pragma solidity ^0.5.0;
interface TubInterface {
function open() external returns (bytes32);
function join(uint) external;
function exit(uint) external;
function lock(bytes32, uint) external;
function free(bytes32, uint) external;
function draw(bytes32, uint) external;
function wipe(bytes32, uint) external;
function give(bytes32, address) external;
function shut(bytes32) external;
function cups(bytes32) external view returns (address, uint, uint, uint);
function gem() external view returns (TokenInterface);
function gov() external view returns (TokenInterface);
function skr() external view returns (TokenInterface);
function sai() external view returns (TokenInterface);
function ink(bytes32) external view returns (uint);
function tab(bytes32) external returns (uint);
function rap(bytes32) external returns (uint);
function per() external view returns (uint);
function pep() external view returns (PepInterface);
}
interface TokenInterface {
function allowance(address, address) external view returns (uint);
function balanceOf(address) external view returns (uint);
function approve(address, uint) external;
function transfer(address, uint) external returns (bool);
function transferFrom(address, address, uint) external returns (bool);
function deposit() external payable;
function withdraw(uint) external;
}
interface PepInterface {
function peek() external returns (bytes32, bool);
}
interface UniswapExchange {
function getEthToTokenOutputPrice(uint256 tokensBought) external view returns (uint256 ethSold);
function getTokenToEthOutputPrice(uint256 ethBought) external view returns (uint256 tokensSold);
function tokenToTokenSwapOutput(
uint256 tokensBought,
uint256 maxTokensSold,
uint256 maxEthSold,
uint256 deadline,
address tokenAddr
) external returns (uint256 tokensSold);
}
contract DSMath {
function add(uint x, uint y) internal pure returns (uint z) {
require((z = x + y) >= x, "math-not-safe");
}
function mul(uint x, uint y) internal pure returns (uint z) {
require(y == 0 || (z = x * y) / y == x, "math-not-safe");
}
uint constant WAD = 10 ** 18;
uint constant RAY = 10 ** 27;
function rmul(uint x, uint y) internal pure returns (uint z) {
z = add(mul(x, y), RAY / 2) / RAY;
}
function rdiv(uint x, uint y) internal pure returns (uint z) {
z = add(mul(x, RAY), y / 2) / y;
}
function wdiv(uint x, uint y) internal pure returns (uint z) {
z = add(mul(x, WAD), y / 2) / y;
}
}
contract Helpers is DSMath {
/**
* @dev get MakerDAO CDP engine
*/
function getSaiTubAddress() public pure returns (address sai) {
sai = 0x448a5065aeBB8E423F0896E6c5D525C040f59af3;
}
/**
* @dev get uniswap MKR exchange
*/
function getUniswapMKRExchange() public pure returns (address ume) {
ume = 0x2C4Bd064b998838076fa341A83d007FC2FA50957;
}
/**
* @dev get uniswap DAI exchange
*/
function getUniswapDAIExchange() public pure returns (address ude) {
ude = 0x09cabEC1eAd1c0Ba254B09efb3EE13841712bE14;
}
/**
* @dev get CDP bytes by CDP ID
*/
function getCDPBytes(uint cdpNum) public pure returns (bytes32 cup) {
cup = bytes32(cdpNum);
}
}
contract CDPResolver is Helpers {
event LogOpen(uint cdpNum, address owner);
event LogGive(uint cdpNum, address owner, address nextOwner);
event LogLock(uint cdpNum, uint amtETH, uint amtPETH, address owner);
event LogFree(uint cdpNum, uint amtETH, uint amtPETH, address owner);
event LogDraw(uint cdpNum, uint amtDAI, address owner);
event LogDrawSend(uint cdpNum, uint amtDAI, address to);
event LogWipe(uint cdpNum, uint daiAmt, uint mkrFee, uint daiFee, address owner);
event LogShut(uint cdpNum);
function open() public returns (uint) {
bytes32 cup = TubInterface(getSaiTubAddress()).open();
emit LogOpen(uint(cup), address(this));
return uint(cup);
}
/**
* @dev transfer CDP ownership
*/
function give(uint cdpNum, address nextOwner) public {
TubInterface(getSaiTubAddress()).give(bytes32(cdpNum), nextOwner);
emit LogGive(cdpNum, address(this), nextOwner);
}
function lock(uint cdpNum) public payable {
if (msg.value > 0) {
bytes32 cup = bytes32(cdpNum);
address tubAddr = getSaiTubAddress();
TubInterface tub = TubInterface(tubAddr);
TokenInterface weth = tub.gem();
TokenInterface peth = tub.skr();
(address lad,,,) = tub.cups(cup);
require(lad == address(this), "cup-not-owned");
weth.deposit.value(msg.value)();
uint ink = rdiv(msg.value, tub.per());
ink = rmul(ink, tub.per()) <= msg.value ? ink : ink - 1;
setAllowance(weth, tubAddr);
tub.join(ink);
setAllowance(peth, tubAddr);
tub.lock(cup, ink);
emit LogLock(
cdpNum,
msg.value,
ink,
address(this)
);
}
}
function free(uint cdpNum, uint jam) public {
if (jam > 0) {
bytes32 cup = bytes32(cdpNum);
address tubAddr = getSaiTubAddress();
TubInterface tub = TubInterface(tubAddr);
TokenInterface peth = tub.skr();
TokenInterface weth = tub.gem();
uint ink = rdiv(jam, tub.per());
ink = rmul(ink, tub.per()) <= jam ? ink : ink - 1;
tub.free(cup, ink);
setAllowance(peth, tubAddr);
tub.exit(ink);
uint freeJam = weth.balanceOf(address(this)); // withdraw possible previous stuck WETH as well
weth.withdraw(freeJam);
address(msg.sender).transfer(freeJam);
emit LogFree(
cdpNum,
freeJam,
ink,
address(this)
);
}
}
function draw(uint cdpNum, uint _wad) public {
bytes32 cup = bytes32(cdpNum);
if (_wad > 0) {
TubInterface tub = TubInterface(getSaiTubAddress());
tub.draw(cup, _wad);
tub.sai().transfer(msg.sender, _wad);
emit LogDraw(cdpNum, _wad, address(this));
}
}
function drawSend(uint cdpNum, uint _wad, address to) public {
require(to != address(0x0), "address-not-valid");
bytes32 cup = bytes32(cdpNum);
if (_wad > 0) {
TubInterface tub = TubInterface(getSaiTubAddress());
tub.draw(cup, _wad);
tub.sai().transfer(to, _wad);
emit LogDraw(cdpNum, _wad, address(this));
emit LogDrawSend(cdpNum, _wad, to);
}
}
function wipe(uint cdpNum, uint _wad) public {
if (_wad > 0) {
TubInterface tub = TubInterface(getSaiTubAddress());
UniswapExchange daiEx = UniswapExchange(getUniswapDAIExchange());
UniswapExchange mkrEx = UniswapExchange(getUniswapMKRExchange());
TokenInterface dai = tub.sai();
TokenInterface mkr = tub.gov();
bytes32 cup = bytes32(cdpNum);
(address lad,,,) = tub.cups(cup);
require(lad == address(this), "cup-not-owned");
setAllowance(dai, getSaiTubAddress());
setAllowance(mkr, getSaiTubAddress());
setAllowance(dai, getUniswapDAIExchange());
(bytes32 val, bool ok) = tub.pep().peek();
// MKR required for wipe = Stability fees accrued in Dai / MKRUSD value
uint mkrFee = wdiv(rmul(_wad, rdiv(tub.rap(cup), tub.tab(cup))), uint(val));
uint daiFeeAmt = daiEx.getTokenToEthOutputPrice(mkrEx.getEthToTokenOutputPrice(mkrFee));
uint daiAmt = add(_wad, daiFeeAmt);
require(dai.transferFrom(msg.sender, address(this), daiAmt), "not-approved-yet");
if (ok && val != 0) {
daiEx.tokenToTokenSwapOutput(
mkrFee,
daiAmt,
uint(999000000000000000000),
uint(1899063809), // 6th March 2030 GMT // no logic
address(mkr)
);
}
tub.wipe(cup, _wad);
emit LogWipe(
cdpNum,
daiAmt,
mkrFee,
daiFeeAmt,
address(this)
);
}
}
function setAllowance(TokenInterface _token, address _spender) private {
if (_token.allowance(address(this), _spender) != uint(-1)) {
_token.approve(_spender, uint(-1));
}
}
}
contract CDPCluster is CDPResolver {
function wipeAndFree(uint cdpNum, uint jam, uint _wad) public payable {
wipe(cdpNum, _wad);
free(cdpNum, jam);
}
/**
* @dev close CDP
*/
function shut(uint cdpNum) public {
bytes32 cup = bytes32(cdpNum);
TubInterface tub = TubInterface(getSaiTubAddress());
wipeAndFree(cdpNum, rmul(tub.ink(cup), tub.per()), tub.tab(cup));
tub.shut(cup);
emit LogShut(cdpNum); // fetch remaining data from WIPE & FREE events
}
/**
* @dev open a new CDP and lock ETH
*/
function openAndLock() public payable returns (uint cdpNum) {
cdpNum = open();
lock(cdpNum);
}
}
contract InstaMaker is CDPCluster {
uint public version;
/**
* @dev setting up variables on deployment
* 1...2...3 versioning in each subsequent deployments
*/
constructor(uint _version) public {
version = _version;
}
function() external payable {}
}