPEN:
return DiagnosisType.PORT_OPEN, DIAGNOSIS_MESSAGES[DiagnosisType.PORT_OPEN]
if port_status == PortStatus.CLOSED:
return DiagnosisType.PORT_NOT_OPEN, DIAGNOSIS_MESSAGES[DiagnosisType.PORT_NOT_OPEN]
if port_status == PortStatus.FILTERED:
if host_reachable:
return (
DiagnosisType.LIKELY_FIREWALL,
DIAGNOSIS_MESSAGES[DiagnosisType.LIKELY_FIREWALL],
)
return (
DiagnosisType.LIKELY_BLOCKED,
DIAGNOSIS_MESSAGES[DiagnosisType.LIKELY_BLOCKED],
)
if protocol == "udp" and port_status == PortStatus.UNKNOWN:
if not host_reachable:
return (
DiagnosisType.HOST_UNREACHABLE,
DIAGNOSIS_MESSAGES[DiagnosisType.HOST_UNREACHABLE],
)
return DiagnosisType.UDP_AMBIGUOUS, DIAGNOSIS_MESSAGES[DiagnosisType.UDP_AMBIGUOUS]
if not host_reachable:
return (
DiagnosisType.HOST_UNREACHABLE,
DIAGNOSIS_MESSAGES[DiagnosisType.HOST_UNREACHABLE],
)
return DiagnosisType.UDP_AMBIGUOUS, DIAGNOSIS_MESSAGES[DiagnosisType.UDP_AMBIGUOUS]
def run_check(host: str, port: int, protocol: str) -> CheckResult:
"""执行完整的端口检测流程"""
start = time.monotonic()
result = CheckResult(host=host, port=port, protocol=protocol.lower())
details: list[str] = []
# 1. DNS 解析
resolved_ip, dns_error = resolve_host(host)
if dns_error:
result.dns_ok = False
result.diagnosis = DiagnosisType.DNS_FAILED
result.diagnosis_message = DIAGNOSIS_MESSAGES[DiagnosisType.DNS_FAILED]
result.details.append(f"DNS 解析失败: {dns_error}")
result.elapsed_ms = round((time.monotonic() - start) * 1000, 2)
return result
result.dns_ok = True
result.resolved_ip = resolved_ip # type: ignore[assignment]
details.append(f"DNS 解析成功: {host} -> {resolved_ip}")
# 2. 主机可达性
host_reachable = ping_host(resolved_ip) # type: ignore[arg-type]
result.host_reachable = host_reachable
details.append(
f"主机 Ping: {'可达' if host_reachable else '不可达或无响应'}"
)
# 3. 端口检测
if protocol.lower() == "tcp":
port_status, latency, detail = check_tcp(resolved_ip, port) # type: ignore[arg-type]
else:
port_status, latency, detail = check_udp(resolved_ip, port) # type: ignore[arg-type]
result.port_status = port_status
result.latency_ms = latency
details.append(detail)
# 4. 诊断
diagnosis, message = diagnose(port_status, protocol, host_reachable, result.dns_ok)
result.diagnosis = diagnosis
result.diagnosis_message = message
result.details = details
result.elapsed_ms = round((time.monotonic() - start) * 1000, 2)
return result
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"""CPCHECK - 云服务器端口检测工具 API"""
import os
from pathlib import Path
from fastapi import FastAPI, HTTPException
from fastapi.responses import FileResponse
from fastapi.staticfiles import StaticFiles
from pydantic import BaseModel, Field, field_validator
from app.config import HOST, PORT
from app.detector import CheckResult, run_check
BASE_DIR = Path(__file__).resolve().parent.parent
STATIC_DIR = BASE_DIR / "static"
app = FastAPI(
title="CPCHECK",
description="云服务器端口检测工具 - 支持 TCP/UDP 端口检测与问题诊断",
version="1.0.0",
)
if STATIC_DIR.exists():
app.mount("/static", StaticFiles(directory=str(STATIC_DIR)), name="static")
class CheckRequest(BaseModel):
host: str = Field(..., min_length=1, max_length=255, description="域名或 IP 地址")
port: int = Field(..., ge=1, le=65535, description="端口号")
protocol: str = Field(default="tcp", description="协议类型: tcp 或 udp")
@field_validator("protocol")
@classmethod
def validate_protocol(cls, v: str) -> str:
v = v.lower().strip()
if v not in ("tcp", "udp"):
raise ValueError("协议必须是 tcp 或 udp")
return v
@field_validator("host")
@classmethod
def validate_host(cls, v: str) -> str:
v = v.strip()
if not v:
raise ValueError("主机地址不能为空")
return v
class CheckResponse(BaseModel):
success: bool
data: dict | None = None
error: str | None = None
def result_to_dict(result: CheckResult) -> dict:
return {
"host": result.host,
"port": result.port,
"protocol": result.protocol,
"resolved_ip": result.resolved_ip,
"port_status": result.port_status.value,
"diagnosis": result.diagnosis.value,
"diagnosis_message": result.diagnosis_message,
"host_reachable": result.host_reachable,
"dns_ok": result.dns_ok,
"latency_ms": result.latency_ms,
"details": result.details,
"elapsed_ms": result.elapsed_ms,
}
@app.get("/")
async def index():
index_file = STATIC_DIR / "index.html"
if index_file.exists():
return FileResponse(str(index_file))
return {"message": "CPCHECK API is running. Visit /docs for API documentation."}
@app.get("/api/health")
async def health():
return {"status": "ok", "service": "cpcheck"}
@app.post("/api/check", response_model=CheckResponse)
async def check_port(req: CheckRequest):
try:
result = run_check(req.host, req.port, req.protocol)
return CheckResponse(success=True, data=result_to_dict(result))
except Exception as e:
raise HTTPException(status_code=500, detail=str(e))
def start():
import uvicorn
uvicorn.run("app.main:app", host=HOST, port=PORT, reload=False)
if __name__ == "__main__":
start()
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module.exports = {
apps: [
{
name: "cpcheck",
script: "venv/bin/uvicorn",
args: "app.main:app --host 0.0.0.0 --port 5230",
cwd: "/opt/cpcheck",
interpreter: "none",
instances: 1,
autorestart: true,
watch: false,
max_memory_restart: "200M",
env: {
NODE_ENV: "production",
},
error_file: "/opt/cpcheck/logs/error.log",
out_file: "/opt/cpcheck/logs/out.log",
log_date_format: "YYYY-MM-DD HH:mm:ss",
},
],
};
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fastapi==0.115.6
uvicorn[standard]==0.34.0
pydantic==2.10.4
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:root {
--bg: #0f1419;
--surface: #1a2332;
--surface-hover: #243044;
--border: #2d3a4f;
--text: #e7ecf3;
--text-muted: #8b9cb3;
--primary: #3b82f6;
--primary-hover: #2563eb;
--success: #22c55e;
--warning: #f59e0b;
--danger: #ef4444;
--info: #06b6d4;
--radius: 10px;
}
* {
margin: 0;
padding: 0;
box-sizing: border-box;
}
body {
font-family: -apple-system, BlinkMacSystemFont, "Segoe UI", Roboto, "Helvetica Neue", Arial, sans-serif;
background: var(--bg);
color: var(--text);
min-height: 100vh;
line-height: 1.6;
}
.container {
max-width: 800px;
margin: 0 auto;
padding: 2rem 1.5rem;
min-height: 100vh;
display: flex;
flex-direction: column;
}
header {
text-align: center;
margin-bottom: 2.5rem;
}
header h1 {
font-size: 2rem;
font-weight: 700;
letter-spacing: 0.05em;
background: linear-gradient(135deg, var(--primary), var(--info));
-webkit-background-clip: text;
-webkit-text-fill-color: transparent;
background-clip: text;
}
.subtitle {
color: var(--text-muted);
margin-top: 0.5rem;
font-size: 0.95rem;
}
.check-form {
background: var(--surface);
border: 1px solid var(--border);
border-radius: var(--radius);
padding: 1.5rem;
margin-bottom: 1.5rem;
}
.form-row {
display: flex;
gap: 1rem;
margin-bottom: 1.25rem;
flex-wrap: wrap;
}
.form-group {
display: flex;
flex-direction: column;
gap: 0.4rem;
flex: 1;
min-width: 120px;
}
.form-group.flex-2 {
flex: 2;
min-width: 200px;
}
.form-group label {
font-size: 0.85rem;
color: var(--text-muted);
font-weight: 500;
}
.form-group input,
.form-group select {
background: var(--bg);
border: 1px solid var(--border);
border-radius: 6px;
padding: 0.65rem 0.85rem;
color: var(--text);
font-size: 0.95rem;
transition: border-color 0.2s;
}
.form-group input:focus,
.form-group select:focus {
outline: none;
border-color: var(--primary);
}
.btn-primary {
width: 100%;
background: var(--primary);
color: #fff;
border: none;
border-radius: 6px;
padding: 0.75rem 1.5rem;
font-size: 1rem;
font-weight: 600;
cursor: pointer;
transition: background 0.2s;
}
.btn-primary:hover:not(:disabled) {
background: var(--primary-hover);
}
.btn-primary:disabled {
opacity: 0.6;
cursor: not-allowed;
}
.error-box {
background: rgba(239, 68, 68, 0.1);
border: 1px solid var(--danger);
border-radius: var(--radius);
padding: 1rem 1.25rem;
color: var(--danger);
margin-bottom: 1.5rem;
}
.result-box {
background: var(--surface);
border: 1px solid var(--border);
border-radius: var(--radius);
padding: 1.5rem;
animation: fadeIn 0.3s ease;
}
@keyframes fadeIn {
from { opacity: 0; transform: translateY(8px); }
to { opacity: 1; transform: translateY(0); }
}
.result-header {
display: flex;
justify-content: space-between;
align-items: center;
margin-bottom: 1.25rem;
}
.result-header h2 {
font-size: 1.1rem;
font-weight: 600;
}
.elapsed {
font-size: 0.85rem;
color: var(--text-muted);
}
.diagnosis-card {
display: flex;
align-items: flex-start;
gap: 1rem;
padding: 1.25rem;
border-radius: var(--radius);
margin-bottom: 1.5rem;
border: 1px solid var(--border);
}
.diagnosis-card.success { background: rgba(34, 197, 94, 0.08); border-color: rgba(34, 197, 94, 0.3); }
.diagnosis-card.warning { background: rgba(245, 158, 11, 0.08); border-color: rgba(245, 158, 11, 0.3); }
.diagnosis-card.danger { background: rgba(239, 68, 68, 0.08); border-color: rgba(239, 68, 68, 0.3); }
.diagnosis-card.info { background: rgba(6, 182, 212, 0.08); border-color: rgba(6, 182, 212, 0.3); }
.diagnosis-icon {
font-size: 1.75rem;
line-height: 1;
flex-shrink: 0;
}
.diagnosis-content h3 {
font-size: 1rem;
font-weight: 600;
margin-bottom: 0.25rem;
}
.diagnosis-content p {
font-size: 0.9rem;
color: var(--text-muted);
}
.info-grid {
display: grid;
grid-template-columns: repeat(auto-fill, minmax(140px, 1fr));
gap: 0.75rem;
margin-bottom: 1.5rem;
}
.info-item {
background: var(--bg);
border-radius: 6px;
padding: 0.75rem;
}
.info-label {
display: block;
font-size: 0.75rem;
color: var(--text-muted);
margin-bottom: 0.2rem;
}
.info-value {
font-size: 0.9rem;
font-weight: 500;
}
.status-open { color: var(--success); }
.status-closed { color: var(--danger); }
.status-filtered { color: var(--warning); }
.status-unknown { color: var(--text-muted); }
.details-section h3 {
font-size: 0.9rem;
color: var(--text-muted);
margin-bottom: 0.75rem;
font-weight: 500;
}
.details-list {
list-style: none;
display: flex;
flex-direction: column;
gap: 0.5rem;
}
.details-list li {
font-size: 0.85rem;
color: var(--text-muted);
padding-left: 1rem;
position: relative;
}
.details-list li::before {
content: "";
position: absolute;
left: 0;
color: var(--primary);
}
footer {
margin-top: auto;
padding-top: 2rem;
text-align: center;
color: var(--text-muted);
font-size: 0.8rem;
}
@media (max-width: 600px) {
.form-row {
flex-direction: column;
}
.form-group.flex-2 {
min-width: 100%;
}
}
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<!DOCTYPE html>
<html lang="zh-CN">
<head>
<meta charset="UTF-8">
<meta name="viewport" content="width=device-width, initial-scale=1.0">
<title>CPCHECK - 云服务器端口检测</title>
<link rel="stylesheet" href="/static/css/style.css">
</head>
<body>
<div class="container">
<header>
<h1>CPCHECK</h1>
<p class="subtitle">云服务器端口检测工具 · 快速定位端口问题</p>
</header>
<main>
<form id="checkForm" class="check-form">
<div class="form-row">
<div class="form-group flex-2">
<label for="host">域名 / IP 地址</label>
<input type="text" id="host" name="host" placeholder="例如: example.com 或 8.8.8.8" required>
</div>
<div class="form-group">
<label for="port">端口</label>
<input type="number" id="port" name="port" min="1" max="65535" placeholder="443" required>
</div>
<div class="form-group">
<label for="protocol">协议</label>
<select id="protocol" name="protocol">
<option value="tcp" selected>TCP</option>
<option value="udp">UDP</option>
</select>
</div>
</div>
<button type="submit" id="submitBtn" class="btn-primary">
<span class="btn-text">开始检测</span>
<span class="btn-loading" hidden>检测中...</span>
</button>
</form>
<div id="errorBox" class="error-box" hidden></div>
<div id="resultBox" class="result-box" hidden>
<div class="result-header">
<h2>检测结果</h2>
<span id="elapsed" class="elapsed"></span>
</div>
<div id="diagnosisCard" class="diagnosis-card">
<div id="diagnosisIcon" class="diagnosis-icon"></div>
<div class="diagnosis-content">
<h3 id="diagnosisTitle"></h3>
<p id="diagnosisMessage"></p>
</div>
</div>
<div class="info-grid">
<div class="info-item">
<span class="info-label">目标</span>
<span id="infoTarget" class="info-value"></span>
</div>
<div class="info-item">
<span class="info-label">解析 IP</span>
<span id="infoIp" class="info-value"></span>
</div>
<div class="info-item">
<span class="info-label">端口状态</span>
<span id="infoStatus" class="info-value"></span>
</div>
<div class="info-item">
<span class="info-label">主机可达</span>
<span id="infoReachable" class="info-value"></span>
</div>
<div class="info-item">
<span class="info-label">连接延迟</span>
<span id="infoLatency" class="info-value"></span>
</div>
</div>
<div class="details-section">
<h3>检测详情</h3>
<ul id="detailsList" class="details-list"></ul>
</div>
</div>
</main>
<footer>
<p>CPCHECK v1.0 · 支持 TCP/UDP 端口检测</p>
</footer>
</div>
<script src="/static/js/app.js"></script>
</body>
</html>
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const DIAGNOSIS_CONFIG = {
port_open: { title: "端口开放", icon: "✓", class: "success" },
port_not_open: { title: "端口未开放", icon: "✗", class: "danger" },
likely_firewall: { title: "可能被防火墙拦截", icon: "⚠", class: "warning" },
likely_blocked: { title: "可能被墙或过滤", icon: "⊘", class: "danger" },
host_unreachable: { title: "主机不可达", icon: "✗", class: "danger" },
dns_failed: { title: "DNS 解析失败", icon: "✗", class: "danger" },
udp_ambiguous: { title: "UDP 状态不确定", icon: "?", class: "info" },
};
const STATUS_LABELS = {
open: { text: "开放", class: "status-open" },
closed: { text: "关闭", class: "status-closed" },
filtered: { text: "被过滤", class: "status-filtered" },
unknown: { text: "不确定", class: "status-unknown" },
};
const form = document.getElementById("checkForm");
const submitBtn = document.getElementById("submitBtn");
const btnText = submitBtn.querySelector(".btn-text");
const btnLoading = submitBtn.querySelector(".btn-loading");
const errorBox = document.getElementById("errorBox");
const resultBox = document.getElementById("resultBox");
form.addEventListener("submit", async (e) => {
e.preventDefault();
hideError();
resultBox.hidden = true;
setLoading(true);
const host = document.getElementById("host").value.trim();
const port = parseInt(document.getElementById("port").value, 10);
const protocol = document.getElementById("protocol").value;
try {
const resp = await fetch("/api/check", {
method: "POST",
headers: { "Content-Type": "application/json" },
body: JSON.stringify({ host, port, protocol }),
});
const json = await resp.json();
if (!resp.ok) {
throw new Error(json.detail || json.error || "请求失败");
}
if (!json.success || !json.data) {
throw new Error(json.error || "检测失败");
}
renderResult(json.data);
} catch (err) {
showError(err.message || "网络错误,请稍后重试");
} finally {
setLoading(false);
}
});
function setLoading(loading) {
submitBtn.disabled = loading;
btnText.hidden = loading;
btnLoading.hidden = !loading;
}
function showError(msg) {
errorBox.textContent = msg;
errorBox.hidden = false;
}
function hideError() {
errorBox.hidden = true;
}
function renderResult(data) {
const diag = DIAGNOSIS_CONFIG[data.diagnosis] || DIAGNOSIS_CONFIG.udp_ambiguous;
const status = STATUS_LABELS[data.port_status] || STATUS_LABELS.unknown;
const card = document.getElementById("diagnosisCard");
card.className = `diagnosis-card ${diag.class}`;
document.getElementById("diagnosisIcon").textContent = diag.icon;
document.getElementById("diagnosisTitle").textContent = diag.title;
document.getElementById("diagnosisMessage").textContent = data.diagnosis_message;
document.getElementById("elapsed").textContent = `耗时 ${data.elapsed_ms}ms`;
document.getElementById("infoTarget").textContent = `${data.host}:${data.port} (${data.protocol.toUpperCase()})`;
document.getElementById("infoIp").textContent = data.resolved_ip || "-";
document.getElementById("infoStatus").innerHTML =
`<span class="${status.class}">${status.text}</span>`;
document.getElementById("infoReachable").textContent = data.host_reachable ? "是" : "否";
document.getElementById("infoLatency").textContent =
data.latency_ms != null ? `${data.latency_ms} ms` : "-";
const list = document.getElementById("detailsList");
list.innerHTML = "";
(data.details || []).forEach((d) => {
const li = document.createElement("li");
li.textContent = d;
list.appendChild(li);
});
resultBox.hidden = false;
}
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"""测试包"""
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"""CPCHECK 单元测试"""
import socket
import unittest
from unittest.mock import MagicMock, patch
from app.detector import (
CheckResult,
DiagnosisType,
PortStatus,
check_tcp,
diagnose,
resolve_host,
run_check,
)
class TestResolveHost(unittest.TestCase):
def test_resolve_localhost(self):
ip, err = resolve_host("127.0.0.1")
self.assertIsNone(err)
self.assertEqual(ip, "127.0.0.1")
def test_resolve_invalid(self):
ip, err = resolve_host("this-domain-does-not-exist-xyz123.invalid")
self.assertIsNone(ip)
self.assertIsNotNone(err)
class TestCheckTcp(unittest.TestCase):
def test_tcp_open(self):
with patch("socket.socket") as mock_sock_cls:
mock_sock = MagicMock()
mock_sock_cls.return_value = mock_sock
status, latency, detail = check_tcp("127.0.0.1", 80, timeout=1)
self.assertEqual(status, PortStatus.OPEN)
self.assertIsNotNone(latency)
def test_tcp_closed(self):
with patch("socket.socket") as mock_sock_cls:
mock_sock = MagicMock()
mock_sock.connect.side_effect = ConnectionRefusedError
mock_sock_cls.return_value = mock_sock
status, latency, detail = check_tcp("127.0.0.1", 59999, timeout=1)
self.assertEqual(status, PortStatus.CLOSED)
self.assertIsNone(latency)
def test_tcp_timeout(self):
with patch("socket.socket") as mock_sock_cls:
mock_sock = MagicMock()
mock_sock.connect.side_effect = socket.timeout
mock_sock_cls.return_value = mock_sock
status, latency, detail = check_tcp("127.0.0.1", 59998, timeout=1)
self.assertEqual(status, PortStatus.FILTERED)
class TestDiagnose(unittest.TestCase):
def test_port_open(self):
d, msg = diagnose(PortStatus.OPEN, "tcp", True, True)
self.assertEqual(d, DiagnosisType.PORT_OPEN)
def test_port_closed(self):
d, msg = diagnose(PortStatus.CLOSED, "tcp", True, True)
self.assertEqual(d, DiagnosisType.PORT_NOT_OPEN)
def test_filtered_reachable(self):
d, msg = diagnose(PortStatus.FILTERED, "tcp", True, True)
self.assertEqual(d, DiagnosisType.LIKELY_FIREWALL)
def test_filtered_unreachable(self):
d, msg = diagnose(PortStatus.FILTERED, "tcp", False, True)
self.assertEqual(d, DiagnosisType.LIKELY_BLOCKED)
def test_dns_failed(self):
d, msg = diagnose(PortStatus.UNKNOWN, "tcp", False, False)
self.assertEqual(d, DiagnosisType.DNS_FAILED)
class TestRunCheck(unittest.TestCase):
@patch("app.detector.ping_host", return_value=True)
@patch("app.detector.check_tcp")
@patch("app.detector.resolve_host", return_value=("93.184.216.34", None))
def test_run_check_success(self, mock_resolve, mock_tcp, mock_ping):
mock_tcp.return_value = (PortStatus.OPEN, 50.0, "TCP 连接成功")
result = run_check("example.com", 80, "tcp")
self.assertIsInstance(result, CheckResult)
self.assertTrue(result.dns_ok)
self.assertEqual(result.diagnosis, DiagnosisType.PORT_OPEN)
@patch("app.detector.resolve_host", return_value=(None, "Name resolution failed"))
def test_run_check_dns_fail(self, mock_resolve):
result = run_check("invalid.invalid", 80, "tcp")
self.assertFalse(result.dns_ok)
self.assertEqual(result.diagnosis, DiagnosisType.DNS_FAILED)
class TestAPIValidation(unittest.TestCase):
def test_check_request_validation(self):
try:
from pydantic import ValidationError
from app.main import CheckRequest
except ImportError:
self.skipTest("FastAPI/Pydantic not installed")
req = CheckRequest(host="example.com", port=443, protocol="tcp")
self.assertEqual(req.protocol, "tcp")
with self.assertRaises(ValidationError):
CheckRequest(host="example.com", port=443, protocol="icmp")
with self.assertRaises(ValidationError):
CheckRequest(host="example.com", port=0, protocol="tcp")
with self.assertRaises(ValidationError):
CheckRequest(host="", port=80, protocol="tcp")
if __name__ == "__main__":
unittest.main()