dsa-connectors-2.0/contracts/avalanche/connectors/paraswap/helpers.sol
2024-06-23 00:07:23 +05:30

69 lines
1.9 KiB
Solidity

//SPDX-License-Identifier: MIT
pragma solidity 0.8.19;
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 AUGUSTUS_V6 =
0x6A000F20005980200259B80c5102003040001068;
function _swapHelper(
SwapData memory swapData,
uint256 wavaxAmt
) 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, ) = AUGUSTUS_V6.call{value: wavaxAmt}(swapData.callData);
if (!success) revert("paraswap-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), AUGUSTUS_V6, swapData._sellAmt);
}
swapData._buyAmt = _swapHelper(swapData, avaxAmt);
setUint(setId, swapData._buyAmt);
return swapData;
}
}