Vue
Introduction
AppKit has support for Wagmi and Ethers v6 on Ethereum, @solana/web3.js on Solana and Bitcoin. Choose one of these to get started.
Installation
- Wagmi
- Ethers
- Ethers v5
- Solana
- Bitcoin
- npm
- Yarn
- Bun
- pnpm
npm install @reown/appkit @reown/appkit-adapter-wagmi @tanstack/vue-query @wagmi/vue viem
yarn add @reown/appkit @reown/appkit-adapter-wagmi @tanstack/vue-query @wagmi/vue viem
bun add @reown/appkit @reown/appkit-adapter-wagmi @tanstack/vue-query @wagmi/vue viem
pnpm add @reown/appkit @reown/appkit-adapter-wagmi @tanstack/vue-query @wagmi/vue viem
- npm
- Yarn
- Bun
- pnpm
npm install @reown/appkit @reown/appkit-adapter-ethers5 ethers@5.7.2
yarn add @reown/appkit @reown/appkit-adapter-ethers5 ethers@5.7.2
bun add @reown/appkit @reown/appkit-adapter-ethers5 ethers@5.7.2
pnpm add @reown/appkit @reown/appkit-adapter-ethers5 ethers@5.7.2
- npm
- Yarn
- Bun
- pnpm
npm install @reown/appkit @reown/appkit-adapter-ethers ethers
yarn add @reown/appkit @reown/appkit-adapter-ethers ethers
bun add @reown/appkit @reown/appkit-adapter-ethers ethers
pnpm add @reown/appkit @reown/appkit-adapter-ethers ethers
- npm
- Yarn
- Bun
- pnpm
npm install @reown/appkit @reown/appkit-adapter-solana @solana/wallet-adapter-wallets
yarn add @reown/appkit @reown/appkit-adapter-solana @solana/wallet-adapter-wallets
bun add @reown/appkit @reown/appkit-adapter-solana @solana/wallet-adapter-wallets
pnpm add @reown/appkit @reown/appkit-adapter-solana @solana/wallet-adapter-wallets
- npm
- Yarn
- Bun
- pnpm
npm install @reown/appkit @reown/appkit-adapter-bitcoin
yarn add @reown/appkit @reown/appkit-adapter-bitcoin
bun add @reown/appkit @reown/appkit-adapter-bitcoin
pnpm add @reown/appkit @reown/appkit-adapter-bitcoin
Don't have a project ID?
Head over to Reown Cloud and create a new project now!
Cloud Configuration
Create a new project on Reown Cloud at https://cloud.reown.com and obtain a new project ID.
Implementation
- Wagmi
- Ethers
- Ethers v5
- Solana
- Bitcoin
For a quick integration, you can use the createAppKit
function with a unified configuration. This automatically applies the predefined configurations for different adapters like Wagmi, Ethers, or Solana, so you no longer need to manually configure each one individually. Simply pass the common parameters such as projectId
, chains
, metadata
, etc., and the function will handle the adapter-specific configurations under the hood.
This includes WalletConnect, Coinbase and Injected connectors, and the Blockchain API as a transport
If you're using Nuxt, you can set wagmi's ssr
option to true and call the reconnect
function after your application mounts.
In your App.vue
file set up the following configuration
<script lang="ts" setup>
import { createAppKit } from '@reown/appkit/vue'
import { arbitrum, mainnet, type AppKitNetwork } from '@reown/appkit/networks'
import { WagmiAdapter } from '@reown/appkit-adapter-wagmi'
// 1. Get projectId from https://cloud.reown.com
const projectId = 'YOUR_PROJECT_ID'
// 2. Create a metadata object
const metadata = {
name: 'AppKit',
description: 'AppKit Example',
url: 'https://example.com', // origin must match your domain & subdomain
icons: ['https://avatars.githubusercontent.com/u/179229932']
}
// 3. Set the networks
const networks: [AppKitNetwork, ...AppKitNetwork[]] = [mainnet, polygon, base]
// 4. Create Wagmi Adapter
const wagmiAdapter = new WagmiAdapter({
networks,
projectId
})
// 5. Create the modal
const modal = createAppKit({
adapters: [wagmiAdapter],
networks,
projectId,
metadata,
features: {
analytics: true // Optional - defaults to your Cloud configuration
}
})
</script>
<template> // Rest of your app ... </template>
Importing networks
Reown AppKit use Viem networks under the hood, which provide a wide variety of networks for EVM chains. You can find all the networks supported by Viem within the @reown/appkit/networks
path.
import { createAppKit } from '@reown/appkit/vue'
import { mainnet, arbitrum, base, scroll, polygon } from '@reown/appkit/networks'
Looking to add a custom network? Check out the custom networks section.
In your App.vue
file set up the following configuration.
<script setup lang="ts">
import { createAppKit, useAppKit } from '@reown/appkit/vue'
import { Ethers5Adapter } from '@reown/appkit-adapter-ethers5'
import { mainnet, arbitrum } from '@reown/appkit/networks'
// 1. Get projectId at https://cloud.reown.com
const projectId = 'YOUR_PROJECT_ID'
function getBlockchainApiRpcUrl(chainId) {
return `https://rpc.walletconnect.org/v1/?chainId=eip155:${chainId}&projectId=${projectId}`
}
// 2. Create your application's metadata object
const metadata = {
name: 'My Website',
description: 'My Website description',
url: 'https://mywebsite.com', // url must match your domain & subdomain
icons: ['https://avatars.mywebsite.com/']
}
// 3. Create a AppKit instance
createAppKit({
adapters: [new Ethers5Adapter()],
networks: [mainnet, arbitrum],
projectId,
features: {
analytics: true // Optional - defaults to your Cloud configuration
}
})
// 4. Use modal composable
const modal = useAppKit()
</script>
<template> // Rest of your app ... </template>
Make sure that the url
from the metadata
matches your domain and subdomain. This will later be used by the Verify API to tell wallets if your application has been verified or not.
In your App.vue
file set up the following configuration.
<script setup lang="ts">
import { createAppKit, useAppKit } from '@reown/appkit/vue'
import { EthersAdapter } from '@reown/appkit-adapter-ethers'
import { mainnet, arbitrum } from '@reown/appkit/networks'
// 1. Get projectId from https://cloud.reown.com
const projectId = 'YOUR_PROJECT_ID'
// 2. Create your application's metadata object
const metadata = {
name: 'My Website',
description: 'My Website description',
url: 'https://mywebsite.com', // url must match your domain & subdomain
icons: ['https://avatars.mywebsite.com/']
}
// 3. Create a AppKit instance
createAppKit({
adapters: [new EthersAdapter()],
networks: [mainnet, arbitrum],
metadata,
projectId,
features: {
analytics: true // Optional - defaults to your Cloud configuration
}
})
// 4. Use modal composable
const modal = useAppKit()
</script>
<template> // Rest of your app ... </template>
Make sure that the url
from the metadata
matches your domain and subdomain. This will later be used by the Verify API to tell wallets if your application has been verified or not.
In your App.vue
file set up the following configuration.
<script setup lang="ts">
import { createAppKit, useAppKit} from '@reown/appkit-solana/vue'
import { PhantomWalletAdapter,SolflareWalletAdapter } from '@solana/wallet-adapter-wallets'
import { SolanaAdapter } from '@reown/appkit-adapter-solana/vue'
import {solana, solanaTestnet, solanaDevnet} from '@reown/appkit/networks'
// 1. Get projectId from https://cloud.reown.com
const projectId = 'YOUR_PROJECT_ID'
// 2. Set up metadata
const metadata = {
name: 'AppKit',
description: 'AppKit Solana Example',
url: 'https://example.com', // origin must match your domain & subdomain
icons: ['https://avatars.githubusercontent.com/u/179229932']
}
// 3. Set up Solana Adapter
const solanaWeb3JsAdapter = new SolanaAdapter({
wallets: [new PhantomWalletAdapter(), new SolflareWalletAdapter()]
})
// 4. Create modal
createAppKit({
adapters: [solanaWeb3JsAdapter],
metadata,
networks: [solana, solanaTestnet, solanaDevnet],
projectId,
wallets: [
new PhantomWalletAdapter(),
new SolflareWalletAdapter(),
]
})
</script>
<template> // Rest of your app ... </template>
Make sure that the url
from the metadata
matches your domain and subdomain. This will later be used by the Verify API to tell wallets if your application has been verified or not.
AppKit Bitcoin provides a set of React components and hooks to easily connect Bitcoin wallets with your application.
On top of your app set up the following configuration, making sure that all functions are called outside any React component to avoid unwanted rerenders.
In your App.vue
file set up the following configuration.
<script setup lang="ts">
import { createAppKit } from '@reown/appkit/react'
import { BitcoinAdapter } from '@reown/appkit-adapter-bitcoin'
import { bitcoin } from '@reown/appkit/networks'
// 1. Get projectId from https://cloud.reown.com
const projectId = 'YOUR_PROJECT_ID'
// 2. Set the networks
const networks = [bitcoin]
// 3. Set up Bitcoin Adapter
const bitcoinAdapter = new BitcoinAdapter({
projectId
})
// 4. Create a metadata object - optional
const metadata = {
name: 'AppKit',
description: 'AppKit Bitcoin Example',
url: 'https://example.com', // origin must match your domain & subdomain
icons: ['https://avatars.githubusercontent.com/u/179229932']
}
// 5. Create modal
createAppKit({
adapters: [bitcoinAdapter],
networks,
metadata,
projectId,
features: {
analytics: true // Optional - defaults to your Cloud configuration,
email: false,
socials: []
}
})
</script>
<template> // Rest of your app ... </template>
Bitcoin Provider Interface
export interface BitcoinConnector extends ChainAdapterConnector, Provider {
getAccountAddresses(): Promise<BitcoinConnector.AccountAddress[]>
signMessage(params: BitcoinConnector.SignMessageParams): Promise<string>
sendTransfer(params: BitcoinConnector.SendTransferParams): Promise<string>
signPSBT(params: BitcoinConnector.SignPSBTParams): Promise<BitcoinConnector.SignPSBTResponse>
}
Parameters
- SignMessageParams
- SignMessageParams
- SignPSBTParams
export type SignMessageParams = {
/**
* The message to be signed
*/
message: string
/**
* The address to sign the message with
*/
address: string
}
export type SendTransferParams = {
/**
* The amount to be sent in satoshis
*/
amount: string
/**
* The address to send the transfer to
*/
recipient: string
}
export type SignPSBTParams = {
/**
* The PSBT to be signed, string base64 encoded
*/
psbt: string
signInputs: {
/**
* The address whose private key to use for signing.
*/
address: string
/**
* Specifies which input to sign
*/
index: number
/**
* Specifies which part(s) of the transaction the signature commits to
*/
sighashTypes: number[]
}[]
/**
* If `true`, the PSBT will be broadcasted after signing. Default is `false`.
*/
broadcast?: boolean
}
Responses
- AccountAddress
- SignPSBTResponse
export type AccountAddress = {
/**
* Public address belonging to the account.
*/
address: string
/**
* Public key for the derivation path in hex, without 0x prefix
*/
publicKey?: string
/**
* The derivation path of the address e.g. "m/84'/0'/0'/0/0"
*/
path?: string
/**
* The purpose of the address
*/
purpose: 'payment' | 'ordinal' | 'stx'
}
export type SignPSBTResponse = {
/**
* The signed PSBT, string base64 encoded
*/
psbt: string
/**
* The `string` transaction id of the broadcasted transaction or `undefined` if not broadcasted
*/
txid?: string
}
Trigger the modal
- Wagmi
- Ethers
- Ethers v5
- Solana
- Bitcoin
To open AppKit you can use our web component or build your own button with AppKit composables.
In this example we are going to use the <appkit-button>
component.
Web components are global html elements that don't require importing.
<template>
<appkit-button />
</template>
Learn more about the AppKit web components here
To open AppKit you can use our web component or build your own button with the AppKit composables.
- Web Components
- Composables
<template>
<appkit-button />
</template>
Learn more about the AppKit web components here
Web components are global html elements that don't require importing.
You can trigger the modal by calling the open
method from useAppKit
composable.
<template>
<button @click="modal.open()">Open Connect Modal</button>
<button @click="modal.open({ view: 'Networks' })">Open Network Modal</button>
</template>
Learn more about the AppKit composables here
To open AppKit you can use our web component or build your own button with the AppKit composables.
- Web Components
- Composables
<template>
<appkit-button />
</template>
Learn more about the AppKit web components here
Web components are global html elements that don't require importing.
You can trigger the modal by calling the open
method from useAppKit
composable.
<template>
<button @click="modal.open()">Open Connect Modal</button>
<button @click="modal.open({ view: 'Networks' })">Open Network Modal</button>
</template>
Learn more about the AppKit composables here
To open AppKit you can use our web component or build your own button with the AppKit composables.
- Web Components
- Composables
<template>
<appkit-button />
</template>
Learn more about the Appkit web components here
Web components are global html elements that don't require importing.
You can trigger the modal by calling the open
method from useAppKit
composable.
<template>
<button @click="modal.open()">Open Connect Modal</button>
<button @click="modal.open({ view: 'Networks' })">Open Network Modal</button>
</template>
Learn more about the AppKit composables here
To open AppKit you can use our web component or build your own button with AppKit composables.
In this example we are going to use the <appkit-button>
component.
Web components are global html elements that don't require importing.
<template>
<appkit-button />
</template>
Smart Contract Interaction
- Wagmi
- Ethers
- Solana
Wagmi actions can help us interact with wallets and smart contracts:
<script setup lang="ts">
import { readContract } from '@wagmi/core'
import { USDTAbi } from '../abi/USDTAbi'
const USDTAddress = '0x...'
const data = readContract({
abi: USDTAbi,
address: USDTAddress,
functionName: 'symbol'
})
</script>
Read more about Wagmi actions for smart contract interaction here.
Ethers can help us interact with wallets and smart contracts:
<script setup lang="ts">
import { useAppKitProvider, useAppKitAccount } from "@reown/appkit/vue";
import { BrowserProvider, Contract, formatUnits } from 'ethers'
const USDTAddress = '0x617f3112bf5397D0467D315cC709EF968D9ba546'
// The ERC-20 Contract ABI, which is a common contract interface
// for tokens (this is the Human-Readable ABI format)
const USDTAbi = [
'function name() view returns (string)',
'function symbol() view returns (string)',
'function balanceOf(address) view returns (uint)',
'function transfer(address to, uint amount)',
'event Transfer(address indexed from, address indexed to, uint amount)'
]
function Components() {
const { address, isConnected } = useAppKitAccount()
const { walletProvider } = useAppKitProvider('eip155')
async function getBalance() {
if (!isConnected) throw Error('User disconnected')
const ethersProvider = new BrowserProvider(walletProvider)
const signer = await ethersProvider.getSigner()
// The Contract object
const USDTContract = new Contract(USDTAddress, USDTAbi, signer)
const USDTBalance = await USDTContract.balanceOf(address)
console.log(formatUnits(USDTBalance, 18))
}
return <button onClick={getBalance}>Get User Balance</button>
}
</script>
@Solana/web3.js library allows for seamless interaction with wallets and smart contracts on the Solana blockchain.
For a practical example of how it works, you can refer to this demo app.
import { ref } from 'vue';
import {
SystemProgram,
PublicKey,
Keypair,
Transaction,
TransactionInstruction,
LAMPORTS_PER_SOL
} from '@solana/web3.js';
import { useAppKitAccount, useAppKitProvider } from '@reown/appkit/vue'
import { useAppKitConnection, type Provider } from '@reown/appkit-adapter-solana/vue'
export default {
setup() {
const counterMessage = ref('');
const { address } = useAppKitAccount();
const { connection } = useAppKitConnection()
const { walletProvider } = useAppKitProvider<Provider>('solana')
function deserializeCounterAccount(data) {
if (data?.byteLength !== 8) {
throw Error('Need exactly 8 bytes to deserialize counter');
}
return {
count: Number(data[0])
};
}
async function onIncrementCounter() {
try {
const PROGRAM_ID = new PublicKey('Cb5aXEgXptKqHHWLifvXu5BeAuVLjojQ5ypq6CfQj1hy');
const counterKeypair = Keypair.generate();
const counter = counterKeypair.publicKey;
const balance = await connection.getBalance(walletProvider.publicKey);
if (balance < LAMPORTS_PER_SOL / 100) {
throw Error('Not enough SOL in wallet');
}
const COUNTER_ACCOUNT_SIZE = 8;
const allocIx = SystemProgram.createAccount({
fromPubkey: walletProvider.publicKey,
newAccountPubkey: counter,
lamports: await connection.getMinimumBalanceForRentExemption(COUNTER_ACCOUNT_SIZE),
space: COUNTER_ACCOUNT_SIZE,
programId: PROGRAM_ID
});
const incrementIx = new TransactionInstruction({
programId: PROGRAM_ID,
keys: [
{
pubkey: counter,
isSigner: false,
isWritable: true
}
],
data: Buffer.from([0x0])
});
const tx = new Transaction().add(allocIx).add(incrementIx);
tx.feePayer = walletProvider.publicKey;
tx.recentBlockhash = (await connection.getLatestBlockhash('confirmed')).blockhash;
await walletProvider.signAndSendTransaction(tx, [counterKeypair]);
const counterAccountInfo = await connection.getAccountInfo(counter, {
commitment: 'confirmed'
});
if (!counterAccountInfo) {
throw new Error('Expected counter account to have been created');
}
const counterAccount = deserializeCounterAccount(counterAccountInfo?.data);
if (counterAccount.count !== 1) {
throw new Error('Expected count to have been 1');
}
counterMessage.value = `[alloc+increment] count is: ${counterAccount.count}`;
} catch (error) {
console.error(error);
counterMessage.value = `Error: ${error.message}`;
}
}
return {
onIncrementCounter,
counterMessage
};
}
};