//SPDX-License-Identifier: MIT pragma solidity ^0.7.0; import {DSMath} from "../../common/math.sol"; import {Basic} from "../../common/basic.sol"; import {TokenInterface} from "../../common/interfaces.sol"; abstract contract Helpers is DSMath, Basic { struct SwapData { TokenInterface sellToken; TokenInterface buyToken; uint256 _sellAmt; uint256 _buyAmt; uint256 unitAmt; bytes callData; } address internal constant kyberswap = 0x6131B5fae19EA4f9D964eAc0408E4408b66337b5; function _swapHelper(SwapData memory swapData, uint256 avaxAmt) internal returns (uint256 buyAmt) { TokenInterface buyToken = swapData.buyToken; (uint256 _buyDec, uint256 _sellDec) = getTokensDec( buyToken, swapData.sellToken ); uint256 _sellAmt18 = convertTo18(_sellDec, swapData._sellAmt); uint256 _slippageAmt = convert18ToDec( _buyDec, wmul(swapData.unitAmt, _sellAmt18) ); uint256 initalBal = getTokenBal(buyToken); (bool success, ) = kyberswap.call{value: avaxAmt}(swapData.callData); if (!success) revert("kyberswap-failed"); uint256 finalBal = getTokenBal(buyToken); buyAmt = sub(finalBal, initalBal); require(_slippageAmt <= buyAmt, "Too much slippage"); } function _swap(SwapData memory swapData, uint256 setId) internal returns (SwapData memory) { TokenInterface _sellAddr = swapData.sellToken; uint256 avaxAmt; if (address(_sellAddr) == avaxAddr) { avaxAmt = swapData._sellAmt; } else { approve(TokenInterface(_sellAddr), kyberswap, swapData._sellAmt); } swapData._buyAmt = _swapHelper(swapData, avaxAmt); setUint(setId, swapData._buyAmt); return swapData; } }