// SPDX-License-Identifier: Apache-2.0 pragma solidity ^0.8.13; import {IInterchainSecurityModule} from "../../contracts/interfaces/IInterchainSecurityModule.sol"; import {Message} from "../../contracts/libs/Message.sol"; import {IStaticWeightedMultisigIsm} from "../../contracts/interfaces/isms/IWeightedMultisigIsm.sol"; import {StaticMerkleRootWeightedMultisigIsmFactory, StaticMessageIdWeightedMultisigIsmFactory} from "../../contracts/isms/multisig/WeightedMultisigIsm.sol"; import {TypeCasts} from "../../contracts/libs/TypeCasts.sol"; import {CheckpointLib} from "../../contracts/libs/CheckpointLib.sol"; import {StaticWeightedValidatorSetFactory} from "../../contracts/libs/StaticWeightedValidatorSetFactory.sol"; import {AbstractStaticWeightedMultisigIsm} from "../../contracts/isms/multisig/AbstractWeightedMultisigIsm.sol"; import {TestMailbox} from "../../contracts/test/TestMailbox.sol"; import {TestMerkleTreeHook} from "../../contracts/test/TestMerkleTreeHook.sol"; import {TestPostDispatchHook} from "../../contracts/test/TestPostDispatchHook.sol"; import {MessageIdMultisigIsmMetadata} from "../../contracts/isms/libs/MessageIdMultisigIsmMetadata.sol"; import {Math} from "@openzeppelin/contracts/utils/math/Math.sol"; import {AbstractMultisigIsmTest, MerkleRootMultisigIsmTest, MessageIdMultisigIsmTest} from "./MultisigIsm.t.sol"; abstract contract AbstractStaticWeightedMultisigIsmTest is AbstractMultisigIsmTest { using Math for uint256; using Message for bytes; using TypeCasts for address; StaticWeightedValidatorSetFactory weightedFactory; AbstractStaticWeightedMultisigIsm weightedIsm; uint96 public constant TOTAL_WEIGHT = 1e10; function addValidators( uint96 threshold, uint8 n, bytes32 seed ) internal returns ( uint256[] memory, IStaticWeightedMultisigIsm.ValidatorInfo[] memory ) { bound(threshold, 0, TOTAL_WEIGHT); uint256[] memory keys = new uint256[](n); IStaticWeightedMultisigIsm.ValidatorInfo[] memory validators = new IStaticWeightedMultisigIsm.ValidatorInfo[]( n ); uint256 remainingWeight = TOTAL_WEIGHT; for (uint256 i = 0; i < n; i++) { uint256 key = uint256(keccak256(abi.encode(seed, i))); keys[i] = key; validators[i].signingAddress = vm.addr(key); if (i == n - 1) { validators[i].weight = uint96(remainingWeight); } else { uint256 weight = (uint256( keccak256(abi.encode(seed, "weight", i)) ) % (remainingWeight + 1)); validators[i].weight = uint96(weight); remainingWeight -= weight; } } // ism = IInterchainSecurityModule(deployedIsm); ism = IInterchainSecurityModule( weightedFactory.deploy(validators, threshold) ); weightedIsm = AbstractStaticWeightedMultisigIsm(address(ism)); return (keys, validators); } function getMetadata( uint8 m, uint8 n, bytes32 seed, bytes memory message ) internal virtual override returns (bytes memory) { bytes32 digest; { uint32 domain = mailbox.localDomain(); (bytes32 root, uint32 index) = merkleTreeHook.latestCheckpoint(); bytes32 messageId = message.id(); bytes32 merkleTreeAddress = address(merkleTreeHook) .addressToBytes32(); digest = CheckpointLib.digest( domain, merkleTreeAddress, root, index, messageId ); } uint96 threshold = uint96( (uint256(m)).mulDiv(TOTAL_WEIGHT, type(uint8).max) ); ( uint256[] memory keys, IStaticWeightedMultisigIsm.ValidatorInfo[] memory allValidators ) = addValidators(threshold, n, seed); (, uint96 thresholdWeight) = weightedIsm.validatorsAndThresholdWeight( message ); bytes memory metadata = metadataPrefix(message); fixtureInit(); uint96 totalWeight = 0; uint256 signerCount = 0; while ( totalWeight < thresholdWeight && signerCount < allValidators.length ) { (uint8 v, bytes32 r, bytes32 s) = vm.sign( keys[signerCount], digest ); metadata = abi.encodePacked(metadata, r, s, v); fixtureAppendSignature(signerCount, v, r, s); totalWeight += allValidators[signerCount].weight; signerCount++; } writeFixture(metadata, uint8(signerCount), n); return metadata; } function testVerify_revertInsufficientWeight( uint32 destination, bytes32 recipient, bytes calldata body, uint8 m, uint8 n, bytes32 seed ) public { vm.assume(0 < m && m <= n && n < 10); bytes memory message = getMessage(destination, recipient, body); bytes memory metadata = getMetadata(m, n, seed, message); uint256 signatureCount = weightedIsm.signatureCount(metadata); vm.assume(signatureCount >= 1); uint256 newLength = metadata.length - 65; bytes memory insufficientMetadata = new bytes(newLength); for (uint256 i = 0; i < newLength; i++) { insufficientMetadata[i] = metadata[i]; } vm.expectRevert("Insufficient validator weight"); ism.verify(insufficientMetadata, message); } } contract StaticMerkleRootWeightedMultisigIsmTest is MerkleRootMultisigIsmTest, AbstractStaticWeightedMultisigIsmTest { function setUp() public override { mailbox = new TestMailbox(ORIGIN); merkleTreeHook = new TestMerkleTreeHook(address(mailbox)); noopHook = new TestPostDispatchHook(); weightedFactory = new StaticMerkleRootWeightedMultisigIsmFactory(); mailbox.setDefaultHook(address(merkleTreeHook)); mailbox.setRequiredHook(address(noopHook)); } function getMetadata( uint8 m, uint8 n, bytes32 seed, bytes memory message ) internal override(AbstractMultisigIsmTest, AbstractStaticWeightedMultisigIsmTest) returns (bytes memory) { return AbstractStaticWeightedMultisigIsmTest.getMetadata( m, n, seed, message ); } } contract StaticMessageIdWeightedMultisigIsmTest is MessageIdMultisigIsmTest, AbstractStaticWeightedMultisigIsmTest { function setUp() public override { mailbox = new TestMailbox(ORIGIN); merkleTreeHook = new TestMerkleTreeHook(address(mailbox)); noopHook = new TestPostDispatchHook(); weightedFactory = new StaticMessageIdWeightedMultisigIsmFactory(); mailbox.setDefaultHook(address(merkleTreeHook)); mailbox.setRequiredHook(address(noopHook)); } function getMetadata( uint8 m, uint8 n, bytes32 seed, bytes memory message ) internal override(AbstractMultisigIsmTest, AbstractStaticWeightedMultisigIsmTest) returns (bytes memory) { return AbstractStaticWeightedMultisigIsmTest.getMetadata( m, n, seed, message ); } }