In this tutorial we will build a decentralized chat application on Avalanche's Fuji test-network from scratch. The dApp will allow users to connect with other people and chat with them. We will develop our smart contract using Solidity which will be deployed on Avalanche's C-chain. We will have a basic, easy-to-use UI developed using ReactJS. So, let us begin!
- Basic familiarity with Reactjs and Solidity
- Should've completed Deploy a Smart Contract on Avalanche using Remix and MetaMask tutorial
- Node.js v10.18.0+
- Metamask extension on your browser
Our chat dApp needs the basic functionality allowing users to connect with and share messages with friends. To accomplish this, we will write the functions responsible for creating an account, adding friends and sending messages.
We will define 3 functions :
-
The
checkUserExists(pubkey)
function is used to check if a user is registered with our application or not. It will help make sure duplicate users are not created and it will also be called from other functions to check their existence. -
The
createAccount(username)
function registers a new user on the platform with the provided username. -
The
getUsername(pubkey)
function will return the username of the given user if it exists.
Here also we will define 3 functions :
-
The
checkAlreadyFriends(pubkey1, pubkey2)
function checks whether two users are already friends with each other or not. This is needed to prevent duplicate channel between the same parties and will also be used to prevent a user from sending messages to other users unless they are friends. -
The
addFriend(pubkey, name)
function mark the two users as friend if they both are registered on the platform and are already not friends with each other. -
The
getMyFriendList()
function will return an array of friends of the given user.
The final part of the Solidity contract will enable the exchange of messages between users. We will divide the task into two functions sendMessage()
and readMessage()
.
-
The
sendMessage()
function allows a user to send messages to another registered user (friend). This is done withcheckUserExists(pubkey)
andcheckAlreadyFriends(pubkey1, pubkey2)
. -
The
readMessage()
function returns the chat history that has happened between the two users so far.
We will have three types of user-defined data :
-
user
will have the propertiesname
which stores the username, andfriendList
which is an array of other users. -
friend
will have the propertiespubkey
which is the friends' public address, andname
which the user would like to refer them as. -
message
has three properties:sender
,timestamp
andmsg
, which is short for "message".
We would maintain 2 collections in our database:
-
userList
where all the users on the platform are mapped with their public address. -
allMessages
stores the messages. As Solidity does not allow user-defined keys in a mapping, we can instead hash the public keys of the two users. This value can then be stored in the mapping.
Log in to MetaMask -> Click the Network drop-down -> Select Custom RPC
FUJI Testnet Settings:
- Network Name: Avalanche FUJI C-Chain
- New RPC URL: https://api.avax-test.network/ext/bc/C/rpc
- ChainID:
43114
- Symbol:
C-AVAX
- Explorer: https://cchain.explorer.avax-test.network
Fund your address from the given faucet.
Open Remix -> Select Solidity
Create a Database.sol
file in the Remix file explorer, and paste the following code :
// SPDX-License-Identifier: GPL-3.0
pragma solidity >=0.7.0 <0.9.0;
contract Database {
// Stores the default name of an user and her friends info
struct user {
string name;
friend[] friendList;
}
// Each friend is identified by its address and name assigned by the second party
struct friend {
address pubkey;
string name;
}
// message construct stores the single chat message and its metadata
struct message {
address sender;
uint256 timestamp;
string msg;
}
// Collection of users registered on the application
mapping(address => user) userList;
// Collection of messages communicated in a channel between two users
mapping(bytes32 => message[]) allMessages; // key : Hash(user1,user2)
// It checks whether a user(identified by its public key)
// has created an account on this application or not
function checkUserExists(address pubkey) public view returns(bool) {
return bytes(userList[pubkey].name).length > 0;
}
// Registers the caller(msg.sender) to our app with a non-empty username
function createAccount(string calldata name) external {
require(checkUserExists(msg.sender)==false, "User already exists!");
require(bytes(name).length>0, "Username cannot be empty!");
userList[msg.sender].name = name;
}
// Returns the default name provided by an user
function getUsername(address pubkey) external view returns(string memory) {
require(checkUserExists(pubkey), "User is not registered!");
return userList[pubkey].name;
}
// Adds new user as your friend with an associated nickname
function addFriend(address friend_key, string calldata name) external {
require(checkUserExists(msg.sender), "Create an account first!");
require(checkUserExists(friend_key), "User is not registered!");
require(msg.sender!=friend_key, "Users cannot add themselves as friends!");
require(checkAlreadyFriends(msg.sender,friend_key)==false, "These users are already friends!");
_addFriend(msg.sender, friend_key, name);
_addFriend(friend_key, msg.sender, userList[msg.sender].name);
}
// Checks if two users are already friends or not
function checkAlreadyFriends(address pubkey1, address pubkey2) internal view returns(bool) {
if(userList[pubkey1].friendList.length > userList[pubkey2].friendList.length)
{
address tmp = pubkey1;
pubkey1 = pubkey2;
pubkey2 = tmp;
}
for(uint i=0; i<userList[pubkey1].friendList.length; ++i)
{
if(userList[pubkey1].friendList[i].pubkey == pubkey2)
return true;
}
return false;
}
// A helper function to update the friendList
function _addFriend(address me, address friend_key, string memory name) internal {
friend memory newFriend = friend(friend_key,name);
userList[me].friendList.push(newFriend);
}
// Returns list of friends of the sender
function getMyFriendList() external view returns(friend[] memory) {
return userList[msg.sender].friendList;
}
// Returns a unique code for the channel created between the two users
// Hash(key1,key2) where key1 is lexicographically smaller than key2
function _getChatCode(address pubkey1, address pubkey2) internal pure returns(bytes32) {
if(pubkey1 < pubkey2)
return keccak256(abi.encodePacked(pubkey1, pubkey2));
else
return keccak256(abi.encodePacked(pubkey2, pubkey1));
}
// Sends a new message to a given friend
function sendMessage(address friend_key, string calldata _msg) external {
require(checkUserExists(msg.sender), "Create an account first!");
require(checkUserExists(friend_key), "User is not registered!");
require(checkAlreadyFriends(msg.sender,friend_key), "You are not friends with the given user");
bytes32 chatCode = _getChatCode(msg.sender, friend_key);
message memory newMsg = message(msg.sender, block.timestamp, _msg);
allMessages[chatCode].push(newMsg);
}
// Returns all the chat messages communicated in a channel
function readMessage(address friend_key) external view returns(message[] memory) {
bytes32 chatCode = _getChatCode(msg.sender, friend_key);
return allMessages[chatCode];
}
}
Navigate to the Solidity compiler Tab on the left side navigation bar and click the blue button to compile the Database.sol
contract. Note down the ABI
as it will be required in the next section.
Navigate to Deploy Tab and open the “ENVIRONMENT” drop-down. Select "Injected Web3" (make sure Metamask is loaded) and click "Deploy" button.
Approve the transaction on Metamask pop-up interface. Once our contract is deployed successfully, Note down the contract address
.
{% hint style="info" %} An Application Binary Interface (ABI) is a JSON object which stores the metadata about the methods of a contract like data type of input parameters, return data type & property of the method like payable, view, pure etc. You can learn more about the ABI from the solidity documentation {% endhint %}
Now, we are going to create a React app scaffold and set up the frontend of the application.
Open a terminal and navigate to the directory where we will create the application.
cd /path/to/directory
Now use npm
to install create-react-app. -g
flag denotes that the package should be installed globally.
npm install -g create-react-app
Create a new react app.
create-react-app avalanche-chat-app
Move to the newly created directory and install the given dependencies.
cd avalanche-chat-app
npm install --save [email protected] [email protected] [email protected]
Open index.html
file in the public
directory, and paste the following HTML :
<!DOCTYPE html>
<html lang="en">
<head>
<meta charset="utf-8" />
<meta name="viewport" content="width=device-width, initial-scale=1" />
<meta name="theme-color" content="#000000" />
<title>Chat dApp</title>
</head>
<body>
<div id="root"></div>
</body>
</html>
Move out of the public directory and create a new directory components
inside src
directory, where we will be keeping all our React components, using the following command :
mkdir ./src/components
cd ./src/components
Now let's create the component having the navbar of our dApp. Create a new file called NavBar.jsx
and paste the following code :
import React from "react";
import { Button, Navbar } from "react-bootstrap";
// This component renders the Navbar of our application
export function NavBar(props) {
return (
<Navbar bg="dark" variant="dark">
<Navbar.Brand href="#home">Avalanche Chat App</Navbar.Brand>
<Navbar.Toggle />
<Navbar.Collapse className="justify-content-end">
<Navbar.Text>
<Button
style={{ display: props.showButton }}
variant="success"
onClick={async () => {
props.login();
}}
>
Connect to Metamask
</Button>
<div
style={{ display: props.showButton === "none" ? "block" : "none" }}
>
Signed in as:
<a href="#">{props.username}</a>
</div>
</Navbar.Text>
</Navbar.Collapse>
</Navbar>
);
}
All the contacts will have a card with contacts' name and public key. Create a new file called ChatCard.jsx
and paste the following code :
import React from "react";
import { Row, Card } from "react-bootstrap";
import "bootstrap/dist/css/bootstrap.min.css";
// This is a function which renders the friends in the friends list
export function ChatCard(props) {
return (
<Row style={{ marginRight: "0px" }}>
<Card
border="success"
style={{ width: "100%", alignSelf: "center", marginLeft: "15px" }}
onClick={() => {
props.getMessages(props.publicKey);
}}
>
<Card.Body>
<Card.Title> {props.name} </Card.Title>
<Card.Subtitle>
{" "}
{props.publicKey.length > 20
? props.publicKey.substring(0, 20) + " ..."
: props.publicKey}{" "}
</Card.Subtitle>
</Card.Body>
</Card>
</Row>
);
}
Each message will be rendered by the Message component. This component will have the timestamp , senders' name and the message. Create a new file called Message.jsx
and paste the following code :
import React from "react";
import { Row, Card } from "react-bootstrap";
// This is a functional component which renders the individual messages
export function Message(props) {
return (
<Row style={{ marginRight: "0px" }}>
<Card
border="success"
style={{
width: "80%",
alignSelf: "center",
margin: "0 0 5px " + props.marginLeft,
float: "right",
right: "0px",
}}
>
<Card.Body>
<h6 style={{ float: "right" }}>{props.timeStamp}</h6>
<Card.Subtitle>
<b>{props.sender}</b>
</Card.Subtitle>
<Card.Text>{props.data}</Card.Text>
</Card.Body>
</Card>
</Row>
);
}
To add a new contact we will make AddNewChat component. It will show a modal on clicking the NewChat button and ask for the contacts' details. Create a new file called AddNewChat.jsx
and paste the following code :
import React from "react";
import { useState } from "react";
import { Button, Modal, Form } from "react-bootstrap";
// This Modal help Add a new friend
export function AddNewChat(props) {
const [show, setShow] = useState(false);
const handleClose = () => setShow(false);
const handleShow = () => setShow(true);
return (
<div
className="AddNewChat"
style={{
position: "absolute",
bottom: "0px",
padding: "10px 45px 0 45px",
margin: "0 95px 0 0",
width: "97%",
}}
>
<Button variant="success" className="mb-2" onClick={handleShow}>
+ NewChat
</Button>
<Modal show={show} onHide={handleClose}>
<Modal.Header closeButton>
<Modal.Title> Add New Friend </Modal.Title>
</Modal.Header>
<Modal.Body>
<Form.Group>
<Form.Control
required
id="addPublicKey"
size="text"
type="text"
placeholder="Enter Friends Public Key"
/>
<br />
<Form.Control
required
id="addName"
size="text"
type="text"
placeholder="Name"
/>
<br />
</Form.Group>
</Modal.Body>
<Modal.Footer>
<Button variant="secondary" onClick={handleClose}>
Close
</Button>
<Button
variant="primary"
onClick={() => {
props.addHandler(
document.getElementById("addName").value,
document.getElementById("addPublicKey").value
);
handleClose();
}}
>
Add Friend
</Button>
</Modal.Footer>
</Modal>
</div>
);
}
Now lets create a new file called Components.js
and export all the components together. Paste the following code :
export { NavBar } from "./NavBar";
export { AddNewChat } from "./AddNewChat";
export { Message } from "./Message";
export { ChatCard } from "./ChatCard";
Move out to the src
directory and create a new file called App.jsx
and paste the following code :
import React from "react";
import { useState, useEffect } from "react";
import { Container, Row, Col, Card, Form, Button } from "react-bootstrap";
import {
NavBar,
ChatCard,
Message,
AddNewChat,
} from "./components/Components.js";
import { ethers } from "ethers";
import { abi } from "./abi";
// Add the contract address inside the quotes
const CONTRACT_ADDRESS = "";
export function App(props) {
const [friends, setFriends] = useState(null);
const [myName, setMyName] = useState(null);
const [myPublicKey, setMyPublicKey] = useState(null);
const [activeChat, setActiveChat] = useState({
friendname: null,
publicKey: null,
});
const [activeChatMessages, setActiveChatMessages] = useState(null);
const [showConnectButton, setShowConnectButton] = useState("block");
const [myContract, setMyContract] = useState(null);
// Save the contents of abi in a variable
const contractABI = abi;
let provider;
let signer;
// Login to Metamask and check the if the user exists else creates one
async function login() {
let res = await connectToMetamask();
if (res === true) {
provider = new ethers.providers.Web3Provider(window.ethereum);
signer = provider.getSigner();
try {
const contract = new ethers.Contract(
CONTRACT_ADDRESS,
contractABI,
signer
);
setMyContract(contract);
const address = await signer.getAddress();
let present = await contract.checkUserExists(address);
let username;
if (present) username = await contract.getUsername(address);
else {
username = prompt("Enter a username", "Guest");
if (username === "") username = "Guest";
await contract.createAccount(username);
}
setMyName(username);
setMyPublicKey(address);
setShowConnectButton("none");
} catch (err) {
alert("CONTRACT_ADDRESS not set properly!");
}
} else {
alert("Couldn't connect to Metamask");
}
}
// Check if the Metamask connects
async function connectToMetamask() {
try {
await window.ethereum.enable();
return true;
} catch (err) {
return false;
}
}
// Add a friend to the users' Friends List
async function addChat(name, publicKey) {
try {
let present = await myContract.checkUserExists(publicKey);
if (!present) {
alert("Address not found: Ask them to join the app :)");
return;
}
try {
await myContract.addFriend(publicKey, name);
const frnd = { name: name, publicKey: publicKey };
setFriends(friends.concat(frnd));
} catch (err) {
alert(
"Friend already added! You can't be friends with the same person twice ;P"
);
}
} catch (err) {
alert("Invalid address!");
}
}
// Sends messsage to an user
async function sendMessage(data) {
if (!(activeChat && activeChat.publicKey)) return;
const recieverAddress = activeChat.publicKey;
await myContract.sendMessage(recieverAddress, data);
}
// Fetch chat messages with a friend
async function getMessage(friendsPublicKey) {
let nickname;
let messages = [];
friends.forEach((item) => {
if (item.publicKey === friendsPublicKey) nickname = item.name;
});
// Get messages
const data = await myContract.readMessage(friendsPublicKey);
data.forEach((item) => {
const timestamp = new Date(1000 * item[1].toNumber()).toUTCString();
messages.push({
publicKey: item[0],
timeStamp: timestamp,
data: item[2],
});
});
setActiveChat({ friendname: nickname, publicKey: friendsPublicKey });
setActiveChatMessages(messages);
}
// This executes every time page renders and when myPublicKey or myContract changes
useEffect(() => {
async function loadFriends() {
let friendList = [];
// Get Friends
try {
const data = await myContract.getMyFriendList();
data.forEach((item) => {
friendList.push({ publicKey: item[0], name: item[1] });
});
} catch (err) {
friendList = null;
}
setFriends(friendList);
}
loadFriends();
}, [myPublicKey, myContract]);
// Makes Cards for each Message
const Messages = activeChatMessages
? activeChatMessages.map((message) => {
let margin = "5%";
let sender = activeChat.friendname;
if (message.publicKey === myPublicKey) {
margin = "15%";
sender = "You";
}
return (
<Message
marginLeft={margin}
sender={sender}
data={message.data}
timeStamp={message.timeStamp}
/>
);
})
: null;
// Displays each card
const chats = friends
? friends.map((friend) => {
return (
<ChatCard
publicKey={friend.publicKey}
name={friend.name}
getMessages={(key) => getMessage(key)}
/>
);
})
: null;
return (
<Container style={{ padding: "0px", border: "1px solid grey" }}>
{/* This shows the navbar with connect button */}
<NavBar
username={myName}
login={async () => login()}
showButton={showConnectButton}
/>
<Row>
{/* Here the friends list is shown */}
<Col style={{ paddingRight: "0px", borderRight: "2px solid #000000" }}>
<div
style={{
backgroundColor: "#DCDCDC",
height: "100%",
overflowY: "auto",
}}
>
<Row style={{ marginRight: "0px" }}>
<Card
style={{
width: "100%",
alignSelf: "center",
marginLeft: "15px",
}}
>
<Card.Header>Chats</Card.Header>
</Card>
</Row>
{chats}
<AddNewChat
myContract={myContract}
addHandler={(name, publicKey) => addChat(name, publicKey)}
/>
</div>
</Col>
<Col xs={8} style={{ paddingLeft: "0px" }}>
<div style={{ backgroundColor: "#DCDCDC", height: "100%" }}>
{/* Chat header with refresh button, username and public key are rendered here */}
<Row style={{ marginRight: "0px" }}>
<Card
style={{
width: "100%",
alignSelf: "center",
margin: "0 0 5px 15px",
}}
>
<Card.Header>
{activeChat.friendname} : {activeChat.publicKey}
<Button
style={{ float: "right" }}
variant="warning"
onClick={() => {
if (activeChat && activeChat.publicKey)
getMessage(activeChat.publicKey);
}}
>
Refresh
</Button>
</Card.Header>
</Card>
</Row>
{/* The messages will be shown here */}
<div
className="MessageBox"
style={{ height: "400px", overflowY: "auto" }}
>
{Messages}
</div>
{/* The form with send button and message input fields */}
<div
className="SendMessage"
style={{
borderTop: "2px solid black",
position: "relative",
bottom: "0px",
padding: "10px 45px 0 45px",
margin: "0 95px 0 0",
width: "97%",
}}
>
<Form
onSubmit={(e) => {
e.preventDefault();
sendMessage(document.getElementById("messageData").value);
document.getElementById("messageData").value = "";
}}
>
<Form.Row className="align-items-center">
<Col xs={9}>
<Form.Control
id="messageData"
className="mb-2"
placeholder="Send Message"
/>
</Col>
<Col>
<Button
className="mb-2"
style={{ float: "right" }}
onClick={() => {
sendMessage(
document.getElementById("messageData").value
);
document.getElementById("messageData").value = "";
}}
>
Send
</Button>
</Col>
</Form.Row>
</Form>
</div>
</div>
</Col>
</Row>
</Container>
);
}
{% hint style="info" %}
Insert the contract address obtained from the Implementing the smart contract section in the variable called CONTRACT_ADDRESS
on line 14 of App.jsx
.
{% endhint %}
Open the index.js
file inside the src
directory and paste the following code :
import React from "react";
import ReactDom from "react-dom";
import { App } from "../src/App.jsx";
ReactDom.render(
<App /> ,
document.getElementById('root')
);
Create a new file called abi.js
in the src
directory, and paste the following code :
export const abi = [
{
"inputs": [
{
"internalType": "address",
"name": "friend_key",
"type": "address"
},
{
"internalType": "string",
"name": "name",
"type": "string"
}
],
"name": "addFriend",
"outputs": [],
"stateMutability": "nonpayable",
"type": "function"
},
{
"inputs": [
{
"internalType": "address",
"name": "pubkey",
"type": "address"
}
],
"name": "checkUserExists",
"outputs": [
{
"internalType": "bool",
"name": "",
"type": "bool"
}
],
"stateMutability": "view",
"type": "function"
},
{
"inputs": [
{
"internalType": "string",
"name": "name",
"type": "string"
}
],
"name": "createAccount",
"outputs": [],
"stateMutability": "nonpayable",
"type": "function"
},
{
"inputs": [],
"name": "getMyFriendList",
"outputs": [
{
"components": [
{
"internalType": "address",
"name": "pubkey",
"type": "address"
},
{
"internalType": "string",
"name": "name",
"type": "string"
}
],
"internalType": "struct Database.friend[]",
"name": "",
"type": "tuple[]"
}
],
"stateMutability": "view",
"type": "function"
},
{
"inputs": [
{
"internalType": "address",
"name": "pubkey",
"type": "address"
}
],
"name": "getUsername",
"outputs": [
{
"internalType": "string",
"name": "",
"type": "string"
}
],
"stateMutability": "view",
"type": "function"
},
{
"inputs": [
{
"internalType": "address",
"name": "friend_key",
"type": "address"
}
],
"name": "readMessage",
"outputs": [
{
"components": [
{
"internalType": "address",
"name": "sender",
"type": "address"
},
{
"internalType": "uint256",
"name": "timestamp",
"type": "uint256"
},
{
"internalType": "string",
"name": "msg",
"type": "string"
}
],
"internalType": "struct Database.message[]",
"name": "",
"type": "tuple[]"
}
],
"stateMutability": "view",
"type": "function"
},
{
"inputs": [
{
"internalType": "address",
"name": "friend_key",
"type": "address"
},
{
"internalType": "string",
"name": "_msg",
"type": "string"
}
],
"name": "sendMessage",
"outputs": [],
"stateMutability": "nonpayable",
"type": "function"
}
]
{% hint style="info" %} An Application Binary Interface (ABI) is a JSON object which stores the metadata about the methods of a contract like data type of input parameters, return data type & property of the method like payable, view, pure etc. You can learn more about the ABI from the solidity documentation. {% endhint %}
Now its time to run our React app frontend. Use the following command inside the project root directory:
npm start
Visit http://localhost:3000 to interact with the app.
Congratulations! We have successfully developed a decentralized chat application which can be deployed on Avalanche or other EVM-compatible blockchain.
- Check if your account has sufficient balance at fuji block-explorer. You can fund your address from the given faucet
- Make sure that you have selected the correct account on metamask if you have more than one account connected to the site.
To resolve this error, doublecheck that you have updated the CONTRACT_ADDRESS
variable in src/index.js.
This dApp has very limited functionality. We can improve it by adding functions to delete messages, block users, or create groups of friends.
We could also optimize the dApp interaction cost with functions to limit the maximum number of messages, or possibly using event log for short messages.
The tutorial was created by Nimish Agrawal & Sayan Kar. You can reach out to them on Figment Forum or on LinkedIn @Nimish Agrawal and @Sayan Kar.
- Smart contract deployment process - Deploy a Smart Contract on Avalanche using Remix and MetaMask