const { waffle, ethers } = require('hardhat'); const { provider } = waffle; const { expect } = require('chai'); const testUtils = require('../utils'); const { domainsToTestConfigs } = require('./generateTestChainConfigs'); const { enqueueUpdateToReplica, enqueueMessagesAndUpdateHome, formatMessage, formatCall, } = require('./crossChainTestUtils'); const { deployMultipleChains, getHome, getReplica, getGovernanceRouter, } = require('./deployCrossChainTest'); const { testCases: proveAndProcessTestCases, } = require('../../../../vectors/proveAndProcessTestCases.json'); /* * Deploy the full Optics suite on two chains * enqueue messages to Home * sign and submit updates to Home * relay updates to Replica * confirm updates on Replica * TODO prove and process messages on Replica */ describe('SimpleCrossChainMessage', async () => { const domains = [1000, 2000]; const homeDomain = domains[0]; const replicaDomain = domains[1]; const walletProvider = new testUtils.WalletProvider(provider); let randomSigner, chainDetails, firstRootEnqueuedToReplica; let latestRoot = {}, latestUpdate = {}; before(async () => { // generate TestChainConfigs for the given domains const configs = await domainsToTestConfigs(domains); // deploy the entire Optics suite on each chain chainDetails = await deployMultipleChains(configs); [randomSigner] = walletProvider.getWalletsPersistent(1); }); it('All Homes have correct initial state', async () => { // governorHome has 0 updates const governorHome = getHome(chainDetails, homeDomain); let length = await governorHome.queueLength(); expect(length).to.equal(0); let [suggestedCurrent, suggestedNew] = await governorHome.suggestUpdate(); expect(suggestedCurrent).to.equal(ethers.utils.formatBytes32String(0)); expect(suggestedNew).to.equal(ethers.utils.formatBytes32String(0)); // nonGovernorHome has 1 update const nonGovernorHome = getHome(chainDetails, replicaDomain); length = await nonGovernorHome.queueLength(); expect(length).to.equal(1); [suggestedCurrent, suggestedNew] = await nonGovernorHome.suggestUpdate(); const nullRoot = ethers.utils.formatBytes32String(0); expect(suggestedCurrent).to.equal(nullRoot); expect(suggestedNew).to.not.equal(nullRoot); }); it('All Replicas have empty queue of pending updates', async () => { for (let destinationDomain of domains) { for (let remoteDomain of domains) { if (destinationDomain !== remoteDomain) { const replica = getReplica( chainDetails, destinationDomain, remoteDomain, ); const length = await replica.queueLength(); expect(length).to.equal(0); const [pending, confirmAt] = await replica.nextPending(); expect(pending).to.equal(ethers.utils.formatBytes32String(0)); expect(confirmAt).to.equal(0); } } } }); it('Origin Home Accepts one valid update', async () => { const messages = ['message'].map((message) => formatMessage(message, replicaDomain, randomSigner.address), ); const update = await enqueueMessagesAndUpdateHome( chainDetails, homeDomain, messages, ); latestUpdate[homeDomain] = update; latestRoot[homeDomain] = update.finalRoot; }); it('Destination Replica Accepts the first update', async () => { firstRootEnqueuedToReplica = await enqueueUpdateToReplica( chainDetails, latestUpdate[homeDomain], homeDomain, replicaDomain, ); }); it('Origin Home Accepts an update with several batched messages', async () => { const messages = ['message1', 'message2', 'message3'].map((message) => formatMessage(message, replicaDomain, randomSigner.address), ); const update = await enqueueMessagesAndUpdateHome( chainDetails, homeDomain, messages, ); latestUpdate[homeDomain] = update; latestRoot[homeDomain] = update.finalRoot; }); it('Destination Replica Accepts the second update', async () => { await enqueueUpdateToReplica( chainDetails, latestUpdate[homeDomain], homeDomain, replicaDomain, ); }); it('Destination Replica shows first update as the next pending', async () => { const replica = getReplica(chainDetails, replicaDomain, homeDomain); const [pending] = await replica.nextPending(); expect(pending).to.equal(firstRootEnqueuedToReplica); }); it('Destination Replica Batch-confirms several ready updates', async () => { const replica = getReplica(chainDetails, replicaDomain, homeDomain); // Increase time enough for both updates to be confirmable const optimisticSeconds = chainDetails[replicaDomain].optimisticSeconds; await testUtils.increaseTimestampBy(provider, optimisticSeconds * 2); // Replica should be able to confirm updates expect(await replica.canConfirm()).to.be.true; await replica.confirm(); // after confirming, current root should be equal to the last submitted update const { finalRoot } = latestUpdate[homeDomain]; expect(await replica.current()).to.equal(finalRoot); }); it('Proves and processes a message on Replica', async () => { // get governance routers const governorRouter = getGovernanceRouter(chainDetails, homeDomain); const nonGovernorRouter = getGovernanceRouter(chainDetails, replicaDomain); const replica = getReplica(chainDetails, replicaDomain, homeDomain); const TestRecipient = await optics.deployImplementation('TestRecipient'); // ensure `processed` has an initial value of false expect(await TestRecipient.processed()).to.be.false; // create Call message to test recipient that calls `processCall` const arg = true; const call = await formatCall(TestRecipient, 'processCall', [arg]); const callMessage = optics.GovernanceRouter.formatCalls([call]); // Create Optics message that is sent from the governor domain and governor // to the nonGovernorRouter on the nonGovernorDomain const sequence = await replica.nextToProcess(); const opticsMessage = optics.formatMessage( 1000, governorRouter.address, sequence, 2000, nonGovernorRouter.address, callMessage, ); // get merkle proof const { path, index } = proveAndProcessTestCases[0]; const leaf = optics.messageToLeaf(opticsMessage); // set root const proofRoot = await replica.testBranchRoot(leaf, path, index); await replica.setCurrentRoot(proofRoot); // prove and process message await replica.proveAndProcess(opticsMessage, path, index); // expect call to have been processed expect(await TestRecipient.processed()).to.be.true; expect(await replica.messages(leaf)).to.equal( optics.MessageStatus.PROCESSED, ); expect(await replica.nextToProcess()).to.equal(sequence.add(1)); }); });