mirror of
https://github.com/Instadapp/smart-contract.git
synced 2024-07-29 22:08:07 +00:00
423 lines
14 KiB
Solidity
423 lines
14 KiB
Solidity
pragma solidity ^0.5.7;
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interface CTokenInterface {
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function redeemUnderlying(uint redeemAmount) external returns (uint);
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function borrow(uint borrowAmount) external returns (uint);
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function exchangeRateCurrent() external returns (uint);
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function borrowBalanceCurrent(address account) external returns (uint);
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function totalSupply() external view returns (uint256);
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function balanceOf(address owner) external view returns (uint256 balance);
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function allowance(address, address) external view returns (uint);
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function approve(address, uint) external;
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function transfer(address, uint) external returns (bool);
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function transferFrom(address, address, uint) external returns (bool);
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}
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interface CERC20Interface {
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function mint(uint mintAmount) external returns (uint); // For ERC20
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function repayBorrow(uint repayAmount) external returns (uint); // For ERC20
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function borrowBalanceCurrent(address account) external returns (uint);
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}
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interface CETHInterface {
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function mint() external payable; // For ETH
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function repayBorrow() external payable; // For ETH
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function borrowBalanceCurrent(address account) external returns (uint);
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}
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interface ERC20Interface {
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function allowance(address, address) external view returns (uint);
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function balanceOf(address) external view returns (uint);
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function approve(address, uint) external;
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function transfer(address, uint) external returns (bool);
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function transferFrom(address, address, uint) external returns (bool);
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function deposit() external payable;
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function withdraw(uint) external;
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}
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interface ComptrollerInterface {
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function enterMarkets(address[] calldata cTokens) external returns (uint[] memory);
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function getAssetsIn(address account) external view returns (address[] memory);
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function getAccountLiquidity(address account) external view returns (uint, uint, uint);
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}
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interface CompOracleInterface {
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function getUnderlyingPrice(address) external view returns (uint);
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}
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interface KyberInterface {
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function trade(
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address src,
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uint srcAmount,
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address dest,
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address destAddress,
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uint maxDestAmount,
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uint minConversionRate,
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address walletId
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) external payable returns (uint);
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}
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contract DSMath {
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function add(uint x, uint y) internal pure returns (uint z) {
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require((z = x + y) >= x, "math-not-safe");
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}
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function sub(uint x, uint y) internal pure returns (uint z) {
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z = x - y <= x ? x - y : 0;
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}
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function mul(uint x, uint y) internal pure returns (uint z) {
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require(y == 0 || (z = x * y) / y == x, "math-not-safe");
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}
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uint constant WAD = 10 ** 18;
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function wmul(uint x, uint y) internal pure returns (uint z) {
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z = add(mul(x, y), WAD / 2) / WAD;
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}
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function wdiv(uint x, uint y) internal pure returns (uint z) {
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z = add(mul(x, WAD), y / 2) / y;
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}
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}
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contract Helpers is DSMath {
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/**
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* @dev get ethereum address for trade
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*/
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function getAddressETH() public pure returns (address eth) {
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eth = 0xEeeeeEeeeEeEeeEeEeEeeEEEeeeeEeeeeeeeEEeE;
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}
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/**
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* @dev get ethereum address for trade
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*/
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function getAddressWETH() public pure returns (address eth) {
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eth = 0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2;
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}
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/**
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* @dev get ethereum address for trade
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*/
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function getAddressUSDC() public pure returns (address usdc) {
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usdc = 0xA0b86991c6218b36c1d19D4a2e9Eb0cE3606eB48;
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}
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/**
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* @dev get ethereum address for trade
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*/
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function getAddressZRXExchange() public pure returns (address zrxExchange) {
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zrxExchange = 0x080bf510FCbF18b91105470639e9561022937712;
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}
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/**
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* @dev get ethereum address for trade
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*/
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function getAddressKyberProxy() public pure returns (address kyberProxy) {
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kyberProxy = 0x818E6FECD516Ecc3849DAf6845e3EC868087B755;
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}
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/**
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* @dev get Compound Comptroller Address
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*/
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function getComptrollerAddress() public pure returns (address troller) {
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troller = 0x3d9819210A31b4961b30EF54bE2aeD79B9c9Cd3B;
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}
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/**
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* @dev get Compound Comptroller Address
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*/
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function getCompOracleAddress() public pure returns (address troller) {
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troller = 0xe7664229833AE4Abf4E269b8F23a86B657E2338D;
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}
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/**
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* @dev get Compound Comptroller Address
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*/
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function getCETHAddress() public pure returns (address cEth) {
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cEth = 0x4Ddc2D193948926D02f9B1fE9e1daa0718270ED5;
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}
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/**
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* @dev get Compound Comptroller Address
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*/
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function getCUSDCAddress() public pure returns (address cUsdc) {
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cUsdc = 0x39AA39c021dfbaE8faC545936693aC917d5E7563;
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}
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/**
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* @dev get Compound Comptroller Address
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*/
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function getAddressAdmin() public pure returns (address admin) {
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admin = 0xa7615CD307F323172331865181DC8b80a2834324;
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}
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function enterMarket(address cErc20) internal {
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ComptrollerInterface troller = ComptrollerInterface(getComptrollerAddress());
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address[] memory markets = troller.getAssetsIn(address(this));
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bool isEntered = false;
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for (uint i = 0; i < markets.length; i++) {
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if (markets[i] == cErc20) {
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isEntered = true;
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}
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}
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if (!isEntered) {
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address[] memory toEnter = new address[](1);
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toEnter[0] = cErc20;
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troller.enterMarkets(toEnter);
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}
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}
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/**
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* @dev setting allowance to compound for the "user proxy" if required
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*/
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function setApproval(address erc20, uint srcAmt, address to) internal {
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ERC20Interface erc20Contract = ERC20Interface(erc20);
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uint tokenAllowance = erc20Contract.allowance(address(this), to);
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if (srcAmt > tokenAllowance) {
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erc20Contract.approve(to, 2**255);
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}
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}
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}
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contract CompoundHelper is Helpers {
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/**
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* @dev get users overall details for Compound
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*/
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function getCompStats(
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address user,
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address[] memory cTokenAddr,
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uint[] memory cTokenFactor
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) public returns (uint totalSupply, uint totalBorrow, uint maxBorrow, uint borrowRemain, uint maxWithdraw, uint ratio)
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{
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for (uint i = 0; i < cTokenAddr.length; i++) {
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address cTokenAdd = cTokenAddr[i];
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uint factor = cTokenFactor[i];
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(uint supplyInEth, uint borrowInEth) = compSupplyBorrow(cTokenAdd, user);
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totalSupply += supplyInEth;
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totalBorrow += borrowInEth;
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maxBorrow += wmul(supplyInEth, factor);
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}
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borrowRemain = sub(maxBorrow, totalBorrow);
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maxWithdraw = sub(wdiv(borrowRemain, 750000000000000000), 10); // divide it by 0.75 (ETH Factor)
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uint userEthSupply = getEthSupply(user);
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maxWithdraw = userEthSupply > maxWithdraw ? maxWithdraw : userEthSupply;
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ratio = wdiv(totalBorrow, totalSupply);
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}
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/**
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* @dev get user's token supply and borrow in ETH
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*/
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function compSupplyBorrow(address cTokenAdd, address user) internal returns(uint supplyInEth, uint borrowInEth) {
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CTokenInterface cTokenContract = CTokenInterface(cTokenAdd);
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uint tokenPriceInEth = CompOracleInterface(getCompOracleAddress()).getUnderlyingPrice(cTokenAdd);
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uint cTokenBal = sub(cTokenContract.balanceOf(user), 1);
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uint cTokenExchangeRate = cTokenContract.exchangeRateCurrent();
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uint tokenSupply = sub(wmul(cTokenBal, cTokenExchangeRate), 1);
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supplyInEth = sub(wmul(tokenSupply, tokenPriceInEth), 10);
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uint tokenBorrowed = cTokenContract.borrowBalanceCurrent(user);
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borrowInEth = add(wmul(tokenBorrowed, tokenPriceInEth), 10);
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}
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function getEthSupply(address user) internal returns (uint ethSupply) {
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CTokenInterface cTokenContract = CTokenInterface(getCETHAddress());
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uint cTokenBal = sub(cTokenContract.balanceOf(user), 1);
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uint cTokenExchangeRate = cTokenContract.exchangeRateCurrent();
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ethSupply = wmul(cTokenBal, cTokenExchangeRate);
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}
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function usdcBorrowed(address user) internal returns (uint usdcAmt) {
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CTokenInterface cTokenContract = CTokenInterface(getCUSDCAddress());
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usdcAmt = cTokenContract.borrowBalanceCurrent(user);
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}
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function getUsdcRemainBorrow(uint usdcInEth) internal view returns (uint usdcAmt) {
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uint tokenPriceInEth = CompOracleInterface(getCompOracleAddress()).getUnderlyingPrice(getCUSDCAddress());
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usdcAmt = sub(wdiv(usdcInEth, tokenPriceInEth), 10);
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}
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}
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contract CompoundResolver is CompoundHelper {
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event LogMint(address erc20, address cErc20, uint tokenAmt, address owner);
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event LogRedeem(address erc20, address cErc20, uint tokenAmt, address owner);
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event LogBorrow(address erc20, address cErc20, uint tokenAmt, address owner);
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event LogRepay(address erc20, address cErc20, uint tokenAmt, address owner);
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/**
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* @dev Deposit ETH/ERC20 and mint Compound Tokens
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*/
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function mintCEth(uint tokenAmt) internal {
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CETHInterface cToken = CETHInterface(getCETHAddress());
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cToken.mint.value(tokenAmt)();
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emit LogMint(
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getAddressETH(),
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getCETHAddress(),
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tokenAmt,
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msg.sender
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);
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}
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/**
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* @dev Redeem ETH/ERC20 and mint Compound Tokens
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* @param tokenAmt Amount of token To Redeem
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*/
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function redeemEth(uint tokenAmt) internal {
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CTokenInterface cToken = CTokenInterface(getCETHAddress());
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setApproval(getCETHAddress(), 10**30, getCETHAddress());
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require(cToken.redeemUnderlying(tokenAmt) == 0, "something went wrong");
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emit LogRedeem(
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getAddressETH(),
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getCETHAddress(),
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tokenAmt,
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address(this)
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);
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}
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/**
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* @dev borrow ETH/ERC20
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*/
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function borrow(uint tokenAmt) internal {
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require(CTokenInterface(getCUSDCAddress()).borrow(tokenAmt) == 0, "got collateral?");
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emit LogBorrow(
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getAddressUSDC(),
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getCUSDCAddress(),
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tokenAmt,
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address(this)
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);
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}
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/**
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* @dev Pay Debt ETH/ERC20
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*/
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function repayUsdc(uint tokenAmt) internal {
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CERC20Interface cToken = CERC20Interface(getCUSDCAddress());
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setApproval(getAddressUSDC(), tokenAmt, getCUSDCAddress());
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require(cToken.repayBorrow(tokenAmt) == 0, "transfer approved?");
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emit LogRepay(
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getAddressUSDC(),
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getCUSDCAddress(),
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tokenAmt,
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address(this)
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);
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}
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}
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contract CompoundSave is CompoundResolver {
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event LogSaveCompoundUsdc(uint srcETH, uint destDAI);
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event LogLeverageCompoundUsdc(uint srcDAI,uint destETH);
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function save(
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uint ethToFree,
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uint zrxEthAmt,
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bool isKyber,
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bytes memory calldataHexString,
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address[] memory ctokenAddr,
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uint[] memory ctokenFactor
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) public
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{
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enterMarket(getCETHAddress());
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enterMarket(getCUSDCAddress());
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(,,,,uint maxWithdraw,) = getCompStats(address(this), ctokenAddr, ctokenFactor);
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uint ethToSwap = ethToFree < maxWithdraw ? ethToFree : maxWithdraw;
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redeemEth(ethToSwap);
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ERC20Interface wethContract = ERC20Interface(getAddressWETH());
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wethContract.deposit.value(zrxEthAmt)();
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wethContract.approve(getAddressZRXExchange(), zrxEthAmt);
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getAddressZRXExchange().call(calldataHexString);
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if (address(this).balance > 0 && isKyber) {
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KyberInterface(getAddressKyberProxy()).trade.value(address(this).balance)(
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getAddressETH(),
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address(this).balance,
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getAddressUSDC(),
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address(this),
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2**255,
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0,
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getAddressAdmin()
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);
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}
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ERC20Interface usdcContract = ERC20Interface(getAddressUSDC());
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uint usdcBal = usdcContract.balanceOf(address(this));
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uint cut = wmul(2500000000000000, usdcBal);
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usdcContract.transfer(getAddressAdmin(), cut);
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usdcBal = sub(usdcBal, cut);
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repayUsdc(usdcBal);
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emit LogSaveCompoundUsdc(ethToSwap, usdcBal);
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}
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function leverage(
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uint usdcToBorrow,
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uint zrxUsdcAmt,
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bytes memory calldataHexString,
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bool isKyber,
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address[] memory cTokenAddr,
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uint[] memory ctokenFactor
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) public
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{
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enterMarket(getCETHAddress());
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enterMarket(getCUSDCAddress());
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(,,,uint borrowRemain,,) = getCompStats(address(this), cTokenAddr, ctokenFactor);
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uint usdcToSwap = getUsdcRemainBorrow(borrowRemain);
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usdcToSwap = usdcToSwap < usdcToBorrow ? usdcToSwap : usdcToBorrow;
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borrow(usdcToSwap);
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ERC20Interface usdcContract = ERC20Interface(getAddressUSDC());
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uint usdcBal = usdcContract.balanceOf(address(this));
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uint cut = wmul(2500000000000000, usdcBal);
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usdcContract.transfer(getAddressAdmin(), cut);
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usdcBal = sub(usdcBal, cut);
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usdcContract.approve(getAddressZRXExchange(), zrxUsdcAmt);
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getAddressZRXExchange().call(calldataHexString);
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usdcBal = usdcContract.balanceOf(address(this));
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if (usdcBal > 0 && isKyber) {
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usdcContract.approve(getAddressKyberProxy(), usdcBal);
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KyberInterface(getAddressKyberProxy()).trade.value(address(this).balance)(
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getAddressUSDC(),
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usdcBal,
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getAddressETH(),
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address(this),
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2**255,
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0,
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getAddressAdmin()
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);
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}
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ERC20Interface wethContract = ERC20Interface(getAddressWETH());
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uint wethBal = wethContract.balanceOf(address(this));
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wethContract.approve(getAddressWETH(), wethBal);
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wethContract.withdraw(wethBal);
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mintCEth(wethBal);
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emit LogLeverageCompoundUsdc(usdcToSwap, wethBal);
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}
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}
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contract InstaCompSave is CompoundSave {
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uint public version;
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/**
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* @dev setting up variables on deployment
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* 1...2...3 versioning in each subsequent deployments
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*/
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constructor(uint _version) public {
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version = _version;
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}
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function() external payable {}
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} |