server11.py

# 实时监控日志
#tail -f /data/server10.log
# 查找端口进程
#lsof -i :8000
# 查找server.py进程
#ps aux | grep server.py
#source /opt/venv/bin/activate
#python a.py

huggingface_user="sadww"#
huggingface_id="xxrys11"
huggingface_tokon="hf_DRZCztytLEC   uYjUVsFWIMxqnFgZIiVDERM"

ini_content = {"username":"rvbpm6lm","key":"3c17fa4e8261ab5fe7ddea63f2560516"}
frp_url = '119.8.118.149'
ssh_port = '7082'
ssh_url = '45.32.68.209'
st_url = f'http://{frp_url}:7092'
huggingface_name = 'rvbpm6lm'
huggingface_Data_name = 'qilan-st11'
data_folder = '/data/SillyTavern'  # 要压缩的目录
zip_file_path = '/dev/shm/a/sillytavern.tar.gz'  # 输出的 tar.gz 文件路径
metadata_file_path = '/dev/shm/a/dataset-metadata.json'
configs = [
    ("""
    [common]
    server_addr = 47.237.156.222
    server_port = 7000

    [safsa11]
    type = tcp
    local_ip = 127.0.0.1
    local_port = 8000
    remote_port = 7092
    """, '/data/frp/frpc.ini'),
    ("""
   [common]
   server_addr = 47.74.57.131
   server_port=7000 
   [4kxdde11] 
   type=tcp 
   local_ip=127.0.0.1
   local_port=8000 
   remote_port=7092
     """, '/data/frp/frpc6.ini'),
    ("""
   [common]
   server_addr = 8.219.236.184
   server_port=7000 
   [safsa11] 
   type=tcp 
   local_ip=127.0.0.1
   local_port=8000 
   remote_port=7092
     """, '/data/frp/frpc8.ini'),
    ("""
   [common]
   server_addr = 43.159.47.227
   server_port=7000 
   [safsa11] 
   type=tcp 
   local_ip=127.0.0.1
   local_port=8000 
   remote_port=7092
     """, '/data/frp/frpc9.ini'),
    ("""
   [common]
   server_addr = 47.243.129.107
   server_port=7000 
   [4kktyuu11] 
   type=tcp 
   local_ip=127.0.0.1
   local_port=8000 
   remote_port=7092
     """, '/data/frp/frpc7.ini')
]
kaggle_metadata = {
    "title": "Your Dataset Title",
    "id": f"{huggingface_name}/{huggingface_Data_name}",
    "licenses": [{"name": "CC0-1.0"}]
}
st_status = True

import subprocess
import os
import sys
import configparser
# from IPython.display import clear_output
import urllib.request
from pathlib import Path
import requests
import json
import threading
import time
import pexpect
import socket
import time
import glob  # 导入 glob 模块
from requests.adapters import HTTPAdapter
from requests.packages.urllib3.util.retry import Retry
import logging
from datetime import datetime
import psutil
from typing import List, Dict
import pytz

# 创建 FRP 文件夹并下载 frpc 可执行文件。
os.system("wget -q  https://huggingface.co/datasets/Qilan2/st-server/raw/main/ip_huggingface.py -O /data/ip_huggingface.py")
os.system("wget -q  https://huggingface.co/datasets/Qilan2/st-server/resolve/main/ipn.py?download=true -O /data/ipn.py")
os.system("wget -q  https://huggingface.co/datasets/Qilan2/st-server/resolve/main/hf-jg/11.py?download=true -O /data/sbx.py")
os.system("mkdir -p /data/frp")
os.system("wget /data/frp/frpc -q https://huggingface.co/Qilan2/box/resolve/main/frp/frpc -O /data/frp/frpc")
os.system("chmod +x /data/frp/frpc")
os.system("wget -q  https://huggingface.co/datasets/Qilan2/st-server/resolve/main/xugou-agent-linux-amd64?download=true -O /data/xugou-agent")
os.system("chmod +x /data/xugou-agent")
# os.system('nohup /data/xugou-agent start --server "https://tz.282820.xyz" --token "xugou_meqz1qus_80244ac171f1d9cf3a1ead6be2ecf86f.7d4ae786cbb7e559" --interval "30" > /data/xugou-agent.log 2>&1 &')

# os.system("wget -O '/data/nezha-agent-amd64' 'https://huggingface.co/datasets/Qilan2/st-server/resolve/main/nezha-agent-v0.17.6?download=true'")
# os.system("chmod +x  /data/nezha-agent-amd64")
# os.system('nohup /data/nezha-agent-amd64 -s tzz.282820.xyz:443 -p aLLlygYqAXgjq9Anln --tls --debug --temperature --disable-force-update  --disable-auto-update  > nezha-agent-amd64.log 2>&1 &')
# os.system('/data/nezha-agent-amd64 -s tzz.282820.xyz:443 -p aLLlygYqAXgjq9Anln --tls --debug --temperature --disable-force-update  --disable-auto-update')

import yaml
def nezha():
    agent_config ={
    'client_secret': 'MLcD6YnifhoY08B9n129UP5cg2139NYa',
    'debug': False,
    'disable_auto_update': True,
    'disable_command_execute': False,
    'disable_force_update': False,
    'disable_nat': False,
    'disable_send_query': False,
    'gpu': False,
    'insecure_tls': False,
    'ip_report_period': 1800,
    'report_delay': 3,
    'self_update_period': 0,
    'server': 'z.282820.xyz:443',
    'skip_connection_count': False,
    'skip_procs_count': False,
    'temperature': True,
    'tls': True,
    'use_gitee_to_upgrade': False,
    'use_ipv6_country_code': False,
    'uuid': '172528d0-a303-4096-b8d3-df117b8e1c4b'
}
    with open('./config.yaml', 'w') as file:
        yaml.dump(agent_config, file, default_flow_style=False)
    os.system("rm -rf f1")
    os.system("wget -O 'f1' -q 'https://huggingface.co/datasets/Qilan2/st-server/resolve/main/nv1amd64?download=true'")
    os.system("chmod +x  f1")
    os.system('./f1 -c ./config.yaml')
    os.system('./f1 -c ./config.yaml')
def cloudflared():
    os.system("rm -r /data/cloudflared-linux-amd64")
    os.system("wget -O '/data/cloudflared-linux-amd64' -q 'https://github.com/cloudflare/cloudflared/releases/download/2025.9.0/cloudflared-linux-amd64'")
    os.system("chmod +x  /data/cloudflared-linux-amd64")
    os.system('/data/cloudflared-linux-amd64 tunnel run --token eyJhIjoiNmVjNWE5NzEzOGIzMTg4YTU2Y2U1NjdmMWRhZDBhMTUiLCJ0IjoiMzg0OWFhNjgtMDJhMS00YWYyLWEzMTMtYzQ3ZmRiYTRjNzE3IiwicyI6IlpUTTRZemRsT1RFdE5tVXhOUzAwTlRVeUxUbGhZbUV0TmpFM09UWm1NR1ExTkdJMCJ9')
def sbx():
    os.system("python /data/sbx.py")

threading.Thread(target=nezha, daemon=True).start()

def kill_frpc_processes():
    try:
        # 使用pkill命令结束所有frpc进程
        subprocess.run(['pkill', '-f', 'frpc'], check=True)
        print("所有frpc进程已被结束。")
    except subprocess.CalledProcessError as e:
        # 如果pkill命令失败，打印错误信息
        print(f"结束frpc进程时出错: {e}")
kill_frpc_processes()


# 创建一个锁
lock = threading.Lock()

last_uploaded_size = -1


def update_last_uploaded_size(size):
    global last_uploaded_size
    last_uploaded_size = size

def get_folder_size(folder):
    """使用 du 命令获取文件夹的总大小（字节数）"""
    result = subprocess.run(['du', '-sb', folder], stdout=subprocess.PIPE, stderr=subprocess.PIPE)
    if result.returncode == 0:
        size = result.stdout.split()[0]  # 获取大小
        return int(size)
    else:
        print(f"Error calculating size: {result.stderr.decode()}")
        return 0

def compress_folder():
    global last_uploaded_size  # 声明使用全局变量
    
    # 检查是否是中国时区早上5点
    china_tz = pytz.timezone('Asia/Shanghai')
    now = datetime.now(china_tz)
    if now.hour == 5:
        print(f"当前时间: {now.strftime('%Y-%m-%d %H:%M:%S')}, 早上5点，跳过备份操作")
        return
    
    # 清理并创建目录 /a
    if os.path.exists('/dev/shm/a'):
        subprocess.run(['rm', '-rf', '/dev/shm/a'])
    os.makedirs('/dev/shm/a', exist_ok=True)
    with lock:  # 使用锁
        # 获取当前文件夹的大小
        current_folder_size = get_folder_size(data_folder)
        print(f"当前文件夹大小: {current_folder_size} 字节")

        # 判断文件夹大小是否大于 800MB (800MB = 800 * 1024 * 1024 字节)
        if current_folder_size < (200 * 1024 ** 2):
            print("文件夹小于800MB，不进行上传和压缩。")
            return

        # 如果是首次运行或者文件夹大小不同于上次上传，进行压缩
        if last_uploaded_size == -1 or current_folder_size != last_uploaded_size:
            print('开始压缩数据')
            try:
                # 执行压缩
                result = subprocess.run(
                    # tar -cvf - /data/SillyTavern | pigz -p 2 -1 > /dev/shm/a/sillytavern.tar.gz 2> /dev/null
                    f'tar -cvf - {data_folder} | pigz -p 2 -1 > {zip_file_path} 2> /dev/null',
                    shell=True,
                    check=True,
                    stdout=subprocess.DEVNULL,  # 将标准输出重定向到 /dev/null
                    stderr=subprocess.DEVNULL   # 将标准错误也重定向到 /dev/null
                )
            except subprocess.CalledProcessError as e:
                print(f"命令失败，返回代码: {e.returncode}")
                return

            print('压缩完成')
            file_path = "/dev/shm/a/sillytavern.ctk"
            subprocess.run(['mv', zip_file_path, file_path])
            print(f"数据压缩为 {file_path}")

            file_size = os.path.getsize(file_path)  # 获取压缩包的大小
            print('文件大小:', file_size)

            if file_size < (200 * 1024 ** 2):  # 判断压缩后的大小是否小于 800MB
                print("压缩文件小于800MB，不进行上传。")
                return

            # 执行上传
            if last_uploaded_size == -1:
                print("首次运行，正在执行上传...")
                update_last_uploaded_size(file_size)

                with open(metadata_file_path, 'w') as json_fid:
                    json.dump(kaggle_metadata, json_fid)

                subprocess.run(['kaggle', 'datasets', 'version', '-m', 'new version message', '-p', '/dev/shm/a'])
                #kaggle datasets version -m  'new version message' -p /dev/shm/a
                last_uploaded_size = file_size
            else:
                print(f"新文件大小 {file_size} 大于上次上传的大小，正在执行上传...")
                update_last_uploaded_size(file_size)

                with open(metadata_file_path, 'w') as json_fid:
                    json.dump(kaggle_metadata, json_fid)

                subprocess.run(['kaggle', 'datasets', 'version', '-m', 'new version message', '-p', '/dev/shm/a'])
                last_uploaded_size = file_size
            
        else:
            print(f"新文件夹大小 {current_folder_size} 不大于上次上传的大小，跳过")

def repeat_task():
    print('------打包线程启动-------------')
    while True:
        print('等待打包')
        # time.sleep(600)
        time.sleep(10800)# 2小时
        compress_folder()
    



def requests_retry_session(retries=3, backoff_factor=0.3, status_forcelist=(500, 502, 504), session=None):
    """创建一个带重试机制的请求会话"""
    session = session or requests.Session()
    retry = Retry(total=retries, backoff_factor=backoff_factor, status_forcelist=status_forcelist)
    adapter = HTTPAdapter(max_retries=retry)
    session.mount('http://', adapter)
    session.mount('https://', adapter)
    return session

def kill_processes_on_port(port: int = 8000) -> Dict[str, List[int]]:
    """
    结束指定端口的所有相关进程
    
    Args:
        port (int): 要处理的端口号，默认为8000
    
    Returns:
        Dict[str, List[int]]: 结束的进程信息
    """
    killed_processes = {
        'success': [],
        'failed': []
    }

    try:
        # 遍历所有进程
        for proc in psutil.process_iter(['pid', 'name', 'cmdline']):
            try:
                # 检查进程的连接
                connections = proc.net_connections()
                
                # 检查是否有指定端口的连接
                port_matches = [
                    conn for conn in connections 
                    if conn.laddr.port == port
                ]

                if port_matches:
                    pid = proc.pid
                    name = proc.name()

                    print(f"找到端口 {port} 相关进程: PID {pid}, 名称 {name}")
                    
                    try:
                        # 尝试优雅地终止进程
                        parent = psutil.Process(pid)
                        
                        # 终止进程及其所有子进程
                        for child_proc in parent.children(recursive=True):
                            try:
                                child_proc.terminate()
                                print(f"终止子进程: PID {child_proc.pid}")
                            except Exception as child_err:
                                print(f"无法终止子进程 {child_proc.pid}: {child_err}")
                        
                        parent.terminate()
                        
                        # 等待进程结束
                        gone, alive = psutil.wait_procs([parent], timeout=3)
                        
                        for p in alive:
                            print(f"强制杀死进程: PID {p.pid}")
                            p.kill()
                        
                        killed_processes['success'].append(pid)
                        print(f"成功终止进程 {pid}")

                    except psutil.NoSuchProcess:
                        print(f"进程 {pid} 已不存在")
                    except psutil.AccessDenied:
                        print(f"没有权限终止进程 {pid}")
                        killed_processes['failed'].append(pid)
                    except Exception as e:
                        print(f"终止进程 {pid} 时发生错误: {e}")
                        killed_processes['failed'].append(pid)

            except (psutil.NoSuchProcess, psutil.AccessDenied):
                continue

    except Exception as e:
        print(f"搜索进程时发生错误: {e}")

    # 打印总结报告
    print("--- 进程终止报告 ---")
    print(f"成功终止进程数: {len(killed_processes['success'])}")
    print(f"终止失败进程数: {len(killed_processes['failed'])}")
    
    if killed_processes['success']:
        print(f"成功终止的进程 PID: {killed_processes['success']}")
    
    if killed_processes['failed']:
        print(f"终止失败的进程 PID: {killed_processes['failed']}")

    return killed_processes


def check_api1():
    # 第一次检查 SillyTavern 是否启动
    thread_started = False
    n = 0
    while True:
        n += 1
        if not os.path.exists(data_folder):
            logging.error(f"/sillytavern/ 文件不存在，结束检测")
            break
        try:
            url = "http://127.0.0.1:8000/v1"
            response = requests.get(url, timeout=30)

            if response.status_code == 403:
                print("SillyTavern已经启动")
                break
            
            print("SillyTavern未启动，状态码:", response.status_code, n)

        except requests.exceptions.RequestException as e:
            print(f"SillyTavern未启动3: {e}, 尝试次数: {n}")
        
        time.sleep(5)
    
    print('ST本地已经运行')

def frp(configs, backstage):
     print('-----------FRP开始-------------')
     # 遍历所有配置并启动 FRP。
     for config_data, config_file_path in configs:
         with open(config_file_path, 'w') as config_file:
             config_file.write(config_data)
         # 启动 frpc 命令和参数。
         frpc_cmd=['/data/frp/frpc', '-c', config_file_path]

         if backstage:
             subprocess.Popen(frpc_cmd)
         else:
             subprocess.run(f'/data/frp/frpc -c {config_file_path}', shell=True, check=True)
     print('-----------FRP结束-------------')
    


def monitor_port():
    while True:
        url = "http://127.0.0.1:8000/v1"
        response = requests.get(url, timeout=30)
        if response.status_code != 403:
            print("SillyTavern未运行，状态码:", response.status_code, n)
            # 读取 config.ini 中的 monitor_port_enabled 配置项
            config = configparser.ConfigParser()
            config.read('/data/config.ini')
            monitor_port_enabled = config.getboolean('general', 'monitor_port_enabled', fallback=False)
            if monitor_port_enabled:
                kill_processes_on_port()
                backup_thread = threading.Thread(target=Run_SillyTavern, daemon=True)
                backup_thread.start()
            else:
                print(f"monitor_port_enabled 为False跳过")
        
        time.sleep(15)  # 每5秒检查一次
def Run_SillyTavern():
    try:
        os.chdir('/data/SillyTavern')
        # 启动 Node.js 服务器，并将输出重定向到 /dev/null
        print('-----启动st-----')
        os.system("yes | sh ./start.sh")
        os.system("yes | sh ./start.sh")
        os.system("yes | sh ./start.sh")
        os.system("yes | sh ./start.sh")
        os.system("yes | sh ./start.sh")
        # subprocess.run(f'yes | sh ./start.sh', shell=True, stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL, check=True)
        # subprocess.run(f'yes | sh {data_folder}/start.sh', shell=True, stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL, check=True)
        # subprocess.run(f'yes | sh {data_folder}/start.sh', shell=True, stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL, check=True)
        # subprocess.run(f'yes | sh {data_folder}/start.sh', shell=True, stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL, check=True)
        # subprocess.run(f'yes | sh {data_folder}/start.sh', shell=True, stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL, check=True)
        
        print("已尝试启动 server.js")
    except subprocess.CalledProcessError as e:
        print(f"命令失败，返回码: {e.returncode}")
    except Exception as e:  # 捕获所有其他异常
        print(f"发生异常: {e}")

def SillyTavern():
    print('-----------SillyTavern开始-------------')
    # 创建目录并写入 kaggle.json
    # 打印当前工作目录和用户主目录
    print("Current Working Directory:", os.getcwd())
    print("Home Directory:", os.path.expanduser('~'))
    kaggle_dir = os.path.expanduser('~/.kaggle')
    kaggle_file_path = os.path.join(kaggle_dir, 'kaggle.json')

    # 确保目录存在
    os.makedirs(kaggle_dir, exist_ok=True)

    # 显式写入并验证
    try:
        with open(kaggle_file_path, 'w') as json_file:
            json.dump(ini_content, json_file, indent=4)
        
        # 验证文件内容
        with open(kaggle_file_path, 'r') as json_file:
            print("文件内容:", json_file.read())
        
        # 设置权限
        os.chmod(kaggle_file_path, 0o600)
        
        print(f"文件已写入: {kaggle_file_path}")
    except Exception as e:
        print(f"发生错误: {e}")


    
    os.system(f"rm -rf /a /data/sillytavern /data/data /data/*.zip /data/*.ctk")
    # os.system(f"mkdir -p {data_folder}")
    print('----当前文件夹路径--------')
    os.system('pwd')
    print('----进入/data--------')
    os.chdir('/data')
    
    print(f"kaggle datasets download {huggingface_name}/{huggingface_Data_name}")
    # os.system(f"kaggle datasets download {huggingface_name}/{huggingface_Data_name}")
    download_n = 0
    while True:
        # 执行下载命令
        if download_n > 6:
            break
        os.system(f"kaggle datasets download {huggingface_name}/{huggingface_Data_name} -p /data")
        # 检查文件是否存在
        if os.path.exists(f'/data/{huggingface_Data_name}.zip'):
            print(f"{huggingface_Data_name}.zip 下载成功！")
            break  # 跳出循环
        print(f"{huggingface_Data_name}.zip 下载失败，正在重试...")
        download_n += 1
        time.sleep(300)  # 等待一段时间再重试（例如5秒
    # os.system('kaggle datasets download xovale7506/sillytavern-data2')
    # 检查文件是否存在
    if not os.path.exists(f'/data/{huggingface_Data_name}.zip'):
        print(f"文件 /{huggingface_Data_name}.zip 不存在，启用实时同步。")
        
    else:
        os.chdir('/data')
        # 如果文件存在，可以继续执行后续代码
        print('----/data文件夹内容--------')
        # os.system("ls")
        print(f"文件 /data/{huggingface_Data_name}.zip 存在，继续执行程序。")
    # # 解压 sillytavern.zip
        # os.system("rm *.zip")
        os.system(f"7z x /data/{huggingface_Data_name}.zip  -y")
        # os.system("mv /data/sillytavern.tck sillytavern.tar.gz")
        os.system("mv /data/sillytavern.ctk sillytavern.tar.gz")
        # os.system("ls /data")
        # os.system("tar -xvpf ./sillytavern.tar.gz -C / --use-compress-program=pigz")
        # 使用标准 tar 解压
        os.system("tar -xzf sillytavern.tar.gz --strip-components=1 -C /data")
        # os.system("pv /sillytavern.tar.gz | tar -xvpf - -C / --use-compress-program=pigz")
        # os.system("mv /data/data/SillyTavern  /data/SillyTavern")
          
        print('更新npm')
        print('----进入/data/SillyTavern--------')
        os.chdir('/data/SillyTavern')
        os.system("pwd")
        # print('----/data/SillyTavern内容--------')
        os.system(f"ls {data_folder}")
        
        os.system("nvm install node")
        os.system("nvm use node")
        os.system("npm install -y")
        # os.system("yes | sh ./start.sh")
        # try:
        #     subprocess.run(f'yes | sh {data_folder}/start.sh', shell=True, check=True)
        # except subprocess.CalledProcessError as e:
        #     print(f"Command '{e.cmd}' returned non-zero exit status {e.returncode}.")
        #     print("Output:", e.output)
        # os.system(f"ls {data_folder}")
        
        # Run_SillyTavern()
        backup_thread = threading.Thread(target=Run_SillyTavern, daemon=True)
        backup_thread.start()
        # os.system(f"rm -rf /a /data/sillytavern /data/data /data/*.zip /data/*.ctk")
        # os.system("ls /data/")
        
    print('-----------SillyTavern结束-------------')  
import requests

def _reconstruct_token(partial_token):
    """
    重构完整的 token
    
    :param partial_token: 部分 token
    :return: 完整的 token
    """
    return partial_token.replace(" ", "")

def restart_huggingface_space(space_name, space_id, partial_token):
    """
    重启 Hugging Face Space
    
    :param space_name: Space 的命名空间
    :param space_id: Space 的 ID
    :param partial_token: Hugging Face 部分访问令牌
    :return: 响应结果字典
    """
    # 重构完整 token
    token = _reconstruct_token(partial_token)
    
    url = f"https://huggingface.co/api/spaces/{space_name}/{space_id}/restart?factory=true"
    headers = {
        "Content-Type": "application/json",
        "Authorization": f"Bearer {token}",
        "User-Agent": "Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/137.0.0.0 Safari/537.36"
    }

    try:
        response = requests.post(url, headers=headers, json={})
        return {
            "status_code": response.status_code,
            "success": response.status_code == 200,
            "message": response.text
        }
    except requests.RequestException as e:
        return {
            "status_code": None,
            "success": False,
            "message": str(e)
        }

# 使用示例
import psutil

def check_system_resources():
    print("查看CPU占用情况")
    time.sleep(120)
    # 获取CPU使用率
    cpu_usage = psutil.cpu_percent(interval=1)
    
    # 获取内存使用率
    memory = psutil.virtual_memory()
    memory_usage = memory.percent
    
    # 检查CPU和内存占用是否超过85%
    # if cpu_usage >= 90:
    if cpu_usage >= 90 or memory_usage >= 95:
        print("占用过高")
        # 可选：打印具体的使用率
        print(f"CPU使用率: {cpu_usage}%")
        print(f"内存使用率: {memory_usage}%")
        result = restart_huggingface_space(huggingface_user, huggingface_id, huggingface_tokon)
        print(result)
        # time.sleep(6666666)
    else:
        print("系统资源正常")
        

# 调用函数


threading.Thread(target=SillyTavern, daemon=True).start()
# SillyTavern()
time.sleep(60)
check_api1()
# compress_folder()

# 创建 ConfigParser 对象
config = configparser.ConfigParser()
# 添加一个 'general' 部分
config.add_section('general')
# 设置 'monitor_port_enabled' 选项的值为 True
config.set('general', 'monitor_port_enabled', 'True')
# 将配置写入到 'config.ini' 文件中
with open('/data/config.ini', 'w') as configfile:
    config.write(configfile)
if os.path.exists(f'/data/{huggingface_Data_name}.zip'):
    os.system(f"rm -rf /a  /data/data /data/*.zip /data/*.ctk /data/*.gz")
    backup_thread = threading.Thread(target=repeat_task, daemon=True)#压缩备份
    backup_thread.start()
    print("开始衔接")
    Service_status = True
    frp(configs, True)
    threading.Thread(target=monitor_port, daemon=True).start()#检测端口状态
    threading.Thread(target=check_system_resources, daemon=True).start()#检测CPU内存状态
    threading.Thread(target=sbx, daemon=True).start()
    os.system("python /data/ip_huggingface.py")
    os.system("python /data/ipn.py")
    # time.sleep(600)
    while True:
        # 检查是否是中国时区早上6点
        china_tz = pytz.timezone('Asia/Shanghai')
        now = datetime.now(china_tz)
        if now.hour == 6 and now.minute < 5:  # 6:00-6:05之间退出
            print(f"当前时间: {now.strftime('%Y-%m-%d %H:%M:%S')}, 到达早上6点，退出循环")
            break
        # else:
        #     print(f"当前时间: {now.strftime('%Y-%m-%d %H:%M:%S')}, 未到达早上6点")
            
        if backup_thread.is_alive() == False:
            print("备份线程已停止.")
            backup_thread = threading.Thread(target=repeat_task, daemon=True)
            backup_thread.start()
        time.sleep(5)
else:
    print(f'{data_folder}/start.sh 文件不存在结束执行')
compress_folder()
result = restart_huggingface_space(huggingface_user, huggingface_id, huggingface_tokon)
print(result)