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L1ETHGateway.t.sol
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482 lines (417 loc) · 17.8 KB
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// SPDX-License-Identifier: MIT
pragma solidity =0.8.24;
import {ITransparentUpgradeableProxy} from "@openzeppelin/contracts/proxy/transparent/TransparentUpgradeableProxy.sol";
import {L1GatewayRouter} from "../L1/gateways/L1GatewayRouter.sol";
import {IL1ETHGateway, L1ETHGateway} from "../L1/gateways/L1ETHGateway.sol";
import {IL1ScrollMessenger} from "../L1/IL1ScrollMessenger.sol";
import {IL2ETHGateway, L2ETHGateway} from "../L2/gateways/L2ETHGateway.sol";
import {AddressAliasHelper} from "../libraries/common/AddressAliasHelper.sol";
import {ScrollConstants} from "../libraries/constants/ScrollConstants.sol";
import {L1GatewayTestBase} from "./L1GatewayTestBase.t.sol";
import {MockScrollMessenger} from "./mocks/MockScrollMessenger.sol";
import {MockGatewayRecipient} from "./mocks/MockGatewayRecipient.sol";
contract L1ETHGatewayTest is L1GatewayTestBase {
// from L1ETHGateway
event DepositETH(address indexed from, address indexed to, uint256 amount, bytes data);
event FinalizeWithdrawETH(address indexed from, address indexed to, uint256 amount, bytes data);
event RefundETH(address indexed recipient, uint256 amount);
L1ETHGateway private gateway;
L1GatewayRouter private router;
L2ETHGateway private counterpartGateway;
function setUp() public {
__L1GatewayTestBase_setUp();
// Deploy L2 contracts
counterpartGateway = new L2ETHGateway(address(1), address(1), address(1));
// Deploy L1 contracts
router = L1GatewayRouter(_deployProxy(address(new L1GatewayRouter())));
gateway = _deployGateway(address(l1Messenger));
// Initialize L1 contracts
gateway.initialize(address(counterpartGateway), address(router), address(l1Messenger));
router.initialize(address(gateway), address(0));
}
function testInitialized() public {
assertEq(address(counterpartGateway), gateway.counterpart());
assertEq(address(router), gateway.router());
assertEq(address(l1Messenger), gateway.messenger());
hevm.expectRevert("Initializable: contract is already initialized");
gateway.initialize(address(counterpartGateway), address(router), address(l1Messenger));
}
function testDepositETH(
uint256 amount,
uint256 gasLimit,
uint256 feePerGas
) public {
_depositETH(false, amount, gasLimit, feePerGas);
}
function testDepositETHWithRecipient(
uint256 amount,
address recipient,
uint256 gasLimit,
uint256 feePerGas
) public {
_depositETHWithRecipient(false, amount, recipient, gasLimit, feePerGas);
}
function testDepositETHWithRecipientAndCalldata(
uint256 amount,
address recipient,
bytes memory dataToCall,
uint256 gasLimit,
uint256 feePerGas
) public {
_depositETHWithRecipientAndCalldata(false, amount, recipient, dataToCall, gasLimit, feePerGas);
}
function testRouterDepositETH(
uint256 amount,
uint256 gasLimit,
uint256 feePerGas
) public {
_depositETH(true, amount, gasLimit, feePerGas);
}
function testRouterDepositETHWithRecipient(
uint256 amount,
address recipient,
uint256 gasLimit,
uint256 feePerGas
) public {
_depositETHWithRecipient(true, amount, recipient, gasLimit, feePerGas);
}
function testRouterDepositETHWithRecipientAndCalldata(
uint256 amount,
address recipient,
bytes memory dataToCall,
uint256 gasLimit,
uint256 feePerGas
) public {
_depositETHWithRecipientAndCalldata(true, amount, recipient, dataToCall, gasLimit, feePerGas);
}
function testFinalizeWithdrawETHFailedMocking(
address sender,
address recipient,
uint256 amount,
bytes memory dataToCall
) public {
amount = bound(amount, 1, address(this).balance / 2);
// revert when caller is not messenger
hevm.expectRevert(ErrorCallerIsNotMessenger.selector);
gateway.finalizeWithdrawETH(sender, recipient, amount, dataToCall);
MockScrollMessenger mockMessenger = new MockScrollMessenger();
gateway = _deployGateway(address(mockMessenger));
gateway.initialize(address(counterpartGateway), address(router), address(mockMessenger));
// only call by counterpart
hevm.expectRevert(ErrorCallerIsNotCounterpartGateway.selector);
mockMessenger.callTarget(
address(gateway),
abi.encodeWithSelector(gateway.finalizeWithdrawETH.selector, sender, recipient, amount, dataToCall)
);
mockMessenger.setXDomainMessageSender(address(counterpartGateway));
// msg.value mismatch
hevm.expectRevert("msg.value mismatch");
mockMessenger.callTarget(
address(gateway),
abi.encodeWithSelector(gateway.finalizeWithdrawETH.selector, sender, recipient, amount, dataToCall)
);
// ETH transfer failed
revertOnReceive = true;
hevm.expectRevert("ETH transfer failed");
mockMessenger.callTarget{value: amount}(
address(gateway),
abi.encodeWithSelector(gateway.finalizeWithdrawETH.selector, sender, address(this), amount, dataToCall)
);
}
function testFinalizeWithdrawETHFailed(
address sender,
address recipient,
uint256 amount,
bytes memory dataToCall
) public {
amount = bound(amount, 1, address(this).balance / 2);
// deposit some ETH to L1ScrollMessenger
gateway.depositETH{value: amount}(amount, defaultGasLimit);
// do finalize withdraw eth
bytes memory message = abi.encodeWithSelector(
IL1ETHGateway.finalizeWithdrawETH.selector,
sender,
recipient,
amount,
dataToCall
);
bytes memory xDomainCalldata = abi.encodeWithSignature(
"relayMessage(address,address,uint256,uint256,bytes)",
address(uint160(address(counterpartGateway)) + 1),
address(gateway),
amount,
0,
message
);
prepareL2MessageRoot(keccak256(xDomainCalldata));
IL1ScrollMessenger.L2MessageProof memory proof;
proof.batchIndex = rollup.lastFinalizedBatchIndex();
// counterpart is not L2ETHGateway
// emit FailedRelayedMessage from L1ScrollMessenger
hevm.expectEmit(true, false, false, true);
emit FailedRelayedMessage(keccak256(xDomainCalldata));
uint256 messengerBalance = address(l1Messenger).balance;
uint256 recipientBalance = recipient.balance;
assertBoolEq(false, l1Messenger.isL2MessageExecuted(keccak256(xDomainCalldata)));
l1Messenger.relayMessageWithProof(
address(uint160(address(counterpartGateway)) + 1),
address(gateway),
amount,
0,
message,
proof
);
assertEq(messengerBalance, address(l1Messenger).balance);
assertEq(recipientBalance, recipient.balance);
assertBoolEq(false, l1Messenger.isL2MessageExecuted(keccak256(xDomainCalldata)));
}
function testFinalizeWithdrawETH(
address sender,
uint256 amount,
bytes memory dataToCall
) public {
MockGatewayRecipient recipient = new MockGatewayRecipient();
amount = bound(amount, 1, address(this).balance / 2);
// deposit some ETH to L1ScrollMessenger
gateway.depositETH{value: amount}(amount, defaultGasLimit);
// do finalize withdraw eth
bytes memory message = abi.encodeWithSelector(
IL1ETHGateway.finalizeWithdrawETH.selector,
sender,
address(recipient),
amount,
dataToCall
);
bytes memory xDomainCalldata = abi.encodeWithSignature(
"relayMessage(address,address,uint256,uint256,bytes)",
address(counterpartGateway),
address(gateway),
amount,
0,
message
);
prepareL2MessageRoot(keccak256(xDomainCalldata));
IL1ScrollMessenger.L2MessageProof memory proof;
proof.batchIndex = rollup.lastFinalizedBatchIndex();
// emit FinalizeWithdrawETH from L1ETHGateway
{
hevm.expectEmit(true, true, false, true);
emit FinalizeWithdrawETH(sender, address(recipient), amount, dataToCall);
}
// emit RelayedMessage from L1ScrollMessenger
{
hevm.expectEmit(true, false, false, true);
emit RelayedMessage(keccak256(xDomainCalldata));
}
uint256 messengerBalance = address(l1Messenger).balance;
uint256 recipientBalance = address(recipient).balance;
assertBoolEq(false, l1Messenger.isL2MessageExecuted(keccak256(xDomainCalldata)));
l1Messenger.relayMessageWithProof(address(counterpartGateway), address(gateway), amount, 0, message, proof);
assertEq(messengerBalance - amount, address(l1Messenger).balance);
assertEq(recipientBalance + amount, address(recipient).balance);
assertBoolEq(true, l1Messenger.isL2MessageExecuted(keccak256(xDomainCalldata)));
}
function _depositETH(
bool useRouter,
uint256 amount,
uint256 gasLimit,
uint256 feePerGas
) private {
amount = bound(amount, 0, address(this).balance / 2);
gasLimit = bound(gasLimit, defaultGasLimit / 2, defaultGasLimit);
feePerGas = bound(feePerGas, 0, 1000);
setL2BaseFee(feePerGas);
uint256 feeToPay = feePerGas * gasLimit;
bytes memory message = abi.encodeWithSelector(
IL2ETHGateway.finalizeDepositETH.selector,
address(this),
address(this),
amount,
new bytes(0)
);
bytes memory xDomainCalldata = abi.encodeWithSignature(
"relayMessage(address,address,uint256,uint256,bytes)",
address(gateway),
address(counterpartGateway),
amount,
0,
message
);
if (amount == 0) {
hevm.expectRevert("deposit zero eth");
if (useRouter) {
router.depositETH{value: amount}(amount, gasLimit);
} else {
gateway.depositETH{value: amount}(amount, gasLimit);
}
} else {
// emit QueueTransaction from L1MessageQueue
{
hevm.expectEmit(true, true, false, true);
address sender = AddressAliasHelper.applyL1ToL2Alias(address(l1Messenger));
emit QueueTransaction(sender, address(l2Messenger), 0, 0, gasLimit, xDomainCalldata);
}
// emit SentMessage from L1ScrollMessenger
{
hevm.expectEmit(true, true, false, true);
emit SentMessage(address(gateway), address(counterpartGateway), amount, 0, gasLimit, message);
}
// emit DepositETH from L1ETHGateway
hevm.expectEmit(true, true, false, true);
emit DepositETH(address(this), address(this), amount, new bytes(0));
uint256 messengerBalance = address(l1Messenger).balance;
uint256 feeVaultBalance = address(feeVault).balance;
assertEq(l1Messenger.messageSendTimestamp(keccak256(xDomainCalldata)), 0);
if (useRouter) {
router.depositETH{value: amount + feeToPay + extraValue}(amount, gasLimit);
} else {
gateway.depositETH{value: amount + feeToPay + extraValue}(amount, gasLimit);
}
assertEq(amount + messengerBalance, address(l1Messenger).balance);
assertEq(feeToPay + feeVaultBalance, address(feeVault).balance);
assertGt(l1Messenger.messageSendTimestamp(keccak256(xDomainCalldata)), 0);
}
}
function _depositETHWithRecipient(
bool useRouter,
uint256 amount,
address recipient,
uint256 gasLimit,
uint256 feePerGas
) private {
amount = bound(amount, 0, address(this).balance / 2);
gasLimit = bound(gasLimit, defaultGasLimit / 2, defaultGasLimit);
feePerGas = bound(feePerGas, 0, 1000);
setL2BaseFee(feePerGas);
uint256 feeToPay = feePerGas * gasLimit;
bytes memory message = abi.encodeWithSelector(
IL2ETHGateway.finalizeDepositETH.selector,
address(this),
recipient,
amount,
new bytes(0)
);
bytes memory xDomainCalldata = abi.encodeWithSignature(
"relayMessage(address,address,uint256,uint256,bytes)",
address(gateway),
address(counterpartGateway),
amount,
0,
message
);
if (amount == 0) {
hevm.expectRevert("deposit zero eth");
if (useRouter) {
router.depositETH{value: amount}(recipient, amount, gasLimit);
} else {
gateway.depositETH{value: amount}(recipient, amount, gasLimit);
}
} else {
// emit QueueTransaction from L1MessageQueue
{
hevm.expectEmit(true, true, false, true);
address sender = AddressAliasHelper.applyL1ToL2Alias(address(l1Messenger));
emit QueueTransaction(sender, address(l2Messenger), 0, 0, gasLimit, xDomainCalldata);
}
// emit SentMessage from L1ScrollMessenger
{
hevm.expectEmit(true, true, false, true);
emit SentMessage(address(gateway), address(counterpartGateway), amount, 0, gasLimit, message);
}
// emit DepositETH from L1ETHGateway
hevm.expectEmit(true, true, false, true);
emit DepositETH(address(this), recipient, amount, new bytes(0));
uint256 messengerBalance = address(l1Messenger).balance;
uint256 feeVaultBalance = address(feeVault).balance;
assertEq(l1Messenger.messageSendTimestamp(keccak256(xDomainCalldata)), 0);
if (useRouter) {
router.depositETH{value: amount + feeToPay + extraValue}(recipient, amount, gasLimit);
} else {
gateway.depositETH{value: amount + feeToPay + extraValue}(recipient, amount, gasLimit);
}
assertEq(amount + messengerBalance, address(l1Messenger).balance);
assertEq(feeToPay + feeVaultBalance, address(feeVault).balance);
assertGt(l1Messenger.messageSendTimestamp(keccak256(xDomainCalldata)), 0);
}
}
function _depositETHWithRecipientAndCalldata(
bool useRouter,
uint256 amount,
address recipient,
bytes memory dataToCall,
uint256 gasLimit,
uint256 feePerGas
) private {
amount = bound(amount, 0, address(this).balance / 2);
gasLimit = bound(gasLimit, defaultGasLimit / 2, defaultGasLimit);
feePerGas = bound(feePerGas, 0, 1000);
setL2BaseFee(feePerGas);
uint256 feeToPay = feePerGas * gasLimit;
bytes memory message = abi.encodeWithSelector(
IL2ETHGateway.finalizeDepositETH.selector,
address(this),
recipient,
amount,
dataToCall
);
bytes memory xDomainCalldata = abi.encodeWithSignature(
"relayMessage(address,address,uint256,uint256,bytes)",
address(gateway),
address(counterpartGateway),
amount,
0,
message
);
if (amount == 0) {
hevm.expectRevert("deposit zero eth");
if (useRouter) {
router.depositETHAndCall{value: amount}(recipient, amount, dataToCall, gasLimit);
} else {
gateway.depositETHAndCall{value: amount}(recipient, amount, dataToCall, gasLimit);
}
} else {
// emit QueueTransaction from L1MessageQueue
{
hevm.expectEmit(true, true, false, true);
address sender = AddressAliasHelper.applyL1ToL2Alias(address(l1Messenger));
emit QueueTransaction(sender, address(l2Messenger), 0, 0, gasLimit, xDomainCalldata);
}
// emit SentMessage from L1ScrollMessenger
{
hevm.expectEmit(true, true, false, true);
emit SentMessage(address(gateway), address(counterpartGateway), amount, 0, gasLimit, message);
}
// emit DepositETH from L1ETHGateway
hevm.expectEmit(true, true, false, true);
emit DepositETH(address(this), recipient, amount, dataToCall);
uint256 messengerBalance = address(l1Messenger).balance;
uint256 feeVaultBalance = address(feeVault).balance;
assertEq(l1Messenger.messageSendTimestamp(keccak256(xDomainCalldata)), 0);
if (useRouter) {
router.depositETHAndCall{value: amount + feeToPay + extraValue}(
recipient,
amount,
dataToCall,
gasLimit
);
} else {
gateway.depositETHAndCall{value: amount + feeToPay + extraValue}(
recipient,
amount,
dataToCall,
gasLimit
);
}
assertEq(amount + messengerBalance, address(l1Messenger).balance);
assertEq(feeToPay + feeVaultBalance, address(feeVault).balance);
assertGt(l1Messenger.messageSendTimestamp(keccak256(xDomainCalldata)), 0);
}
}
function _deployGateway(address messenger) internal returns (L1ETHGateway _gateway) {
_gateway = L1ETHGateway(_deployProxy(address(0)));
admin.upgrade(
ITransparentUpgradeableProxy(address(_gateway)),
address(new L1ETHGateway(address(counterpartGateway), address(router), address(messenger)))
);
}
}