// SPDX-License-Identifier: Apache-2.0 pragma solidity ^0.8.13; import "forge-std/Test.sol"; import "../contracts/mock/MockHyperlaneEnvironment.sol"; import "../contracts/test/TestGasRouter.sol"; contract GasRouterTest is Test { event DestinationGasSet(uint32 indexed domain, uint256 gas); MockHyperlaneEnvironment environment; uint32 originDomain = 1; uint32 remoteDomain = 2; uint256 gasPrice; // The gas price used in IGP.quoteGasPayment TestGasRouter originRouter; TestGasRouter remoteRouter; function setUp() public { environment = new MockHyperlaneEnvironment(originDomain, remoteDomain); // Same for origin and remote gasPrice = environment.igps(originDomain).gasPrice(); originRouter = new TestGasRouter(); remoteRouter = new TestGasRouter(); originRouter.initialize( address(environment.mailboxes(originDomain)), address(environment.igps(originDomain)) ); remoteRouter.initialize( address(environment.mailboxes(remoteDomain)), address(environment.igps(remoteDomain)) ); originRouter.enrollRemoteRouter( remoteDomain, TypeCasts.addressToBytes32(address(remoteRouter)) ); remoteRouter.enrollRemoteRouter( originDomain, TypeCasts.addressToBytes32(address(originRouter)) ); } function setDestinationGas( GasRouter gasRouter, uint32 domain, uint256 gas ) public { GasRouter.GasRouterConfig[] memory gasConfigs = new GasRouter.GasRouterConfig[](1); gasConfigs[0] = GasRouter.GasRouterConfig(domain, gas); gasRouter.setDestinationGas(gasConfigs); } function testSetDestinationGas(uint256 gas) public { vm.expectEmit(true, false, false, true, address(remoteRouter)); emit DestinationGasSet(originDomain, gas); setDestinationGas(remoteRouter, originDomain, gas); assertEq(remoteRouter.destinationGas(originDomain), gas); vm.expectEmit(true, false, false, true, address(originRouter)); emit DestinationGasSet(remoteDomain, gas); setDestinationGas(originRouter, remoteDomain, gas); assertEq(originRouter.destinationGas(remoteDomain), gas); } function testQuoteGasPayment(uint256 gas) public { vm.assume(gas > 0 && type(uint256).max / gas > gasPrice); setDestinationGas(originRouter, remoteDomain, gas); assertEq(originRouter.quoteGasPayment(remoteDomain), gas * gasPrice); setDestinationGas(remoteRouter, originDomain, gas); assertEq(remoteRouter.quoteGasPayment(originDomain), gas * gasPrice); } uint256 refund = 0; bool passRefund = true; receive() external payable { refund = msg.value; assert(passRefund); } function testDispatchWithGas(uint256 gas) public { vm.assume(gas > 0 && type(uint256).max / gas > gasPrice); vm.deal(address(this), gas * gasPrice); setDestinationGas(originRouter, remoteDomain, gas); uint256 requiredPayment = gas * gasPrice; vm.expectRevert("insufficient interchain gas payment"); originRouter.dispatchWithGas{value: requiredPayment - 1}( remoteDomain, "" ); vm.deal(address(this), requiredPayment + 1); originRouter.dispatchWithGas{value: requiredPayment + 1}( remoteDomain, "" ); assertEq(refund, 1); // Reset the IGP balance to avoid a balance overflow vm.deal(address(environment.igps(originDomain)), 0); vm.deal(address(this), requiredPayment + 1); passRefund = false; vm.expectRevert( "Address: unable to send value, recipient may have reverted" ); originRouter.dispatchWithGas{value: requiredPayment + 1}( remoteDomain, "" ); } }