// SPDX-License-Identifier: MIT or Apache-2.0 pragma solidity ^0.8.13; import "forge-std/console.sol"; import {LibBit} from "../../contracts/libs/LibBit.sol"; import {TypeCasts} from "../../contracts/libs/TypeCasts.sol"; import {StandardHookMetadata} from "../../contracts/hooks/libs/StandardHookMetadata.sol"; import {StandardHookMetadata} from "../../contracts/hooks/libs/StandardHookMetadata.sol"; import {AbstractMessageIdAuthorizedIsm} from "../../contracts/isms/hook/AbstractMessageIdAuthorizedIsm.sol"; import {MockOptimismMessenger} from "../../contracts/mock/MockOptimism.sol"; import {TestMailbox} from "../../contracts/test/TestMailbox.sol"; import {Message} from "../../contracts/libs/Message.sol"; import {MessageUtils} from "./IsmTestUtils.sol"; import {OPStackIsm} from "../../contracts/isms/hook/OPStackIsm.sol"; import {OPStackHook} from "../../contracts/hooks/OPStackHook.sol"; import {TestRecipient} from "../../contracts/test/TestRecipient.sol"; import {NotCrossChainCall} from "@openzeppelin/contracts/crosschain/errors.sol"; import {AddressAliasHelper} from "@eth-optimism/contracts/standards/AddressAliasHelper.sol"; import {ICrossDomainMessenger} from "../../contracts/interfaces/optimism/ICrossDomainMessenger.sol"; import {ExternalBridgeTest} from "./ExternalBridgeTest.sol"; contract OPStackIsmTest is ExternalBridgeTest { using LibBit for uint256; using TypeCasts for address; using MessageUtils for bytes; address internal constant L1_MESSENGER_ADDRESS = 0x25ace71c97B33Cc4729CF772ae268934F7ab5fA1; address internal constant L1_CANNONICAL_CHAIN = 0x5E4e65926BA27467555EB562121fac00D24E9dD2; address internal constant L2_MESSENGER_ADDRESS = 0x4200000000000000000000000000000000000007; uint8 internal constant OPTIMISM_VERSION = 0; uint256 internal constant DEFAULT_GAS_LIMIT = 1_920_000; address internal alice = address(0x1); MockOptimismMessenger internal l1Messenger; MockOptimismMessenger internal l2Messenger; event RelayedMessage(bytes32 indexed msgHash); event FailedRelayedMessage(bytes32 indexed msgHash); event ReceivedMessage(bytes32 indexed messageId); function setUp() public override { GAS_QUOTE = 0; vm.etch( L1_MESSENGER_ADDRESS, address(new MockOptimismMessenger()).code ); vm.etch( L2_MESSENGER_ADDRESS, address(new MockOptimismMessenger()).code ); l1Messenger = MockOptimismMessenger(L1_MESSENGER_ADDRESS); l2Messenger = MockOptimismMessenger(L2_MESSENGER_ADDRESS); deployAll(); super.setUp(); } /////////////////////////////////////////////////////////////////// /// SETUP /// /////////////////////////////////////////////////////////////////// function deployHook() public { originMailbox = new TestMailbox(ORIGIN_DOMAIN); hook = new OPStackHook( address(originMailbox), DESTINATION_DOMAIN, TypeCasts.addressToBytes32(address(ism)), L1_MESSENGER_ADDRESS ); } function deployIsm() public { ism = new OPStackIsm(L2_MESSENGER_ADDRESS); } function deployAll() public { deployIsm(); deployHook(); ism.setAuthorizedHook(TypeCasts.addressToBytes32(address(hook))); l2Messenger.setXDomainMessageSender(address(hook)); } function test_verify_revertWhen_invalidMetadata() public override { assertFalse(ism.verify(new bytes(0), encodedMessage)); } function test_verify_revertsWhen_incorrectMessageId() public override { bytes32 incorrectMessageId = keccak256("incorrect message id"); _externalBridgeDestinationCall(_encodeHookData(incorrectMessageId), 0); assertFalse(ism.isVerified(testMessage)); } /* ============ helper functions ============ */ function _expectOriginExternalBridgeCall( bytes memory _encodedHookData ) internal override { vm.expectCall( L1_MESSENGER_ADDRESS, abi.encodeCall( ICrossDomainMessenger.sendMessage, (address(ism), _encodedHookData, uint32(DEFAULT_GAS_LIMIT)) ) ); } function _externalBridgeDestinationCall( bytes memory _encodedHookData, uint256 _msgValue ) internal override { vm.deal(L2_MESSENGER_ADDRESS, _msgValue); l2Messenger.relayMessage( 0, address(hook), address(ism), _msgValue, uint32(GAS_QUOTE), _encodedHookData ); } function _encodeExternalDestinationBridgeCall( address /*_from*/, address /*_to*/, uint256 /*_msgValue*/, bytes32 /*_messageId*/ ) internal pure override returns (bytes memory) { return new bytes(0); } // SKIP - no external bridge call function test_verifyMessageId_externalBridgeCall() public override {} function test_verify_msgValue_externalBridgeCall() public override {} function test_verify_revertsWhen_invalidIsm() public override {} function test_verify_false_arbitraryCall() public override {} /* ============ ISM.verifyMessageId ============ */ function test_verify_revertsWhen_notAuthorizedHook() public override { // needs to be called by the canonical messenger on Optimism vm.expectRevert(NotCrossChainCall.selector); ism.verifyMessageId(messageId); vm.startPrank(L2_MESSENGER_ADDRESS); _setExternalOriginSender(address(this)); // needs to be called by the authorized hook contract on Ethereum vm.expectRevert( "AbstractMessageIdAuthorizedIsm: sender is not the hook" ); ism.verifyMessageId(messageId); } function _setExternalOriginSender( address _sender ) internal override returns (bytes memory) { l2Messenger.setXDomainMessageSender(_sender); return ""; } /* ============ ISM.verify ============ */ function test_verify_tooMuchValue() public { uint256 _msgValue = 2 ** 255 + 1; vm.expectRevert( "AbstractMessageIdAuthorizedIsm: msg.value must be less than 2^255" ); _externalBridgeDestinationCall(_encodeHookData(messageId), _msgValue); assertFalse(ism.isVerified(encodedMessage)); assertEq(address(ism).balance, 0); assertEq(address(testRecipient).balance, 0); } /* ============ helper functions ============ */ }