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hyperlane-monorepo/solidity/test/isms/legacyMultisigIsm.test.ts

568 lines
18 KiB

/* eslint-disable @typescript-eslint/no-floating-promises */
import { SignerWithAddress } from '@nomiclabs/hardhat-ethers/signers';
import { expect } from 'chai';
import { ethers } from 'hardhat';
import {
InterchainSecurityModuleType,
Validator,
addressToBytes32,
formatLegacyMultisigIsmMetadata,
parseLegacyMultisigIsmMetadata,
} from '@hyperlane-xyz/utils';
import domainHashTestCases from '../../../vectors/domainHash.json';
import {
LightTestRecipient__factory,
TestLegacyMultisigIsm,
TestLegacyMultisigIsm__factory,
TestMailbox,
TestMailbox__factory,
TestRecipient__factory,
} from '../../types';
import {
dispatchMessage,
dispatchMessageAndReturnMetadata,
getCommitment,
signCheckpoint,
} from '../lib/mailboxes';
const ORIGIN_DOMAIN = 1234;
const DESTINATION_DOMAIN = 4321;
describe('LegacyMultisigIsm', async () => {
let multisigIsm: TestLegacyMultisigIsm,
mailbox: TestMailbox,
signer: SignerWithAddress,
nonOwner: SignerWithAddress,
validators: Validator[];
before(async () => {
const signers = await ethers.getSigners();
[signer, nonOwner] = signers;
const mailboxFactory = new TestMailbox__factory(signer);
mailbox = await mailboxFactory.deploy(ORIGIN_DOMAIN);
validators = await Promise.all(
signers
.filter((_, i) => i > 1)
.map((s) => Validator.fromSigner(s, ORIGIN_DOMAIN, mailbox.address)),
);
});
beforeEach(async () => {
const multisigIsmFactory = new TestLegacyMultisigIsm__factory(signer);
multisigIsm = await multisigIsmFactory.deploy();
});
describe('#constructor', () => {
it('sets the owner', async () => {
expect(await multisigIsm.owner()).to.equal(signer.address);
});
});
describe('#moduleType', () => {
it('returns the correct type', async () => {
expect(await multisigIsm.moduleType()).to.equal(
InterchainSecurityModuleType.MULTISIG,
);
});
});
describe('#enrollValidators', () => {
let validatorAddresses: string[];
const domains = [ORIGIN_DOMAIN, DESTINATION_DOMAIN];
before(async () => {
validatorAddresses = validators.map((v) => v.address);
});
it('enrolls validators into multiple validator sets', async () => {
await multisigIsm.enrollValidators(
domains,
domains.map(() => validatorAddresses),
);
await Promise.all(
domains.map(async (domain) => {
expect(await multisigIsm.validators(domain)).to.deep.equal(
validatorAddresses,
);
}),
);
});
it('emits the ValidatorEnrolled event', async () => {
expect(
await multisigIsm.enrollValidators(
domains,
domains.map(() => validatorAddresses),
),
)
.to.emit(multisigIsm, 'ValidatorEnrolled')
.withArgs(ORIGIN_DOMAIN, validatorAddresses[0], 1);
});
it('emits the CommitmentUpdated event', async () => {
const expectedCommitment = getCommitment(0, validatorAddresses);
expect(
await multisigIsm.enrollValidators(
domains,
domains.map(() => validatorAddresses),
),
)
.to.emit(multisigIsm, 'CommitmentUpdated')
.withArgs(ORIGIN_DOMAIN, expectedCommitment);
});
it('reverts when called by a non-owner', async () => {
await expect(
multisigIsm.connect(nonOwner).enrollValidators(
domains,
domains.map(() => validatorAddresses),
),
).to.be.revertedWith('Ownable: caller is not the owner');
});
});
describe('#enrollValidator', () => {
it('enrolls a validator into the validator set', async () => {
await multisigIsm.enrollValidator(ORIGIN_DOMAIN, validators[0].address);
expect(await multisigIsm.validators(ORIGIN_DOMAIN)).to.deep.equal([
validators[0].address,
]);
});
it('emits the ValidatorEnrolled event', async () => {
expect(
await multisigIsm.enrollValidator(ORIGIN_DOMAIN, validators[0].address),
)
.to.emit(multisigIsm, 'ValidatorEnrolled')
.withArgs(ORIGIN_DOMAIN, validators[0].address, 1);
});
it('emits the CommitmentUpdated event', async () => {
const expectedCommitment = getCommitment(0, [validators[0].address]);
expect(
await multisigIsm.enrollValidator(ORIGIN_DOMAIN, validators[0].address),
)
.to.emit(multisigIsm, 'CommitmentUpdated')
.withArgs(ORIGIN_DOMAIN, expectedCommitment);
});
it('reverts if the validator is already enrolled', async () => {
await multisigIsm.enrollValidator(ORIGIN_DOMAIN, validators[0].address);
await expect(
multisigIsm.enrollValidator(ORIGIN_DOMAIN, validators[0].address),
).to.be.revertedWith('already enrolled');
});
it('reverts when called by a non-owner', async () => {
await expect(
multisigIsm
.connect(nonOwner)
.enrollValidator(ORIGIN_DOMAIN, validators[0].address),
).to.be.revertedWith('Ownable: caller is not the owner');
});
});
describe('#unenrollValidator', () => {
beforeEach(async () => {
await multisigIsm.enrollValidator(ORIGIN_DOMAIN, validators[0].address);
});
it('unenrolls a validator from the validator set', async () => {
await multisigIsm.unenrollValidator(ORIGIN_DOMAIN, validators[0].address);
expect(await multisigIsm.validators(ORIGIN_DOMAIN)).to.deep.equal([]);
});
it('emits the ValidatorUnenrolled event', async () => {
expect(
await multisigIsm.unenrollValidator(
ORIGIN_DOMAIN,
validators[0].address,
),
)
.to.emit(multisigIsm, 'ValidatorUnenrolled')
.withArgs(ORIGIN_DOMAIN, validators[0].address, 0);
});
it('emits the CommitmentUpdated event', async () => {
const expectedCommitment = getCommitment(0, []);
expect(
await multisigIsm.unenrollValidator(
ORIGIN_DOMAIN,
validators[0].address,
),
)
.to.emit(multisigIsm, 'CommitmentUpdated')
.withArgs(ORIGIN_DOMAIN, expectedCommitment);
});
it('reverts if the resulting validator set size will be less than the quorum threshold', async () => {
await multisigIsm.setThreshold(ORIGIN_DOMAIN, 1);
await expect(
multisigIsm.unenrollValidator(ORIGIN_DOMAIN, validators[0].address),
).to.be.revertedWith('violates quorum threshold');
});
it('reverts if the validator is not already enrolled', async () => {
await expect(
multisigIsm.unenrollValidator(ORIGIN_DOMAIN, validators[1].address),
).to.be.revertedWith('!enrolled');
});
it('reverts when called by a non-owner', async () => {
await expect(
multisigIsm
.connect(nonOwner)
.unenrollValidator(ORIGIN_DOMAIN, validators[0].address),
).to.be.revertedWith('Ownable: caller is not the owner');
});
});
describe('#setThresholds', () => {
let validatorAddresses: string[];
const domains = [ORIGIN_DOMAIN, DESTINATION_DOMAIN];
const thresholds = [2, 4];
before(async () => {
validatorAddresses = validators.map((v) => v.address);
});
beforeEach(async () => {
await multisigIsm.enrollValidators(
domains,
domains.map(() => validatorAddresses),
);
});
it('sets the quorum thresholds', async () => {
await multisigIsm.setThresholds(domains, thresholds);
await Promise.all(
domains.map(async (domain, i) => {
expect(await multisigIsm.threshold(domain)).to.equal(thresholds[i]);
}),
);
});
it('emits the SetThreshold event', async () => {
expect(await multisigIsm.setThresholds(domains, thresholds))
.to.emit(multisigIsm, 'ThresholdSet')
.withArgs(ORIGIN_DOMAIN, 2);
});
it('emits the CommitmentUpdated event', async () => {
const expectedCommitment = getCommitment(2, validatorAddresses);
expect(await multisigIsm.setThresholds(domains, thresholds))
.to.emit(multisigIsm, 'CommitmentUpdated')
.withArgs(ORIGIN_DOMAIN, expectedCommitment);
});
it('reverts when called by a non-owner', async () => {
await expect(
multisigIsm.connect(nonOwner).setThresholds(domains, thresholds),
).to.be.revertedWith('Ownable: caller is not the owner');
});
});
describe('#setThreshold', () => {
beforeEach(async () => {
// Have 2 validators to allow us to have more than 1 valid
// quorum threshold
await multisigIsm.enrollValidator(ORIGIN_DOMAIN, validators[0].address);
await multisigIsm.enrollValidator(ORIGIN_DOMAIN, validators[1].address);
});
it('sets the quorum threshold', async () => {
await multisigIsm.setThreshold(ORIGIN_DOMAIN, 2);
expect(await multisigIsm.threshold(ORIGIN_DOMAIN)).to.equal(2);
});
it('emits the SetThreshold event', async () => {
expect(await multisigIsm.setThreshold(ORIGIN_DOMAIN, 2))
.to.emit(multisigIsm, 'ThresholdSet')
.withArgs(ORIGIN_DOMAIN, 2);
});
it('emits the CommitmentUpdated event', async () => {
const expectedCommitment = getCommitment(2, [
validators[0].address,
validators[1].address,
]);
expect(await multisigIsm.setThreshold(ORIGIN_DOMAIN, 2))
.to.emit(multisigIsm, 'CommitmentUpdated')
.withArgs(ORIGIN_DOMAIN, expectedCommitment);
});
it('reverts if the new quorum threshold is zero', async () => {
await expect(
multisigIsm.setThreshold(ORIGIN_DOMAIN, 0),
).to.be.revertedWith('!range');
});
it('reverts if the new quorum threshold is greater than the validator set size', async () => {
await expect(
multisigIsm.setThreshold(ORIGIN_DOMAIN, 3),
).to.be.revertedWith('!range');
});
it('reverts when called by a non-owner', async () => {
await expect(
multisigIsm.connect(nonOwner).setThreshold(ORIGIN_DOMAIN, 2),
).to.be.revertedWith('Ownable: caller is not the owner');
});
});
describe('#validators', () => {
beforeEach(async () => {
await multisigIsm.enrollValidators(
[ORIGIN_DOMAIN],
[validators.map((v) => v.address)],
);
});
it('returns the validators', async () => {
expect(await multisigIsm.validators(ORIGIN_DOMAIN)).to.deep.equal(
validators.map((v) => v.address),
);
});
});
describe('#validatorsAndThreshold', () => {
const threshold = 7;
let message: string;
beforeEach(async () => {
await multisigIsm.enrollValidators(
[ORIGIN_DOMAIN],
[validators.map((v) => v.address)],
);
await multisigIsm.setThreshold(ORIGIN_DOMAIN, threshold);
const dispatch = await dispatchMessage(
mailbox,
DESTINATION_DOMAIN,
addressToBytes32(multisigIsm.address),
'hello',
);
message = dispatch.message;
});
it('returns the validators and threshold', async () => {
expect(await multisigIsm.validatorsAndThreshold(message)).to.deep.equal([
validators.map((v) => v.address),
threshold,
]);
});
});
describe('#validatorCount', () => {
beforeEach(async () => {
// Must be done sequentially so gas estimation is correct.
for (const v of validators) {
await multisigIsm.enrollValidator(ORIGIN_DOMAIN, v.address);
}
});
it('returns the number of validators enrolled in the validator set', async () => {
expect(await multisigIsm.validatorCount(ORIGIN_DOMAIN)).to.equal(
validators.length,
);
});
});
describe('#verify', () => {
let metadata: string, message: string, recipient: string;
before(async () => {
const recipientF = new TestRecipient__factory(signer);
recipient = (await recipientF.deploy()).address;
});
beforeEach(async () => {
// Must be done sequentially so gas estimation is correct
// and so that signatures are produced in the same order.
for (const v of validators) {
await multisigIsm.enrollValidator(ORIGIN_DOMAIN, v.address);
}
await multisigIsm.setThreshold(ORIGIN_DOMAIN, validators.length - 1);
({ message, metadata } = await dispatchMessageAndReturnMetadata(
mailbox,
multisigIsm,
DESTINATION_DOMAIN,
recipient,
'hello world',
validators.slice(1),
));
});
it('returns true when valid metadata is provided', async () => {
expect(await multisigIsm.verify(metadata, message)).to.be.true;
});
it('allows for message processing when valid metadata is provided', async () => {
const mailboxFactory = new TestMailbox__factory(signer);
const destinationMailbox = await mailboxFactory.deploy(
DESTINATION_DOMAIN,
);
await destinationMailbox.initialize(signer.address, multisigIsm.address);
await destinationMailbox.process(metadata, message);
});
it('reverts when non-validator signatures are provided', async () => {
const nonValidator = await Validator.fromSigner(
signer,
ORIGIN_DOMAIN,
mailbox.address,
);
const parsedMetadata = parseLegacyMultisigIsmMetadata(metadata);
const nonValidatorSignature = (
await signCheckpoint(
parsedMetadata.checkpointRoot,
parsedMetadata.checkpointIndex,
mailbox.address,
[nonValidator],
)
)[0];
parsedMetadata.signatures.push(nonValidatorSignature);
const modifiedMetadata = formatLegacyMultisigIsmMetadata({
...parsedMetadata,
signatures: parsedMetadata.signatures.slice(1),
});
await expect(
multisigIsm.verify(modifiedMetadata, message),
).to.be.revertedWith('!threshold');
});
it('reverts when the provided validator set does not match the stored commitment', async () => {
const parsedMetadata = parseLegacyMultisigIsmMetadata(metadata);
const modifiedMetadata = formatLegacyMultisigIsmMetadata({
...parsedMetadata,
validators: parsedMetadata.validators.slice(1),
});
await expect(
multisigIsm.verify(modifiedMetadata, message),
).to.be.revertedWith('!commitment');
});
it('reverts when an invalid merkle proof is provided', async () => {
const parsedMetadata = parseLegacyMultisigIsmMetadata(metadata);
const modifiedMetadata = formatLegacyMultisigIsmMetadata({
...parsedMetadata,
proof: parsedMetadata.proof.reverse(),
});
await expect(
multisigIsm.verify(modifiedMetadata, message),
).to.be.revertedWith('!merkle');
});
});
describe('#isEnrolled', () => {
beforeEach(async () => {
await multisigIsm.enrollValidator(ORIGIN_DOMAIN, validators[0].address);
});
it('returns true if an address is enrolled in the validator set', async () => {
expect(await multisigIsm.isEnrolled(ORIGIN_DOMAIN, validators[0].address))
.to.be.true;
});
it('returns false if an address is not enrolled in the validator set', async () => {
expect(await multisigIsm.isEnrolled(ORIGIN_DOMAIN, validators[1].address))
.to.be.false;
});
});
describe('#_getDomainHash', () => {
it('matches Rust-produced domain hashes', async () => {
// Compare Rust output in json file to solidity output (json file matches
// hash for local domain of 1000)
for (const testCase of domainHashTestCases) {
const { expectedDomainHash } = testCase;
// This public function on TestLegacyMultisigIsm exposes
// the internal _domainHash on MultisigIsm.
const domainHash = await multisigIsm.getDomainHash(
testCase.domain,
testCase.mailbox,
);
expect(domainHash).to.equal(expectedDomainHash);
}
});
});
// Manually unskip to run gas instrumentation.
// The JSON that's logged can then be copied to `typescript/sdk/src/consts/multisigIsmVerifyCosts.json`,
// which is ultimately used for configuring the default ISM overhead IGP.
describe.skip('#verify gas instrumentation for the OverheadISM', () => {
const MAX_VALIDATOR_COUNT = 18;
let metadata: string, message: string, recipient: string;
const gasOverhead: Record<number, Record<number, number>> = {};
before(async () => {
const recipientF = new LightTestRecipient__factory(signer);
recipient = (await recipientF.deploy()).address;
});
after(() => {
// eslint-disable-next-line no-console
console.log('Instrumented gas overheads:');
// eslint-disable-next-line no-console
console.log(JSON.stringify(gasOverhead));
});
for (
let numValidators = 1;
numValidators <= MAX_VALIDATOR_COUNT;
numValidators++
) {
for (let threshold = 1; threshold <= numValidators; threshold++) {
it(`instrument mailbox.process gas costs with ${threshold} of ${numValidators} multisig`, async () => {
const adjustedValidators = validators.slice(0, numValidators);
// Must be done sequentially so gas estimation is correct
// and so that signatures are produced in the same order.
for (const v of adjustedValidators) {
await multisigIsm.enrollValidator(ORIGIN_DOMAIN, v.address);
}
await multisigIsm.setThreshold(ORIGIN_DOMAIN, threshold);
const maxBodySize = await mailbox.MAX_MESSAGE_BODY_BYTES();
// The max body is used to estimate an upper bound on gas usage.
const maxBody = '0x' + 'AA'.repeat(maxBodySize.toNumber());
({ message, metadata } = await dispatchMessageAndReturnMetadata(
mailbox,
multisigIsm,
DESTINATION_DOMAIN,
recipient,
maxBody,
adjustedValidators,
threshold,
false,
));
const mailboxFactory = new TestMailbox__factory(signer);
const destinationMailbox = await mailboxFactory.deploy(
DESTINATION_DOMAIN,
);
await destinationMailbox.initialize(
signer.address,
multisigIsm.address,
);
const gas = await destinationMailbox.estimateGas.process(
metadata,
message,
);
if (gasOverhead[numValidators] === undefined) {
gasOverhead[numValidators] = {};
}
gasOverhead[numValidators][threshold] = gas.toNumber();
});
}
}
});
});