dsa-connectors/contracts/mainnet/connectors/euler/main.sol
Shriya Tyagi 4c8bece9fc
Update contracts/mainnet/connectors/euler/main.sol
Co-authored-by: 0xPradyuman <63545809+pradyuman-verma@users.noreply.github.com>
2022-07-07 16:59:48 +04:00

553 lines
15 KiB
Solidity

//SPDX-License-Identifier: MIT
pragma solidity ^0.7.0;
pragma experimental ABIEncoderV2;
import "./helpers.sol";
import { Stores } from "../../common/stores.sol";
import { TokenInterface } from "../../common/interfaces.sol";
import "@openzeppelin/contracts/token/ERC20/SafeERC20.sol";
abstract contract Euler is Helpers {
using SafeERC20 for IERC20;
/**
* @dev Deposit ETH/ERC20_Token.
* @notice Deposit a token to Euler for lending / collaterization.
* @param subAccount Sub-account Id (0 for primary and 1 - 255 for sub-account)
* @param token The address of the token to deposit.(For ETH: 0xEeeeeEeeeEeEeeEeEeEeeEEEeeeeEeeeeeeeEEeE)
* @param amt The amount of the token to deposit. (For max: `uint256(-1)`)
* @param enableCollateral True for entering the market
* @param getId ID to retrieve amt.
* @param setId ID stores the amount of tokens deposited.
*/
function deposit(
uint256 subAccount,
address token,
uint256 amt,
bool enableCollateral,
uint256 getId,
uint256 setId
)
external
payable
returns (string memory _eventName, bytes memory _eventParam)
{
uint256 _amt = getUint(getId, amt);
bool isEth = token == ethAddr;
address _token = isEth ? wethAddr : token;
TokenInterface tokenContract = TokenInterface(_token);
if (isEth) {
_amt = _amt == uint256(-1) ? address(this).balance : _amt;
convertEthToWeth(isEth, tokenContract, _amt);
} else {
_amt = _amt == uint256(-1)
? tokenContract.balanceOf(address(this))
: _amt;
}
approve(tokenContract, EULER_MAINNET, _amt);
IEulerEToken eToken = IEulerEToken(markets.underlyingToEToken(_token));
eToken.deposit(subAccount, _amt); //0 for primary
if (enableCollateral) {
markets.enterMarket(subAccount, _token);
}
setUint(setId, _amt);
_eventName = "LogDeposit(uint256,address,uint256,bool,uint256,uint256)";
_eventParam = abi.encode(
subAccount,
token,
_amt,
enableCollateral,
getId,
setId
);
}
/**
* @dev Withdraw ETH/ERC20_Token.
* @notice Withdraw deposited token Euler
* @param subAccount Subaccount number
* @param token The address of the token to withdraw.(For ETH: 0xEeeeeEeeeEeEeeEeEeEeeEEEeeeeEeeeeeeeEEeE)
* @param amt The amount of the token to withdraw. (For max: `uint256(-1)`)
* @param getId ID to retrieve amt.
* @param setId ID stores the amount of tokens withdrawn.
*/
function withdraw(
uint256 subAccount,
address token,
uint256 amt,
uint256 getId,
uint256 setId
)
external
payable
returns (string memory _eventName, bytes memory _eventParam)
{
uint256 _amt = getUint(getId, amt);
bool isEth = token == ethAddr;
address _token = isEth ? wethAddr : token;
TokenInterface tokenContract = TokenInterface(_token);
IEulerEToken eToken = IEulerEToken(markets.underlyingToEToken(_token));
uint256 initialBal = tokenContract.balanceOf(address(this));
eToken.withdraw(subAccount, _amt);
uint256 finalBal = tokenContract.balanceOf(address(this));
_amt = finalBal - initialBal;
convertWethToEth(isEth, tokenContract, _amt);
setUint(setId, _amt);
_eventName = "LogWithdraw(uint256,address,uint256,uint256,uint256)";
_eventParam = abi.encode(subAccount, token, _amt, getId, setId);
}
/**
* @dev Borrow ETH/ERC20_Token.
* @notice Borrow a token from Euler
* @param subAccount Subaccount number
* @param token The address of the token to borrow.(For ETH: 0xEeeeeEeeeEeEeeEeEeEeeEEEeeeeEeeeeeeeEEeE)
* @param amt The amount of the token to borrow. (For max: `uint256(-1)`)
* @param getId ID to retrieve amt.
* @param setId ID stores the amount of tokens deposited.
*/
function borrow(
uint256 subAccount,
address token,
uint256 amt,
uint256 getId,
uint256 setId
)
external
payable
returns (string memory _eventName, bytes memory _eventParam)
{
uint256 _amt = getUint(getId, amt);
bool isEth = token == ethAddr ? true : false;
address _token = isEth ? wethAddr : token;
IEulerDToken borrowedDToken = IEulerDToken(
markets.underlyingToDToken(_token)
);
borrowedDToken.borrow(subAccount, amt);
convertWethToEth(isEth, TokenInterface(_token), _amt);
setUint(setId, _amt);
_eventName = "LogBorrow(uint256,address,uint256,uint256,uint256)";
_eventParam = abi.encode(subAccount, token, _amt, getId, setId);
}
/**
* @dev Repay ETH/ERC20_Token.
* @notice Repay a token from Euler
* @param subAccount Subaccount number
* @param token The address of the token to repay.(For ETH: 0xEeeeeEeeeEeEeeEeEeEeeEEEeeeeEeeeeeeeEEeE)
* @param amt The amount of the token to repay. (For max: `uint256(-1)`)
* @param getId ID to retrieve amt.
* @param setId ID stores the amount of tokens deposited.
*/
function repay(
uint256 subAccount,
address token,
uint256 amt,
uint256 getId,
uint256 setId
)
external
payable
returns (string memory _eventName, bytes memory _eventParam)
{
uint256 _amt = getUint(getId, amt);
bool isEth = token == ethAddr ? true : false;
address _token = isEth ? wethAddr : token;
IEulerDToken borrowedDToken = IEulerDToken(
markets.underlyingToDToken(_token)
);
if (isEth) convertEthToWeth(isEth, TokenInterface(_token), _amt);
_amt = _amt == type(uint256).max
? borrowedDToken.balanceOf(address(this))
: _amt;
TokenInterface(_token).approve(EULER_MAINNET, _amt);
borrowedDToken.repay(subAccount, amt);
setUint(setId, _amt);
_eventName = "LogRepay(uint256,address,uint256,uint256,uint256)";
_eventParam = abi.encode(subAccount, token, _amt, getId, setId);
}
/**
* @dev Mint ETH/ERC20_Token.
* @notice Mint a token from Euler. Maint creates equal amount of deposits and debts.
* @param subAccount Subaccount number
* @param token The address of the token to mint.(For ETH: 0xEeeeeEeeeEeEeeEeEeEeeEEEeeeeEeeeeeeeEEeE)
* @param amt The amount of the token to mint.
* @param getId ID to retrieve amt.
* @param setId ID stores the amount of tokens deposited.
*/
function mint(
uint256 subAccount,
address token,
uint256 amt,
uint256 getId,
uint256 setId
)
external
payable
returns (string memory _eventName, bytes memory _eventParam)
{
uint256 _amt = getUint(getId, amt);
bool isEth = token == ethAddr ? true : false;
address _token = isEth ? wethAddr : token;
IEulerEToken eToken = IEulerEToken(markets.underlyingToEToken(_token));
if (isEth) convertEthToWeth(isEth, TokenInterface(_token), _amt);
eToken.mint(subAccount, amt);
setUint(setId, _amt);
_eventName = "LogMint(uint256,address,uint256,uint256,uint256)";
_eventParam = abi.encode(subAccount, token, _amt, getId, setId);
}
/**
* @dev Burn ETH/ERC20_Token.
* @notice Burn a token from Euler. Burn removes equal amount of deposits and debts.
* @param subAccount Subaccount number
* @param token The address of the token to burn.(For ETH: 0xEeeeeEeeeEeEeeEeEeEeeEEEeeeeEeeeeeeeEEeE)
* @param amt The amount of the token to burn. (For max: `uint256(-1)`)
* @param getId ID to retrieve amt.
* @param setId ID stores the amount of tokens deposited.
*/
function burn(
uint256 subAccount,
address token,
uint256 amt,
uint256 getId,
uint256 setId
)
external
payable
returns (string memory _eventName, bytes memory _eventParam)
{
uint256 _amt = getUint(getId, amt);
bool isEth = token == ethAddr ? true : false;
address _token = isEth ? wethAddr : token;
IEulerDToken dToken = IEulerDToken(markets.underlyingToDToken(_token));
IEulerEToken eToken = IEulerEToken(markets.underlyingToEToken(_token));
_amt = _amt == type(uint256).max
? dToken.balanceOf(address(this))
: _amt;
if (isEth) convertEthToWeth(isEth, TokenInterface(_token), _amt);
eToken.burn(subAccount, amt);
setUint(setId, _amt);
_eventName = "LogBurn(uint256,address,uint256,uint256,uint256)";
_eventParam = abi.encode(subAccount, token, _amt, getId, setId);
}
/**
* @dev ETransfer ETH/ERC20_Token.
* @notice ETransfer deposits from account to another.
* @param subAccountFrom subAccount from which deposit is transferred
* @param subAccountTo subAccount to which deposit is transferred
* @param token The address of the token to etransfer.(For ETH: 0xEeeeeEeeeEeEeeEeEeEeeEEEeeeeEeeeeeeeEEeE)
* @param amt The amount of the token to etransfer. (For max: `uint256(-1)`)
* @param getId ID to retrieve amt.
* @param setId ID stores the amount of tokens deposited.
*/
function eTransfer(
uint256 subAccountFrom,
uint256 subAccountTo,
address token,
uint256 amt,
uint256 getId,
uint256 setId
)
external
payable
returns (string memory _eventName, bytes memory _eventParam)
{
uint256 _amt = getUint(getId, amt);
bool isEth = token == ethAddr ? true : false;
address _token = isEth ? wethAddr : token;
IEulerEToken eToken = IEulerEToken(markets.underlyingToEToken(_token));
_amt = _amt == type(uint256).max
? eToken.balanceOf(address(this))
: _amt;
if (isEth) convertEthToWeth(isEth, TokenInterface(_token), _amt);
address _subAccountToAddr = getSubAccount(address(this), subAccountTo);
eToken.transfer(_subAccountToAddr, amt);
setUint(setId, _amt);
_eventName = "LogETransfer(uint256,uint256,address,uint256,uint256,uint256)";
_eventParam = abi.encode(
subAccountFrom,
subAccountTo,
token,
_amt,
getId,
setId
);
}
/**
* @dev DTransfer ETH/ERC20_Token.
* @notice DTransfer deposits from account to another.
* @param subAccountFrom subAccount from which debt is transferred
* @param subAccountTo subAccount to which debt is transferred
* @param token The address of the token to dtransfer.(For ETH: 0xEeeeeEeeeEeEeeEeEeEeeEEEeeeeEeeeeeeeEEeE)
* @param amt The amount of the token to dtransfer. (For max: `uint256(-1)`)
* @param getId ID to retrieve amt.
* @param setId ID stores the amount of tokens deposited.
*/
function dTransfer(
uint256 subAccountFrom,
uint256 subAccountTo,
address token,
uint256 amt,
uint256 getId,
uint256 setId
)
external
payable
returns (string memory _eventName, bytes memory _eventParam)
{
uint256 _amt = getUint(getId, amt);
bool isEth = token == ethAddr ? true : false;
address _token = isEth ? wethAddr : token;
IEulerDToken dToken = IEulerDToken(markets.underlyingToDToken(_token));
_amt = _amt == type(uint256).max
? dToken.balanceOf(address(this))
: _amt;
if (isEth) convertEthToWeth(isEth, TokenInterface(_token), _amt);
address _subAccountToAddr = getSubAccount(address(this), subAccountTo);
dToken.transfer(_subAccountToAddr, amt);
setUint(setId, _amt);
_eventName = "LogDTransfer(uint256,uint256,address,uint256,uint256,uint256)";
_eventParam = abi.encode(
subAccountFrom,
subAccountTo,
token,
_amt,
getId,
setId
);
}
/**
* @dev Approve debt.
* @notice Approves receiver to take debt.
* @param subAccountId Subaccount number
* @param debtReceiver Address of receiver
* @param token The address of the token to mint.(For ETH: 0xEeeeeEeeeEeEeeEeEeEeeEEEeeeeEeeeeeeeEEeE)
* @param amt The amount of the token to mint.
* @param getId ID to retrieve amt.
* @param setId ID stores the amount of tokens deposited.
*/
function approveDebt(
uint256 subAccountId,
address debtReceiver,
address token,
uint256 amt,
uint256 getId,
uint256 setId
)
external
payable
returns (string memory _eventName, bytes memory _eventParam)
{
uint256 _amt = getUint(getId, amt);
bool isEth = token == ethAddr;
address _token = isEth ? wethAddr : token;
IEulerDToken dToken = IEulerDToken(markets.underlyingToDToken(_token));
_amt = _amt == type(uint256).max
? dToken.balanceOf(address(this))
: _amt;
dToken.approveDebt(subAccountId, debtReceiver, _amt);
setUint(setId, _amt);
_eventName = "LogApproveDebt(uint256,address,address,uint256)";
_eventParam = abi.encode(subAccountId, debtReceiver, token, amt);
}
struct swapHelper {
address _sellAddr;
address _buyAddr;
uint256 _buyDec;
uint256 _sellDec;
uint256 _sellAmt18;
uint256 _slippageAmt;
}
struct swapParams {
uint256 subAccountFrom;
uint256 subAccountTo;
address buyAddr;
address sellAddr;
uint256 sellAmt;
uint256 unitAmt;
bytes callData;
}
/**
* @dev Swap.
* @notice Executes swap.
* @param params swapParams struct
*/
function swap(swapParams memory params)
external
payable
returns (string memory _eventName, bytes memory _eventParam)
{
swapHelper memory helperParams;
helperParams._sellAddr = params.sellAddr == ethAddr
? wethAddr
: params.sellAddr;
helperParams._buyAddr = params.sellAddr == ethAddr
? wethAddr
: params.buyAddr;
TokenInterface sellToken = TokenInterface(helperParams._sellAddr);
TokenInterface buyToken = TokenInterface(helperParams._buyAddr);
approve(sellToken, address(swapExec), params.sellAmt);
(helperParams._buyDec, helperParams._sellDec) = getTokensDec(
buyToken,
sellToken
);
helperParams._sellAmt18 = convertTo18(
helperParams._sellDec,
params.sellAmt
);
helperParams._slippageAmt = convert18ToDec(
helperParams._buyDec,
wmul(params.unitAmt, helperParams._sellAmt18)
);
IEulerSwap.Swap1InchParams memory oneInchParams = IEulerSwap
.Swap1InchParams({
subAccountIdIn: params.subAccountFrom,
subAccountIdOut: params.subAccountTo,
underlyingIn: helperParams._sellAddr,
underlyingOut: helperParams._buyAddr,
amount: params.sellAmt,
amountOutMinimum: helperParams._slippageAmt,
payload: params.callData
});
swapExec.swap1Inch(oneInchParams);
if (!checkIfEnteredMarket(helperParams._buyAddr)) {
markets.enterMarket(params.subAccountTo, helperParams._buyAddr);
}
_eventName = "LogSwap(uint256,uint256,address,address,uint256,uint256,bytes)";
_eventParam = abi.encode(
params.subAccountFrom,
params.subAccountTo,
params.buyAddr,
params.sellAddr,
params.sellAmt,
params.unitAmt,
params.callData
);
}
/**
* @dev Enter Market.
* @notice Enter Market.
* @param subAccountId Subaccount number
* @param tokens Array of new token markets to be entered
*/
function enterMarket(uint256 subAccountId, address[] memory tokens)
external
payable
returns (string memory _eventName, bytes memory _eventParam)
{
uint256 _length = tokens.length;
require(_length > 0, "0-markets-not-allowed");
for (uint256 i = 0; i < _length; i++) {
bool isEth = tokens[i] == ethAddr;
address _token = isEth ? wethAddr : tokens[i];
IEulerEToken eToken = IEulerEToken(
markets.underlyingToEToken(_token)
);
markets.enterMarket(subAccountId, _token);
}
_eventName = "LogEnterMarket(uint256,address[])";
_eventParam = abi.encode(subAccountId, tokens);
}
/**
* @dev Exit Market.
* @notice Exit Market.
* @param subAccountId Subaccount number
* @param token token address
*/
function exitMarket(uint256 subAccountId, address token)
external
payable
returns (string memory _eventName, bytes memory _eventParam)
{
bool isEth = token == ethAddr;
address _token = isEth ? wethAddr : token;
markets.exitMarket(subAccountId, _token);
_eventName = "LogExitMarket(uint256,address)";
_eventParam = abi.encode(subAccountId, token);
}
}
contract ConnectV2Euler is Euler {
string public constant name = "Euler-v1.0";
}