dsa-connectors-old/contracts/connectors/curvesbtc.sol

209 lines
7.1 KiB
Solidity

pragma solidity ^0.6.0;
// import files from common directory
import { MemoryInterface, EventInterface} from "../common/interfaces.sol";
import { Stores } from "../common/stores.sol";
import { DSMath } from "../common/math.sol";
import { TokenInterface } from "../common/interfaces.sol";
interface ICurve {
function coins(int128 tokenId) external view returns (address token);
function calc_token_amount(uint256[3] calldata amounts, bool deposit) external returns (uint256 amount);
function add_liquidity(uint256[3] calldata amounts, uint256 min_mint_amount) external;
function get_dy(int128 sellTokenId, int128 buyTokenId, uint256 sellTokenAmt) external returns (uint256 buyTokenAmt);
function exchange(int128 sellTokenId, int128 buyTokenId, uint256 sellTokenAmt, uint256 minBuyToken) external;
function remove_liquidity_imbalance(uint256[3] calldata amounts, uint256 max_burn_amount) external;
function calc_withdraw_one_coin(uint256 _token_amount, int128 i) external returns (uint256 amount);
}
contract CurveSBTCHelpers is Stores, DSMath{
/**
* @dev Return Curve Swap Address
*/
function getCurveSwapAddr() internal pure returns (address) {
return 0x7fC77b5c7614E1533320Ea6DDc2Eb61fa00A9714;
}
/**
* @dev Return Curve Token Address
*/
function getCurveTokenAddr() internal pure returns (address) {
return 0x075b1bb99792c9E1041bA13afEf80C91a1e70fB3;
}
function convert18ToDec(uint _dec, uint256 _amt) internal pure returns (uint256 amt) {
amt = div(_amt, 10 ** (18 - _dec));
}
function convertTo18(uint _dec, uint256 _amt) internal pure returns (uint256 amt) {
amt = mul(_amt, 10 ** (18 - _dec));
}
function getTokenI(address token) internal pure returns (int128 i) {
if (token == address(0xEB4C2781e4ebA804CE9a9803C67d0893436bB27D)) {
// RenBTC Token
i = 0;
} else if (token == address(0x2260FAC5E5542a773Aa44fBCfeDf7C193bc2C599)) {
// WBTC Token
i = 1;
} else if (token == address(0xfE18be6b3Bd88A2D2A7f928d00292E7a9963CfC6)) {
// SBTC Token
i = 2;
} else {
revert("token-not-found.");
}
}
}
contract CurveSBTCProtocol is CurveSBTCHelpers {
// Events
event LogSell(
address indexed buyToken,
address indexed sellToken,
uint256 buyAmt,
uint256 sellAmt,
uint256 getId,
uint256 setId
);
event LogDeposit(address token, uint256 amt, uint256 mintAmt, uint256 getId, uint256 setId);
event LogWithdraw(address token, uint256 amt, uint256 burnAmt, uint256 getId, uint256 setId);
/**
* @dev Sell ERC20_Token.
* @param buyAddr buying token address.
* @param sellAddr selling token amount.
* @param sellAmt selling token amount.
* @param unitAmt unit amount of buyAmt/sellAmt with slippage.
* @param getId Get token amount at this ID from `InstaMemory` Contract.
* @param setId Set token amount at this ID in `InstaMemory` Contract.
*/
function sell(
address buyAddr,
address sellAddr,
uint sellAmt,
uint unitAmt,
uint getId,
uint setId
) external payable {
uint _sellAmt = getUint(getId, sellAmt);
ICurve curve = ICurve(getCurveSwapAddr());
TokenInterface _buyToken = TokenInterface(buyAddr);
TokenInterface _sellToken = TokenInterface(sellAddr);
_sellAmt = _sellAmt == uint(-1) ? _sellToken.balanceOf(address(this)) : _sellAmt;
_sellToken.approve(address(curve), _sellAmt);
uint _slippageAmt = convert18ToDec(_buyToken.decimals(), wmul(unitAmt, convertTo18(_sellToken.decimals(), _sellAmt)));
uint intialBal = _buyToken.balanceOf(address(this));
curve.exchange(getTokenI(sellAddr), getTokenI(buyAddr), _sellAmt, _slippageAmt);
uint finalBal = _buyToken.balanceOf(address(this));
uint _buyAmt = sub(finalBal, intialBal);
setUint(setId, _buyAmt);
emit LogSell(buyAddr, sellAddr, _buyAmt, _sellAmt, getId, setId);
bytes32 _eventCode = keccak256("LogSell(address,address,uint256,uint256,uint256,uint256)");
bytes memory _eventParam = abi.encode(buyAddr, sellAddr, _buyAmt, _sellAmt, getId, setId);
emitEvent(_eventCode, _eventParam);
}
/**
* @dev Deposit Token.
* @param token token address.
* @param amt token amount.
* @param unitAmt unit amount of curve_amt/token_amt with slippage.
* @param getId Get token amount at this ID from `InstaMemory` Contract.
* @param setId Set token amount at this ID in `InstaMemory` Contract.
*/
function deposit(
address token,
uint amt,
uint unitAmt,
uint getId,
uint setId
) external payable {
uint256 _amt = getUint(getId, amt);
TokenInterface tokenContract = TokenInterface(token);
_amt = _amt == uint(-1) ? tokenContract.balanceOf(address(this)) : _amt;
uint[3] memory _amts;
_amts[uint(getTokenI(token))] = _amt;
tokenContract.approve(getCurveSwapAddr(), _amt);
uint _amt18 = convertTo18(tokenContract.decimals(), _amt);
uint _slippageAmt = wmul(unitAmt, _amt18);
TokenInterface curveTokenContract = TokenInterface(getCurveTokenAddr());
uint initialCurveBal = curveTokenContract.balanceOf(address(this));
ICurve(getCurveSwapAddr()).add_liquidity(_amts, _slippageAmt);
uint finalCurveBal = curveTokenContract.balanceOf(address(this));
uint mintAmt = sub(finalCurveBal, initialCurveBal);
setUint(setId, mintAmt);
emit LogDeposit(token, _amt, mintAmt, getId, setId);
bytes32 _eventCode = keccak256("LogDeposit(address,uint256,uint256,uint256,uint256)");
bytes memory _eventParam = abi.encode(token, _amt, mintAmt, getId, setId);
emitEvent(_eventCode, _eventParam);
}
/**
* @dev Withdraw Token.
* @param token token address.
* @param amt token amount.
* @param unitAmt unit amount of curve_amt/token_amt with slippage.
* @param getId Get token amount at this ID from `InstaMemory` Contract.
* @param setId Set token amount at this ID in `InstaMemory` Contract.
*/
function withdraw(
address token,
uint256 amt,
uint256 unitAmt,
uint getId,
uint setId
) external payable {
uint _amt = getUint(getId, amt);
int128 tokenId = getTokenI(token);
TokenInterface curveTokenContract = TokenInterface(getCurveTokenAddr());
ICurve curveSwap = ICurve(getCurveSwapAddr());
uint _curveAmt;
uint[3] memory _amts;
if (_amt == uint(-1)) {
_curveAmt = curveTokenContract.balanceOf(address(this));
_amt = curveSwap.calc_withdraw_one_coin(_curveAmt, tokenId);
_amts[uint(tokenId)] = _amt;
} else {
_amts[uint(tokenId)] = _amt;
_curveAmt = curveSwap.calc_token_amount(_amts, false);
}
uint _amt18 = convertTo18(TokenInterface(token).decimals(), _amt);
uint _slippageAmt = wmul(unitAmt, _amt18);
curveTokenContract.approve(address(curveSwap), 0);
curveTokenContract.approve(address(curveSwap), _slippageAmt);
curveSwap.remove_liquidity_imbalance(_amts, _slippageAmt);
setUint(setId, _amt);
emit LogWithdraw(token, _amt, _curveAmt, getId, setId);
bytes32 _eventCode = keccak256("LogWithdraw(address,uint256,uint256,uint256,uint256)");
bytes memory _eventParam = abi.encode(token, _amt, _curveAmt, getId, setId);
emitEvent(_eventCode, _eventParam);
}
}
contract ConnectSBTCCurve is CurveSBTCProtocol {
string public name = "Curve-sbtc-v1";
}