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Solana Jupiter Trading Bot

This is a simple demo uses Jupiter's Metis API and Quicknode's Metis add-on to create a simple Solana trading bot. The bot monitors price differences between token pairs and executes trades when profitable opportunities arise.

Frontend-Framework/Bibliothek:
Solana-Set
Sprache:
TypeScript
Build-Tool/Entwicklungsserver:
Jupiter Metis API
Vorschau der Beispiel-App

Übersicht

This is a simple demo uses Jupiter's Metis API and Quicknode's Metis add-on to create a simple Solana trading bot. The bot monitors price differences between token pairs and executes trades when profitable opportunities arise.

This example is for educational purposes only. Quicknode does not provide financial advice or endorse any trading strategies. Always do your own research and consult with a financial advisor before making any investment decisions.

In der Demo wird Folgendes verwendet:

Weiterführende Materialien:

Erste Schritte

Abhängigkeiten installieren

Öffnen Sie das Projektverzeichnis:

cd solana/jupiter-bot

Installieren Sie anschließend die Abhängigkeiten:

npm install
# or
pnpm install
# or
bun install

Set Environment Variables

Make sure you have a Quicknode endpoint handy. You can get one here.


  • Rename .env.example zu .env and update with your Quicknode Solana Node and Metis Add-on Endpoints.
  • Specify your SECRET_KEY (the private key of the wallet you want to use for the bot). You can generate a new one with solana-keygen new command using the Solana CLI.
  • Specify your SOLANA_ENDPOINT (get one here) and METIS_ENDPOINT (get one here) or use the public endpoint, https://public.jupiterapi.com.
SECRET_KEY=[00, ..., 00]
SOLANA_ENDPOINT=https://example.solana-mainnet.quiknode.pro/abc123/
METIS_ENDPOINT=https://jupiter-swap-api.quiknode.pro/abc123

Ensure your wallet is funded and modify the trading strategy in bot.ts to suit your needs.

First, run the development server:

npm run start
# or
pnpm start
# or
bun start

How it Works

Architektur

- bot.ts # Main bot logic
- index.ts # Entry point
- .env # Environment variables
- package.json # Dependencies

ArbBot Class

The main class that handles all trading logic:


  • constructor: Sets up the bot with configuration parameters including RPC endpoints, wallet details, and trading parameters
  • init: Initializes the bot by checking wallet balances and starting the price monitoring
  • initiatePriceWatch: Creates an interval to regularly check for arbitrage opportunities
  • getQuote: Fetches current price quotes from Jupiter Exchange
  • evaluateQuoteAndSwap: Analyzes quotes to determine if they meet profit thresholds
  • executeSwap: Handles the creation and submission of swap transactions
  • refreshBalances: Updates the current SOL and USDC balances
  • logSwap: Records successful trades to a JSON file
  • updateNextTrade: Prepares for the next trade after a successful swap
  • terminateSession: Safely shuts down the bot when conditions require it
  • jupiterInstructionToKitInstruction: Converts Jupiter API instruction format to @solana/kit instructions
  • getAddressLookupTableAccounts: Fetches address lookup tables for optimized transactions
  • postTransactionProcessing: Handles tasks after a successful transaction

Main Application

A simple runner script that:


  • Loads environment variables
  • Creates an instance of the ArbBot with configuration
  • Initializes and starts the bot

Example Trading Strategy

The bot uses a simple arbitrage strategy:


  1. Start with an initial token (USDC or SOL)
  2. Execute a trade when the price exceeds the target threshold
  3. Update parameters for the reverse trade with a profit margin
  4. Continue the cycle as long as profitable opportunities exist

This example is for educational purposes only. Quicknode does not provide financial advice or endorse any trading strategies. Always do your own research and consult with a financial advisor before making any investment decisions.

Beiträge & Feedback
Wir würden uns sehr über Ihr Feedback freuen und begrüßen jeden Beitrag zu dieser Beispiel-App!
Um Probleme zu melden oder Feedback zu geben, eröffne ein GitHub-Issue im qn-Anleitung-Beispiele Repository.
Um einen Beitrag zu leisten, gehen Sie bitte wie folgt vor:
  1. Das Repository forken
  2. Erstelle einen Feature-Branch:
    git checkout -b feature/amazing-feature
  3. Speichere deine Änderungen:
    git commit -m "Tolle Funktion hinzufügen"
  4. Deinen Branch pushen:
    git push origin feature/amazing-feature
  5. Erstelle einen Pull Request.