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Create2Deployer.test.ts
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import { expect } from "chai";
import { ContractDeployTransaction } from "ethers";
import hre from "hardhat";
import { SignerWithAddress } from "@nomicfoundation/hardhat-ethers/signers";
import { Create2Deployer, Create2DeployerDeprecated } from "../typechain-types";
describe("Create2Deployer", function () {
const name = "MyToken";
const symbol = "MTKN";
const initialBalance = 100;
const salt = hre.ethers.id("WAGMI");
let deployerAccount: SignerWithAddress;
let Alice: SignerWithAddress;
let create2Deployer: Create2Deployer;
let create2Addr: string;
let creationBytecode: ContractDeployTransaction;
let initCodehash: string;
let creationBytecodeERC1820Implementer: ContractDeployTransaction;
beforeEach(async function () {
[deployerAccount, Alice] = await hre.ethers.getSigners();
create2Deployer = await hre.ethers.deployContract(
"Create2Deployer",
deployerAccount,
);
await create2Deployer.waitForDeployment();
create2Addr = await create2Deployer.getAddress();
const ERC20Mock = await hre.ethers.getContractFactory("ERC20Mock");
creationBytecode = await ERC20Mock.getDeployTransaction(
name,
symbol,
deployerAccount,
initialBalance,
);
initCodehash = hre.ethers.keccak256(creationBytecode.data);
const ERC1820Implementer =
await hre.ethers.getContractFactory("ERC1820Implementer");
creationBytecodeERC1820Implementer =
await ERC1820Implementer.getDeployTransaction();
});
describe("computeAddress", function () {
it("computes the correct contract address", async function () {
const onChainComputed = await create2Deployer.computeAddress(
salt,
initCodehash,
);
const offChainComputed = hre.ethers.getCreate2Address(
create2Addr,
salt,
initCodehash,
);
expect(onChainComputed).to.equal(offChainComputed);
});
it("computes the correct contract address with deployer", async function () {
const onChainComputed = await create2Deployer.computeAddressWithDeployer(
salt,
initCodehash,
deployerAccount.address,
);
const offChainComputed = hre.ethers.getCreate2Address(
deployerAccount.address,
salt,
initCodehash,
);
expect(onChainComputed).to.equal(offChainComputed);
});
});
describe("deploy", function () {
it("deploys an ERC1820Implementer from inline assembly code", async function () {
const offChainComputed = hre.ethers.getCreate2Address(
create2Addr,
salt,
hre.ethers.keccak256(creationBytecodeERC1820Implementer.data),
);
await create2Deployer.deployERC1820Implementer(0, salt);
expect(creationBytecodeERC1820Implementer.data).to.include(
(await hre.ethers.provider.getCode(offChainComputed)).slice(2),
);
});
it("deploys an ERC20Mock with correct balances", async function () {
const offChainComputed = hre.ethers.getCreate2Address(
create2Addr,
salt,
initCodehash,
);
await create2Deployer.deploy(0, salt, creationBytecode.data);
const erc20 = await hre.ethers.getContractAt(
"ERC20Mock",
offChainComputed,
);
expect(await erc20.balanceOf(deployerAccount.address)).to.equal(
initialBalance,
);
});
it("deploys a contract with funds deposited in the factory", async function () {
const deposit = hre.ethers.parseEther("2");
await deployerAccount.sendTransaction({
to: create2Addr,
value: deposit,
});
expect(await hre.ethers.provider.getBalance(create2Addr)).to.equal(
deposit,
);
const onChainComputed = await create2Deployer.computeAddress(
salt,
initCodehash,
);
await create2Deployer.deploy(deposit, salt, creationBytecode.data);
expect(await hre.ethers.provider.getBalance(onChainComputed)).to.equal(
deposit,
);
});
it("fails deploying a contract in an existent address", async function () {
await create2Deployer.deployERC1820Implementer(0, salt);
await expect(
create2Deployer.deployERC1820Implementer(0, salt),
).to.be.revertedWith("Create2: Failed on deploy");
await create2Deployer.deploy(0, salt, creationBytecode.data);
await expect(
create2Deployer.deploy(0, salt, creationBytecode.data),
).to.be.revertedWith("Create2: Failed on deploy");
});
it("fails deploying a contract if the bytecode length is zero", async function () {
await expect(
create2Deployer.connect(deployerAccount).deploy(0, salt, "0x"),
).to.be.revertedWith("Create2: bytecode length is zero");
});
it("fails deploying a contract if factory contract does not have sufficient balance", async function () {
await expect(
create2Deployer.deployERC1820Implementer(1, salt),
).to.be.revertedWith("Create2: insufficient balance");
await expect(
create2Deployer.deploy(1, salt, creationBytecode.data),
).to.be.revertedWith("Create2: insufficient balance");
});
it("fails deploying when paused", async function () {
await create2Deployer.connect(deployerAccount).pause();
await expect(
create2Deployer.deployERC1820Implementer(1, salt),
).to.be.revertedWith("Pausable: paused");
await expect(
create2Deployer.deploy(1, salt, creationBytecode.data),
).to.be.revertedWith("Pausable: paused");
});
});
describe("pause", function () {
it("success", async function () {
await expect(create2Deployer.connect(deployerAccount).pause()).not.to.be
.reverted;
});
it("prevents non-owners from executing", async function () {
await expect(create2Deployer.connect(Alice).pause()).to.be.revertedWith(
"Ownable: caller is not the owner",
);
});
});
describe("unpause", function () {
it("success", async function () {
await expect(create2Deployer.connect(deployerAccount).pause()).not.to.be
.reverted;
await expect(create2Deployer.connect(deployerAccount).unpause()).not.to.be
.reverted;
});
it("prevents non-owners from executing", async function () {
await expect(create2Deployer.connect(deployerAccount).pause()).not.to.be
.reverted;
await expect(create2Deployer.connect(Alice).unpause()).to.be.revertedWith(
"Ownable: caller is not the owner",
);
});
});
});
describe("Create2DeployerDeprecated", function () {
const name = "MyToken";
const symbol = "MTKN";
const initialBalance = 100;
const salt = hre.ethers.id("WAGMI");
let deployerAccount: SignerWithAddress;
let Alice: SignerWithAddress;
let create2DeployerDeprecated: Create2DeployerDeprecated;
let create2Addr: string;
let creationBytecode: ContractDeployTransaction;
let initCodehash: string;
let creationBytecodeERC1820Implementer: ContractDeployTransaction;
beforeEach(async function () {
[deployerAccount, Alice] = await hre.ethers.getSigners();
create2DeployerDeprecated = await hre.ethers.deployContract(
"Create2DeployerDeprecated",
deployerAccount,
);
await create2DeployerDeprecated.waitForDeployment();
create2Addr = await create2DeployerDeprecated.getAddress();
const ERC20Mock = await hre.ethers.getContractFactory("ERC20Mock");
creationBytecode = await ERC20Mock.getDeployTransaction(
name,
symbol,
deployerAccount,
initialBalance,
);
initCodehash = hre.ethers.keccak256(creationBytecode.data);
const ERC1820Implementer =
await hre.ethers.getContractFactory("ERC1820Implementer");
creationBytecodeERC1820Implementer =
await ERC1820Implementer.getDeployTransaction();
});
describe("computeAddress", function () {
it("computes the correct contract address", async function () {
const onChainComputed = await create2DeployerDeprecated.computeAddress(
salt,
initCodehash,
);
const offChainComputed = hre.ethers.getCreate2Address(
create2Addr,
salt,
initCodehash,
);
expect(onChainComputed).to.equal(offChainComputed);
});
it("computes the correct contract address with deployer", async function () {
const onChainComputed =
await create2DeployerDeprecated.computeAddressWithDeployer(
salt,
initCodehash,
deployerAccount.address,
);
const offChainComputed = hre.ethers.getCreate2Address(
deployerAccount.address,
salt,
initCodehash,
);
expect(onChainComputed).to.equal(offChainComputed);
});
});
describe("deploy", function () {
it("deploys an ERC1820Implementer from inline assembly code", async function () {
const offChainComputed = hre.ethers.getCreate2Address(
create2Addr,
salt,
hre.ethers.keccak256(creationBytecodeERC1820Implementer.data),
);
await create2DeployerDeprecated.deployERC1820Implementer(0, salt);
expect(creationBytecodeERC1820Implementer.data).to.include(
(await hre.ethers.provider.getCode(offChainComputed)).slice(2),
);
});
it("deploys an ERC20Mock with correct balances", async function () {
const offChainComputed = hre.ethers.getCreate2Address(
create2Addr,
salt,
initCodehash,
);
await create2DeployerDeprecated.deploy(0, salt, creationBytecode.data);
const erc20 = await hre.ethers.getContractAt(
"ERC20Mock",
offChainComputed,
);
expect(await erc20.balanceOf(deployerAccount.address)).to.equal(
initialBalance,
);
});
it("deploys a contract with funds deposited in the factory", async function () {
const deposit = hre.ethers.parseEther("2");
await deployerAccount.sendTransaction({
to: create2Addr,
value: deposit,
});
expect(await hre.ethers.provider.getBalance(create2Addr)).to.equal(
deposit,
);
const onChainComputed = await create2DeployerDeprecated.computeAddress(
salt,
initCodehash,
);
await create2DeployerDeprecated.deploy(
deposit,
salt,
creationBytecode.data,
);
expect(await hre.ethers.provider.getBalance(onChainComputed)).to.equal(
deposit,
);
});
it("fails deploying a contract in an existent address", async function () {
await create2DeployerDeprecated.deployERC1820Implementer(0, salt);
await expect(
create2DeployerDeprecated.deployERC1820Implementer(0, salt),
).to.be.revertedWith("Create2: Failed on deploy");
await create2DeployerDeprecated.deploy(0, salt, creationBytecode.data);
await expect(
create2DeployerDeprecated.deploy(0, salt, creationBytecode.data),
).to.be.revertedWith("Create2: Failed on deploy");
});
it("fails deploying a contract if the bytecode length is zero", async function () {
await expect(
create2DeployerDeprecated
.connect(deployerAccount)
.deploy(0, salt, "0x"),
).to.be.revertedWith("Create2: bytecode length is zero");
});
it("fails deploying a contract if factory contract does not have sufficient balance", async function () {
await expect(
create2DeployerDeprecated.deployERC1820Implementer(1, salt),
).to.be.revertedWith("Create2: insufficient balance");
await expect(
create2DeployerDeprecated.deploy(1, salt, creationBytecode.data),
).to.be.revertedWith("Create2: insufficient balance");
});
it("fails deploying when paused", async function () {
await create2DeployerDeprecated.connect(deployerAccount).pause();
await expect(
create2DeployerDeprecated.deployERC1820Implementer(1, salt),
).to.be.revertedWith("Pausable: paused");
await expect(
create2DeployerDeprecated.deploy(1, salt, creationBytecode.data),
).to.be.revertedWith("Pausable: paused");
});
});
describe("pause", function () {
it("success", async function () {
await expect(create2DeployerDeprecated.connect(deployerAccount).pause())
.not.to.be.reverted;
});
it("prevents non-owners from executing", async function () {
await expect(
create2DeployerDeprecated.connect(Alice).pause(),
).to.be.revertedWith("Ownable: caller is not the owner");
});
});
describe("unpause", function () {
it("success", async function () {
await expect(create2DeployerDeprecated.connect(deployerAccount).pause())
.not.to.be.reverted;
await expect(create2DeployerDeprecated.connect(deployerAccount).unpause())
.not.to.be.reverted;
});
it("prevents non-owners from executing", async function () {
await expect(create2DeployerDeprecated.connect(deployerAccount).pause())
.not.to.be.reverted;
await expect(
create2DeployerDeprecated.connect(Alice).unpause(),
).to.be.revertedWith("Ownable: caller is not the owner");
});
});
// Only relevant for the `Create2DeployerDeprecated` contract
describe("killCreate2Deployer", function () {
it("success", async function () {
const deposit = hre.ethers.parseEther("2");
await deployerAccount.sendTransaction({
to: create2Addr,
value: deposit,
});
expect(await hre.ethers.provider.getBalance(create2Addr)).to.equal(
deposit,
);
const initialBalance = await hre.ethers.provider.getBalance(
Alice.address,
);
await expect(
create2DeployerDeprecated
.connect(deployerAccount)
.killCreate2Deployer(Alice.address),
).not.to.be.reverted;
expect(await hre.ethers.provider.getBalance(Alice.address)).to.equal(
deposit + initialBalance,
);
});
it("prevents non-owners from executing", async function () {
await expect(
create2DeployerDeprecated
.connect(Alice)
.killCreate2Deployer(Alice.address),
).to.be.revertedWith("Ownable: caller is not the owner");
});
});
});