pragma solidity 0.4.24; library SafeMath { function mul(uint256 a, uint256 b) internal pure returns (uint256) { if (a == 0) { return 0; } uint256 c = a * b; require(c / a == b, "Assertion Failed"); return c; } function div(uint256 a, uint256 b) internal pure returns (uint256) { require(b > 0, "Assertion Failed"); uint256 c = a / b; return c; } } interface IERC20 { function balanceOf(address who) external view returns (uint256); function transfer(address to, uint256 value) external returns (bool); function approve(address spender, uint256 value) external returns (bool); function transferFrom(address from, address to, uint256 value) external returns (bool); } 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() external view returns (bytes32, bool); } interface WETHFace { function deposit() external payable; function withdraw(uint wad) external; } interface InstaKyber { function executeTrade( address src, address dest, uint srcAmt, uint minConversionRate, uint maxDestAmt ) external payable returns (uint destAmt); function getExpectedPrice( address src, address dest, uint srcAmt ) external view returns (uint, uint); } 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; bytes32 blankCDP = 0x0000000000000000000000000000000000000000000000000000000000000000; address cdpAddr; // cups mapping (address => bytes32) cdps; // borrower >>> CDP Bytes bool public freezed; } contract IssueLoan is GlobalVar { event LockedETH(address borrower, uint lockETH, uint lockPETH, address lockedBy); event LoanedDAI(address borrower, uint loanDAI); event NewCDP(address borrower, bytes32 cdpBytes); function pethPEReth(uint ethNum) public view returns (uint rPETH) { MakerCDP loanMaster = MakerCDP(cdpAddr); rPETH = (ethNum.mul(10 ** 27)).div(loanMaster.per()); } function borrow(uint daiDraw) public payable { if (msg.value > 0) {lockETH(msg.sender);} if (daiDraw > 0) {drawDAI(daiDraw);} } function lockETH(address borrower) public payable { MakerCDP loanMaster = MakerCDP(cdpAddr); if (cdps[borrower] == blankCDP) { require(msg.sender == borrower, "Creating CDP for others is not permitted at the moment."); cdps[msg.sender] = loanMaster.open(); emit NewCDP(msg.sender, cdps[msg.sender]); } WETHFace wethTkn = WETHFace(getAddress("weth")); wethTkn.deposit.value(msg.value)(); // ETH to WETH uint pethToLock = pethPEReth(msg.value); loanMaster.join(pethToLock); // WETH to PETH loanMaster.lock(cdps[borrower], pethToLock); // PETH to CDP emit LockedETH( borrower, msg.value, pethToLock, msg.sender ); } function drawDAI(uint daiDraw) public { require(!freezed, "Operation Disabled"); MakerCDP loanMaster = MakerCDP(cdpAddr); loanMaster.draw(cdps[msg.sender], daiDraw); IERC20 daiTkn = IERC20(getAddress("dai")); daiTkn.transfer(msg.sender, daiDraw); emit LoanedDAI(msg.sender, daiDraw); } } contract RepayLoan is IssueLoan { event WipedDAI(address borrower, uint daiWipe, uint mkrCharged, address wipedBy); event UnlockedETH(address borrower, uint ethFree); function repay(uint daiWipe, uint ethFree) public payable { if (daiWipe > 0) {wipeDAI(daiWipe, msg.sender);} if (ethFree > 0) {unlockETH(ethFree);} } function wipeDAI(uint daiWipe, address borrower) public payable { address dai = getAddress("dai"); address mkr = getAddress("mkr"); address eth = getAddress("eth"); IERC20 daiTkn = IERC20(dai); IERC20 mkrTkn = IERC20(mkr); uint contractMKR = mkrTkn.balanceOf(address(this)); // contract MKR balance before wiping daiTkn.transferFrom(msg.sender, address(this), daiWipe); // get DAI to pay the debt MakerCDP loanMaster = MakerCDP(cdpAddr); loanMaster.wipe(cdps[borrower], daiWipe); // wipe DAI uint mkrCharged = contractMKR - mkrTkn.balanceOf(address(this)); // MKR fee = before wiping bal - after wiping bal // claiming paid MKR back if (msg.value > 0) { // Interacting with Kyber to swap ETH with MKR swapETHMKR( eth, mkr, mkrCharged, msg.value ); } else { // take MKR directly from address mkrTkn.transferFrom(msg.sender, address(this), mkrCharged); // user paying MKR fees } emit WipedDAI( borrower, daiWipe, mkrCharged, msg.sender ); } function unlockETH(uint ethFree) public { require(!freezed, "Operation Disabled"); uint pethToUnlock = pethPEReth(ethFree); MakerCDP loanMaster = MakerCDP(cdpAddr); loanMaster.free(cdps[msg.sender], pethToUnlock); // CDP to PETH loanMaster.exit(pethToUnlock); // PETH to WETH WETHFace wethTkn = WETHFace(getAddress("weth")); wethTkn.withdraw(ethFree); // WETH to ETH msg.sender.transfer(ethFree); emit UnlockedETH(msg.sender, ethFree); } function swapETHMKR( address eth, address mkr, uint mkrCharged, uint ethQty ) internal { InstaKyber instak = InstaKyber(getAddress("InstaKyber")); uint minRate; (, minRate) = instak.getExpectedPrice(eth, mkr, ethQty); uint mkrBought = instak.executeTrade.value(ethQty)( eth, mkr, ethQty, minRate, mkrCharged ); require(mkrCharged == mkrBought, "ETH not sufficient to cover the MKR fees."); if (address(this).balance > 0) { msg.sender.transfer(address(this).balance); } } } contract BorrowTasks is RepayLoan { event TranferCDP(bytes32 cdp, address owner, address nextOwner); function transferCDP(address nextOwner) public { require(nextOwner != 0, "Invalid Address."); MakerCDP loanMaster = MakerCDP(cdpAddr); loanMaster.give(cdps[msg.sender], nextOwner); cdps[msg.sender] = blankCDP; emit TranferCDP(cdps[msg.sender], msg.sender, nextOwner); } function getETHRate() public view returns (uint) { PriceInterface ethRate = PriceInterface(getAddress("ethfeed")); bytes32 ethrate; (ethrate, ) = ethRate.peek(); return uint(ethrate); } function getCDP(address borrower) public view returns (uint, bytes32) { return (uint(cdps[borrower]), cdps[borrower]); } function approveERC20() public { IERC20 wethTkn = IERC20(getAddress("weth")); wethTkn.approve(cdpAddr, 2**256 - 1); IERC20 pethTkn = IERC20(getAddress("peth")); pethTkn.approve(cdpAddr, 2**256 - 1); IERC20 mkrTkn = IERC20(getAddress("mkr")); mkrTkn.approve(cdpAddr, 2**256 - 1); IERC20 daiTkn = IERC20(getAddress("dai")); daiTkn.approve(cdpAddr, 2**256 - 1); } } contract InstaMaker is BorrowTasks { event MKRCollected(uint amount); constructor(address rAddr) public { addressRegistry = rAddr; cdpAddr = getAddress("cdp"); approveERC20(); } function () public payable {} function freeze(bool stop) public onlyAdmin { freezed = stop; } // collecting MKR token kept as balance to pay fees function collectMKR(uint amount) public onlyAdmin { IERC20 mkrTkn = IERC20(getAddress("mkr")); mkrTkn.transfer(msg.sender, amount); emit MKRCollected(amount); } }