pragma solidity 0.4.24; import "openzeppelin-solidity/contracts/math/SafeMath.sol"; import "openzeppelin-solidity/contracts/token/ERC20/IERC20.sol"; interface AddressRegistry { function getAddr(string name) external view returns(address); } 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 per() external view returns (uint ray); } interface PriceInterface { function peek() public view returns (bytes32, bool); } interface WETHFace { function deposit() external payable; function withdraw(uint wad) external; } contract Registry { address public addressRegistry; modifier onlyAdmin() { require( msg.sender == getAddress("admin"), "Permission Denied" ); _; } function getAddress(string name) internal view returns(address) { AddressRegistry addrReg = AddressRegistry(addressRegistry); return addrReg.getAddr(name); } } contract GlobalVar is Registry { using SafeMath for uint; using SafeMath for uint256; // kovan network address public weth = 0xd0A1E359811322d97991E03f863a0C30C2cF029C; address public peth = 0xf4d791139cE033Ad35DB2B2201435fAd668B1b64; address public mkr = 0xAaF64BFCC32d0F15873a02163e7E500671a4ffcD; address public dai = 0xC4375B7De8af5a38a93548eb8453a498222C4fF2; address public eth = 0xeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee; address public pricefeed = 0xA944bd4b25C9F186A846fd5668941AA3d3B8425F; address public cdpAddr = 0xa71937147b55Deb8a530C7229C442Fd3F31b7db2; MakerCDP loanMaster = MakerCDP(cdpAddr); bytes32 public blankCDP = 0x0000000000000000000000000000000000000000000000000000000000000000; mapping (address => bytes32) public cdps; // borrower >>> CDP Bytes bool public freezed; uint public fees; } contract IssueLoan is GlobalVar { event LockedETH(address borrower, uint lockETH, uint lockPETH); event LoanedDAI(address borrower, uint loanDAI, uint fees); event OpenedNewCDP(address borrower, bytes32 cdpBytes); function pethPEReth(uint eth) public view returns (uint rPETH) { rPETH = eth * (10 ** 27) / loanMaster.per(); } function borrow(uint daiDraw) public payable { if (cdps[msg.sender] == blankCDP) { cdps[msg.sender] = loanMaster.open(); emit OpenedNewCDP(msg.sender, cdps[msg.sender]); } if (msg.value > 0) {lockETH();} if (daiDraw > 0) {drawDAI(daiDraw);} } function lockETH() public payable { WETHFace wethFunction = WETHFace(weth); wethFunction.deposit.value(msg.value)(); // ETH to WETH uint pethToLock = pethPEReth(msg.value); loanMaster.join(pethToLock); // WETH to PETH loanMaster.lock(cdps[msg.sender], pethToLock); // PETH to CDP emit LockedETH(msg.sender, msg.value, pethToLock); } function drawDAI(uint daiDraw) public { require(!freezed, "Operation Disabled"); loanMaster.draw(cdps[msg.sender], daiDraw); uint feecut = deductFees(daiDraw); IERC20 tokenFunctions = IERC20(dai); tokenFunctions.transfer(msg.sender, daiDraw - feecut); emit LoanedDAI(msg.sender, daiDraw, feecut); } function deductFees(uint volume) internal returns(uint brokerage) { if (fees > 0) { brokerage = volume / fees; IERC20 tokenFunctions = IERC20(dai); tokenFunctions.transfer(getAddress("admin"), brokerage); } } } contract RepayLoan is IssueLoan { event WipedDAI(address borrower, uint daiWipe); event UnlockedETH(address borrower, uint ethFree); function repay( uint daiWipe, uint mkrFees, uint ethFree ) public { if (daiWipe > 0) {wipeDAI(daiWipe, mkrFees);} if (ethFree > 0) {unlockETH(ethFree);} } function wipeDAI(uint daiWipe, uint mkrFees) public { IERC20 mkrTkn = IERC20(mkr); IERC20 daiTkn = IERC20(dai); mkrTkn.transferFrom(msg.sender, address(this), mkrFees); // MKR tokens to pay the debt fees daiTkn.transferFrom(msg.sender, address(this), daiWipe); // DAI to pay the debt loanMaster.wipe(cdps[msg.sender], daiWipe); mkrTkn.transfer(msg.sender, mkrTkn.balanceOf(address(this))); // pay back balanced MKR tokens emit WipedDAI(msg.sender, daiWipe); } function unlockETH(uint ethFree) public { require(!freezed, "Operation Disabled"); uint pethToUnlock = pethPEReth(ethFree); loanMaster.free(cdps[msg.sender], pethToUnlock); // CDP to PETH loanMaster.exit(pethToUnlock); // PETH to WETH WETHFace wethFunction = WETHFace(weth); wethFunction.withdraw(ethFree); // WETH to ETH msg.sender.transfer(ethFree); emit UnlockedETH(msg.sender, ethFree); } } contract BorrowTasks is RepayLoan { event TranferCDP(bytes32 cdp, address owner, address nextOwner); function transferCDP(address nextOwner) public { require(nextOwner != 0, "Invalid Address."); loanMaster.give(cdps[msg.sender], nextOwner); emit TranferCDP(cdps[msg.sender], msg.sender, nextOwner); cdps[msg.sender] = blankCDP; } function getETHRate() public view returns (uint ethprice) { PriceInterface ethRate = PriceInterface(pricefeed); (ethprice, ) = uint(ethRate.peek()) / 10**18; } function getCDPID(address borrower) public view returns (uint) { return uint(cdps[borrower]); } function approveERC20() public { IERC20 wethTkn = IERC20(weth); wethTkn.approve(cdpAddr, 2**256 - 1); IERC20 pethTkn = IERC20(peth); pethTkn.approve(cdpAddr, 2**256 - 1); IERC20 mkrTkn = IERC20(mkr); mkrTkn.approve(cdpAddr, 2**256 - 1); IERC20 daiTkn = IERC20(dai); daiTkn.approve(cdpAddr, 2**256 - 1); } } contract MoatMaker is BorrowTasks { constructor(address rAddr) public { addressRegistry = rAddr; approveERC20(); } function () public payable {} function collectAsset(address tokenAddress, uint amount) public onlyAdmin { if (tokenAddress == eth) { msg.sender.transfer(amount); } else { IERC20 tokenFunctions = IERC20(tokenAddress); tokenFunctions.transfer(msg.sender, amount); } } function freeze(bool stop) public onlyAdmin { freezed = stop; } function setFees(uint cut) public onlyAdmin { // 200 means 0.5% fees = cut; } }