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EVM Token Factory

The EVM Token Factory app enables you to create an ERC-20 token on any EVM-compatible blockchain. You can customize the token name, symbol, and initial supply with ease.

Frontend-Framework/Bibliothek:
React/Next.js
Sprache:
TypeScript
Build-Tool/Entwicklungsserver:
Next.js
Vorschau der Beispiel-App

Übersicht

The EVM Token Factory app enables you to create an ERC-20 token on any EVM-compatible blockchain. You can customize the token name, symbol, and initial supply with ease. Currently, the app supports Sepolia and Holesky, but you can add more networks as needed.

Wichtiger Hinweis

The Holesky testnet is no longer actively maintained. The overall process is valid for other chains, such as Hoodi testnet. If you’d like to see an updated version of this app or support for additional chains, please open an issue or a PR in the qn-guide-examples repository.

Vorschau

Vorschau

The app uses Next.js 14 project bootstrapped with create-next-app.


Erste Schritte

Öffnen Sie das Projektverzeichnis:

cd sample-dapps/evm-token-factory

Set Environment Variables


  1. Rename .env.example zu .env.local and update it with RPC URLs for each blockchain. Also, include your WalletConnect. project ID (optionally, you can leave this blank but some features will not be supported). To create RPC URLs for each chain, you can run your own node locally or use a service like Quicknode to quickly spin up a node endpoint.

Configure Smart Contract Addresses

  1. Aktualisieren Sie die factoryAddress value in evm-token-factory/app/utils/ethereum.ts with your deployed factory contract address. This is the address you received in the output during the Deployment section.

  2. Remove any unused chains (e.g., mainnet) from the src/context/web3modal.tsx Datei.

RPC Configuration

This app requires a valid RPC URL for each blockchain you want to support. Here are more details on how RPC is configured throughout the app.


  • The RPC URLs referenced in the .env.local file are for the WalletConnect modal.
  • To send transactions, the app utilizes the ethers.BrowserProvider class to wrap an injected provider (e.g., MetaMask, Rabby, Coinbase Wallet) and use the providers RPC configuration. Therefore, users interacting with the app should have the network they're creating tokens on added to their wallet and switched to that RPC network. Failing to do so will result in the app displaying a "This app doesn’t support your current network. Switch to an available option following to continue." message.

If you do not want to support a blockchain(s), you can remove references of the chain(s) from the src/context/web3modal.tsx Datei.

Abhängigkeiten installieren

Installieren Sie anschließend die Abhängigkeiten:

npm install
# oder
yarn
# oder
pnpm install
# oder
bun install

After, start the development server:

npm run dev
# or
yarn dev
# or
pnpm dev
# or
bun dev

Open http://localhost:3000 with your browser to see the app.


Using the Dapp


  1. Connect your wallet

    • Make sure you have enough ETH (or other native EVM gas token) in your wallet to cover the create token transaction
    • If you are using Testnet, you can get free ETH from the Quicknode Faucet
  2. Click "Create Token" and confirm the transaction to create the ERC-20 token!

Architektur

├── app
│ ├── api
│ │ └── evm
│ │ └── createToken
│ │ └── route.ts # API Method for calling CreateToken function
│ ├── components
│ │ ├── Connect.tsx # Web3Modal Component
│ │ ├── Footer.tsx
│ │ └── Navbar.tsx
│ ├── favicon.ico
│ ├── globals.css
│ ├── layout.tsx # The Web3Modal component
│ ├── page.tsx # Main page for Token Factory
│ └── utils
│ ├── abi.json # Factory ABI
│ └── ethereum.ts # Chain configuration and helpers
├── context
│ └── web3modal.tsx # Wallet Adapter Context providers
├── contracts
│ ├── README.md
│ ├── foundry.toml # Forge configuration
│ ├── lib # Dependencies
│ ├── remappings.txt # Library mappings
│ ├── script
│ │ ├── Counter.s.sol
│ │ └── CreateToken.s.sol
│ ├── src
│ │ ├── Counter.sol
│ │ ├── Factory.sol
│ │ └── Token.sol
│ └── test
│ ├── Counter.t.sol
│ ├── Factory.t.sol
│ └── Token.t.sol
├── next-env.d.ts
├── next.config.mjs
├── package-lock.json
├── package.json
├── postcss.config.mjs
├── public
│ ├── next.svg
│ ├── preview.png
│ ├── preview2.png
│ └── vercel.svg
├── .env.example # Configure RPCs and WalletConnect Project ID
├── tailwind.config.ts
└── tsconfig.json

Smart Contracts

The ERC-20 Token Factory backend built on smart contracts with Solidity can be deployed on any EVM-compatible blockchain. For demonstration purposes, we have deployed the Token Factory to the Sepolia and Holesky testnet. It has not been deployed to any mainnet or L2 chains yet due to gas fee constraints but feel free to deploy it and open a PR in this repo.

The ERC-20 Token Factory is built with two smart contracts:

  • Factory: The Factory contract (contracts/Factory.sol) inherits the Token.sol smart contract and acts as a Factory for creating and tracking new ERC-20 tokens.

  • Token: This is an ERC-20 smart contract (contracts/Token.sol) defined by the OpenZeppelin standard and includes a mint und transferOwnership function call in the constructor upon deployment.

Supported Chains & Addresses

  • Sepolia: 0x28D99a0A1B430B3669B8A2799dCDd7d332ceDb1C
  • Holesky: 0x5fCCa8dCeD28B13f2924CB78B934Ab0AF445542A

Deploy the Factory to another EVM blockchain

To deploy the Factory contract on a new chain using Foundry, follow these steps:


  1. Ensure Gießerei is installed and navigate inside the Verträge directory. Install the required dependencies with the following commands:
forge install foundry-rs/forge-std --no-commit
forge install OpenZeppelin/openzeppelin-contracts --no-commit
  1. Build (compile) the smart contracts using the Forge-Build command.

  2. Run tests using the Schmiedetest command.

  3. To deploy, run the forge create command below and input the proper RPC network and private key values:

forge create --rpc-url QUICKNODE_HTTP_URL \
--private-key YOUR_PRIVATE_KEY \
src/Factory.sol:TokenFactory

  1. Edit the src/context/web3modal.tsx file and add a new chain object with its chain ID (find a list hier), name, native gas token currency, explorer URL, and RPC URL (e.g., Quicknode):
export const mainnet = {
chainId: 1,
name: 'Ethereum',
currency: 'ETH',
explorerUrl: 'https://etherscan.io',
rpcUrl: process.env.NEXT_PUBLIC_MAINNET_RPC_URL
}

  1. Add the Factory address and explorer URL to the CHAINS object in app/utils/ethereum.ts. For example:
    1: { // Ethereum Mainnet
factoryAddress: "FACTORY_ADDRESS",
explorerUrl: "https://etherscan.io",
},

If you would like to learn more about creating and deploying smart contracts, check out these resources:



Next.js Documentation

To learn more about Next.js, take a look at the following resources:

You can check out the Next.js GitHub repository - your feedback and contributions are welcome!


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.