// SPDX-License-Identifier: MIT or Apache-2.0 pragma solidity ^0.8.13; import {Test} from "forge-std/Test.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 {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, IL2CrossDomainMessenger} from "../../contracts/interfaces/optimism/ICrossDomainMessenger.sol"; contract OPStackIsmTest is Test { using LibBit for uint256; using TypeCasts for address; using MessageUtils for bytes; uint256 internal mainnetFork; uint256 internal optimismFork; 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; uint8 internal constant HYPERLANE_VERSION = 1; uint256 internal constant DEFAULT_GAS_LIMIT = 1_920_000; address internal alice = address(0x1); ICrossDomainMessenger internal l1Messenger; IL2CrossDomainMessenger internal l2Messenger; TestMailbox internal l1Mailbox; OPStackIsm internal opISM; OPStackHook internal opHook; TestRecipient internal testRecipient; bytes internal testMessage = abi.encodePacked("Hello from the other chain!"); bytes internal testMetadata = StandardHookMetadata.overrideRefundAddress(address(this)); bytes internal encodedMessage; bytes32 internal messageId; uint32 internal constant MAINNET_DOMAIN = 1; uint32 internal constant OPTIMISM_DOMAIN = 10; event SentMessage( address indexed target, address sender, bytes message, uint256 messageNonce, uint256 gasLimit ); event RelayedMessage(bytes32 indexed msgHash); event FailedRelayedMessage(bytes32 indexed msgHash); event ReceivedMessage(bytes32 indexed messageId); function setUp() public { // block numbers to fork from, chain data is cached to ../../forge-cache/ mainnetFork = vm.createFork(vm.rpcUrl("mainnet"), 18_992_500); optimismFork = vm.createFork(vm.rpcUrl("optimism"), 114_696_811); testRecipient = new TestRecipient(); encodedMessage = _encodeTestMessage(); messageId = Message.id(encodedMessage); } /////////////////////////////////////////////////////////////////// /// SETUP /// /////////////////////////////////////////////////////////////////// function deployOptimismHook() public { vm.selectFork(mainnetFork); l1Messenger = ICrossDomainMessenger(L1_MESSENGER_ADDRESS); l1Mailbox = new TestMailbox(MAINNET_DOMAIN); opHook = new OPStackHook( address(l1Mailbox), OPTIMISM_DOMAIN, TypeCasts.addressToBytes32(address(opISM)), L1_MESSENGER_ADDRESS ); vm.makePersistent(address(opHook)); } function deployOPStackIsm() public { vm.selectFork(optimismFork); l2Messenger = IL2CrossDomainMessenger(L2_MESSENGER_ADDRESS); opISM = new OPStackIsm(L2_MESSENGER_ADDRESS); vm.makePersistent(address(opISM)); } function deployAll() public { deployOPStackIsm(); deployOptimismHook(); vm.selectFork(optimismFork); opISM.setAuthorizedHook(TypeCasts.addressToBytes32(address(opHook))); // for sending value vm.deal( AddressAliasHelper.applyL1ToL2Alias(L1_MESSENGER_ADDRESS), 2 ** 255 ); } /////////////////////////////////////////////////////////////////// /// FORK TESTS /// /////////////////////////////////////////////////////////////////// /* ============ hook.quoteDispatch ============ */ function testFork_quoteDispatch() public { deployAll(); vm.selectFork(mainnetFork); assertEq(opHook.quoteDispatch(testMetadata, encodedMessage), 0); } /* ============ hook.postDispatch ============ */ function testFork_postDispatch() public { deployAll(); vm.selectFork(mainnetFork); bytes memory encodedHookData = abi.encodeCall( AbstractMessageIdAuthorizedIsm.verifyMessageId, (messageId) ); uint40 testNonce = 123; l1Mailbox.updateLatestDispatchedId(messageId); vm.expectEmit(true, true, true, false, L1_MESSENGER_ADDRESS); emit SentMessage( address(opISM), address(opHook), encodedHookData, testNonce, DEFAULT_GAS_LIMIT ); opHook.postDispatch(testMetadata, encodedMessage); } function testFork_postDispatch_RevertWhen_ChainIDNotSupported() public { deployAll(); vm.selectFork(mainnetFork); bytes memory message = MessageUtils.formatMessage( OPTIMISM_VERSION, uint32(0), MAINNET_DOMAIN, TypeCasts.addressToBytes32(address(this)), 11, // wrong domain TypeCasts.addressToBytes32(address(testRecipient)), testMessage ); l1Mailbox.updateLatestDispatchedId(Message.id(message)); vm.expectRevert( "AbstractMessageIdAuthHook: invalid destination domain" ); opHook.postDispatch(testMetadata, message); } function testFork_postDispatch_RevertWhen_TooMuchValue() public { deployAll(); vm.selectFork(mainnetFork); vm.deal(address(this), uint256(2 ** 255 + 1)); bytes memory excessValueMetadata = StandardHookMetadata .overrideMsgValue(uint256(2 ** 255 + 1)); l1Mailbox.updateLatestDispatchedId(messageId); vm.expectRevert("OPStackHook: msgValue must be less than 2 ** 255"); opHook.postDispatch(excessValueMetadata, encodedMessage); } function testFork_postDispatch_RevertWhen_NotLastDispatchedMessage() public { deployAll(); vm.selectFork(mainnetFork); vm.expectRevert( "AbstractMessageIdAuthHook: message not latest dispatched" ); opHook.postDispatch(testMetadata, encodedMessage); } /* ============ ISM.verifyMessageId ============ */ function testFork_verifyMessageId() public { deployAll(); vm.selectFork(optimismFork); bytes memory encodedHookData = abi.encodeCall( AbstractMessageIdAuthorizedIsm.verifyMessageId, (messageId) ); (uint240 nonce, uint16 version) = decodeVersionedNonce( l2Messenger.messageNonce() ); uint256 versionedNonce = encodeVersionedNonce(nonce + 1, version); bytes32 versionedHash = hashCrossDomainMessageV1( versionedNonce, address(opHook), address(opISM), 0, DEFAULT_GAS_LIMIT, encodedHookData ); vm.startPrank( AddressAliasHelper.applyL1ToL2Alias(L1_MESSENGER_ADDRESS) ); vm.expectEmit(true, false, false, false, address(opISM)); emit ReceivedMessage(messageId); vm.expectEmit(true, false, false, false, L2_MESSENGER_ADDRESS); emit RelayedMessage(versionedHash); l2Messenger.relayMessage( versionedNonce, address(opHook), address(opISM), 0, DEFAULT_GAS_LIMIT, encodedHookData ); assertTrue(opISM.verifiedMessages(messageId).isBitSet(255)); vm.stopPrank(); } function testFork_verifyMessageId_RevertWhen_NotAuthorized() public { deployAll(); vm.selectFork(optimismFork); // needs to be called by the cannonical messenger on Optimism vm.expectRevert(NotCrossChainCall.selector); opISM.verifyMessageId(messageId); // set the xDomainMessageSender storage slot as alice bytes32 key = bytes32(uint256(204)); bytes32 value = TypeCasts.addressToBytes32(alice); vm.store(address(l2Messenger), key, value); vm.startPrank(L2_MESSENGER_ADDRESS); // needs to be called by the authorized hook contract on Ethereum vm.expectRevert( "AbstractMessageIdAuthorizedIsm: sender is not the hook" ); opISM.verifyMessageId(messageId); } /* ============ ISM.verify ============ */ function testFork_verify() public { deployAll(); vm.selectFork(optimismFork); orchestrateRelayMessage(0, messageId); bool verified = opISM.verify(new bytes(0), encodedMessage); assertTrue(verified); } /// forge-config: default.fuzz.runs = 10 function testFork_verify_WithValue(uint256 _msgValue) public { _msgValue = bound(_msgValue, 0, 2 ** 254); deployAll(); orchestrateRelayMessage(_msgValue, messageId); bool verified = opISM.verify(new bytes(0), encodedMessage); assertTrue(verified); assertEq(address(opISM).balance, 0); assertEq(address(testRecipient).balance, _msgValue); } /// forge-config: default.fuzz.runs = 10 function testFork_verify_valueAlreadyClaimed(uint256 _msgValue) public { _msgValue = bound(_msgValue, 0, 2 ** 254); deployAll(); orchestrateRelayMessage(_msgValue, messageId); bool verified = opISM.verify(new bytes(0), encodedMessage); assertTrue(verified); assertEq(address(opISM).balance, 0); assertEq(address(testRecipient).balance, _msgValue); // send more value to the ISM vm.deal(address(opISM), _msgValue); verified = opISM.verify(new bytes(0), encodedMessage); // verified still true assertTrue(verified); assertEq(address(opISM).balance, _msgValue); // value which was already sent assertEq(address(testRecipient).balance, _msgValue); } function testFork_verify_tooMuchValue() public { deployAll(); uint256 _msgValue = 2 ** 255 + 1; vm.expectEmit(false, false, false, false, address(l2Messenger)); emit FailedRelayedMessage(messageId); orchestrateRelayMessage(_msgValue, messageId); bool verified = opISM.verify(new bytes(0), encodedMessage); assertFalse(verified); assertEq(address(opISM).balance, 0); assertEq(address(testRecipient).balance, 0); } // sending over invalid message function testFork_verify_RevertWhen_HyperlaneInvalidMessage() public { deployAll(); orchestrateRelayMessage(0, messageId); bytes memory invalidMessage = MessageUtils.formatMessage( HYPERLANE_VERSION, uint8(0), MAINNET_DOMAIN, TypeCasts.addressToBytes32(address(this)), OPTIMISM_DOMAIN, TypeCasts.addressToBytes32(address(this)), // wrong recipient testMessage ); bool verified = opISM.verify(new bytes(0), invalidMessage); assertFalse(verified); } // invalid messageID in postDispatch function testFork_verify_RevertWhen_InvalidOptimismMessageID() public { deployAll(); vm.selectFork(optimismFork); bytes memory invalidMessage = MessageUtils.formatMessage( HYPERLANE_VERSION, uint8(0), MAINNET_DOMAIN, TypeCasts.addressToBytes32(address(this)), OPTIMISM_DOMAIN, TypeCasts.addressToBytes32(address(this)), testMessage ); bytes32 _messageId = Message.id(invalidMessage); orchestrateRelayMessage(0, _messageId); bool verified = opISM.verify(new bytes(0), encodedMessage); assertFalse(verified); } /* ============ helper functions ============ */ function _encodeTestMessage() internal view returns (bytes memory) { return MessageUtils.formatMessage( HYPERLANE_VERSION, uint32(0), MAINNET_DOMAIN, TypeCasts.addressToBytes32(address(this)), OPTIMISM_DOMAIN, TypeCasts.addressToBytes32(address(testRecipient)), testMessage ); } /// @dev from eth-optimism/contracts-bedrock/contracts/libraries/Hashing.sol /// @notice Hashes a cross domain message based on the V1 (current) encoding. /// @param _nonce Message nonce. /// @param _sender Address of the sender of the message. /// @param _target Address of the target of the message. /// @param _value ETH value to send to the target. /// @param _gasLimit Gas limit to use for the message. /// @param _data Data to send with the message. /// @return Hashed cross domain message. function hashCrossDomainMessageV1( uint256 _nonce, address _sender, address _target, uint256 _value, uint256 _gasLimit, bytes memory _data ) internal pure returns (bytes32) { return keccak256( encodeCrossDomainMessageV1( _nonce, _sender, _target, _value, _gasLimit, _data ) ); } /// @dev from eth-optimism/contracts-bedrock/contracts/libraries/Encoding.sol /// @notice Encodes a cross domain message based on the V1 (current) encoding. /// @param _nonce Message nonce. /// @param _sender Address of the sender of the message. /// @param _target Address of the target of the message. /// @param _value ETH value to send to the target. /// @param _gasLimit Gas limit to use for the message. /// @param _data Data to send with the message. /// @return Encoded cross domain message. function encodeCrossDomainMessageV1( uint256 _nonce, address _sender, address _target, uint256 _value, uint256 _gasLimit, bytes memory _data ) internal pure returns (bytes memory) { return abi.encodeWithSignature( "relayMessage(uint256,address,address,uint256,uint256,bytes)", _nonce, _sender, _target, _value, _gasLimit, _data ); } /// @dev from eth-optimism/contracts-bedrock/contracts/libraries/Encoding.sol /// @notice Adds a version number into the first two bytes of a message nonce. /// @param _nonce Message nonce to encode into. /// @param _version Version number to encode into the message nonce. /// @return Message nonce with version encoded into the first two bytes. function encodeVersionedNonce( uint240 _nonce, uint16 _version ) internal pure returns (uint256) { uint256 nonce; assembly { nonce := or(shl(240, _version), _nonce) } return nonce; } /// @dev from eth-optimism/contracts-bedrock/contracts/libraries/Encoding.sol /// @notice Pulls the version out of a version-encoded nonce. /// @param _nonce Message nonce with version encoded into the first two bytes. /// @return Nonce without encoded version. /// @return Version of the message. function decodeVersionedNonce( uint256 _nonce ) internal pure returns (uint240, uint16) { uint240 nonce; uint16 version; assembly { nonce := and( _nonce, 0x0000ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff ) version := shr(240, _nonce) } return (nonce, version); } function orchestrateRelayMessage( uint256 _msgValue, bytes32 _messageId ) internal { vm.selectFork(optimismFork); bytes memory encodedHookData = abi.encodeCall( AbstractMessageIdAuthorizedIsm.verifyMessageId, (_messageId) ); (uint240 nonce, uint16 version) = decodeVersionedNonce( l2Messenger.messageNonce() ); uint256 versionedNonce = encodeVersionedNonce(nonce + 1, version); vm.deal( AddressAliasHelper.applyL1ToL2Alias(L1_MESSENGER_ADDRESS), 2 ** 256 - 1 ); vm.prank(AddressAliasHelper.applyL1ToL2Alias(L1_MESSENGER_ADDRESS)); l2Messenger.relayMessage{value: _msgValue}( versionedNonce, address(opHook), address(opISM), _msgValue, DEFAULT_GAS_LIMIT, encodedHookData ); } }