// SPDX-License-Identifier: MIT pragma solidity 0.7.6; pragma abicoder v2; import { Address } from "@openzeppelin/contracts/utils/Address.sol"; import { Initializable } from "@openzeppelin/contracts/proxy/Initializable.sol"; import "@openzeppelin/contracts/proxy/Clones.sol"; import "./instances/ERC20TornadoCloneable.sol"; import "./instances/ETHTornadoCloneable.sol"; contract InstanceFactory is Initializable { using Clones for address; using Address for address; address public admin; address public ERC20Impl; address public nativeCurImpl; address public verifier; address public hasher; uint32 public merkleTreeHeight; event NewTreeHeightSet(uint32 indexed newTreeHeight); event NewImplementationSet( address indexed ERC20Impl, address indexed nativeCurImpl, address verifier, address hasher ); event NewInstanceCloneCreated(address indexed clone); modifier onlyAdmin() { require(admin == msg.sender, "IF: caller is not the admin"); _; } /** * @notice initialize function for upgradeability * @dev this contract will be deployed behind a proxy and should not assign values at logic address, * params left out because self explainable * */ function initialize( address _verifier, address _hasher, uint32 _merkleTreeHeight, address _admin, address router ) public initializer { verifier = _verifier; hasher = _hasher; merkleTreeHeight = _merkleTreeHeight; admin = _admin; ERC20TornadoCloneable ERC20ImplContract = new ERC20TornadoCloneable(_verifier, _hasher); ERC20Impl = address(ERC20ImplContract); ETHTornadoCloneable nativeCurImplContract = new ETHTornadoCloneable(_verifier, _hasher); nativeCurImpl = address(nativeCurImplContract); } /** * @dev Creates new Tornado instance. * @param _denomination denomination of new Tornado instance * @param _token address of ERC20 token for a new instance, if zero address, then it will be ETH */ function createInstanceClone( uint256 _denomination, address _token ) public virtual onlyAdmin returns (address clone) { return _createInstanceClone(_denomination, _token); } function _createInstanceClone(uint256 _denomination, address _token) internal returns (address clone) { bytes32 salt = keccak256(abi.encodePacked(_denomination, _token)); if (_token == address(0)) { clone = nativeCurImpl.predictDeterministicAddress(salt); if (!clone.isContract()) { nativeCurImpl.cloneDeterministic(salt); emit NewInstanceCloneCreated(clone); ETHTornadoCloneable(clone).init(_denomination, merkleTreeHeight); } } else { clone = ERC20Impl.predictDeterministicAddress(salt); if (!clone.isContract()) { ERC20Impl.cloneDeterministic(salt); emit NewInstanceCloneCreated(clone); ERC20TornadoCloneable(clone).init(_denomination, merkleTreeHeight, _token); } } return clone; } function getInstanceAddress(uint256 _denomination, address _token) public view returns (address) { bytes32 salt = keccak256(abi.encodePacked(_denomination, _token)); if (_token == address(0)) { return nativeCurImpl.predictDeterministicAddress(salt); } else { return ERC20Impl.predictDeterministicAddress(salt); } } function setMerkleTreeHeight(uint32 _merkleTreeHeight) external onlyAdmin { merkleTreeHeight = _merkleTreeHeight; emit NewTreeHeightSet(merkleTreeHeight); } function generateNewImplementation(address _verifier, address _hasher, address _router) external onlyAdmin { verifier = _verifier; hasher = _hasher; ERC20Impl = address(new ERC20TornadoCloneable(_verifier, _hasher, _router)); nativeCurImpl = address(new ETHTornadoCloneable(_verifier, _hasher)); emit NewImplementationSet(ERC20Impl, nativeCurImpl, _verifier, _hasher); } /** * @dev Transfers adminship of the contract to a new account (`newAdmin`). * Can only be called by the current admin. */ function transferAdminship(address newAdmin) external onlyAdmin { require(newAdmin != address(0), "IF: new owner is the zero address"); admin = newAdmin; } }