# Optional: Send a request to your main server API # requests.post("https://ukussa-server.internal/api/telegram/hook", json=...)

await update.message.reply_text( f"✅ Contact received for first_name. The ukussa server has logged your number: phone[:5]*****" ) def main(): app = Application.builder().token(TOKEN).build() app.add_handler(CommandHandler("start", start)) app.add_handler(MessageHandler(filters.CONTACT, handle_contact))

By deploying your own version of this bot on a dedicated server (codenamed whatever you like—"ukussa" or otherwise), you gain control over one of the most valuable assets in digital communication: verified, real-time user contacts. Combine Telegram’s reach with your server’s power, and you have a contact management system that operates at the speed of instant messaging.

Enable and start:

import logging from telegram import Update, KeyboardButton, ReplyKeyboardMarkup from telegram.ext import Application, CommandHandler, MessageHandler, filters, ContextTypes TOKEN = "YOUR_BOT_TOKEN_UKUSSA" Simulated server-side database (ukussa local DB) class UkussaServerDB: @staticmethod def save_contact(user_id, phone_number, full_name): # In production, this writes to PostgreSQL or Redis with open("/var/log/ukussa_contacts.log", "a") as f: f.write(f"user_id|phone_number|full_name\n") return True

systemctl enable ukussa-bot.service systemctl start ukussa-bot.service Because the keyword implies a server-based bot, monitoring is crucial. You can link ukussa to Grafana or simply tail the log:

async def handle_contact(update: Update, context: ContextTypes.DEFAULT_TYPE): contact = update.message.contact user_id = update.effective_user.id phone = contact.phone_number first_name = contact.first_name last_name = contact.last_name or ""

ssh root@your-server-ip apt update && apt upgrade -y apt install python3-pip nginx -y mkdir /var/telegram-ukussa-bot cd /var/telegram-ukussa-bot Create bot.py with the following logic—specifically designed to handle the CONTACT shared type.