const { contract, accounts, web3 } = require('@openzeppelin/test-environment'); const { balance, BN, ether, expectRevert, send } = require('@openzeppelin/test-helpers'); const { expect } = require('chai'); const Create2Impl = contract.fromArtifact('Create2Impl'); const ERC20Mock = contract.fromArtifact('ERC20Mock'); const ERC1820Implementer = contract.fromArtifact('ERC1820Implementer'); describe('Create2', function () { const [deployerAccount] = accounts; const salt = 'salt message'; const saltHex = web3.utils.soliditySha3(salt); const encodedParams = web3.eth.abi.encodeParameters( ['string', 'string', 'address', 'uint256'], ['MyToken', 'MTKN', deployerAccount, 100] ).slice(2); const constructorByteCode = `${ERC20Mock.bytecode}${encodedParams}`; beforeEach(async function () { this.factory = await Create2Impl.new(); }); it('should compute the correct contract address', async function () { const onChainComputed = await this.factory .computeAddress(saltHex, web3.utils.keccak256(constructorByteCode)); const offChainComputed = computeCreate2Address(saltHex, constructorByteCode, this.factory.address); expect(onChainComputed).to.equal(offChainComputed); }); it('should compute the correct contract address with deployer', async function () { const onChainComputed = await this.factory .computeAddressWithDeployer(saltHex, web3.utils.keccak256(constructorByteCode), deployerAccount); const offChainComputed = computeCreate2Address(saltHex, constructorByteCode, deployerAccount); expect(onChainComputed).to.equal(offChainComputed); }); it('should deploy a ERC1820Implementer from inline assembly code', async function () { const offChainComputed = computeCreate2Address(saltHex, ERC1820Implementer.bytecode, this.factory.address); await this.factory.deployERC1820Implementer(0, saltHex); expect(ERC1820Implementer.bytecode).to.include((await web3.eth.getCode(offChainComputed)).slice(2)); }); it('should deploy a ERC20Mock with correct balances', async function () { const offChainComputed = computeCreate2Address(saltHex, constructorByteCode, this.factory.address); await this.factory.deploy(0, saltHex, constructorByteCode); const erc20 = await ERC20Mock.at(offChainComputed); expect(await erc20.balanceOf(deployerAccount)).to.be.bignumber.equal(new BN(100)); }); it('should deploy a contract with funds deposited in the factory', async function () { const deposit = ether('2'); await send.ether(deployerAccount, this.factory.address, deposit); expect(await balance.current(this.factory.address)).to.be.bignumber.equal(deposit); const onChainComputed = await this.factory .computeAddressWithDeployer(saltHex, web3.utils.keccak256(constructorByteCode), this.factory.address); await this.factory.deploy(deposit, saltHex, constructorByteCode); expect(await balance.current(onChainComputed)).to.be.bignumber.equal(deposit); }); it('should failed deploying a contract in an existent address', async function () { await this.factory.deploy(0, saltHex, constructorByteCode, { from: deployerAccount }); await expectRevert( this.factory.deploy(0, saltHex, constructorByteCode, { from: deployerAccount }), 'Create2: Failed on deploy' ); }); it('should fail deploying a contract if the bytecode length is zero', async function () { await expectRevert( this.factory.deploy(0, saltHex, '0x', { from: deployerAccount }), 'Create2: bytecode length is zero' ); }); it('should fail deploying a contract if factory contract does not have sufficient balance', async function () { await expectRevert( this.factory.deploy(1, saltHex, constructorByteCode, { from: deployerAccount }), 'Create2: insufficient balance' ); }); }); function computeCreate2Address (saltHex, bytecode, deployer) { return web3.utils.toChecksumAddress(`0x${web3.utils.sha3(`0x${[ 'ff', deployer, saltHex, web3.utils.soliditySha3(bytecode), ].map(x => x.replace(/0x/, '')).join('')}`).slice(-40)}`); }