This library is the result of Hedera community collaboration to bring Hedera into the WalletConnect ecosystem and vice versa.
The goal of this repository is to be a reference for wallets and dApps integrating the WalletConnect <> Hedera JSON-RPC reference. Additionally, this library is meant to be included in projects supporting WalletConnect and Hedera, providing utility functions useful to validating requests and resposes in both the WalletConnect JSON-RPC context as well as the Hedera context.
A few useful resources include:
WalletConnect brings the ecosystem together by enabling wallets and apps to securely connect and interact.
Hedera aims to be:
The open source public ledger for everyone
This package managed by the Hedera community and is intended to be a standard for ecosystem
wallets and dApp providers utilizing WalletConnect as a their
communications protocol. It utilizes the
@hashgraph/sdk
and provides functions to
facilitate implementing the
WalletConnect <> Hedera JSON-RPC spec
which has been defined through the collaborative HIP process in
HIP-820.
This library facilitates the implementation of the WalletConnect <> Hedera Spec which allows
wallets and dApps to natively integrate with Hedera. It provides additional, out of network
functionality with the hedera_signMessage
function.
In short, it uses the Hedera javascript SDK to build transactions, serialize them, send to wallets for processing and return responses back to dApps.
Please note, this is distinct from the Implementation of Ethereum JSON-RPC APIs for Hedera. At the time of this writing, "the Hedera JSON-RPC relay implementation is in beta, offers limited functionality today, and is only available to developers."
The relay and this library have different intentions and serve different purposes - namely native Hedera integration vs. Ethereum compatability layers to ease developer onboarding for those more familiar with the Ethereum ecosystem.
To start using WalletConnect, sign up for an account at https://cloud.walletconnect.com. You will use your project id when initializing client libraries.
It is important to understand core WalletConnect concepts when integrating this library. Please reference the WalletConnect documentation.
Upon successfully configuring your dApp and/or wallet to manage WalletConnect sessions, you can use this library’s functions to easily create and handle requests for the Hedera network.
npm i --save @hashgraph/hedera-wallet-connect
This library provides a DAppSigner
class that implements the @hashgraph/sdk
's Signer
interface. You may use the DAppSigner
class to sign and execute transactions on the Hedera
network.
After you have paired your wallet with your dApp, you can get the signer from the
DAppConnector
instance:
const signer = dAppConnector.signers[0] // DAppSigner
Or, if multiple signers are available, you can find the signer by account ID:
const signer = dAppConnector.signers.find(
(signer_) => signer_.getAccountId().toString() === '0.0.100',
) // DAppSigner
const transaction = new TransferTransaction()
.addHbarTransfer('0.0.100', new Hbar(-1))
.addHbarTransfer('0.0.101', new Hbar(1))
await transaction.freezeWithSigner(signer)
const signedTransaction = await signer.signTransaction(transaction)
const transaction = new TransferTransaction()
.addHbarTransfer('0.0.100', new Hbar(-1))
.addHbarTransfer('0.0.101', new Hbar(1))
await transaction.freezeWithSigner(signer)
const transactionResponse = await transaction.executeWithSigner(signer)
const text = 'Example message to sign'
const base64String = btoa(text)
const sigMaps = await signer.sign([base64StringToUint8Array(base64String)]) // import { base64StringToUint8Array } from '@hashgraph/hedera-wallet-connect'
// sigMaps[0].publicKey also contains the public key of the signer, but you should obtain a PublicKey you can trust from a mirror node.
const verifiedResult = verifySignerSignature(base64String, sigMaps[0], publicKey) // import { verifySignerSignature } from '@hashgraph/hedera-wallet-connect'
This library provides a Wallet class that extends the Web3Wallet class provided by WalletConnect class
WalletConnect emits various events during a session. Listen to these events to synchronize the state of your application:
// Handle pairing proposals
signClient.on('session_proposal', (event) => {
// Display session proposal to the user and decide to approve or reject
})
// Handle session requests, like signing transactions or messages
signClient.on('session_request', (event) => {
// Process the session request
})
// Handle session deletions
signClient.on('session_delete', (event) => {
// React to session termination
})
Pairing establishes a connection between the wallet and a dApp. Once paired, the dApp can send session requests to the wallet.
If a dApp shares a URI for pairing:
await signClient.core.pairing.pair({ uri: 'RECEIVED_URI' })
Upon successful pairing, the session_proposal
event will be triggered.
For a better user experience, dApps often share QR codes that wallets can scan to establish a pairing. Use a QR code scanning library to scan and obtain the URI, then proceed with pairing:
const scannedUri = '...' // URI obtained from scanning the QR code
await signClient.core.pairing.pair({ uri: scannedUri })
Upon receiving a session_proposal
event, display the proposal details to the user. Allow them
to approve or reject the session:
Upon receiving a session_request
event, process the request. For instance, if the dApp
requests a transaction to be signed:
By default, it is not possible to directly pop up an extension with Wallet Connect. However, to allow this possibility, the dAppConnector look for extensions. If you create the AppConnector, it will automatically send a message to the extension to detect if it is installed. In case the extension is installed, it will be added to the available extensions and its data can be found at the extensions property of dAppConnector.
To connect an available extension, use the method connectExtension(<extensionId>)
. This will
link the extension to the signer and session. Whenever you use the signer created for this
session, the extension will automatically open. You can find out if the extension is available
by checking the extensions
property.
const dAppConnector = new DAppConnector(
dAppMetadata,
LedgerId.TESTNET,
projectId,
Object.values(HederaJsonRpcMethod),
[HederaSessionEvent.ChainChanged, HederaSessionEvent.AccountsChanged],
[HederaChainId.Testnet]
)
[...]
dAppConnector?.extensions?.forEach((extension) => {
console.log(extension)
})
const extension = dAppConnector?.extensions?.find((extension) => extension.name === '<Extension name>')
if (extension.available) {
await dAppConnector!.connectExtension(extension.id);
const signer = dAppConnector.getSigner(AccountId.fromString('0.0.12345'))
// This request will open the extension
const response = await signer.signAndExecuteTransaction(transaction)
}
Wallets that are compatible should be able to receive and respond to the following messages:
"hedera-extension-query"
: The extension is required to respond with"hedera-extension-response"
and provide the next set of data in the metadata property.let metadata = { id: '<extesnionId>', name: '<Wallet name>', url: '<Wallet url>', icon: '<Wallet con>', description: '<Wallet url>', }
"hedera-extension-open-<extensionId>"
: The extension needs to listen to this message and automatically open."hedera-extension-connect-<extensionId>"
: The extension must listen to this message and utilize thepairingString
property in order to establish a connection.
This communication protocol between the wallet and web dApps requires an intermediate script to use the Chrome API. Refer to the Chrome Extensions documentation
To enable communication between the extension and a web dApp embedded in an iframe, the wallet must support the following messages:
"hedera-iframe-query"
:The extension is required to respond with"hedera-iframe-response"
and provide the next set of data in the metadata property.let metadata = { id: '<Wallet extension id>', name: '<Wallet name>', url: '<Wallet url>', icon: '<Wallet icon>', description: '<Wallet description>', }
"hedera-iframe-connect"
: The extension must listen to this message and utilize thepairingString
property in order to establish a connection.
The dAppConnector is designed to automatically initiate pairing without any need for user
action, in case no sessions are noticed and an iframe extension is detected. To capture this
event and the newly established session, you can utilize the onSessionIframeCreated
function.
This repository includes a vanilla html/css/javascript implementation with a dApp and wallet example useful for testing and development while integrating WalletConnect and Hedera.
The docs site utilizes Typedoc to generate a library documentation site at https://wc.hgraph.app/docs/
The demo source code lives in ./src/examples/typescript
and is available at
https://wc.hgraph.app
git commit -Ss "the commit message"