TON Connect for Telegram Bots
This guide explains an outdated method of integrating TON Connect with Telegram bots. For a more secure and modern approach, consider using [Telegram Mini Apps](/v3/guidelines/dapps/tma/overview for a more modern and secure integration.
In this tutorial, we will develop a sample Telegram bot using the JavaScript TON Connect SDK, supporting TON Connect 2.0 authentication. This guide covers wallet connections, sending transactions, retrieving wallet information, and disconnecting wallets.
Open Demo Bot
Check out GitHub
Documentation links
Prerequisites
- You need to create a telegram bot using @BotFather and save its token.
- Node JS should be installed (we use version 18.1.0 in this tutorial).
- Docker should be installed.
Creating project
Setting up dependencies
Start by creating a Node.js project. We will use TypeScript and the node-telegram-bot-api library, though you can choose an alternative library if preferred. Also, we will use qrcode library for QR codes generation, but you can replace it with any other same library.
Let's create a directory ton-connect-bot
. Add the following package.json file there:
{
"name": "ton-connect-bot",
"version": "1.0.0",
"scripts": {
"compile": "npx rimraf dist && tsc",
"run": "node ./dist/main.js"
},
"dependencies": {
"@tonconnect/sdk": "^3.0.0-beta.1",
"dotenv": "^16.0.3",
"node-telegram-bot-api": "^0.61.0",
"qrcode": "^1.5.1"
},
"devDependencies": {
"@types/node-telegram-bot-api": "^0.61.4",
"@types/qrcode": "^1.5.0",
"rimraf": "^3.0.2",
"typescript": "^4.9.5"
}
}
Run npm i
to install dependencies.
Add a tsconfig.json
Create a tsconfig.json
:
tsconfig.json code
{
"compilerOptions": {
"declaration": true,
"lib": ["ESNext", "dom"],
"resolveJsonModule": true,
"experimentalDecorators": false,
"esModuleInterop": true,
"allowSyntheticDefaultImports": true,
"target": "es6",
"strict": true,
"noImplicitAny": true,
"strictNullChecks": true,
"strictFunctionTypes": true,
"strictPropertyInitialization": true,
"noImplicitThis": true,
"alwaysStrict": true,
"noUnusedLocals": false,
"noUnusedParameters": true,
"noImplicitReturns": true,
"noFallthroughCasesInSwitch": true,
"module": "commonjs",
"moduleResolution": "node",
"sourceMap": true,
"useUnknownInCatchVariables": false,
"noUncheckedIndexedAccess": true,
"emitDecoratorMetadata": false,
"importHelpers": false,
"skipLibCheck": true,
"skipDefaultLibCheck": true,
"allowJs": true,
"outDir": "./dist"
},
"include": ["src"],
"exclude": [
"./tests","node_modules", "lib", "types"]
}
Add simple bot code
Create a .env
file and add your bot token, DAppmanifest and wallets list cache time to live there:
See more about tonconnect-manifes.json
# .env
TELEGRAM_BOT_TOKEN=<YOUR BOT TOKEN, E.G 1234567890:AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA>
TELEGRAM_BOT_LINK=<YOUR TG BOT LINK HERE, E.G. https://t.me/ton_connect_example_bot>
MANIFEST_URL=https://raw.githubusercontent.com/ton-connect/demo-telegram-bot/master/tonconnect-manifest.json
WALLETS_LIST_CACHE_TTL_MS=86400000
Create directory src
and file bot.ts
inside. Let's create a TelegramBot instance there:
// src/bot.ts
import TelegramBot from 'node-telegram-bot-api';
import * as process from 'process';
const token = process.env.TELEGRAM_BOT_TOKEN!;
export const bot = new TelegramBot(token, { polling: true });
Now we can create an entrypoint file main.ts
inside the src
directory:
// src/main.ts
import dotenv from 'dotenv';
dotenv.config();
import { bot } from './bot';
bot.on('message', msg => {
const chatId = msg.chat.id;
bot.sendMessage(chatId, 'Received your message');
});
Here we go. You can run npm run compile
and npm run start
, and send any message to your bot. Bot will reply "Received your message". We are ready for the TonConnect integration.
At the moment we have the following files structure:
ton-connect-bot
├── src
│ ├── bot.ts
│ └── main.ts
├── package.json
├── package-lock.json
├── .env
└── tsconfig.json
Connecting a wallet
After installing the @tonconnect/sdk
, we can begin by importing it to initialize wallet connections.
We will start with getting wallets list. We need only http-bridge-compatible wallets. Create a folder ton-connect
into src
and add wallets.ts
file there:
We also define function getWalletInfo
that queries detailed wallet info by its appName
.
The difference between name
and appName
is that name
is a human-readable label of the wallet, and appName
is the wallet's uniq identifier.
// src/ton-connect/wallets.ts
import { isWalletInfoRemote, WalletInfoRemote, WalletsListManager } from '@tonconnect/sdk';
const walletsListManager = new WalletsListManager({
cacheTTLMs: Number(process.env.WALLETS_LIST_CACHE_TTL_MS)
});
export async function getWallets(): Promise<WalletInfoRemote[]> {
const wallets = await walletsListManager.getWallets();
return wallets.filter(isWalletInfoRemote);
}
export async function getWalletInfo(walletAppName: string): Promise<WalletInfo | undefined> {
const wallets = await getWallets();
return wallets.find(wallet => wallet.appName.toLowerCase() === walletAppName.toLowerCase());
}
Now we need to define a TonConnect storage. TonConnect uses localStorage
to save connection details when running in the browser, however there is no localStorage
in NodeJS environment. That's why we should add a custom simple storage implementation.
See details about TonConnect storage
Create storage.ts
inside ton-connect
directory:
// src/ton-connect/storage.ts
import { IStorage } from '@tonconnect/sdk';
const storage = new Map<string, string>(); // temporary storage implementation. We will replace it with the redis later
export class TonConnectStorage implements IStorage {
constructor(private readonly chatId: number) {} // we need to have different stores for different users
private getKey(key: string): string {
return this.chatId.toString() + key; // we will simply have different keys prefixes for different users
}
async removeItem(key: string): Promise<void> {
storage.delete(this.getKey(key));
}
async setItem(key: string, value: string): Promise<void> {
storage.set(this.getKey(key), value);
}
async getItem(key: string): Promise<string | null> {
return storage.get(this.getKey(key)) || null;
}
}
We are moving on implementing a wallet connection.
Modify src/main.ts
and add connect
command. We are going to implement a wallet connection in this command handler.
import dotenv from 'dotenv';
dotenv.config();
import { bot } from './bot';
import { getWallets } from './ton-connect/wallets';
import TonConnect from '@tonconnect/sdk';
import { TonConnectStorage } from './ton-connect/storage';
import QRCode from 'qrcode';
bot.onText(/\/connect/, async msg => {
const chatId = msg.chat.id;
const wallets = await getWallets();
const connector = new TonConnect({
storage: new TonConnectStorage(chatId),
manifestUrl: process.env.MANIFEST_URL
});
connector.onStatusChange(wallet => {
if (wallet) {
bot.sendMessage(chatId, `${wallet.device.appName} wallet connected!`);
}
});
const tonkeeper = wallets.find(wallet => wallet.appName === 'tonkeeper')!;
const link = connector.connect({
bridgeUrl: tonkeeper.bridgeUrl,
universalLink: tonkeeper.universalLink
});
const image = await QRCode.toBuffer(link);
await bot.sendPhoto(chatId, image);
});
Let's analyze what we are doing here. Firstly we fetch the wallets list and create a TonConnect instance.
After that we subscribe to wallet change. When user connects a wallet, bot will send a message ${wallet.device.appName} wallet connected!
.
Next we find the Tonkeeper wallet and create connection link. In the end we generate a QR code with the link and send it as a photo to the user.
Now you can run the bot (npm run compile
and npm run start
then) and send /connect
message to the bot. Bot should reply with the QR. Scan it with the Tonkeeper wallet. You will see a message Tonkeeper wallet connected!
in the chat.
We will use connector in many places, so let's move connector creating code to a separate file:
// src/ton-connect/connector.ts
import TonConnect from '@tonconnect/sdk';
import { TonConnectStorage } from './storage';
import * as process from 'process';
export function getConnector(chatId: number): TonConnect {
return new TonConnect({
manifestUrl: process.env.MANIFEST_URL,
storage: new TonConnectStorage(chatId)
});
}
And import it in the src/main.ts
// src/main.ts
import dotenv from 'dotenv';
dotenv.config();
import { bot } from './bot';
import { getWallets } from './ton-connect/wallets';
import QRCode from 'qrcode';
import { getConnector } from './ton-connect/connector';
bot.onText(/\/connect/, async msg => {
const chatId = msg.chat.id;
const wallets = await getWallets();
const connector = getConnector(chatId);
connector.onStatusChange(wallet => {
if (wallet) {
bot.sendMessage(chatId, `${wallet.device.appName} wallet connected!`);
}
});
const tonkeeper = wallets.find(wallet => wallet.appName === 'tonkeeper')!;
const link = connector.connect({
bridgeUrl: tonkeeper.bridgeUrl,
universalLink: tonkeeper.universalLink
});
const image = await QRCode.toBuffer(link);
await bot.sendPhoto(chatId, image);
});
At the moment we have the following files structure:
bot-demo
├── src
│ ├── ton-connect
│ │ ├── connector.ts
│ │ ├── wallets.ts
│ │ └── storage.ts
│ ├── bot.ts
│ └── main.ts
├── package.json
├── package-lock.json
├── .env
└── tsconfig.json
Creating connect wallet menu
Add inline keyboard
We've done the Tonkeeper wallet connection. But we didn't implement connection via universal QR code for all wallets, and didn't allow the user to choose suitable wallet. Let's cover it now.
For better UX we are going to use callback_query
and inline_keyboard
Telegram features. If you don't fill familiar with that, you can read more about it here.
We will implement following UX for wallet connection:
First screen:
<Unified QR>
<Open @wallet>, <Choose a wallet button (opens second screen)>, <Open wallet unified link>
Second screen:
<Unified QR>
<Back (opens first screen)>
<@wallet button (opens third screen)>, <Tonkeeper button (opens third screen)>, <Tonhub button (opens third screen)>, <...>
Third screen:
<Selected wallet QR>
<Back (opens second screen)>
<Open selected wallet link>
Let's start with adding inline keyboard to the /connect
command handler in the main.ts
// src/main.ts
bot.onText(/\/connect/, async msg => {
const chatId = msg.chat.id;
const wallets = await getWallets();
const connector = getConnector(chatId);
connector.onStatusChange(async wallet => {
if (wallet) {
const walletName =
(await getWalletInfo(wallet.device.appName))?.name || wallet.device.appName;
bot.sendMessage(chatId, `${walletName} wallet connected!`);
}
});
const link = connector.connect(wallets);
const image = await QRCode.toBuffer(link);
await bot.sendPhoto(chatId, image, {
reply_markup: {
inline_keyboard: [
[
{
text: 'Choose a Wallet',
callback_data: JSON.stringify({ method: 'chose_wallet' })
},
{
text: 'Open Link',
url: `https://ton-connect.github.io/open-tc?connect=${encodeURIComponent(
link
)}`
}
]
]
}
});
});
We need to wrap TonConnect deeplink as https://ton-connect.github.io/open-tc?connect=${encodeURIComponent(link)} because only http
links are allowed in the Telegram inline keyboard.
Website https://ton-connect.github.io/open-tc just redirects user to link passed in the connect
query param, so it's only workaround to open tc://
link in the Telegram.
Note that we replaced connector.connect
call arguments. Now we are generating a unified link for all wallets.
Next we tell Telegram to call callback_query
handler with { "method": "chose_wallet" }
value when user clicks to the Choose a Wallet
button.
Add Choose a Wallet button handler
Create a file src/connect-wallet-menu.ts
.
Let's add 'Choose a Wallet' button click handler there:
// src/connect-wallet-menu.ts
async function onChooseWalletClick(query: CallbackQuery, _: string): Promise<void> {
const wallets = await getWallets();
await bot.editMessageReplyMarkup(
{
inline_keyboard: [
wallets.map(wallet => ({
text: wallet.name,
callback_data: JSON.stringify({ method: 'select_wallet', data: wallet.appName })
})),
[
{
text: '« Back',
callback_data: JSON.stringify({
method: 'universal_qr'
})
}
]
]
},
{
message_id: query.message!.message_id,
chat_id: query.message!.chat.id
}
);
}
Here we are replacing the message inline keyboard with a new one that contains clickable list of wallets and 'Back' button.
Now we will add global callback_query
handler and register onChooseWalletClick
there:
// src/connect-wallet-menu.ts
import { CallbackQuery } from 'node-telegram-bot-api';
import { getWallets } from './ton-connect/wallets';
import { bot } from './bot';
export const walletMenuCallbacks = { // Define buttons callbacks
chose_wallet: onChooseWalletClick
};
bot.on('callback_query', query => { // Parse callback data and execute corresponing function
if (!query.data) {
return;
}
let request: { method: string; data: string };
try {
request = JSON.parse(query.data);
} catch {
return;
}
if (!walletMenuCallbacks[request.method as keyof typeof walletMenuCallbacks]) {
return;
}
walletMenuCallbacks[request.method as keyof typeof walletMenuCallbacks](query, request.data);
});
// ... other code from the previous ster
async function onChooseWalletClick ...
Here we define buttons handlers list and callback_query
parser. Unfortunately callback data is always string, so we have to pass JSON to the callback_data
and parse it later in the callback_query
handler.
Then we are looking for the requested method and call it with passed parameters.
Now we should add connect-wallet-menu.ts
import to the main.ts
// src/main.ts
// ... other imports
import './connect-wallet-menu';
// ... other code
Compile and run the bot. You can click to the Choose a wallet button and bot will replace inline keyboard buttons!
Add other buttons handlers
Let's complete this menu and add rest commands handlers.
Firstly we will create a utility function editQR
. Editing message media (QR image) is a bit tricky. We need to store image to the file and send it to the Telegram server. Then we can remove this file.
// src/connect-wallet-menu.ts
// ... other code
async function editQR(message: TelegramBot.Message, link: string): Promise<void> {
const fileName = 'QR-code-' + Math.round(Math.random() * 10000000000);
await QRCode.toFile(`./${fileName}`, link);
await bot.editMessageMedia(
{
type: 'photo',
media: `attach://${fileName}`
},
{
message_id: message?.message_id,
chat_id: message?.chat.id
}
);
await new Promise(r => fs.rm(`./${fileName}`, r));
}
In onOpenUniversalQRClick
handler we just regenerate a QR and deeplink and modify the message:
// src/connect-wallet-menu.ts
// ... other code
async function onOpenUniversalQRClick(query: CallbackQuery, _: string): Promise<void> {
const chatId = query.message!.chat.id;
const wallets = await getWallets();
const connector = getConnector(chatId);
connector.onStatusChange(wallet => {
if (wallet) {
bot.sendMessage(chatId, `${wallet.device.appName} wallet connected!`);
}
});
const link = connector.connect(wallets);
await editQR(query.message!, link);
await bot.editMessageReplyMarkup(
{
inline_keyboard: [
[
{
text: 'Choose a Wallet',
callback_data: JSON.stringify({ method: 'chose_wallet' })
},
{
text: 'Open Link',
url: `https://ton-connect.github.io/open-tc?connect=${encodeURIComponent(
link
)}`
}
]
]
},
{
message_id: query.message?.message_id,
chat_id: query.message?.chat.id
}
);
}
// ... other code
In onWalletClick
handler we are creating special QR and universal link for selected wallet only, and modify the message.
// src/connect-wallet-menu.ts
// ... other code
async function onWalletClick(query: CallbackQuery, data: string): Promise<void> {
const chatId = query.message!.chat.id;
const connector = getConnector(chatId);
connector.onStatusChange(wallet => {
if (wallet) {
bot.sendMessage(chatId, `${wallet.device.appName} wallet connected!`);
}
});
const selectedWallet = await getWalletInfo(data);
if (!selectedWallet) {
return;
}
const link = connector.connect({
bridgeUrl: selectedWallet.bridgeUrl,
universalLink: selectedWallet.universalLink
});
await editQR(query.message!, link);
await bot.editMessageReplyMarkup(
{
inline_keyboard: [
[
{
text: '« Back',
callback_data: JSON.stringify({ method: 'chose_wallet' })
},
{
text: `Open ${selectedWallet.name}`,
url: link
}
]
]
},
{
message_id: query.message?.message_id,
chat_id: chatId
}
);
}
// ... other code
Now we have to register this functions as callbacks (walletMenuCallbacks
):
// src/connect-wallet-menu.ts
import TelegramBot, { CallbackQuery } from 'node-telegram-bot-api';
import { getWallets } from './ton-connect/wallets';
import { bot } from './bot';
import * as fs from 'fs';
import { getConnector } from './ton-connect/connector';
import QRCode from 'qrcode';
export const walletMenuCallbacks = {
chose_wallet: onChooseWalletClick,
select_wallet: onWalletClick,
universal_qr: onOpenUniversalQRClick
};
// ... other code
Currently src/connect-wallet-menu.ts looks like that
// src/connect-wallet-menu.ts
import TelegramBot, { CallbackQuery } from 'node-telegram-bot-api';
import { getWallets, getWalletInfo } from './ton-connect/wallets';
import { bot } from './bot';
import { getConnector } from './ton-connect/connector';
import QRCode from 'qrcode';
import * as fs from 'fs';
export const walletMenuCallbacks = {
chose_wallet: onChooseWalletClick,
select_wallet: onWalletClick,
universal_qr: onOpenUniversalQRClick
};
bot.on('callback_query', query => { // Parse callback data and execute corresponing function
if (!query.data) {
return;
}
let request: { method: string; data: string };
try {
request = JSON.parse(query.data);
} catch {
return;
}
if (!callbacks[request.method as keyof typeof callbacks]) {
return;
}
callbacks[request.method as keyof typeof callbacks](query, request.data);
});
async function onChooseWalletClick(query: CallbackQuery, _: string): Promise<void> {
const wallets = await getWallets();
await bot.editMessageReplyMarkup(
{
inline_keyboard: [
wallets.map(wallet => ({
text: wallet.name,
callback_data: JSON.stringify({ method: 'select_wallet', data: wallet.appName })
})),
[
{
text: '« Back',
callback_data: JSON.stringify({
method: 'universal_qr'
})
}
]
]
},
{
message_id: query.message!.message_id,
chat_id: query.message!.chat.id
}
);
}
async function onOpenUniversalQRClick(query: CallbackQuery, _: string): Promise<void> {
const chatId = query.message!.chat.id;
const wallets = await getWallets();
const connector = getConnector(chatId);
connector.onStatusChange(wallet => {
if (wallet) {
bot.sendMessage(chatId, `${wallet.device.appName} wallet connected!`);
}
});
const link = connector.connect(wallets);
await editQR(query.message!, link);
await bot.editMessageReplyMarkup(
{
inline_keyboard: [
[
{
text: 'Choose a Wallet',
callback_data: JSON.stringify({ method: 'chose_wallet' })
},
{
text: 'Open Link',
url: `https://ton-connect.github.io/open-tc?connect=${encodeURIComponent(
link
)}`
}
]
]
},
{
message_id: query.message?.message_id,
chat_id: query.message?.chat.id
}
);
}
async function onWalletClick(query: CallbackQuery, data: string): Promise<void> {
const chatId = query.message!.chat.id;
const connector = getConnector(chatId);
connector.onStatusChange(wallet => {
if (wallet) {
bot.sendMessage(chatId, `${wallet.device.appName} wallet connected!`);
}
});
const selectedWallet = await getWalletInfo(data);
if (!selectedWallet) {
return;
}
const link = connector.connect({
bridgeUrl: selectedWallet.bridgeUrl,
universalLink: selectedWallet.universalLink
});
await editQR(query.message!, link);
await bot.editMessageReplyMarkup(
{
inline_keyboard: [
[
{
text: '« Back',
callback_data: JSON.stringify({ method: 'chose_wallet' })
},
{
text: `Open ${selectedWallet.name}`,
url: link
}
]
]
},
{
message_id: query.message?.message_id,
chat_id: chatId
}
);
}
async function editQR(message: TelegramBot.Message, link: string): Promise<void> {
const fileName = 'QR-code-' + Math.round(Math.random() * 10000000000);
await QRCode.toFile(`./${fileName}`, link);
await bot.editMessageMedia(
{
type: 'photo',
media: `attach://${fileName}`
},
{
message_id: message?.message_id,
chat_id: message?.chat.id
}
);
await new Promise(r => fs.rm(`./${fileName}`, r));
}
Compile and run the bot to check how wallet connection works now.
You may note that we haven't considered QR code expiration and stopping connectors yet. We will handle it later.
At the moment we have the following files structure:
bot-demo
├── src
│ ├── ton-connect
│ │ ├── connector.ts
│ │ ├── wallets.ts
│ │ └── storage.ts
│ ├── bot.ts
│ ├── connect-wallet-menu.ts
│ └── main.ts
├── package.json
├── package-lock.json
├── .env
└── tsconfig.json
Implement transaction sending
Before write new code that sends a transaction, let's clean up the code. We're going to create a new file for bot commands handlers ('/connect', '/send_tx', ...)
// src/commands-handlers.ts
import { bot } from './bot';
import { getWallets } from './ton-connect/wallets';
import QRCode from 'qrcode';
import TelegramBot from 'node-telegram-bot-api';
import { getConnector } from './ton-connect/connector';
export async function handleConnectCommand(msg: TelegramBot.Message): Promise<void> {
const chatId = msg.chat.id;
const wallets = await getWallets();
const connector = getConnector(chatId);
connector.onStatusChange(wallet => {
if (wallet) {
bot.sendMessage(chatId, `${wallet.device.appName} wallet connected!`);
}
});
const link = connector.connect(wallets);
const image = await QRCode.toBuffer(link);
await bot.sendPhoto(chatId, image, {
reply_markup: {
inline_keyboard: [
[
{
text: 'Choose a Wallet',
callback_data: JSON.stringify({ method: 'chose_wallet' })
},
{
text: 'Open Link',
url: `https://ton-connect.github.io/open-tc?connect=${encodeURIComponent(
link
)}`
}
]
]
}
});
}
Let's import that in the main.ts
and also move callback_query
entrypoint from connect-wallet-menu.ts
to the main.ts
:
// src/main.ts
import dotenv from 'dotenv';
dotenv.config();
import { bot } from './bot';
import './connect-wallet-menu';
import { handleConnectCommand } from './commands-handlers';
import { walletMenuCallbacks } from './connect-wallet-menu';
const callbacks = {
...walletMenuCallbacks
};
bot.on('callback_query', query => {
if (!query.data) {
return;
}
let request: { method: string; data: string };
try {
request = JSON.parse(query.data);
} catch {
return;
}
if (!callbacks[request.method as keyof typeof callbacks]) {
return;
}
callbacks[request.method as keyof typeof callbacks](query, request.data);
});
bot.onText(/\/connect/, handleConnectCommand);
// src/connect-wallet-menu.ts
// ... imports
export const walletMenuCallbacks = {
chose_wallet: onChooseWalletClick,
select_wallet: onWalletClick,
universal_qr: onOpenUniversalQRClick
};
async function onChooseWalletClick(query: CallbackQuery, _: string): Promise<void> {
// ... other code
Now we can add send_tx
command handler:
// src/commands-handlers.ts
// ... other code
export async function handleSendTXCommand(msg: TelegramBot.Message): Promise<void> {
const chatId = msg.chat.id;
const connector = getConnector(chatId);
await connector.restoreConnection();
if (!connector.connected) {
await bot.sendMessage(chatId, 'Connect wallet to send transaction');
return;
}
connector
.sendTransaction({
validUntil: Math.round(Date.now() / 1000) + 600, // timeout is SECONDS
messages: [
{
amount: '1000000',
address: '0:0000000000000000000000000000000000000000000000000000000000000000'
}
]
})
.then(() => {
bot.sendMessage(chatId, `Transaction sent successfully`);
})
.catch(e => {
if (e instanceof UserRejectsError) {
bot.sendMessage(chatId, `You rejected the transaction`);
return;
}
bot.sendMessage(chatId, `Unknown error happened`);
})
.finally(() => connector.pauseConnection());
let deeplink = '';
const walletInfo = await getWalletInfo(connector.wallet!.device.appName);
if (walletInfo) {
deeplink = walletInfo.universalLink;
}
await bot.sendMessage(
chatId,
`Open ${walletInfo?.name || connector.wallet!.device.appName} and confirm transaction`,
{
reply_markup: {
inline_keyboard: [
[
{
text: 'Open Wallet',
url: deeplink
}
]
]
}
}
);
}
Here we check if user's wallet is connected and process sending transaction. Then we send a message to the user with a button that opens user's wallet (wallet universal link without additional parameters). Note that this button contains an empty deeplink. It means that send transaction request data goes through the http-bridge, and transaction will appear it the user's wallet even if he just open the wallet app without clicking to this button.
Let's register this handler:
// src/main.ts
// ... other code
bot.onText(/\/connect/, handleConnectCommand);
bot.onText(/\/send_tx/, handleSendTXCommand);
Compile and run the bot to check that transaction sending works correctly.
At the moment we have the following files structure:
bot-demo
├── src
│ ├── ton-connect
│ │ ├── connector.ts
│ │ ├── wallets.ts
│ │ └── storage.ts
│ ├── bot.ts
│ ├── connect-wallet-menu.ts
│ ├── commands-handlers.ts
│ └── main.ts
├── package.json
├── package-lock.json
├── .env
└── tsconfig.json
Add disconnect and show connected wallet commands
This commands implementation is simple enough:
// src/commands-handlers.ts
// ... other code
export async function handleDisconnectCommand(msg: TelegramBot.Message): Promise<void> {
const chatId = msg.chat.id;
const connector = getConnector(chatId);
await connector.restoreConnection();
if (!connector.connected) {
await bot.sendMessage(chatId, "You didn't connect a wallet");
return;
}
await connector.disconnect();
await bot.sendMessage(chatId, 'Wallet has been disconnected');
}
export async function handleShowMyWalletCommand(msg: TelegramBot.Message): Promise<void> {
const chatId = msg.chat.id;
const connector = getConnector(chatId);
await connector.restoreConnection();
if (!connector.connected) {
await bot.sendMessage(chatId, "You didn't connect a wallet");
return;
}
const walletName =
(await getWalletInfo(connector.wallet!.device.appName))?.name ||
connector.wallet!.device.appName;
await bot.sendMessage(
chatId,
`Connected wallet: ${walletName}\nYour address: ${toUserFriendlyAddress(
connector.wallet!.account.address,
connector.wallet!.account.chain === CHAIN.TESTNET
)}`
);
}
And register this commands:
// src/main.ts
// ... other code
bot.onText(/\/connect/, handleConnectCommand);
bot.onText(/\/send_tx/, handleSendTXCommand);
bot.onText(/\/disconnect/, handleDisconnectCommand);
bot.onText(/\/my_wallet/, handleShowMyWalletCommand);
Compile and run the bot to check that commands above works correctly.
Optimisation
We've done all basic commands. But it is important to keep in mind that each connector keeps SSE connection opened until it is paused.
Also, we didn't handle case when user calls /connect
multiple times, or calls /connect
or /send_tx
and doesn't scan the QR. We should set a timeout and close the connection to save server resources.
Then we should notify user that QR / transaction request is expired.
Send transaction optimisation
Let's create a utility function that wraps a promise and rejects it after the specified timeout:
// src/utils.ts
export const pTimeoutException = Symbol();
export function pTimeout<T>(
promise: Promise<T>,
time: number,
exception: unknown = pTimeoutException
): Promise<T> {
let timer: ReturnType<typeof setTimeout>;
return Promise.race([
promise,
new Promise((_r, rej) => (timer = setTimeout(rej, time, exception)))
]).finally(() => clearTimeout(timer)) as Promise<T>;
}
You can use this code or pick a library you like.
Let's add a timeout parameter value to the .env
# .env
TELEGRAM_BOT_TOKEN=<YOUR BOT TOKEN, LIKE 1234567890:AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA>
MANIFEST_URL=https://raw.githubusercontent.com/ton-connect/demo-telegram-bot/master/tonconnect-manifest.json
WALLETS_LIST_CACHE_TTL_MS=86400000
DELETE_SEND_TX_MESSAGE_TIMEOUT_MS=600000
Now we are going to improve handleSendTXCommand
function and wrap tx sending to the pTimeout
// src/commands-handlers.ts
// export async function handleSendTXCommand(msg: TelegramBot.Message): Promise<void> { ...
pTimeout(
connector.sendTransaction({
validUntil: Math.round(
(Date.now() + Number(process.env.DELETE_SEND_TX_MESSAGE_TIMEOUT_MS)) / 1000
),
messages: [
{
amount: '1000000',
address: '0:0000000000000000000000000000000000000000000000000000000000000000'
}
]
}),
Number(process.env.DELETE_SEND_TX_MESSAGE_TIMEOUT_MS)
)
.then(() => {
bot.sendMessage(chatId, `Transaction sent successfully`);
})
.catch(e => {
if (e === pTimeoutException) {
bot.sendMessage(chatId, `Transaction was not confirmed`);
return;
}
if (e instanceof UserRejectsError) {
bot.sendMessage(chatId, `You rejected the transaction`);
return;
}
bot.sendMessage(chatId, `Unknown error happened`);
})
.finally(() => connector.pauseConnection());
// ... other code
Full handleSendTXCommand code
export async function handleSendTXCommand(msg: TelegramBot.Message): Promise<void> {
const chatId = msg.chat.id;
const connector = getConnector(chatId);
await connector.restoreConnection();
if (!connector.connected) {
await bot.sendMessage(chatId, 'Connect wallet to send transaction');
return;
}
pTimeout(
connector.sendTransaction({
validUntil: Math.round(
(Date.now() + Number(process.env.DELETE_SEND_TX_MESSAGE_TIMEOUT_MS)) / 1000
),
messages: [
{
amount: '1000000',
address: '0:0000000000000000000000000000000000000000000000000000000000000000'
}
]
}),
Number(process.env.DELETE_SEND_TX_MESSAGE_TIMEOUT_MS)
)
.then(() => {
bot.sendMessage(chatId, `Transaction sent successfully`);
})
.catch(e => {
if (e === pTimeoutException) {
bot.sendMessage(chatId, `Transaction was not confirmed`);
return;
}
if (e instanceof UserRejectsError) {
bot.sendMessage(chatId, `You rejected the transaction`);
return;
}
bot.sendMessage(chatId, `Unknown error happened`);
})
.finally(() => connector.pauseConnection());
let deeplink = '';
const walletInfo = await getWalletInfo(connector.wallet!.device.appName);
if (walletInfo) {
deeplink = walletInfo.universalLink;
}
await bot.sendMessage(
chatId,
`Open ${walletInfo?.name || connector.wallet!.device.appName} and confirm transaction`,
{
reply_markup: {
inline_keyboard: [
[
{
text: 'Open Wallet',
url: deeplink
}
]
]
}
}
);
}
If user doesn't confirm the transaction during DELETE_SEND_TX_MESSAGE_TIMEOUT_MS
(10min), the transaction will be cancelled and bot will send a message Transaction was not confirmed
.
You can set this parameter to 5000
compile and rerun the bot and test its behaviour.
Wallet connect flow optimisation
At this moment we create a new connector on the every navigation through the wallet connection menu step. That is poorly because we don't close previous connectors connection when create new connectors. Let's improve this behaviour and create a cache-mapping for users connectors.
src/ton-connect/connector.ts code
// src/ton-connect/connector.ts
import TonConnect from '@tonconnect/sdk';
import { TonConnectStorage } from './storage';
import * as process from 'process';
type StoredConnectorData = {
connector: TonConnect;
timeout: ReturnType<typeof setTimeout>;
onConnectorExpired: ((connector: TonConnect) => void)[];
};
const connectors = new Map<number, StoredConnectorData>();
export function getConnector(
chatId: number,
onConnectorExpired?: (connector: TonConnect) => void
): TonConnect {
let storedItem: StoredConnectorData;
if (connectors.has(chatId)) {
storedItem = connectors.get(chatId)!;
clearTimeout(storedItem.timeout);
} else {
storedItem = {
connector: new TonConnect({
manifestUrl: process.env.MANIFEST_URL,
storage: new TonConnectStorage(chatId)
}),
onConnectorExpired: []
} as unknown as StoredConnectorData;
}
if (onConnectorExpired) {
storedItem.onConnectorExpired.push(onConnectorExpired);
}
storedItem.timeout = setTimeout(() => {
if (connectors.has(chatId)) {
const storedItem = connectors.get(chatId)!;
storedItem.connector.pauseConnection();
storedItem.onConnectorExpired.forEach(callback => callback(storedItem.connector));
connectors.delete(chatId);
}
}, Number(process.env.CONNECTOR_TTL_MS));
connectors.set(chatId, storedItem);
return storedItem.connector;
}
This code may look a little tricky, but here we go. Here we store a connector, it's cleaning timeout and list of callback that should be executed after the timeout for each user.
When getConnector
is called we check if there is an existing connector for this chatId
(user) it the cache. If it exists we reset the cleaning timeout and return the connector.
That allows keep active users connectors in cache. It there is no connector in the cache we create a new one, register a timeout clean function and return this connector.
To make it works we have to add a new parameter to the .env
# .env
TELEGRAM_BOT_TOKEN=<YOUR BOT TOKEN, LIKE 1234567890:AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA>
MANIFEST_URL=https://ton-connect.github.io/demo-dapp-with-react-ui/tonconnect-manifest.json
WALLETS_LIST_CACHE_TTL_MS=86400000
DELETE_SEND_TX_MESSAGE_TIMEOUT_MS=600000
CONNECTOR_TTL_MS=600000
Now let's use it in the handelConnectCommand
src/commands-handlers.ts code
// src/commands-handlers.ts
import {
CHAIN,
isWalletInfoRemote,
toUserFriendlyAddress,
UserRejectsError
} from '@tonconnect/sdk';
import { bot } from './bot';
import { getWallets, getWalletInfo } from './ton-connect/wallets';
import QRCode from 'qrcode';
import TelegramBot from 'node-telegram-bot-api';
import { getConnector } from './ton-connect/connector';
import { pTimeout, pTimeoutException } from './utils';
let newConnectRequestListenersMap = new Map<number, () => void>();
export async function handleConnectCommand(msg: TelegramBot.Message): Promise<void> {
const chatId = msg.chat.id;
let messageWasDeleted = false;
newConnectRequestListenersMap.get(chatId)?.();
const connector = getConnector(chatId, () => {
unsubscribe();
newConnectRequestListenersMap.delete(chatId);
deleteMessage();
});
await connector.restoreConnection();
if (connector.connected) {
const connectedName =
(await getWalletInfo(connector.wallet!.device.appName))?.name ||
connector.wallet!.device.appName;
await bot.sendMessage(
chatId,
`You have already connect ${connectedName} wallet\nYour address: ${toUserFriendlyAddress(
connector.wallet!.account.address,
connector.wallet!.account.chain === CHAIN.TESTNET
)}\n\n Disconnect wallet firstly to connect a new one`
);
return;
}
const unsubscribe = connector.onStatusChange(async wallet => {
if (wallet) {
await deleteMessage();
const walletName =
(await getWalletInfo(wallet.device.appName))?.name || wallet.device.appName;
await bot.sendMessage(chatId, `${walletName} wallet connected successfully`);
unsubscribe();
newConnectRequestListenersMap.delete(chatId);
}
});
const wallets = await getWallets();
const link = connector.connect(wallets);
const image = await QRCode.toBuffer(link);
const botMessage = await bot.sendPhoto(chatId, image, {
reply_markup: {
inline_keyboard: [
[
{
text: 'Choose a Wallet',
callback_data: JSON.stringify({ method: 'chose_wallet' })
},
{
text: 'Open Link',
url: `https://ton-connect.github.io/open-tc?connect=${encodeURIComponent(
link
)}`
}
]
]
}
});
const deleteMessage = async (): Promise<void> => {
if (!messageWasDeleted) {
messageWasDeleted = true;
await bot.deleteMessage(chatId, botMessage.message_id);
}
};
newConnectRequestListenersMap.set(chatId, async () => {
unsubscribe();
await deleteMessage();
newConnectRequestListenersMap.delete(chatId);
});
}
// ... other code
We defined newConnectRequestListenersMap
to store cleanup callback for the last connect request for each user.
If user calls /connect
multiple times, bot will delete previous message with QR.
Also, we subscribed to the connector expiration timeout to delete the QR-code message when it is expired.
Now we should remove connector.onStatusChange
subscription from the connect-wallet-menu.ts
functions,
because they use the same connector instance and one subscription in the handleConnectCommand
in enough.
src/connect-wallet-menu.ts code
// src/connect-wallet-menu.ts
// ... other code
async function onOpenUniversalQRClick(query: CallbackQuery, _: string): Promise<void> {
const chatId = query.message!.chat.id;
const wallets = await getWallets();
const connector = getConnector(chatId);
const link = connector.connect(wallets);
await editQR(query.message!, link);
await bot.editMessageReplyMarkup(
{
inline_keyboard: [
[
{
text: 'Choose a Wallet',
callback_data: JSON.stringify({ method: 'chose_wallet' })
},
{
text: 'Open Link',
url: `https://ton-connect.github.io/open-tc?connect=${encodeURIComponent(
link
)}`
}
]
]
},
{
message_id: query.message?.message_id,
chat_id: query.message?.chat.id
}
);
}
async function onWalletClick(query: CallbackQuery, data: string): Promise<void> {
const chatId = query.message!.chat.id;
const connector = getConnector(chatId);
const wallets = await getWallets();
const selectedWallet = wallets.find(wallet => wallet.name === data);
if (!selectedWallet) {
return;
}
const link = connector.connect({
bridgeUrl: selectedWallet.bridgeUrl,
universalLink: selectedWallet.universalLink
});
await editQR(query.message!, link);
await bot.editMessageReplyMarkup(
{
inline_keyboard: [
[
{
text: '« Back',
callback_data: JSON.stringify({ method: 'chose_wallet' })
},
{
text: `Open ${data}`,
url: link
}
]
]
},
{
message_id: query.message?.message_id,
chat_id: chatId
}
);
}
// ... other code
That's it! Compile and run the bot and try to call /connect
twice.
Improve interaction with @wallet
Starting from v3 TonConnect supports connection to TWA wallets like @wallet. At the moment in the tutorial the bot could be connected to the @wallet.
However, we should improve redirection strategy to provide better UX. Moreover, let's add Connect @wallet
button to the first ("Universal QR") screen.
First, let's create some utility functions:
// src/utils.ts
import { encodeTelegramUrlParameters, isTelegramUrl } from '@tonconnect/sdk';
export const AT_WALLET_APP_NAME = 'telegram-wallet';
// ... other code
export function addTGReturnStrategy(link: string, strategy: string): string {
const parsed = new URL(link);
parsed.searchParams.append('ret', strategy);
link = parsed.toString();
const lastParam = link.slice(link.lastIndexOf('&') + 1);
return link.slice(0, link.lastIndexOf('&')) + '-' + encodeTelegramUrlParameters(lastParam);
}
export function convertDeeplinkToUniversalLink(link: string, walletUniversalLink: string): string {
const search = new URL(link).search;
const url = new URL(walletUniversalLink);
if (isTelegramUrl(walletUniversalLink)) {
const startattach = 'tonconnect-' + encodeTelegramUrlParameters(search.slice(1));
url.searchParams.append('startattach', startattach);
} else {
url.search = search;
}
return url.toString();
}
TonConnect parameters in Telegram links have to be encoded in special way, that's why we use encodeTelegramUrlParameters
to encode return strategy parameter.
We will use addTGReturnStrategy
to provide correct return url to the demo bot for @wallet.
Since we use Universal QR page creation code in two places, we are moving it to the separate function:
// src/utils.ts
// ... other code
export async function buildUniversalKeyboard(
link: string,
wallets: WalletInfoRemote[]
): Promise<InlineKeyboardButton[]> {
const atWallet = wallets.find(wallet => wallet.appName.toLowerCase() === AT_WALLET_APP_NAME);
const atWalletLink = atWallet
? addTGReturnStrategy(
convertDeeplinkToUniversalLink(link, atWallet?.universalLink),
process.env.TELEGRAM_BOT_LINK!
)
: undefined;
const keyboard = [
{
text: 'Choose a Wallet',
callback_data: JSON.stringify({ method: 'chose_wallet' })
},
{
text: 'Open Link',
url: `https://ton-connect.github.io/open-tc?connect=${encodeURIComponent(link)}`
}
];
if (atWalletLink) {
keyboard.unshift({
text: '@wallet',
url: atWalletLink
});
}
return keyboard;
}
Here we are adding separate button for @wallet to the First screen (Universal QR screen). All that remains is to use this function in connect-wallet-menu and command-handlers:
src/connect-wallet-menu.ts code
// src/connect-wallet-menu.ts
// ... other code
async function onOpenUniversalQRClick(query: CallbackQuery, _: string): Promise<void> {
const chatId = query.message!.chat.id;
const wallets = await getWallets();
const connector = getConnector(chatId);
const link = connector.connect(wallets);
await editQR(query.message!, link);
const keyboard = await buildUniversalKeyboard(link, wallets);
await bot.editMessageReplyMarkup(
{
inline_keyboard: [keyboard]
},
{
message_id: query.message?.message_id,
chat_id: query.message?.chat.id
}
);
}
// ... other code
src/commands-handlers.ts code
// src/commands-handlers.ts
// ... other code
export async function handleConnectCommand(msg: TelegramBot.Message): Promise<void> {
const chatId = msg.chat.id;
let messageWasDeleted = false;
newConnectRequestListenersMap.get(chatId)?.();
const connector = getConnector(chatId, () => {
unsubscribe();
newConnectRequestListenersMap.delete(chatId);
deleteMessage();
});
await connector.restoreConnection();
if (connector.connected) {
const connectedName =
(await getWalletInfo(connector.wallet!.device.appName))?.name ||
connector.wallet!.device.appName;
await bot.sendMessage(
chatId,
`You have already connect ${connectedName} wallet\nYour address: ${toUserFriendlyAddress(
connector.wallet!.account.address,
connector.wallet!.account.chain === CHAIN.TESTNET
)}\n\n Disconnect wallet firstly to connect a new one`
);
return;
}
const unsubscribe = connector.onStatusChange(async wallet => {
if (wallet) {
await deleteMessage();
const walletName =
(await getWalletInfo(wallet.device.appName))?.name || wallet.device.appName;
await bot.sendMessage(chatId, `${walletName} wallet connected successfully`);
unsubscribe();
newConnectRequestListenersMap.delete(chatId);
}
});
const wallets = await getWallets();
const link = connector.connect(wallets);
const image = await QRCode.toBuffer(link);
const keyboard = await buildUniversalKeyboard(link, wallets);
const botMessage = await bot.sendPhoto(chatId, image, {
reply_markup: {
inline_keyboard: [keyboard]
}
});
const deleteMessage = async (): Promise<void> => {
if (!messageWasDeleted) {
messageWasDeleted = true;
await bot.deleteMessage(chatId, botMessage.message_id);
}
};
newConnectRequestListenersMap.set(chatId, async () => {
unsubscribe();
await deleteMessage();
newConnectRequestListenersMap.delete(chatId);
});
}
// ... other code
Now we are going to handle TG links properly when user clicks to a wallet button on the second Screen (Choosing a wallet):
src/connect-wallet-menu.ts code
// src/connect-wallet-menu.ts
// ... other code
async function onWalletClick(query: CallbackQuery, data: string): Promise<void> {
const chatId = query.message!.chat.id;
const connector = getConnector(chatId);
const selectedWallet = await getWalletInfo(data);
if (!selectedWallet) {
return;
}
let buttonLink = connector.connect({
bridgeUrl: selectedWallet.bridgeUrl,
universalLink: selectedWallet.universalLink
});
let qrLink = buttonLink;
if (isTelegramUrl(selectedWallet.universalLink)) {
buttonLink = addTGReturnStrategy(buttonLink, process.env.TELEGRAM_BOT_LINK!);
qrLink = addTGReturnStrategy(qrLink, 'none');
}
await editQR(query.message!, qrLink);
await bot.editMessageReplyMarkup(
{
inline_keyboard: [
[
{
text: '« Back',
callback_data: JSON.stringify({ method: 'chose_wallet' })
},
{
text: `Open ${selectedWallet.name}`,
url: buttonLink
}
]
]
},
{
message_id: query.message?.message_id,
chat_id: chatId
}
);
}
// ... other code
Note that we place different links to the QR and button-link (qrLink
and buttonLink
),
because we don't need redirection when user scans QR by @wallet, and at the same time we need redirect back to the bot when user connects @wallet using button-link.
Now let's add return strategy for TG links in send transaction
handler:
src/commands-handlers.ts code
// src/commands-handlers.ts
// ... other code
export async function handleSendTXCommand(msg: TelegramBot.Message): Promise<void> {
const chatId = msg.chat.id;
const connector = getConnector(chatId);
await connector.restoreConnection();
if (!connector.connected) {
await bot.sendMessage(chatId, 'Connect wallet to send transaction');
return;
}
pTimeout(
connector.sendTransaction({
validUntil: Math.round(
(Date.now() + Number(process.env.DELETE_SEND_TX_MESSAGE_TIMEOUT_MS)) / 1000
),
messages: [
{
amount: '1000000',
address: '0:0000000000000000000000000000000000000000000000000000000000000000'
}
]
}),
Number(process.env.DELETE_SEND_TX_MESSAGE_TIMEOUT_MS)
)
.then(() => {
bot.sendMessage(chatId, `Transaction sent successfully`);
})
.catch(e => {
if (e === pTimeoutException) {
bot.sendMessage(chatId, `Transaction was not confirmed`);
return;
}
if (e instanceof UserRejectsError) {
bot.sendMessage(chatId, `You rejected the transaction`);
return;
}
bot.sendMessage(chatId, `Unknown error happened`);
})
.finally(() => connector.pauseConnection());
let deeplink = '';
const walletInfo = await getWalletInfo(connector.wallet!.device.appName);
if (walletInfo) {
deeplink = walletInfo.universalLink;
}
if (isTelegramUrl(deeplink)) {
const url = new URL(deeplink);
url.searchParams.append('startattach', 'tonconnect');
deeplink = addTGReturnStrategy(url.toString(), process.env.TELEGRAM_BOT_LINK!);
}
await bot.sendMessage(
chatId,
`Open ${walletInfo?.name || connector.wallet!.device.appName} and confirm transaction`,
{
reply_markup: {
inline_keyboard: [
[
{
text: `Open ${walletInfo?.name || connector.wallet!.device.appName}`,
url: deeplink
}
]
]
}
}
);
}
// ... other code
That is it. Now user is able to connect @wallet using special button on the main screen, also we have provided proper return strategy for TG links.
Add a permanent storage
At this moment we store TonConnect sessions in the Map object. But you may want to store it to the database or other permanent storage to save the sessions when you restart the server. We will use Redis for that, but you can pick any permanent storage.
Set up redis
Firstly run npm i redis
.
To work with redis you have to start redis server. We will use the Docker image:
docker run -p 6379:6379 -it redis/redis-stack-server:latest
Now add redis connection parameter to the .env
. Default redis url is redis://127.0.0.1:6379
.
# .env
TELEGRAM_BOT_TOKEN=<YOUR BOT TOKEN, LIKE 1234567890:AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA>
MANIFEST_URL=https://ton-connect.github.io/demo-dapp-with-react-ui/tonconnect-manifest.json
WALLETS_LIST_CACHE_TTL_MS=86400000
DELETE_SEND_TX_MESSAGE_TIMEOUT_MS=600000
CONNECTOR_TTL_MS=600000
REDIS_URL=redis://127.0.0.1:6379
Let's integrate redis to the TonConnectStorage
:
// src/ton-connect/storage.ts
import { IStorage } from '@tonconnect/sdk';
import { createClient } from 'redis';
const client = createClient({ url: process.env.REDIS_URL });
client.on('error', err => console.log('Redis Client Error', err));
export async function initRedisClient(): Promise<void> {
await client.connect();
}
export class TonConnectStorage implements IStorage {
constructor(private readonly chatId: number) {}
private getKey(key: string): string {
return this.chatId.toString() + key;
}
async removeItem(key: string): Promise<void> {
await client.del(this.getKey(key));
}
async setItem(key: string, value: string): Promise<void> {
await client.set(this.getKey(key), value);
}
async getItem(key: string): Promise<string | null> {
return (await client.get(this.getKey(key))) || null;
}
}
To make it work we have to wait for the redis initialisation in the main.ts
. Let's wrap code in this file to an async function:
// src/main.ts
// ... imports
async function main(): Promise<void> {
await initRedisClient();
const callbacks = {
...walletMenuCallbacks
};
bot.on('callback_query', query => {
if (!query.data) {
return;
}
let request: { method: string; data: string };
try {
request = JSON.parse(query.data);
} catch {
return;
}
if (!callbacks[request.method as keyof typeof callbacks]) {
return;
}
callbacks[request.method as keyof typeof callbacks](query, request.data);
});
bot.onText(/\/connect/, handleConnectCommand);
bot.onText(/\/send_tx/, handleSendTXCommand);
bot.onText(/\/disconnect/, handleDisconnectCommand);
bot.onText(/\/my_wallet/, handleShowMyWalletCommand);
}
main();
Summary
What is next?
- If you want to run the bot in production you may want to install and use a process manager like pm2.
- You can add better errors handling in the bot.