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Add Example of Passkey Executing Safe Transaction
This PR adds a "userstory" test that demonstrates how a passkey can be used to execute transactions directly on a Safe without going over ERC-4337.
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modules/passkey/test/userstories/ExecuteSafeTransaction.spec.ts
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import { buildSignatureBytes } from '@safe-global/safe-4337/dist/src/utils/execution' | ||
import { expect } from 'chai' | ||
import { deployments, ethers } from 'hardhat' | ||
import { WebAuthnCredentials } from '../../test/utils/webauthnShim' | ||
import { decodePublicKey, encodeWebAuthnSignature } from '../../src/utils/webauthn' | ||
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/** | ||
* User story: Execute Safe Transaction | ||
* This user story how to use a passkey owner for a Safe and sign and execute a transaction with it. | ||
*/ | ||
describe('Execute Safe Transaction [@userstory]', () => { | ||
const navigator = { | ||
// Setup a WebAuthn shim for tests. | ||
credentials: new WebAuthnCredentials(), | ||
} | ||
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const setupTests = deployments.createFixture(async ({ deployments }) => { | ||
const { SafeProxyFactory, SafeL2, FCLP256Verifier, SafeWebAuthnSignerFactory, SafeWebAuthnSharedSigner } = await deployments.run() | ||
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const proxyFactory = await ethers.getContractAt(SafeProxyFactory.abi, SafeProxyFactory.address) | ||
const singleton = await ethers.getContractAt(SafeL2.abi, SafeL2.address) | ||
const verifier = await ethers.getContractAt('IP256Verifier', FCLP256Verifier.address) | ||
const signerFactory = await ethers.getContractAt('SafeWebAuthnSignerFactory', SafeWebAuthnSignerFactory.address) | ||
const sharedSigner = await ethers.getContractAt('SafeWebAuthnSharedSigner', SafeWebAuthnSharedSigner.address) | ||
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return { | ||
proxyFactory, | ||
singleton, | ||
signerFactory, | ||
sharedSigner, | ||
navigator, | ||
verifier, | ||
SafeL2, | ||
} | ||
}) | ||
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it('should create a Safe and execute a transaction', async () => { | ||
const { singleton, proxyFactory, verifier, navigator, SafeL2, signerFactory } = await setupTests() | ||
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// Create a WebAuthn credential to own the Safe. | ||
const credential = navigator.credentials.create({ | ||
publicKey: { | ||
rp: { | ||
name: 'Safe', | ||
id: 'safe.global', | ||
}, | ||
user: { | ||
id: ethers.getBytes(ethers.id('chucknorris')), | ||
name: 'chucknorris', | ||
displayName: 'Chuck Norris', | ||
}, | ||
challenge: ethers.toBeArray(Date.now()), | ||
pubKeyCredParams: [{ type: 'public-key', alg: -7 }], | ||
}, | ||
}) | ||
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// Deploy a signer for the created credential. Note that this uses a deterministic address, | ||
// meaning that deployment of the signer can be delayed until when it is needed for verifying | ||
// signatures (i.e. you can MultiSend the deployment of the signer with the first call to | ||
// `Safe.execTransaction`). | ||
const publicKey = decodePublicKey(credential.response) | ||
await signerFactory.createSigner(publicKey.x, publicKey.y, await verifier.getAddress()) | ||
const signerAddress = await signerFactory.getSigner(publicKey.x, publicKey.y, await verifier.getAddress()) | ||
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// Deploy a Safe that is owned by the WebAuthn credential signer. Note that it is **not | ||
// recommended** to deploy a Safe that is owned only by a WebAuthn credential without a recovery | ||
// mechanism. | ||
const setupData = singleton.interface.encodeFunctionData('setup', [ | ||
[signerAddress], | ||
1n, | ||
ethers.ZeroAddress, | ||
'0x', | ||
ethers.ZeroAddress, | ||
ethers.ZeroAddress, | ||
0, | ||
ethers.ZeroAddress, | ||
]) | ||
const saltNonce = Date.now() | ||
const safeAddress = await proxyFactory.createProxyWithNonce.staticCall(singleton, setupData, saltNonce) | ||
await proxyFactory.createProxyWithNonce(singleton, setupData, saltNonce) | ||
const safe = await ethers.getContractAt(SafeL2.abi, safeAddress) | ||
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// Prepare a Safe transaction and compute its hash. | ||
const transaction = { | ||
to: '0xEeeeeEeeeEeEeeEeEeEeeEEEeeeeEeeeeeeeEEeE', | ||
value: 0n, | ||
data: '0x', | ||
operation: 0, | ||
safeTxGas: 0n, | ||
baseGas: 0n, | ||
gasPrice: 0n, | ||
gasToken: ethers.ZeroAddress, | ||
refundReceiver: ethers.ZeroAddress, | ||
nonce: await safe.nonce(), | ||
} | ||
const { chainId } = await ethers.provider.getNetwork() | ||
const transactionHash = ethers.TypedDataEncoder.hash( | ||
{ | ||
chainId, | ||
verifyingContract: await safe.getAddress(), | ||
}, | ||
{ | ||
SafeTx: [ | ||
{ type: 'address', name: 'to' }, | ||
{ type: 'uint256', name: 'value' }, | ||
{ type: 'bytes', name: 'data' }, | ||
{ type: 'uint8', name: 'operation' }, | ||
{ type: 'uint256', name: 'safeTxGas' }, | ||
{ type: 'uint256', name: 'baseGas' }, | ||
{ type: 'uint256', name: 'gasPrice' }, | ||
{ type: 'address', name: 'gasToken' }, | ||
{ type: 'address', name: 'refundReceiver' }, | ||
{ type: 'uint256', name: 'nonce' }, | ||
], | ||
}, | ||
transaction, | ||
) | ||
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// Sign the transaction hash with the WebAuthn credential. | ||
const assertion = navigator.credentials.get({ | ||
publicKey: { | ||
challenge: ethers.getBytes(transactionHash), | ||
rpId: 'safe.global', | ||
allowCredentials: [{ type: 'public-key', id: new Uint8Array(credential.rawId) }], | ||
userVerification: 'required', | ||
}, | ||
}) | ||
const signatureData = encodeWebAuthnSignature(assertion.response) | ||
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// Execute the Safe transaction. | ||
expect( | ||
await safe.execTransaction( | ||
transaction.to, | ||
transaction.value, | ||
transaction.data, | ||
transaction.operation, | ||
transaction.safeTxGas, | ||
transaction.baseGas, | ||
transaction.gasPrice, | ||
transaction.gasToken, | ||
transaction.refundReceiver, | ||
buildSignatureBytes([ | ||
{ | ||
signer: signerAddress, | ||
data: signatureData, | ||
dynamic: true, | ||
}, | ||
]), | ||
), | ||
).to.not.be.reverted | ||
}) | ||
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it('should create a Safe and execute a transaction with the shared WebAuthn signer', async () => { | ||
const { singleton, proxyFactory, verifier, navigator, SafeL2, sharedSigner } = await setupTests() | ||
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// Create a WebAuthn credential to own the Safe. | ||
const credential = navigator.credentials.create({ | ||
publicKey: { | ||
rp: { | ||
name: 'Safe', | ||
id: 'safe.global', | ||
}, | ||
user: { | ||
id: ethers.getBytes(ethers.id('chucknorris')), | ||
name: 'chucknorris', | ||
displayName: 'Chuck Norris', | ||
}, | ||
challenge: ethers.toBeArray(Date.now()), | ||
pubKeyCredParams: [{ type: 'public-key', alg: -7 }], | ||
}, | ||
}) | ||
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// Deploy a Safe that is owned by the WebAuthn shared signer. Note that it is **not | ||
// recommended** to deploy a Safe that is owned only by a WebAuthn credential without a recovery | ||
// mechanism. | ||
const setupData = singleton.interface.encodeFunctionData('setup', [ | ||
[await sharedSigner.getAddress()], | ||
1n, | ||
// The WebAuthn shared signer is a singleton contract that can be shared across Safes. This | ||
// reduces the deployment cost (as there is no contract creation for the signer representing | ||
// the WebAuthn credential on-chain), but has some additional limitations: | ||
// 1. You can only have one WebAuthn owner per Safe this way (additional WebAuthn owners need | ||
// to be added by creating a SafeWebAuthnSignerProxy as demonstrated above). | ||
// 2. Signature verification is slightly more gas intensive (as the WebAuthn credential is | ||
// read from storage). | ||
// | ||
// We use the Safe's setup mechanism to configure the WebAuthn credentials with the shared | ||
// signer. | ||
await sharedSigner.getAddress(), | ||
sharedSigner.interface.encodeFunctionData('configure', [ | ||
{ | ||
...decodePublicKey(credential.response), | ||
verifiers: await verifier.getAddress(), | ||
}, | ||
]), | ||
ethers.ZeroAddress, | ||
ethers.ZeroAddress, | ||
0, | ||
ethers.ZeroAddress, | ||
]) | ||
const saltNonce = Date.now() | ||
const safeAddress = await proxyFactory.createProxyWithNonce.staticCall(singleton, setupData, saltNonce) | ||
await proxyFactory.createProxyWithNonce(singleton, setupData, saltNonce) | ||
const safe = await ethers.getContractAt(SafeL2.abi, safeAddress) | ||
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// Prepare a Safe transaction and compute its hash. | ||
const transaction = { | ||
to: '0xEeeeeEeeeEeEeeEeEeEeeEEEeeeeEeeeeeeeEEeE', | ||
value: 0n, | ||
data: '0x', | ||
operation: 0, | ||
safeTxGas: 0n, | ||
baseGas: 0n, | ||
gasPrice: 0n, | ||
gasToken: ethers.ZeroAddress, | ||
refundReceiver: ethers.ZeroAddress, | ||
nonce: await safe.nonce(), | ||
} | ||
const { chainId } = await ethers.provider.getNetwork() | ||
const transactionHash = ethers.TypedDataEncoder.hash( | ||
{ | ||
chainId, | ||
verifyingContract: await safe.getAddress(), | ||
}, | ||
{ | ||
SafeTx: [ | ||
{ type: 'address', name: 'to' }, | ||
{ type: 'uint256', name: 'value' }, | ||
{ type: 'bytes', name: 'data' }, | ||
{ type: 'uint8', name: 'operation' }, | ||
{ type: 'uint256', name: 'safeTxGas' }, | ||
{ type: 'uint256', name: 'baseGas' }, | ||
{ type: 'uint256', name: 'gasPrice' }, | ||
{ type: 'address', name: 'gasToken' }, | ||
{ type: 'address', name: 'refundReceiver' }, | ||
{ type: 'uint256', name: 'nonce' }, | ||
], | ||
}, | ||
transaction, | ||
) | ||
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// Sign the transaction hash with the WebAuthn credential. | ||
const assertion = navigator.credentials.get({ | ||
publicKey: { | ||
challenge: ethers.getBytes(transactionHash), | ||
rpId: 'safe.global', | ||
allowCredentials: [{ type: 'public-key', id: new Uint8Array(credential.rawId) }], | ||
userVerification: 'required', | ||
}, | ||
}) | ||
const signatureData = encodeWebAuthnSignature(assertion.response) | ||
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// Execute the Safe transaction. | ||
expect( | ||
await safe.execTransaction( | ||
transaction.to, | ||
transaction.value, | ||
transaction.data, | ||
transaction.operation, | ||
transaction.safeTxGas, | ||
transaction.baseGas, | ||
transaction.gasPrice, | ||
transaction.gasToken, | ||
transaction.refundReceiver, | ||
buildSignatureBytes([ | ||
{ | ||
signer: await sharedSigner.getAddress(), | ||
data: signatureData, | ||
dynamic: true, | ||
}, | ||
]), | ||
), | ||
).to.not.be.reverted | ||
}) | ||
}) |