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What is hardhat

Hardhat is a development environment for Ethereum software. It consists of different components for editing, compiling, debugging and deploying your smart contracts and dApps, all of which work together to create a complete development environment.

This Guide will walk you throught the steps on how to deploy an ERC-20 Token Contract to Fuse Blockchain using Hardhat.

Pre-requisites

  • Solidity programming knowledge
  • JavaScript knowledge

Open a new terminal and run these commands to create a new folder:

mkdir hardhat-fuse-guide && cd hardhat-fuse-guide

Inside the folder, initialize a project by running

npm init -y

In the same directory where you installed Hardhat run:

npx hardhat init

Follow the prompts. A package.json file is added to the project dir, and we can then install Hardhat by running:

Note:

Do you want to install this sample project's dependencies with npm (hardhat @nomicfoundation/hardhat-toolbox)? (Y/n) › y

npm install --save-dev hardhat

Next install the Hardhat toolbox. The @nomicfoundation/hardhat-toolbox plugin bundles all the commonly used packages and Hardhat plugins to start developing with Hardhat.

npm install --save-dev @nomicfoundation/hardhat-toolbox

If you are using VS Code Editor, you can add the folder and look at the contents. In this guide, we will focus on the hardhat.config.js file, Contracts and Scripts directories. Open the Contract folder, delete the default Lock.sol file and add a new file Token.sol. Update the contents of Token.sol with the following code:

// SPDX-License-Identifier: MIT
pragma solidity ^0.8.0;

import "@openzeppelin/contracts@4.0.0/token/ERC20/ERC20.sol";
import "@openzeppelin/contracts@4.0.0/token/ERC20/extensions/ERC20Burnable.sol";
import "@openzeppelin/contracts@4.0.0/access/Ownable.sol";

contract MyToken is ERC20, ERC20Burnable, Ownable {
constructor(address initialOwner)
ERC20("MyToken", "MTK")
Ownable()
{}

function mint(address to, uint256 amount) public onlyOwner {
_mint(to, amount);
}
}

To compile your contracts run:

$ npx hardhat compile

It will return the response:

Compiling...
Compiled 1 contract successfully

The compiled artifacts will be saved in the artifacts/ directory by default. If you need to customize the Solidity compiler options, then you can do so through the solidity field in your hardhat.config.js

The next step is to deploy the contracts to the Fuse Blockchain. Open the Scripts directory and update the contents of deploy.js

const hre = require("hardhat");

async function main() {
const token = await hre.ethers.deployContract("Token");

await token.waitForDeployment();

console.log(`Contract deployed to ${token.target}`);
}

main().catch((error) => {
console.error(error);
process.exitCode = 1;
});

Deploy Contract

Open the hardhat.config.js file and update the information on Fuse Network

hardhat.config.js
module.exports = {
// ...
networks: {
fuse: {
url: "https://rpc.fuse.io/",
accounts: {
// put dev menomonic or PK here
},
},
spark: {
url: "https://rpc.fusespark.io/",
accounts: {
// put dev menomonic or PK here
},
},
},
// ...
};

Open a new terminal and deploy the smart contract to the Fuse network

npx hardhat run --network fuse scripts/deploy.ts

How to verify contracts

To verify contracts with hardhat the hardhat-etherscan is used. Yes it’s sound counterintuitive and wrong, but the hardhat-etherscan plugin verifies contracts in the blockscout explorer.

Add the following property to hardhat.config.js

hardhat.config.js
etherscan: {
apiKey: {
fuse: "YOUR_KEY_IF_YOU_HAVE_ONE",
spark: "YOUR_KEY_IF_YOU_HAVE_ONE"
},
customChains: [
{
network: "fuse",
chainId: 122,
urls: {
apiURL: "https://explorer.fuse.io/api",
browserURL: "https://explorer.fuse.io"
}
},
{
network: "spark",
chainId: 123,
urls: {
apiURL: "https://explorer.fusespark.io/api",
browserURL: "https://explorer.fusespark.io"
}
}
]
}

Verify the contract on Fuse

npx hardhat verify --network fuse DEPLOYED_CONTRACT_ADDRESS "Constructor argument 1"