Building a dapp from Scratch
In this tutorial we will use Network JS to build a React dapp that can be used in a browser with injected web3, such as when using MetaMask.
Setting up the Environment
We begin by creating a new project.
$ mkdir web3-dapp && cd web3-dapp
$ npm init -yThen we install Network JS
npm install @openzeppelin/networkCreating the dapp
We will create our dapp using the create-react-app package, which bootstraps a simple client-side application using React.
$ npx create-react-app clientOur dapp will display the current Ethereum network that we are connected to and which web3 provider is being used.
In the code below, first we import useWeb3 from the React implementation of Network JS (@openzeppelin/network/react).
We then get a web3Context using useWeb3. This hook will attempt to retrieve an injected web3 provider (e.g. MetaMask), otherwise it will fall back to a network connection, which in this case is a connection to mainnet via Infura.
The networkId, networkName and providerName are obtained from the web3Context and displayed in the dapp.
On the client/src/App.js file, replace the placeholder code in App.js in our react project with the following code:
import React from 'react';
import './App.css';
import { useWeb3 } from '@openzeppelin/network/react';
const infuraProjectId = '95202223388e49f48b423ea50a70e336';
function App() {
const web3Context = useWeb3(`wss://mainnet.infura.io/ws/v3/${infuraProjectId}`);
const { networkId, networkName, providerName } = web3Context;
return (
<div className="App">
<div>
<h1>OpenZeppelin Network.js</h1>
<div>Network: {networkId ? `${networkId} – ${networkName}` : 'No connection'}</div>
<div>Provider: {providerName}</div>
</div>
</div>
);
}
export default App;We can start our dapp by running npm start from within the client directory.
The dapp will display the Ethereum network ID and network name, either of mainnet from our network connection if no injected web3 provider such as MetaMask is available, otherwise it will display the current network as selected by the injected web3 provider, along with the web3 provider name.
We use useWeb3 which attempts to obtain an injected web3 provider first, before falling back to a network connection. Alternatively we could use useWeb3Injected for an injected web3 provider or useWeb3Network for a network provider e.g. Infura or a private node. Dapps can also be configured to use multiple providers if necessary.
| If you use Infura in your own dapp, you will need to create an account with Infura and setup an Infura Project (with corresponding Infura Project ID). See Infura website to create an account. |
Adding a Component
For the second iteration of our dapp we will move the display of the current Ethereum network to a component and see how components are re-rendered when changes are made, such as the network.
To install MetaMask as our injected web3 provider (if you don’t have an injected web3 provider installed already), follow the instructions on the MetaMask website to install the browser extension.
In the code below, our Web3Info component expects a web3Context. The networkId, networkName and providerName are obtained from the web3Context and displayed in the component.
In the client/src directory create a components directory. In the components directory create a Web3Info.js file with the following code:
import React from 'react';
export default function Web3Info(props) {
const { web3Context } = props;
const { networkId, networkName, providerName } = web3Context;
return (
<div>
<h3> {props.title} </h3>
<div>Network: {networkId ? `${networkId} – ${networkName}` : 'No connection'}</div>
<div>Provider: {providerName}</div>
</div>
);
}In our App we use our Web3Info component and provide a web3Context.
In the client/src/App.js file, add an import for our Web3Info component:
import Web3Info from './components/Web3Info.js';Then replace the contents of the App function in App.js with the following code:
const web3Context = useWeb3(`wss://mainnet.infura.io/ws/v3/${infuraProjectId}`);
return (
<div className="App">
<div>
<h1>OpenZeppelin Network.js</h1>
<Web3Info title="Web3 Info" web3Context={web3Context} />
</div>
</div>
);Start our dapp again by running npm start from within the client directory.
Network JS re-renders React components on changes such as account, network, and connection.
Try changing networks in MetaMask and Network JS will cause the component to update with the network ID and network name.
Adding Request Access to Account Address
For the third iteration of our dapp we will add a mechanism to request access to the users address and once the user has connected will display the account address.
Injected web3 providers don’t give the dapp access to a users address until the user has given permission. This is to protect the privacy of users, otherwise websites could track users based on their account address. See EIP-1102 for details.
| Best practice is for a dapp to wait to request access to the users address until a user wants to perform an action that they can only do which requires this access. Remember dapps can be configured to use multiple web3 providers such as a network provider if necessary. |
In the code below, we get accounts from the web3Context and if available the users address is displayed in the dapp.
If accounts are not available we display a button for the user to request access for the dapp to the users address. When pressed, the requestAuth function in web3Context is called and the injected web3 provider can display a dialog to the user to request access.
We also use react functionality, useCallback to setup the callback for request access.
In the Web3Info.js file, replace the contents of the component with the following code:
import React, { useCallback } from 'react';
export default function Web3Info(props) {
const { web3Context } = props;
const { networkId, networkName, accounts, providerName } = web3Context;
const requestAuth = async web3Context => {
try {
await web3Context.requestAuth();
} catch (e) {
console.error(e);
}
};
const requestAccess = useCallback(() => requestAuth(web3Context), []);
return (
<div>
<h3> {props.title} </h3>
<div>Network: {networkId ? `${networkId} – ${networkName}` : 'No connection'}</div>
<div>Your address: {accounts && accounts.length ? accounts[0] : 'Unknown'}</div>
<div>Provider: {providerName}</div>
{accounts && accounts.length ? (
<div>Accounts & Signing Status: Access Granted</div>
) : !!networkId && providerName !== 'infura' ? (
<div>
<button onClick={requestAccess}>Request Access</button>
</div>
) : (
<div></div>
)}
</div>
);
}Start our dapp again by running npm start from within the client directory.
Once the dapp is loaded in the browser, press Request Access to request access to the users address and then accept the request (in MetaMask press the Connect button). The users address will then be displayed.
To restart the process, in MetaMask you can logout and the user will need to request access again.
Adding Account Balance
For the final iteration of our dapp we will add to our component to display the account balance.
In the code below, we get the lib from the web3Context which is an initialized instance of web3.js. We use lib (web3.js) to getBalance of the account and to convert fromWei to ether units.
We also use react functionality, useState to track the state of the account balance and useEffect to get the balance if accounts or networkId change.
In the Web3Info.js file, replace the contents of the component with the following code:
import React, { useState, useEffect, useCallback } from 'react';
export default function Web3Info(props) {
const { web3Context } = props;
const { networkId, networkName, accounts, providerName, lib } = web3Context;
const [balance, setBalance] = useState(0);
const getBalance = useCallback(async () => {
let balance =
accounts && accounts.length > 0 ? lib.utils.fromWei(await lib.eth.getBalance(accounts[0]), 'ether') : 'Unknown';
setBalance(balance);
}, [accounts, lib.eth, lib.utils]);
useEffect(() => {
getBalance();
}, [accounts, getBalance, networkId]);
const requestAuth = async web3Context => {
try {
await web3Context.requestAuth();
} catch (e) {
console.error(e);
}
};
const requestAccess = useCallback(() => requestAuth(web3Context), []);
return (
<div>
<h3> {props.title} </h3>
<div>Network: {networkId ? `${networkId} – ${networkName}` : 'No connection'}</div>
<div>Your address: {accounts && accounts.length ? accounts[0] : 'Unknown'}</div>
<div>Your ETH balance: {balance}</div>
<div>Provider: {providerName}</div>
{accounts && accounts.length ? (
<div>Accounts & Signing Status: Access Granted</div>
) : !!networkId && providerName !== 'infura' ? (
<div>
<button onClick={requestAccess}>Request Access</button>
</div>
) : (
<div></div>
)}
</div>
);
}Start our dapp again by running npm start from within the client directory.
The dapp now displays the account balance.
Gas Station Network
Network JS can be used with the Gas Station Network (GSN). The example below uses a network provider (Infura), and generates an ephemeral key for signing relay requests to the GSN.
const web3Context = useWeb3Network(`wss://rinkeby.infura.io/ws/v3/${infuraProjectId}`, {
gsn: { signKey: useEphemeralKey() }
});To get started quickly with Network JS and the Gas Station Network you can use the OpenZeppelin GSN Starter Kit.
To unpack the starter kit, run the following inside an empty project directory and follow the instructions.
openzeppelin unpack @openzeppelin/starter-kit-gsnVanilla JavaScript and non-React Frameworks
Network JS can be used with (vanilla) JavaScript and non-React frameworks. Please note that the import is @openzeppelin/network rather than @openzeppelin/network/react and fromInjected rather than useWeb3Injected.
import { fromInjected, fromConnection } from '@openzeppelin/network';
const web3Context = await fromInjected();
function updateNetwork(networkId, networkName) {}
function updateAccounts(accounts) {}
function updateConnection(connected) {}
web3Context.on(Web3Context.NetworkIdChangedEventName, updateNetwork);
web3Context.on(Web3Context.AccountsChangedEventName, updateAccounts);
web3Context.on(Web3Context.ConnectionChangedEventName, updateConnection);