// get back the ownership of CDP // mechanism to transfer an existing CDP (2 txn process) // factor the WETH to PETH conversion rate - https://chat.makerdao.com/direct/Sean // implement repay loan function pragma solidity 0.4.24; interface token { function transfer(address receiver, uint amount) external returns(bool); function approve(address spender, uint256 value) external returns (bool); } interface AddressRegistry { function getAddr(string name) external returns(address); function isApprovedResolver(address user) external returns(bool); } interface MakerCDP { function open() external returns (bytes32 cup); function join(uint wad) external; // Join PETH function exit(uint wad) external; // Exit PETH function give(bytes32 cup, address guy) external; function lock(bytes32 cup, uint wad) external; function free(bytes32 cup, uint wad) external; function draw(bytes32 cup, uint wad) external; function wipe(bytes32 cup, uint wad) external; function shut(bytes32 cup) external; function bite(bytes32 cup) external; } interface WETHFace { function deposit() external payable; function withdraw(uint wad) external; } contract Registry { address public registryAddress; AddressRegistry aRegistry = AddressRegistry(registryAddress); modifier onlyAdmin() { require( msg.sender == getAddress("admin"), "Permission Denied" ); _; } function getAddress(string name) internal view returns(address addr) { addr = aRegistry.getAddr(name); require(addr != address(0), "Invalid Address"); } } contract GlobalVar is Registry { address public weth = 0xd0a1e359811322d97991e03f863a0c30c2cf029c; address public peth = 0xf4d791139ce033ad35db2b2201435fad668b1b64; address public mkr = 0xaaf64bfcc32d0f15873a02163e7e500671a4ffcd; address public dai = 0xc4375b7de8af5a38a93548eb8453a498222c4ff2; address public cdpAddr = 0xa71937147b55Deb8a530C7229C442Fd3F31b7db2; MakerCDP loanMaster = MakerCDP(cdpAddr); mapping (address => bytes32) public borrowerCDPs; // borrower >>> CDP Bytes } contract BorrowTasks is GlobalVar { function openCDP() internal returns (bytes32) { return loanMaster.open(); } function convertToWETH(uint weiAmt) internal { WETHFace wethFunction = WETHFace(weth); wethFunction.deposit.value(weiAmt)(); } function convertToPETH(uint weiAmt) internal { loanMaster.join(weiAmt); } function lockPETH(address borrower, uint weiAmt) internal { loanMaster.lock(borrowerCDPs[borrower], weiAmt); } function transferCDP(address nextOwner) public { require(nextOwner != 0, "Invalid Address."); loanMaster.give(borrowerCDPs[msg.sender], nextOwner); } function approveERC20() public { token wethTkn = token(weth); wethTkn.approve(cdpAddr, 2**256 - 1); token pethTkn = token(peth); pethTkn.approve(cdpAddr, 2**256 - 1); token mkrTkn = token(mkr); mkrTkn.approve(cdpAddr, 2**256 - 1); token daiTkn = token(dai); daiTkn.approve(cdpAddr, 2**256 - 1); } } contract Borrow is BorrowTasks { modifier securedResolver(address borrower) { if (borrower != msg.sender) { require( msg.sender == getAddress("resolver"), "Message Sender is not MoatResolver." ); require( aRegistry.isApprovedResolver(borrower), "MoatResolver is not approved by CDP user." ); } _; } function getLoan( address borrower, uint lockETH, uint loanDAI ) public securedResolver(borrower) { if (borrowerCDPs[borrower] == 0x0000000000000000000000000000000000000000000000000000000000000000) { borrowerCDPs[borrower] = openCDP(); } if (lockETH != 0) { convertToWETH(lockETH); convertToPETH(lockETH - lockETH/1000); lockPETH(borrower, lockETH - lockETH/1000); // event for locking ETH } if (loanDAI != 0) { loanMaster.draw(borrowerCDPs[borrower], loanDAI); token tokenFunctions = token(dai); tokenFunctions.transfer(getAddress("asset"), loanDAI); // event for drawing DAI } } } contract MoatMaker is Borrow { constructor() public { approveERC20(); } function () public payable {} }