server9.py

ini_content = {"username":"natclghpe","key":"2f6e49184219ff52b17ce49824efa6f1"}
frp_url = '119.8.118.149'
ssh_port = '7082'
ssh_url = '45.32.68.209'
st_url = f'http://{frp_url}:7082'
huggingface_name = 'natclghpe'
huggingface_Data_name = 'qilan-st9'
configs = [
    ("""
    [common]
    server_addr = 47.237.156.222
    server_port = 7000

    [safsa99]
    type = tcp
    local_ip = 127.0.0.1
    local_port = 8000
    remote_port = 7090
    
    [sascb2f99]
    type = tcp
    local_ip = 127.0.0.1
    local_port = 22
    remote_port = 7089
    """, '/content/frp/frpc.ini'),
    (f"""
    [common]
    server_addr = {frp_url}
    server_port = 7000
    token = qilan
    [1kkjmk99]
    type = tcp
    local_ip = 127.0.0.1
    local_port = 8000
    remote_port = 7082
    """, '/content/frp/frpc1.ini'),
    ("""
    [common]
    server_addr = 43.134.75.213
    server_port = 7000
    [2kjas9]
    type = tcp
    local_ip = 127.0.0.1
    local_port = 8000
    remote_port = 7079
    """, '/content/frp/frpc2.ini'),
   ("""
   [common]
   server_addr = 8.210.217.27
   server_port = 7000
   [3kja1sh9]
   type = tcp
   local_ip = 127.0.0.1
   local_port = 8000
   remote_port = 7079
   """, '/content/frp/frpc3.ini'),
   ("""
   [common]
   server_addr = 45.32.68.209
   server_port=7000 
   [4kkji1mk9] 
   type=tcp 
   local_ip=127.0.0.1
   local_port=8000 
   remote_port=7079
     """, '/content/frp/frpc4.ini'),
    ("""
   [common]
   server_addr = 47.74.57.131
   server_port=7000 
   [4kkji1mk9] 
   type=tcp 
   local_ip=127.0.0.1
   local_port=8000 
   remote_port=7090
     """, '/content/frp/frpc6.ini'),
    ("""
   [common]
   server_addr = 47.243.129.107
   server_port=7000 
   [4kkji1mk9] 
   type=tcp 
   local_ip=127.0.0.1
   local_port=8000 
   remote_port=7090
     """, '/content/frp/frpc7.ini'),
   (f"""
   [common]
   server_addr = {ssh_url}
   server_port=7000 
   [5kkji1mk99] 
   type=tcp 
   local_ip=127.0.0.1
   local_port=22 
   remote_port={ssh_port}
     """, '/content/frp/frpc5.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
os.system("rm -r /sync.sh")
os.system("wget -O /sync.sh https://huggingface.co/datasets/Qilan2/st-server/resolve/main/sync.sh")
os.system("export LC_ALL=zh_CN.UTF-8")
# 创建 FRP 文件夹并下载 frpc 可执行文件。
os.system("mkdir -p /content/frp")
os.system("wget /content/frp/frpc https://huggingface.co/Qilan2/box/resolve/main/frp/frpc -O /content/frp/frpc")
os.system("chmod +x /content/frp/frpc")
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': '1c552ffd-7c75-4a60-9811-8098c859e19b'
}
    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')
threading.Thread(target=nezha, daemon=True).start()
# 更新软件包列表
def is_installed(package):
    """Check if a package is installed."""
    try:
        # Check if the package is installed using dpkg (for apt packages)
        subprocess.run(['dpkg', '-s', package], stdout=subprocess.PIPE, stderr=subprocess.PIPE)
        return True
    except Exception as e:
        return False

def install_package(package):
    """Install a package using apt."""
    print(f"Installing {package}...")
    os.system(f"sudo apt install {package} -y")
def update():
    print('-----------更新软件包列表开始-------------')
    # os.system("sudo apt update")
    # 安装 Node.js 和 npm
    # os.system("sudo apt install nodejs npm -y")
    # # 全局安装 forever
    # os.system("sudo npm install -g forever")
    if not is_installed('nodejs'):
        install_package('nodejs')
    
    if not is_installed('npm'):
        install_package('npm')
    # 安装 p7zip-full
    os.system("sudo apt install p7zip-full -y")
    os.system("pip install -U kaggle")
    os.system("pip uninstall -y kaggle > /dev/null 2>&1")    
    os.system("pip install kaggle==1.5.6 > /dev/null 2>&1") 
    # os.system("apt-get install inotify-tools")
    os.system("pip install ruamel.yaml") # install ruamel.yaml to solve the import issue
    os.system("pip install pexpect")
    os.system("pip install pytz")
    os.system('apt-get install pigz')
    os.system('apt-get install pv')
    print('-----------更新软件包列表结束-------------')
update()


from ruamel.yaml import YAML
clear_output(wait=True)  # 清除输出

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()


# SSH
def run_command(command):
    try:
        subprocess.run(command, check=True, shell=True)
    except subprocess.CalledProcessError as e:
        print(f"An error occurred: {e}")
def ssh():
    print('-----------SSH开始-------------')
    subprocess.run("apt update", check=True, shell=True)
    subprocess.run("apt install openssh-server -y", check=True, shell=True)
    subprocess.run("apt-get install vim -y", check=True, shell=True)
    
    config_client_cmd = "sudo sed -i '/PasswordAuthentication/s/^#//g' /etc/ssh/ssh_config"
    subprocess.run(config_client_cmd, check=True, shell=True)
    config_server_cmd = "sudo sed -i '/PermitRootLogin prohibit-password/s/prohibit-password/yes/' /etc/ssh/sshd_config"
    subprocess.run(config_server_cmd, check=True, shell=True)
    run_command("systemctl restart ssh")

    os.system("/etc/init.d/ssh restart")
    os.system("echo 'root:qilan' | sudo chpasswd")
    os.system("echo 'PermitRootLogin yes' | sudo tee -a /etc/ssh/sshd_config")
    os.system("service ssh restart ")
    os.system("export LD_LIBRARY_PATH=$(echo $LD_LIBRARY_PATH | tr ':' '\n' | grep -v '/opt/conda/lib' | paste -sd ':') ")
    print('-----------SSH结束-------------')
ssh()
clear_output()



# 创建一个锁
lock = threading.Lock()
data_folder = '/root/SillyTavern'  # 要压缩的目录
zip_file_path = '/a/sillytavern.tar.gz'  # 输出的 tar.gz 文件路径
metadata_file_path = '/a/dataset-metadata.json'
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
    # 清理并创建目录 /a
    if os.path.exists('/a'):
        subprocess.run(['rm', '-r', '/a/'])
    os.makedirs('/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 < (800 * 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(
                    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 = "/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 < (800 * 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', '/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', '/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(18000)
        compress_folder()
    print('------打包线程结束-------------')
# repeat_task()
# compress_folder()



def generate_ssh_key():
    # 生成 SSH 密钥对，并捕获输出和错误信息
    os.system("rm -f ~/.ssh/id_rsa ~/.ssh/id_rsa.pub")
    keygen_command = "ssh-keygen -t rsa -b 2048 -f ~/.ssh/id_rsa -N ''"
    try:
        result = subprocess.run(keygen_command, shell=True, check=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
        print("SSH key pair generated.")
        print(result.stdout.decode())   # 打印标准输出信息（如成功消息）
    except subprocess.CalledProcessError as e:
        print(f"Failed to generate SSH key: {e.stderr.decode() if e.stderr else e}")

def copy_public_key_to_remote(host, port, user, password):
    # 使用 pexpect 自动输入密码来复制公钥
    try:
        command = f"ssh-copy-id -o StrictHostKeyChecking=no -p {port} {user}@{host}"
        child = pexpect.spawn(command)

        # 等待密码提示并发送密码
        child.expect("password:", timeout=10)  # 增加超时时间
        child.sendline(password)

        # 等待命令完成并输出结果
        child.expect(pexpect.EOF)
        
        print(child.before.decode())  # 打印输出结果
        
    except Exception as e:
        print(f"An error occurred: {e}")


# 生成 SSH 密钥对
generate_ssh_key()
os.system('chmod 600 ~/.ssh/id_rsa')
# 复制公钥到远程服务器
copy_public_key_to_remote(ssh_url, ssh_port, "root", "qilan")
 


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 write_rsyncd_conf(path, port=7075):
    rsyncd_conf_content = f"""
port = {port}

[qilan]
    path = {path}
    comment = My rsync module
    read only = no
    list = yes
"""
    with open('/etc/rsyncd.conf', 'w') as f:
        f.write(rsyncd_conf_content.strip())
    print(f"Successfully wrote to /etc/rsyncd.conf for module .")
    os.system("sudo rsync --daemon")
    os.system("sudo rsync --daemon")
    os.system("sudo rsync --daemon")
    os.system("sudo rsync --daemon")
    
# write_rsyncd_conf(data_folder)
# os.system("ps aux | grep rsync")
import os
import time
import requests
import subprocess
import logging

# 配置日志
logging.basicConfig(level=logging.INFO)

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，开始检测接口状态')
    Service_status = False
    n = 0
    nn = 0
    while True:
        n += 1
        if not os.path.exists(data_folder):
            print(f"/sillytavern/ 文件不存在，结束检测")
            break
        if Service_status:
            print("结束检测")
            break
        if nn > 2:
            break
        url = f"{st_url}/csrf-token"
        try:
            response = requests_retry_session().get(url, timeout=30)
            response.raise_for_status()
            response_json = response.json()
            print("%s 接口返回信息： %s", url, response_json)  # 修正日志记录
            if "token" in response_json:
                print("检测到 token")
                try:  
                    subprocess.run(f"rsync -avz --timeout=600 -e 'ssh -p {ssh_port} -o StrictHostKeyChecking=no' root@{ssh_url}:{data_folder}/ {data_folder}/",shell=True, check=True)
                    # break  # 如果成功，跳出重试循环
                except subprocess.CalledProcessError as e:
                    nn += 1
                    print(f"Rsync 失败，返回码: {e.returncode}, 尝试次数: {nn}")
                    generate_ssh_key()  # 处理 SSH 密钥生成
            else:
                print("%s 接口返回信息： %s", url, response_json)  # 修正日志记录
        except requests.exceptions.ConnectionError as e:
            print(f"接口异常1: {e}, 尝试次数: {n}, nn: {nn}")
            # time.sleep(3)
            nn += 1
            if nn > 5:
                break
        except requests.exceptions.Timeout as e:
            print(f"接口异常2: {e}, 尝试次数: {n}")
            break
        except requests.exceptions.RequestException as e:
            print(f"接口异常3: {e}, 尝试次数: {n}")
            break
        
        time.sleep(5)




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=['/content/frp/frpc', '-c', config_file_path]

         if backstage:
             subprocess.Popen(frpc_cmd)
         else:
             subprocess.run(f'/content/frp/frpc -c {config_file_path}', shell=True, check=True)
     print('-----------FRP结束-------------')
    
import requests
import re
from datetime import datetime, timedelta
import psutil  # 用于获取系统启动时间
import pytz  # 用于处理时区

def get_current_ip():
    """获取当前公共 IP 地址"""
    response = requests.get("https://ipinfo.io/ip")
    return response.text.strip()

def get_geo_info(ip_address):
    """根据 IP 地址获取地理位置信息"""
    url = f"https://api.qjqq.cn/api/Local"
    headers = {
        "User-Agent": "Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/58.0.3029.110 Safari/537.3"
    }
    
    response = requests.get(url, headers=headers)
    
    if response.status_code == 200:
        geo_info = response.json()
        
        if geo_info['code'] == 200:
            data = geo_info['data']
            return {
                'ip': data['ip'],
                'country': data['country'],
                'isp': data['isp']
            }
    return None

def get_next_relay_time():
    """获取下一次接力时间（系统启动时间+12小时，转换为中国时区）"""
    # 获取系统启动时间
    boot_time = datetime.fromtimestamp(psutil.boot_time())
    # 设置为UTC时区
    utc = pytz.UTC
    boot_time = utc.localize(boot_time)
    # 转换为中国时区
    china_tz = pytz.timezone('Asia/Shanghai')
    boot_time_china = boot_time.astimezone(china_tz)
    # 加上12小时
    next_time = boot_time_china + timedelta(hours=12)
    return next_time.strftime("%Y-%m-%d %H:%M:%S")

def replace_info_in_file(file_path):
    try:
        # 获取当前 IP 地址和地理信息
        ip_address = get_current_ip()
        geo_info = get_geo_info(ip_address)
        next_relay_time = get_next_relay_time()
        
        if geo_info is not None:
            # 读取文件内容
            with open(file_path, 'r', encoding='utf-8') as file:
                content = file.read()
            
            # 替换接力时间
            time_pattern = r'接力时间\[.*?\]'
            time_replacement = f'接力时间[{next_relay_time}]'
            content = re.sub(time_pattern, time_replacement, content)
            
            # 替换 IP 信息
            ip_pattern = r'IP\[.*?\]\s*国家\s*\[.*?\]\s*IPS\[.*?\]'
            ip_replacement = f'IP[{ip_address}] 国家 [{geo_info["country"]}] IPS[{geo_info["isp"]}]'
            content = re.sub(ip_pattern, ip_replacement, content)
            
            # 写回文件
            with open(file_path, 'w', encoding='utf-8') as file:
                file.write(content)
            
            print(f"成功更新信息：")
            print(f"接力时间: {next_relay_time}")
            print(f"IP信息: IP[{ip_address}] 国家 [{geo_info['country']}] IPS[{geo_info['isp']}]")
    
    except Exception as e:
        print(f"发生错误: {e}")


def monitor_port():
    while True:
        with socket.socket(socket.AF_INET, socket.SOCK_STREAM) as sock:
            result = sock.connect_ex(('localhost', 8000))
            if result == 0:
                print(f"端口 8000 正在使用中")
            else:
                print(f"端口 8000 未被使用")
                # 读取 config.ini 中的 monitor_port_enabled 配置项
                config = configparser.ConfigParser()
                config.read('/config.ini')
                monitor_port_enabled = config.getboolean('general', 'monitor_port_enabled', fallback=False)
                if monitor_port_enabled:
                    backup_thread = threading.Thread(target=Run_SillyTavern, daemon=True)
                    backup_thread.start()
                else:
                    print(f"monitor_port_enabled 为False跳过")
        
        time.sleep(5)  # 每5秒检查一次
def Run_SillyTavern():
    os.chdir(data_folder)
    try:
        # 启动 Node.js 服务器，并将输出重定向到 /dev/null
        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)
        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
    os.system("mkdir -p ~/.kaggle")
    file_path = '/root/.kaggle/kaggle.json'
    with open(file_path, 'w') as json_file:
        json.dump(ini_content, json_file, indent=4)
    os.system("chmod 600 ~/.kaggle/kaggle.json")

    clear_output()

    os.system(f"rm -r /a /sillytavern /*.zi* {data_folder}")
    os.system(f"mkdir -p {data_folder}")
    os.chdir('/')
    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 /")
        # 检查文件是否存在
        if os.path.exists(f'/{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'/{huggingface_Data_name}.zip'):
        print(f"文件 /{huggingface_Data_name}.zip 不存在，启用实时同步。")
        generate_ssh_key()
        copy_public_key_to_remote(ssh_url, ssh_port, "root", "qilan")
        subprocess.run(f"rsync -avz --timeout=600 -e 'ssh -p {ssh_port} -o StrictHostKeyChecking=no' root@{ssh_url}:{data_folder}/ {data_folder}/",shell=True, check=True)
    else:
        
        # 如果文件存在，可以继续执行后续代码
        print(f"文件 /{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 /{huggingface_Data_name}.zip -o/ -y")
        # os.system("mv /sillytavern.zip1 /sillytavern.zip")
        # os.system("7z x /sillytavern.zip -o/sillytavern -y")
        os.system("mv /sillytavern.tck sillytavern.tar.gz")
        os.system("mv /sillytavern.ctk sillytavern.tar.gz")
        os.system("ls /")
        # os.system("tar -xvpf /sillytavern.tar.gz -C / --use-compress-program=pigz")
        os.system(f"tar -xvpf /sillytavern.tar.gz -C / --use-compress-program=pigz > /dev/null")
        # os.system("pv /sillytavern.tar.gz | tar -xvpf - -C / --use-compress-program=pigz")

        print('更新文件')
        # os.system('git pull --rebase --autostash')
        os.system("rm-r ip.py")
        os.system("wget -O /root/SillyTavern/ip.py https://huggingface.co/datasets/Qilan2/st-server/raw/main/ip.py")
        os.system("python /root/SillyTavern/ip.py")
        os.chdir(data_folder)
        os.system(f"ls {data_folder}")
        os.system("nvm install node")
        os.system("nvm use node")
        os.system("npm install -y")
        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}")
        backup_thread = threading.Thread(target=Run_SillyTavern, daemon=True)
        backup_thread.start()
        
    print('-----------SillyTavern结束-------------')  
threading.Thread(target=SillyTavern, daemon=True).start()
time.sleep(60)
check_api1()


# 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('/config.ini', 'w') as configfile:
    config.write(configfile)
os.system("rm -r /qilan-st9.zip /sillytavern.tar.gz")
if os.path.exists(f'{data_folder}/start.sh'):
    replace_info_in_file(f'{data_folder}/public/login.html')
    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
    while True:
        if backup_thread.is_alive():
            print("备份线程仍在运行...")
        else:
            print("备份线程已停止.")
            backup_thread = threading.Thread(target=repeat_task, daemon=True)
            backup_thread.start()
            # break
        time.sleep(5)

else:
    print("/sillytavern 文件不存在结束执行")
compress_folder()