@solarti/slrt-wallet-adapter v0.2.0
slrt-wallet-adapter
Library to allow Miraland/Solarti dApps to use third-party wallets to sign transactions. Derived from @project-serum/sol-wallet-adapter
Install
npm install --save @solarti/slrt-wallet-adapter
Usage
Sign a transaction
import { Connection, SystemProgram, Transaction, clusterApiUrl } from '@solarti/web3.js';
let connection = new Connection(clusterApiUrl('devnet-mln'));
let providerUrl = 'https://app.arcaps.com';
let wallet = new Wallet(providerUrl);
wallet.on('connect', publicKey => console.log('Connected to ' + publicKey.toBase58()));
wallet.on('disconnect', () => console.log('Disconnected'));
await wallet.connect();
let transaction = new Transaction().add(
SystemProgram.transfer({
fromPubkey: wallet.publicKey,
toPubkey: wallet.publicKey,
lamports: 100,
})
);
let { blockhash } = await connection.getRecentBlockhash();
transaction.recentBlockhash = blockhash;
transaction.feePayer = wallet.publicKey;
let signed = await wallet.signTransaction(transaction);
let txid = await connection.sendRawTransaction(signed.serialize());
await connection.confirmTransaction(txid);
See example/src/App.js for a full example.
Sign a message
const providerUrl = 'https://slrt.arcaps.com';
const wallet = new Wallet(providerUrl);
wallet.on('connect', publicKey => console.log('Connected to ' + publicKey.toBase58()));
wallet.on('disconnect', () => console.log('Disconnected'));
await wallet.connect();
const message = "Please sign this message for proof of address ownership.";
const data = new TextEncoder().encode(message);
let { signature } = await wallet.sign(data, 'utf8');
Development
Run yarn start
in the root directory, then run yarn start
in the example directory.
See create-react-library for details.
Wallet Providers
Wallet providers are third-party webapps that provide an API to retrieve the user's accounts and sign transactions with it. slrt-wallet-adapter
opens wallet providers in a popup and communicates with it using JSON-RPC over postMessage
.
See spl-token-wallet
for an example wallet provider implementation.
The general flow is as follows:
- User selects a wallet provider to connect to, e.g.
https://slrt.arcaps.com
- dApp opens the wallet provider in a popup, passing it the origin of the dApp and the desired network in the URL hash.
- e.g.
https://slrt.arcaps.com/#origin=https://www.example.com&network=devnet-mln
- e.g.
- Wallet provider detects that
window.opener
is set and asks the user if they want to connect the wallet to the dApp.- The wallet UI should show the origin of the requesting dApp.
- The origin can be retrieved from the URL hash using
new URLSearchParams(window.location.hash.slice(1)).get('origin')
. - If the wallet provider supports multiple accounts, it should allow the user to select which account to use.
- If the user accepts, the wallet provider sends a
connected
message to the dApp viapostMessage
.- e.g.
window.opener.postMessage({jsonrpc: '2.0', method: 'connected', params: {publicKey: 'EdWqEgu54Zezi4E6L72RxAMPr5SWAyt2vpZWgvPYQTLh'}}, 'https://www.example.com')'
- To prevent origin spoofing, the
postMessage
call must settargetOrigin
to the dApp origin that was shown to the user in step 3.
- e.g.
- When the dApp needs to send a transaction on behalf of the user, the dApp generates a transaction and sends it to the wallet provider as a
signTransaction
request usingpostMessage
.- The wallet provider should listen for
window.onmessage
events. - Before processing a MessageEvent, the wallet provider should verify that
event.origin
matches the dApporigin
andevent.source === window.opener
.
- The wallet provider should listen for
- The wallet provider decodes the transaction, presents it to the user, and asks the user if they would like to sign the transaction.
- The wallet should inform the user about any potential effects of the transaction
- For instructions that the wallet recognizes, the wallet can decode the instruction and show it to the user.
- For instructions that the wallet does not recognize, the wallet can e.g. show the set of writable addresses included in the instruction and the programs to which those addresses belong.
- The wallet should use the transaction blockhash to verify that the transaction will be broadcasted on the correct network.
- The wallet sends a JSON-RPC reply back to the dApp, either with a signature if the user accepted the request or an error if the user rejected the request.
- The dApp receives the signature, adds it to the transaction, and broadcasts it.
Wallet provider developers can use the example webapp to test their implementation.
URL hash parameters
origin
- origin of the dApp. Should be included in allpostMessage
calls and should be checked against all receivedMessageEvent
s.network
- The network on which transactions will be sent. Can be any ofmainnet-mln
,devnet-mln
,testnet-mln
, or a custom URL, though wallets are free to reject any unsupported networks. Wallet providers should check that transaction blockhashes matches the network before signing the transaction.
The parameters can be parsed using
let params = new URLSearchParams(window.location.hash.slice(1));
let origin = params.get('origin');
let network = params.get('network');
Requests from the wallet provider to the dApp (slrt-wallet-adapter
)
connected
Sent by the wallet provider when the user selects an account to connect to the dApp.
Parameters
publicKey
- Base-58 encoded public key of the selected account.
Example
window.opener.postMessage({
jsonrpc: '2.0',
method: 'connected',
params: {
publicKey: 'HsQhg1k93vEA326SXxnGj1sZrdupG7rj5T6g5cMgk1ed',
},
}, origin);
disconnected
Sent by the wallet provider when the user no longer wishes to connect to the dApp, or if the user closes the popup (onbeforeunload
).
Parameters
None.
Example
window.opener.postMessage({
jsonrpc: '2.0',
method: 'disconnected',
}, origin);
Requests from the dApp (slrt-wallet-adapter
) to the wallet provider
signTransaction
Sent by the dApp when it needs to send a transaction on behalf of the user.
Parameters
message
- Base-58 encoded transaction message for the wallet to sign. Generated bytransaction.serializeMessage()
.
Results
signature
- Base-58 encoded transaction signature, i.e.bs58.encode(nacl.sign.detached(message, account.secretKey))
.publicKey
- Base-58 encoded public key of the account that provided the signature.
Example
let request = {
jsonrpc: '2.0',
method: 'signTransaction',
params: {
message: "QwE1mEmQpjGKTQz9U3N8xTJCqCry9kgvJff51kVv8h5AyVGh3L…NfV68ERMb2WsVAstN',
},
id: 1,
};
let response = {
jsonrpc: '2.0',
result: {
signature: "2HT61qv1xxWUpx7DXZM3K878wU1JJx5eKNWw64cgeauwx6sZNKtDkSRrGvqZmsRwz6c1RwkUFnPj1LXkjNtsCd9o",
publicKey: 'HsQhg1k93vEA326SXxnGj1sZrdupG7rj5T6g5cMgk1ed'
},
id: 1,
};
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