import { time, loadFixture } from "@nomicfoundation/hardhat-network-helpers"; import { anyValue } from "@nomicfoundation/hardhat-chai-matchers/withArgs"; import { expect } from "chai"; import { ethers } from "hardhat"; describe("Lock", function () { // We define a fixture to reuse the same setup in every test. // We use loadFixture to run this setup once, snapshot that state, // and reset Hardhat Network to that snapshot in every test. async function deployOneYearLockFixture() { const ONE_YEAR_IN_SECS = 365 * 24 * 60 * 60; const ONE_GWEI = 1_000_000_000; const lockedAmount = ONE_GWEI; const unlockTime = (await time.latest()) + ONE_YEAR_IN_SECS; // Contracts are deployed using the first signer/account by default const [owner, otherAccount] = await ethers.getSigners(); const Lock = await ethers.getContractFactory("Lock"); const lock = await Lock.deploy(unlockTime, { value: lockedAmount }); return { lock, unlockTime, lockedAmount, owner, otherAccount }; } describe("Deployment", function () { it("Should set the right unlockTime", async function () { const { lock, unlockTime } = await loadFixture(deployOneYearLockFixture); expect(await lock.unlockTime()).to.equal(unlockTime); }); it("Should set the right owner", async function () { const { lock, owner } = await loadFixture(deployOneYearLockFixture); expect(await lock.owner()).to.equal(owner.address); }); it("Should receive and store the funds to lock", async function () { const { lock, lockedAmount } = await loadFixture( deployOneYearLockFixture ); expect(await ethers.provider.getBalance(lock.address)).to.equal( lockedAmount ); }); it("Should fail if the unlockTime is not in the future", async function () { // We don't use the fixture here because we want a different deployment const latestTime = await time.latest(); const Lock = await ethers.getContractFactory("Lock"); await expect(Lock.deploy(latestTime, { value: 1 })).to.be.revertedWith( "Unlock time should be in the future" ); }); }); describe("Withdrawals", function () { describe("Validations", function () { it("Should revert with the right error if called too soon", async function () { const { lock } = await loadFixture(deployOneYearLockFixture); await expect(lock.withdraw()).to.be.revertedWith( "You can't withdraw yet" ); }); it("Should revert with the right error if called from another account", async function () { const { lock, unlockTime, otherAccount } = await loadFixture( deployOneYearLockFixture ); // We can increase the time in Hardhat Network await time.increaseTo(unlockTime); // We use lock.connect() to send a transaction from another account await expect(lock.connect(otherAccount).withdraw()).to.be.revertedWith( "You aren't the owner" ); }); it("Shouldn't fail if the unlockTime has arrived and the owner calls it", async function () { const { lock, unlockTime } = await loadFixture( deployOneYearLockFixture ); // Transactions are sent using the first signer by default await time.increaseTo(unlockTime); await expect(lock.withdraw()).not.to.be.reverted; }); }); describe("Events", function () { it("Should emit an event on withdrawals", async function () { const { lock, unlockTime, lockedAmount } = await loadFixture( deployOneYearLockFixture ); await time.increaseTo(unlockTime); await expect(lock.withdraw()) .to.emit(lock, "Withdrawal") .withArgs(lockedAmount, anyValue); // We accept any value as `when` arg }); }); describe("Transfers", function () { it("Should transfer the funds to the owner", async function () { const { lock, unlockTime, lockedAmount, owner } = await loadFixture( deployOneYearLockFixture ); await time.increaseTo(unlockTime); await expect(lock.withdraw()).to.changeEtherBalances( [owner, lock], [lockedAmount, -lockedAmount] ); }); }); }); });