741 lines
29 KiB
Python
741 lines
29 KiB
Python
import os
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import pty
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import fcntl
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import subprocess
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import sqlite3
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import asyncio
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import openai
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import re
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import httpx
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import struct
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import termios
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from pathlib import Path
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from telegram import Update
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from telegram.ext import ApplicationBuilder, ContextTypes, MessageHandler, filters
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from telegram.error import InvalidToken
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from google import genai
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from google.genai import types
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import json
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from fastapi import FastAPI, WebSocket, BackgroundTasks, Request, Form, WebSocketDisconnect
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from fastapi.responses import RedirectResponse
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from fastapi.templating import Jinja2Templates
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from fastapi.staticfiles import StaticFiles
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from dotenv import load_dotenv, set_key
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# Basis-Verzeichnis (source/)
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BASE_DIR = Path(__file__).resolve().parent
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# Pfade zu den neuen Ordnern (eins hoch, dann in den Zielordner)
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ROOT_DIR = BASE_DIR.parent
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CONFIG_DIR = ROOT_DIR / "config"
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DATA_DIR = ROOT_DIR / "data"
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WORKSPACE_DIR = ROOT_DIR / "workspace"
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# Konfigurationsdateien
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ENV_FILE = CONFIG_DIR / ".env"
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load_dotenv(ENV_FILE)
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DB_PATH = DATA_DIR / "cluster.db"
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PROMPT_FILE = CONFIG_DIR / "system_prompt.txt"
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# Workspace Dateien
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NOTES_FILE = WORKSPACE_DIR / "NOTIZEN.md"
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TODO_FILE = WORKSPACE_DIR / "TODO.md"
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# Sicherstellen, dass die Workspace-Dateien existieren
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WORKSPACE_DIR.mkdir(exist_ok=True)
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for f in [NOTES_FILE, TODO_FILE]:
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if not f.exists():
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f.write_text(f"# {f.name}\nHier fängt dein Gedächtnis an, J.A.R.V.I.S.\n", encoding="utf-8")
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# Workspace-Ordner und Dateien anlegen
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WORKSPACE_DIR.mkdir(exist_ok=True)
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# Auch den Daten-Ordner für die Datenbank anlegen!
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DATA_DIR.mkdir(exist_ok=True)
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# FastAPI Pfade (relativ zu main.py in source/)
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app = FastAPI()
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#static_path = os.path.join(os.path.dirname(__file__), "static")
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templates = Jinja2Templates(directory=BASE_DIR / "templates")
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app.mount("/static", StaticFiles(directory=BASE_DIR / "static"), name="static")
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SSH_KEY = os.path.expanduser("~/.ssh/id_rsa")
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chat_history = []
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# KI KONFIGURATION
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AI_PROVIDER = os.getenv("AI_PROVIDER", "google").lower()
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OPENAI_API_KEY = os.getenv("OPENAI_API_KEY", "")
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GOOGLE_API_KEY = os.getenv("GOOGLE_API_KEY", "")
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NVIDIA_API_KEY = os.getenv("NVIDIA_API_KEY", "")
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OLLAMA_BASE_URL = os.getenv("OLLAMA_BASE_URL", "http://127.0.0.1:11434/v1")
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GOOGLE_MODEL = os.getenv("GOOGLE_MODEL", "gemini-2.0-flash")
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OPENAI_MODEL = os.getenv("OPENAI_MODEL", "gpt-4o")
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OLLAMA_MODEL = os.getenv("OLLAMA_MODEL", "llama3")
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NVIDIA_MODEL = os.getenv("NVIDIA_MODEL", "moonshotai/kimi-k2.5")
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# Telegram Bot Konfiguration
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TELEGRAM_TOKEN = os.getenv("TELEGRAM_BOT_TOKEN", "")
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ALLOWED_ID = os.getenv("ALLOWED_TELEGRAM_USER_ID", "")
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telegram_app = None
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# --- DATENBANK INITIALISIERUNG (ERWEITERT) ---
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def init_db():
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conn = sqlite3.connect(DB_PATH)
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# Spalten erweitert um sudo_password, os, arch, docker_installed
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conn.execute('''
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CREATE TABLE IF NOT EXISTS nodes (
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id INTEGER PRIMARY KEY AUTOINCREMENT,
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name TEXT,
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ip TEXT UNIQUE,
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user TEXT,
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sudo_password TEXT,
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os TEXT DEFAULT 'Unbekannt',
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arch TEXT DEFAULT 'Unbekannt',
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docker_installed INTEGER DEFAULT 0,
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status TEXT
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)
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''')
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conn.commit()
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conn.close()
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init_db()
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def get_db():
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conn = sqlite3.connect(DB_PATH)
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conn.row_factory = sqlite3.Row
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return conn
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def get_system_prompt():
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conn = get_db()
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nodes = conn.execute('SELECT * FROM nodes').fetchall()
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conn.close()
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node_info = ""
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for n in nodes:
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docker_str = "Ja" if n['docker_installed'] else "Nein"
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node_info += f"- Name: {n['name']}, IP: {n['ip']}, User: {n['user']}, OS: {n['os']}, Arch: {n['arch']}, Docker: {docker_str}\n"
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# Datei auslesen
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if PROMPT_FILE.exists():
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prompt = PROMPT_FILE.read_text(encoding="utf-8")
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else:
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prompt = "Fehler: system_prompt.txt nicht gefunden!"
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# Platzhalter durch die echten Pfade ersetzen
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prompt = prompt.replace("{node_info}", node_info)
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prompt = prompt.replace("{workspace_dir}", str(WORKSPACE_DIR))
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prompt = prompt.replace("{notes_file}", str(NOTES_FILE))
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prompt = prompt.replace("{todo_file}", str(TODO_FILE))
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return prompt
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# --- KI FUNKTIONEN ---
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async def get_ai_response(user_input, system_prompt):
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global chat_history
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chat_history.append({"role": "user", "content": user_input})
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chat_history = chat_history[-30:]
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ai_msg = ""
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try:
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# Kombinierte Logik für OpenAI, Ollama und NVIDIA (alle nutzen das OpenAI SDK)
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if AI_PROVIDER in ["openai", "ollama", "nvidia"]:
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messages = [{"role": "system", "content": system_prompt}] + chat_history
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if AI_PROVIDER == "ollama":
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url = OLLAMA_BASE_URL
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if not url.endswith('/v1') and not url.endswith('/v1/'):
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url = url.rstrip('/') + '/v1'
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key = "ollama"
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model_to_use = OLLAMA_MODEL
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elif AI_PROVIDER == "nvidia":
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url = "https://integrate.api.nvidia.com/v1"
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key = NVIDIA_API_KEY
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model_to_use = NVIDIA_MODEL
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else: # openai
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url = None
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key = OPENAI_API_KEY
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model_to_use = OPENAI_MODEL
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# WICHTIG: Hier .AsyncOpenAI nutzen, da die Funktion async ist
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client = openai.AsyncOpenAI(base_url=url, api_key=key)
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response = await client.chat.completions.create(
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model=model_to_use,
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messages=messages
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)
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ai_msg = response.choices[0].message.content
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elif AI_PROVIDER == "google":
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# Für Google Gemini
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if not GOOGLE_API_KEY:
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return "Fehler: GOOGLE_API_KEY fehlt in der .env Datei!"
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client = genai.Client(api_key=GOOGLE_API_KEY)
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# Wir müssen unser Array in das spezielle Google-Format umwandeln
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google_history = []
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# Alle Nachrichten AUSSER der allerletzten (die aktuelle User-Frage) in die History packen
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for msg in chat_history[:-1]:
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role = "user" if msg["role"] == "user" else "model"
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google_history.append(
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types.Content(role=role, parts=[types.Part.from_text(text=msg["content"])])
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)
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# Chat MIT dem übersetzten Gedächtnis starten
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chat = client.chats.create(
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model=GOOGLE_MODEL,
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config=types.GenerateContentConfig(system_instruction=system_prompt),
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history=google_history
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)
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# Jetzt erst die neue Nachricht an den Chat mit Gedächtnis schicken
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response = chat.send_message(user_input)
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ai_msg = response.text
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except Exception as e:
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ai_msg = f"Fehler bei der KI-Anfrage: {e}"
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print(f"KI Fehler: {e}")
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# 3. Die Antwort der KI ebenfalls ins Gedächtnis aufnehmen
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chat_history.append({"role": "assistant", "content": ai_msg})
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return ai_msg
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async def handle_telegram_message(update: Update, context: ContextTypes.DEFAULT_TYPE):
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# Den eigenen @Benutzernamen des Bots dynamisch abfragen
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bot_username = f"@{context.bot.username}"
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chat_type = update.effective_chat.type
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user_msg = update.message.text
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user_id = str(update.message.from_user.id)
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# 1. Gruppen-Logik: Nur reagieren, wenn der Bot @erwähnt wird
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if chat_type in ['group', 'supergroup']:
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if bot_username not in user_msg:
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return # Bot wurde nicht erwähnt, Nachricht ignorieren
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# Den @Namen aus dem Text entfernen, damit die KI nicht verwirrt wird
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user_msg = user_msg.replace(bot_username, "").strip()
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else:
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# Im Einzelchat kann optional weiterhin nur der Admin zugelassen werden.
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# Wenn du willst, dass auch andere den Bot privat nutzen können, entferne diesen Block:
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if user_id != ALLOWED_ID:
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await update.message.reply_text("Zugriff auf den privaten Chat verweigert. 🔒")
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return
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# Tipp-Status anzeigen
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await update.message.reply_chat_action(action="typing")
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# 2. KI fragen
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ai_response = await get_ai_response(user_msg, get_system_prompt())
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commands = re.findall(r'<EXECUTE target="(.*?)">(.*?)</EXECUTE>', ai_response, re.I | re.S)
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clean_msg = re.sub(r'<EXECUTE.*?>.*?</EXECUTE>', '', ai_response, flags=re.I | re.S).strip()
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# KI Text-Antwort senden
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if clean_msg:
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await update.message.reply_text(clean_msg)
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# 3. Befehle ausführen (mit strengem Sicherheits-Check!)
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if commands:
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if user_id != ALLOWED_ID:
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await update.message.reply_text("⚠️ **Sicherheits-Sperre:** Die KI wollte einen Server-Befehl ausführen, aber du hast keine Administrator-Rechte dafür.")
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return
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for target, cmd in commands:
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await update.message.reply_text(f"⏳ Führe aus auf *{target}*:\n`{cmd}`", parse_mode='Markdown')
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# Node in DB suchen
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conn = get_db()
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n = conn.execute('SELECT * FROM nodes WHERE ip=? OR name=?', (target.strip(), target.strip())).fetchone()
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conn.close()
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if n:
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try:
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proc = await asyncio.create_subprocess_shell(
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f"ssh -o StrictHostKeyChecking=no {n['user']}@{n['ip']} '{cmd}'",
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stdout=asyncio.subprocess.PIPE,
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stderr=asyncio.subprocess.STDOUT
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)
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stdout, _ = await proc.communicate()
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output = stdout.decode('utf-8', errors='ignore').strip()
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result_text = output[:4000] if output else "✅ Befehl ohne Output ausgeführt."
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await update.message.reply_text(f"💻 **Output von {n['name']}:**\n```\n{result_text}\n```", parse_mode='Markdown')
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chat_history.append({"role": "user", "content": f"[SYSTEM] Befehl '{cmd}' auf {target} fertig:\n{result_text}"})
|
||
except Exception as e:
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await update.message.reply_text(f"❌ Fehler bei der Ausführung: {e}")
|
||
else:
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await update.message.reply_text(f"⚠️ Node '{target}' nicht in der Datenbank gefunden.")
|
||
|
||
# --- FASTAPI LIFESPAN EVENTS (Bot starten/stoppen) ---
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@app.on_event("startup")
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async def startup_event():
|
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global telegram_app
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||
# Prüfe auch, ob der Token nicht aus Versehen noch der Platzhalter ist
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||
if TELEGRAM_TOKEN and ALLOWED_ID and "dein-telegram-bot-token" not in TELEGRAM_TOKEN:
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print("🤖 Starte Telegram Bot im Hintergrund...")
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try:
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telegram_app = ApplicationBuilder().token(TELEGRAM_TOKEN).build()
|
||
|
||
# Leitet alle Text-Nachrichten an unsere Funktion weiter
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telegram_app.add_handler(MessageHandler(filters.TEXT & ~filters.COMMAND, handle_telegram_message))
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||
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||
# Bot asynchron in die FastAPI Event-Loop einhängen
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await telegram_app.initialize()
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||
await telegram_app.start()
|
||
await telegram_app.updater.start_polling()
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print("✅ Telegram Bot lauscht!")
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||
|
||
except InvalidToken:
|
||
print("❌ Telegram-Fehler: Der Token in der .env ist ungültig! Der Bot bleibt inaktiv, aber der Server läuft weiter.")
|
||
except Exception as e:
|
||
print(f"❌ Unerwarteter Fehler beim Telegram-Start: {e}")
|
||
else:
|
||
print("ℹ️ Telegram Bot inaktiv (Token oder ID fehlen/sind Platzhalter in der .env).")
|
||
|
||
@app.on_event("shutdown")
|
||
async def shutdown_event():
|
||
global telegram_app
|
||
if telegram_app:
|
||
print("🛑 Stoppe Telegram Bot...")
|
||
await telegram_app.updater.stop()
|
||
await telegram_app.stop()
|
||
await telegram_app.shutdown()
|
||
|
||
|
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# --- WebSocket Manager ---
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||
class ConnectionManager:
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||
def __init__(self): self.active_connections = []
|
||
async def connect(self, ws: WebSocket): await ws.accept(); self.active_connections.append(ws)
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||
def disconnect(self, ws: WebSocket): self.active_connections.remove(ws)
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||
async def broadcast(self, msg: str):
|
||
for c in self.active_connections:
|
||
try: await c.send_text(msg)
|
||
except: pass
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||
manager = ConnectionManager()
|
||
|
||
async def get_remote_info(ip, user):
|
||
"""Versucht Linux/Mac-Infos zu lesen, falls fehlgeschlagen, dann Windows."""
|
||
# 1. Versuch: Linux/Mac
|
||
linux_cmd = "uname -m && (sw_vers -productName 2>/dev/null || grep PRETTY_NAME /etc/os-release 2>/dev/null | cut -d= -f2 || uname -s) && (command -v docker >/dev/null 2>&1 && echo 1 || echo 0)"
|
||
ssh_cmd = f"ssh -o StrictHostKeyChecking=no -o UserKnownHostsFile=/dev/null -o ConnectTimeout=3 {user}@{ip} \"{linux_cmd}\""
|
||
|
||
try:
|
||
output = subprocess.check_output(ssh_cmd, shell=True, stderr=subprocess.DEVNULL).decode().strip().split('\n')
|
||
if len(output) >= 2:
|
||
return {
|
||
"arch": output[0],
|
||
"os": output[1].replace('"', ''),
|
||
"docker": int(output[2]) if len(output) > 2 else 0
|
||
}
|
||
except:
|
||
pass # Linux-Versuch gescheitert, weiter zu Windows
|
||
|
||
# 2. Versuch: Windows (CMD)
|
||
# ver = OS Version, echo %PROCESSOR_ARCHITECTURE% = Arch, where docker = Docker Check
|
||
win_cmd = 'ver && echo %PROCESSOR_ARCHITECTURE% && (where docker >nul 2>&1 && echo 1 || echo 0)'
|
||
ssh_cmd = f"ssh -o StrictHostKeyChecking=no -o UserKnownHostsFile=/dev/null -o ConnectTimeout=3 {user}@{ip} \"{win_cmd}\""
|
||
|
||
try:
|
||
output = subprocess.check_output(ssh_cmd, shell=True).decode().strip().split('\n')
|
||
# Windows Output sieht oft so aus: ["Microsoft Windows [Version 10.0...]", "AMD64", "1"]
|
||
raw_os = output[0] if len(output) > 0 else "Windows"
|
||
os_name = "Windows"
|
||
if "Version 10" in raw_os: os_name = "Windows 10/11"
|
||
elif "Version 11" in raw_os: os_name = "Windows 11"
|
||
|
||
arch = output[1] if len(output) > 1 else "x86"
|
||
if "AMD64" in arch: arch = "x86-64"
|
||
|
||
docker_val = int(output[2]) if len(output) > 2 else 0
|
||
|
||
return {"arch": arch, "os": os_name, "docker": docker_val}
|
||
except Exception as e:
|
||
print(f"Windows-Check fehlgeschlagen für {ip}: {e}")
|
||
return None
|
||
|
||
# Nutze diese Funktion nun in bootstrap_node und refresh_status
|
||
|
||
# --- ERWEITERTES NODE BOOTSTRAPPING (Inventur) ---
|
||
async def bootstrap_node(ip, user, password):
|
||
await manager.broadcast(f"🔑 Kopple {ip}...")
|
||
|
||
with open(f"{SSH_KEY}.pub", "r") as f:
|
||
pub_key = f.read().strip()
|
||
|
||
# Wir nutzen ein absolut minimalistisches Kommando.
|
||
# Es erstellt das Verzeichnis (falls nötig) und hängt den Key an.
|
||
# Das funktioniert in der Windows CMD und der Linux Bash.
|
||
cmd_universal = f'mkdir .ssh & echo {pub_key} >> .ssh/authorized_keys'
|
||
|
||
# sshpass direkt mit dem simplen Befehl
|
||
setup_cmd = f"sshpass -p '{password}' ssh -o StrictHostKeyChecking=no -o UserKnownHostsFile=/dev/null {user}@{ip} \"{cmd_universal}\""
|
||
|
||
try:
|
||
# Wir führen es aus. Das "2x Passwort"-Problem kommt oft von TTY-Anfragen.
|
||
# Wir unterdrücken das mit -o StrictHostKeyChecking=no
|
||
proc = subprocess.run(setup_cmd, shell=True, capture_output=True, text=True, timeout=15)
|
||
|
||
if proc.returncode == 0:
|
||
await manager.broadcast(f"✅ Key an {ip} übertragen.")
|
||
else:
|
||
# Falls 'mkdir' einen Fehler wirft (weil Ordner existiert), ist das egal,
|
||
# solange der Key danach drin ist.
|
||
await manager.broadcast(f"ℹ️ Info: {ip} antwortet (Key-Check folgt).")
|
||
|
||
except Exception as e:
|
||
await manager.broadcast(f"❌ Fehler: {e}")
|
||
|
||
# Inventur (get_remote_info) prüft jetzt, ob es wirklich klappt
|
||
await manager.broadcast(f"🔍 Teste schlüssellosen Zugriff auf {ip}...")
|
||
info = await get_remote_info(ip, user)
|
||
|
||
if info:
|
||
status = "Docker Aktiv" if info['docker'] else "Bereit (Kein Docker)"
|
||
conn = get_db()
|
||
conn.execute('''
|
||
UPDATE nodes SET os = ?, arch = ?, docker_installed = ?, status = ?
|
||
WHERE ip = ?
|
||
''', (info['os'], info['arch'], info['docker'], status, ip))
|
||
conn.commit()
|
||
conn.close()
|
||
await manager.broadcast(f"✅ Node {ip} erkannt als {info['os']} ({info['arch']}).")
|
||
else:
|
||
await manager.broadcast(f"⚠️ Inventur auf {ip} fehlgeschlagen.")
|
||
# --- ROUTES ---
|
||
|
||
@app.get("/")
|
||
async def index(request: Request):
|
||
conn = get_db()
|
||
nodes = conn.execute('SELECT * FROM nodes').fetchall()
|
||
conn.close()
|
||
return templates.TemplateResponse("index.html", {"request": request, "nodes": nodes})
|
||
|
||
@app.get("/api/node/{node_id}")
|
||
async def get_node(node_id: int):
|
||
conn = get_db()
|
||
node = conn.execute('SELECT * FROM nodes WHERE id = ?', (node_id,)).fetchone()
|
||
conn.close()
|
||
return dict(node) if node else {}
|
||
|
||
@app.put("/api/node/{node_id}")
|
||
async def api_update_node(node_id: int, request: Request):
|
||
data = await request.json()
|
||
|
||
conn = get_db()
|
||
try:
|
||
conn.execute('''
|
||
UPDATE nodes SET
|
||
name = ?,
|
||
ip = ?,
|
||
user = ?,
|
||
sudo_password = ?,
|
||
os = ?,
|
||
arch = ?,
|
||
status = ?,
|
||
docker_installed = ?
|
||
WHERE id = ?
|
||
''', (
|
||
data.get("name"),
|
||
data.get("ip"),
|
||
data.get("user"),
|
||
data.get("sudo_password"),
|
||
data.get("os"),
|
||
data.get("arch"),
|
||
data.get("status"),
|
||
data.get("docker_installed"),
|
||
node_id
|
||
))
|
||
conn.commit()
|
||
return {"status": "success"}
|
||
except Exception as e:
|
||
print(f"Update Fehler: {e}")
|
||
return {"status": "error", "message": str(e)}, 500
|
||
finally:
|
||
conn.close()
|
||
|
||
@app.post("/add_node")
|
||
async def add_node(background_tasks: BackgroundTasks, name: str = Form(...), ip: str = Form(...), user: str = Form(...), password: str = Form(...)):
|
||
conn = get_db()
|
||
try:
|
||
# Speichere Initialdaten inkl. Sudo-Passwort
|
||
conn.execute('''
|
||
INSERT INTO nodes (name, ip, user, sudo_password, status)
|
||
VALUES (?, ?, ?, ?, ?)
|
||
''', (name, ip, user, password, "Kopplung..."))
|
||
conn.commit()
|
||
background_tasks.add_task(bootstrap_node, ip, user, password)
|
||
except sqlite3.IntegrityError: pass
|
||
finally: conn.close()
|
||
return RedirectResponse(url="/", status_code=303)
|
||
|
||
@app.post("/edit_node/{node_id}")
|
||
async def edit_node(node_id: int, name: str = Form(...), ip: str = Form(...), user: str = Form(...)):
|
||
conn = get_db()
|
||
conn.execute('UPDATE nodes SET name=?, ip=?, user=? WHERE id=?', (name, ip, user, node_id))
|
||
conn.commit()
|
||
conn.close()
|
||
return RedirectResponse(url="/", status_code=303)
|
||
|
||
@app.post("/remove_node/{node_id}")
|
||
async def remove_node(node_id: int):
|
||
conn = get_db()
|
||
conn.execute('DELETE FROM nodes WHERE id = ?', (node_id,))
|
||
conn.commit()
|
||
conn.close()
|
||
return RedirectResponse(url="/", status_code=303)
|
||
|
||
@app.get("/refresh_status/{node_id}")
|
||
async def refresh_status(node_id: int):
|
||
conn = get_db()
|
||
node = conn.execute('SELECT * FROM nodes WHERE id = ?', (node_id,)).fetchone()
|
||
if not node: return {"status": "Offline"}
|
||
|
||
info = await get_remote_info(node['ip'], node['user'])
|
||
|
||
if info:
|
||
new_status = "Docker Aktiv" if info['docker'] else "Bereit (Kein Docker)"
|
||
conn.execute('UPDATE nodes SET status=?, os=?, arch=?, docker_installed=? WHERE id=?',
|
||
(new_status, info['os'], info['arch'], info['docker'], node_id))
|
||
conn.commit()
|
||
result = {"status": new_status, "os": info['os'], "arch": info['arch'], "docker": info['docker']}
|
||
else:
|
||
new_status = "Offline"
|
||
conn.execute('UPDATE nodes SET status=? WHERE id=?', (new_status, node_id))
|
||
conn.commit()
|
||
result = {"status": new_status, "os": node['os'], "arch": node['arch'], "docker": node['docker_installed']}
|
||
|
||
conn.close()
|
||
return result
|
||
|
||
# --- WebSockets Terminal / Chat / Logs (Integration wie gehabt) ---
|
||
@app.websocket("/ws/install_logs")
|
||
async def log_websocket(websocket: WebSocket):
|
||
await manager.connect(websocket)
|
||
try:
|
||
while True: await websocket.receive_text()
|
||
except WebSocketDisconnect: manager.disconnect(websocket)
|
||
|
||
@app.websocket("/ws/terminal/{ip}")
|
||
async def terminal_websocket(websocket: WebSocket, ip: str):
|
||
await websocket.accept()
|
||
conn = get_db()
|
||
node = conn.execute('SELECT * FROM nodes WHERE ip = ?', (ip,)).fetchone()
|
||
conn.close()
|
||
|
||
if not node:
|
||
await websocket.close()
|
||
return
|
||
|
||
master_fd, slave_fd = pty.openpty()
|
||
# Wir starten SSH im interaktiven Modus
|
||
proc = await asyncio.create_subprocess_exec(
|
||
"ssh",
|
||
"-i", SSH_KEY, # <--- Das hier ist entscheidend!
|
||
"-o", "StrictHostKeyChecking=no",
|
||
"-o", "BatchMode=yes", # Verhindert, dass SSH hängen bleibt, falls der Key doch nicht geht
|
||
"-t", f"{node['user']}@{ip}",
|
||
stdin=slave_fd, stdout=slave_fd, stderr=slave_fd
|
||
)
|
||
|
||
async def pty_to_ws():
|
||
fl = fcntl.fcntl(master_fd, fcntl.F_GETFL)
|
||
fcntl.fcntl(master_fd, fcntl.F_SETFL, fl | os.O_NONBLOCK)
|
||
try:
|
||
while True:
|
||
await asyncio.sleep(0.01)
|
||
try:
|
||
data = os.read(master_fd, 1024).decode(errors='ignore')
|
||
if data:
|
||
await websocket.send_text(data)
|
||
except BlockingIOError:
|
||
continue
|
||
except:
|
||
pass
|
||
|
||
async def ws_to_pty():
|
||
try:
|
||
while True:
|
||
data = await websocket.receive_text()
|
||
# Prüfen, ob es ein Resize-Kommando (JSON) ist
|
||
if data.startswith('{"type":"resize"'):
|
||
resize_data = json.loads(data)
|
||
cols = resize_data['cols']
|
||
rows = resize_data['rows']
|
||
# Das hier setzt die Größe des PTY im Betriebssystem
|
||
s = struct.pack("HHHH", rows, cols, 0, 0)
|
||
fcntl.ioctl(master_fd, termios.TIOCSWINSZ, s)
|
||
else:
|
||
# Normale Terminal-Eingabe
|
||
os.write(master_fd, data.encode())
|
||
except:
|
||
pass
|
||
|
||
try:
|
||
await asyncio.gather(pty_to_ws(), ws_to_pty())
|
||
finally:
|
||
if proc.returncode is None:
|
||
proc.terminate()
|
||
os.close(master_fd)
|
||
os.close(slave_fd)
|
||
|
||
@app.websocket("/ws/chat")
|
||
async def chat_endpoint(websocket: WebSocket):
|
||
await websocket.accept()
|
||
try:
|
||
while True:
|
||
user_msg = await websocket.receive_text()
|
||
ai_response = await get_ai_response(user_msg, get_system_prompt())
|
||
commands = re.findall(r'<EXECUTE target="(.*?)">(.*?)</EXECUTE>', ai_response, re.I | re.S)
|
||
clean_msg = re.sub(r'<EXECUTE.*?>.*?</EXECUTE>', '', ai_response, flags=re.I | re.S).strip()
|
||
if clean_msg: await websocket.send_text(clean_msg)
|
||
if commands:
|
||
tasks = []
|
||
for target, cmd in commands:
|
||
conn = get_db(); n = conn.execute('SELECT * FROM nodes WHERE ip=? OR name=?', (target.strip(), target.strip())).fetchone(); conn.close()
|
||
if n: tasks.append(run_remote_task(n['ip'], n['user'], cmd.strip()))
|
||
if tasks:
|
||
await websocket.send_text("ℹ️ *Führe Befehle aus...*")
|
||
await asyncio.gather(*tasks)
|
||
summary = await get_ai_response("Zusammenfassung der Ergebnisse?", get_system_prompt())
|
||
await websocket.send_text(f"--- Info ---\n{summary}")
|
||
except: pass
|
||
|
||
async def run_remote_task(ip, user, cmd):
|
||
await manager.broadcast(f"🚀 Task: {cmd} auf {ip}")
|
||
proc = await asyncio.create_subprocess_shell(f"ssh -o StrictHostKeyChecking=no -o UserKnownHostsFile=/dev/null {user}@{ip} '{cmd}'", stdout=asyncio.subprocess.PIPE, stderr=asyncio.subprocess.STDOUT)
|
||
full_output = ""
|
||
while True:
|
||
line = await proc.stdout.readline()
|
||
if not line: break
|
||
out = line.decode('utf-8', errors='ignore').strip()
|
||
if out: await manager.broadcast(f"🛠️ {out}"); full_output += out + "\n"
|
||
await proc.wait()
|
||
chat_history.append({"role": "user", "content": f"[SYSTEM] Befehl '{cmd}' auf {ip} fertig:\n{full_output or 'Kein Output'}"})
|
||
|
||
# --- Settings API ---
|
||
@app.get("/api/settings")
|
||
async def get_settings():
|
||
return {
|
||
"provider": AI_PROVIDER,
|
||
"google_model": GOOGLE_MODEL,
|
||
"openai_model": OPENAI_MODEL,
|
||
"nvidia_model": NVIDIA_MODEL,
|
||
"ollama_model": OLLAMA_MODEL,
|
||
"ollama_base_url": OLLAMA_BASE_URL # URL ans Frontend schicken
|
||
}
|
||
|
||
@app.post("/api/settings")
|
||
async def update_settings(request: Request):
|
||
# WICHTIG: OLLAMA_BASE_URL als global deklarieren
|
||
global AI_PROVIDER, GOOGLE_MODEL, OPENAI_MODEL, NVIDIA_MODEL, OLLAMA_MODEL, OLLAMA_BASE_URL
|
||
|
||
data = await request.json()
|
||
provider = data.get("provider")
|
||
model = data.get("model")
|
||
ollama_url = data.get("ollama_base_url") # URL vom Frontend empfangen
|
||
|
||
if provider:
|
||
AI_PROVIDER = provider
|
||
set_key(ENV_FILE, "AI_PROVIDER", provider)
|
||
|
||
if provider == "google" and model:
|
||
GOOGLE_MODEL = model
|
||
set_key(ENV_FILE, "GOOGLE_MODEL", model)
|
||
elif provider == "openai" and model:
|
||
OPENAI_MODEL = model
|
||
set_key(ENV_FILE, "OPENAI_MODEL", model)
|
||
elif provider == "nvidia" and model:
|
||
NVIDIA_MODEL = model
|
||
set_key(ENV_FILE, "NVIDIA_MODEL", model)
|
||
elif provider == "ollama" and model:
|
||
OLLAMA_MODEL = model
|
||
set_key(ENV_FILE, "OLLAMA_MODEL", model)
|
||
|
||
# Wenn eine Ollama-URL mitgeschickt wurde, speichern wir sie
|
||
if ollama_url:
|
||
OLLAMA_BASE_URL = ollama_url
|
||
set_key(ENV_FILE, "OLLAMA_BASE_URL", ollama_url)
|
||
|
||
return {"status": "success"}
|
||
|
||
@app.get("/api/models")
|
||
async def get_models(provider: str, url: str = None):
|
||
try:
|
||
models = []
|
||
|
||
if provider == "ollama" and url:
|
||
# Das Backend hat keine CORS-Probleme und fragt Ollama direkt
|
||
clean_url = url.replace("/v1", "").rstrip("/")
|
||
async with httpx.AsyncClient() as client:
|
||
response = await client.get(f"{clean_url}/api/tags", timeout=5.0)
|
||
data = response.json()
|
||
models = [m["name"] for m in data.get("models", [])]
|
||
|
||
elif provider == "openai":
|
||
if not OPENAI_API_KEY or "hier" in OPENAI_API_KEY: return {"models": []}
|
||
# Hier greift das Backend auf deinen OpenAI API-Key zu
|
||
client = openai.AsyncOpenAI(api_key=OPENAI_API_KEY)
|
||
response = await client.models.list()
|
||
# Nur GPT-Modelle filtern, um die Liste sauber zu halten
|
||
models = [m.id for m in response.data if "gpt" in m.id or "o1" in m.id]
|
||
models.sort()
|
||
|
||
elif provider == "nvidia":
|
||
if not NVIDIA_API_KEY or "hier" in NVIDIA_API_KEY:
|
||
return {"models": ["FEHLER: Key fehlt in .env"]}
|
||
|
||
client = openai.AsyncOpenAI(
|
||
api_key=NVIDIA_API_KEY,
|
||
base_url="https://integrate.api.nvidia.com/v1"
|
||
)
|
||
try:
|
||
# Timeout hinzufügen, damit die Seite nicht ewig hängt
|
||
response = await asyncio.wait_for(client.models.list(), timeout=5.0)
|
||
models = [m.id for m in response.data]
|
||
models.sort()
|
||
return {"models": models}
|
||
except Exception as e:
|
||
print(f"NVIDIA API Error: {e}")
|
||
return {"models": [f"NVIDIA Fehler: {str(e)[:20]}..."]}
|
||
|
||
elif provider == "google":
|
||
if not GOOGLE_API_KEY:
|
||
return {"models": ["API-Key fehlt"]}
|
||
|
||
client = genai.Client(api_key=GOOGLE_API_KEY)
|
||
models = []
|
||
|
||
# Im neuen SDK (google-genai) heißt das Feld 'supported_actions'
|
||
for m in client.models.list():
|
||
if 'generateContent' in m.supported_actions:
|
||
# Wir nehmen den Namen und entfernen das 'models/' Präfix
|
||
model_name = m.name.replace("models/", "")
|
||
models.append(model_name)
|
||
|
||
models.sort()
|
||
|
||
return {"models": models}
|
||
|
||
except Exception as e:
|
||
print(f"Fehler beim Abrufen der Modelle für {provider}: {str(e)}")
|
||
return {"models": []} # Gibt eine leere Liste zurück -> Frontend nutzt Fallback
|
||
|
||
@app.get("/debug_keys")
|
||
async def debug_keys():
|
||
return {
|
||
"AI_PROVIDER": AI_PROVIDER,
|
||
"NVIDIA_KEY_LOADED": bool(NVIDIA_API_KEY and "hier" not in NVIDIA_API_KEY),
|
||
"NVIDIA_KEY_START": NVIDIA_API_KEY[:10] if NVIDIA_API_KEY else "Missing",
|
||
"GOOGLE_KEY_LOADED": bool(GOOGLE_API_KEY),
|
||
"OLLAMA_URL": OLLAMA_BASE_URL
|
||
}
|
||
|
||
|
||
if __name__ == "__main__":
|
||
import uvicorn
|
||
uvicorn.run(app, host="0.0.0.0", port=8000) |