aave-protocol-v2/contracts/adapters/UniswapRepayAdapter.sol
2021-02-01 17:13:53 +03:00

266 lines
9.7 KiB
Solidity

// SPDX-License-Identifier: agpl-3.0
pragma solidity 0.6.12;
pragma experimental ABIEncoderV2;
import {BaseUniswapAdapter} from './BaseUniswapAdapter.sol';
import {ILendingPoolAddressesProvider} from '../interfaces/ILendingPoolAddressesProvider.sol';
import {IUniswapV2Router02} from '../interfaces/IUniswapV2Router02.sol';
import {IERC20} from '../dependencies/openzeppelin/contracts/IERC20.sol';
import {DataTypes} from '../protocol/libraries/types/DataTypes.sol';
/**
* @title UniswapRepayAdapter
* @notice Uniswap V2 Adapter to perform a repay of a debt with collateral.
* @author Aave
**/
contract UniswapRepayAdapter is BaseUniswapAdapter {
struct RepayParams {
address collateralAsset;
uint256 collateralAmount;
uint256 rateMode;
PermitSignature permitSignature;
bool useEthPath;
}
constructor(
ILendingPoolAddressesProvider addressesProvider,
IUniswapV2Router02 uniswapRouter,
address wethAddress
) public BaseUniswapAdapter(addressesProvider, uniswapRouter, wethAddress) {}
/**
* @dev Uses the received funds from the flash loan to repay a debt on the protocol on behalf of the user. Then pulls
* the collateral from the user and swaps it to the debt asset to repay the flash loan.
* The user should give this contract allowance to pull the ATokens in order to withdraw the underlying asset, swap it
* and repay the flash loan.
* Supports only one asset on the flash loan.
* @param assets Address of debt asset
* @param amounts Amount of the debt to be repaid
* @param premiums Fee of the flash loan
* @param initiator Address of the user
* @param params Additional variadic field to include extra params. Expected parameters:
* address collateralAsset Address of the reserve to be swapped
* uint256 collateralAmount Amount of reserve to be swapped
* uint256 rateMode Rate modes of the debt to be repaid
* uint256 permitAmount Amount for the permit signature
* uint256 deadline Deadline for the permit signature
* uint8 v V param for the permit signature
* bytes32 r R param for the permit signature
* bytes32 s S param for the permit signature
*/
function executeOperation(
address[] calldata assets,
uint256[] calldata amounts,
uint256[] calldata premiums,
address initiator,
bytes calldata params
) external override returns (bool) {
require(msg.sender == address(LENDING_POOL), 'CALLER_MUST_BE_LENDING_POOL');
RepayParams memory decodedParams = _decodeParams(params);
_swapAndRepay(
decodedParams.collateralAsset,
assets[0],
amounts[0],
decodedParams.collateralAmount,
decodedParams.rateMode,
initiator,
premiums[0],
decodedParams.permitSignature,
decodedParams.useEthPath
);
return true;
}
/**
* @dev Swaps the user collateral for the debt asset and then repay the debt on the protocol on behalf of the user
* without using flash loans. This method can be used when the temporary transfer of the collateral asset to this
* contract does not affect the user position.
* The user should give this contract allowance to pull the ATokens in order to withdraw the underlying asset
* @param collateralAsset Address of asset to be swapped
* @param debtAsset Address of debt asset
* @param collateralAmount Amount of the collateral to be swapped
* @param debtRepayAmount Amount of the debt to be repaid
* @param debtRateMode Rate mode of the debt to be repaid
* @param permitSignature struct containing the permit signature
* @param useEthPath struct containing the permit signature
*/
function swapAndRepay(
address collateralAsset,
address debtAsset,
uint256 collateralAmount,
uint256 debtRepayAmount,
uint256 debtRateMode,
PermitSignature calldata permitSignature,
bool useEthPath
) external {
DataTypes.ReserveData memory collateralReserveData = _getReserveData(collateralAsset);
DataTypes.ReserveData memory debtReserveData = _getReserveData(debtAsset);
address debtToken =
DataTypes.InterestRateMode(debtRateMode) == DataTypes.InterestRateMode.STABLE
? debtReserveData.stableDebtTokenAddress
: debtReserveData.variableDebtTokenAddress;
uint256 currentDebt = IERC20(debtToken).balanceOf(msg.sender);
uint256 amountToRepay = debtRepayAmount <= currentDebt ? debtRepayAmount : currentDebt;
if (collateralAsset != debtAsset) {
uint256 maxCollateralToSwap = collateralAmount;
if (amountToRepay < debtRepayAmount) {
maxCollateralToSwap = maxCollateralToSwap.mul(amountToRepay).div(debtRepayAmount);
}
// Get exact collateral needed for the swap to avoid leftovers
uint256[] memory amounts =
_getAmountsIn(collateralAsset, debtAsset, amountToRepay, useEthPath);
require(amounts[0] <= maxCollateralToSwap, 'slippage too high');
// Pull aTokens from user
_pullAToken(
collateralAsset,
collateralReserveData.aTokenAddress,
msg.sender,
amounts[0],
permitSignature
);
// Swap collateral for debt asset
_swapTokensForExactTokens(collateralAsset, debtAsset, amounts[0], amountToRepay, useEthPath);
} else {
// Pull aTokens from user
_pullAToken(
collateralAsset,
collateralReserveData.aTokenAddress,
msg.sender,
amountToRepay,
permitSignature
);
}
// Repay debt. Approves 0 first to comply with tokens that implement the anti frontrunning approval fix
IERC20(debtAsset).safeApprove(address(LENDING_POOL), 0);
IERC20(debtAsset).safeApprove(address(LENDING_POOL), amountToRepay);
LENDING_POOL.repay(debtAsset, amountToRepay, debtRateMode, msg.sender);
}
/**
* @dev Perform the repay of the debt, pulls the initiator collateral and swaps to repay the flash loan
*
* @param collateralAsset Address of token to be swapped
* @param debtAsset Address of debt token to be received from the swap
* @param amount Amount of the debt to be repaid
* @param collateralAmount Amount of the reserve to be swapped
* @param rateMode Rate mode of the debt to be repaid
* @param initiator Address of the user
* @param premium Fee of the flash loan
* @param permitSignature struct containing the permit signature
*/
function _swapAndRepay(
address collateralAsset,
address debtAsset,
uint256 amount,
uint256 collateralAmount,
uint256 rateMode,
address initiator,
uint256 premium,
PermitSignature memory permitSignature,
bool useEthPath
) internal {
DataTypes.ReserveData memory collateralReserveData = _getReserveData(collateralAsset);
// Repay debt. Approves for 0 first to comply with tokens that implement the anti frontrunning approval fix.
IERC20(debtAsset).safeApprove(address(LENDING_POOL), 0);
IERC20(debtAsset).safeApprove(address(LENDING_POOL), amount);
uint256 repaidAmount = IERC20(debtAsset).balanceOf(address(this));
LENDING_POOL.repay(debtAsset, amount, rateMode, initiator);
repaidAmount = repaidAmount.sub(IERC20(debtAsset).balanceOf(address(this)));
if (collateralAsset != debtAsset) {
uint256 maxCollateralToSwap = collateralAmount;
if (repaidAmount < amount) {
maxCollateralToSwap = maxCollateralToSwap.mul(repaidAmount).div(amount);
}
uint256 neededForFlashLoanDebt = repaidAmount.add(premium);
uint256[] memory amounts =
_getAmountsIn(collateralAsset, debtAsset, neededForFlashLoanDebt, useEthPath);
require(amounts[0] <= maxCollateralToSwap, 'slippage too high');
// Pull aTokens from user
_pullAToken(
collateralAsset,
collateralReserveData.aTokenAddress,
initiator,
amounts[0],
permitSignature
);
// Swap collateral asset to the debt asset
_swapTokensForExactTokens(
collateralAsset,
debtAsset,
amounts[0],
neededForFlashLoanDebt,
useEthPath
);
} else {
// Pull aTokens from user
_pullAToken(
collateralAsset,
collateralReserveData.aTokenAddress,
initiator,
repaidAmount.add(premium),
permitSignature
);
}
// Repay flashloan. Approves for 0 first to comply with tokens that implement the anti frontrunning approval fix.
IERC20(debtAsset).safeApprove(address(LENDING_POOL), 0);
IERC20(debtAsset).safeApprove(address(LENDING_POOL), amount.add(premium));
}
/**
* @dev Decodes debt information encoded in the flash loan params
* @param params Additional variadic field to include extra params. Expected parameters:
* address collateralAsset Address of the reserve to be swapped
* uint256 collateralAmount Amount of reserve to be swapped
* uint256 rateMode Rate modes of the debt to be repaid
* uint256 permitAmount Amount for the permit signature
* uint256 deadline Deadline for the permit signature
* uint8 v V param for the permit signature
* bytes32 r R param for the permit signature
* bytes32 s S param for the permit signature
* @return RepayParams struct containing decoded params
*/
function _decodeParams(bytes memory params) internal pure returns (RepayParams memory) {
(
address collateralAsset,
uint256 collateralAmount,
uint256 rateMode,
uint256 permitAmount,
uint256 deadline,
uint8 v,
bytes32 r,
bytes32 s,
bool useEthPath
) =
abi.decode(
params,
(address, uint256, uint256, uint256, uint256, uint8, bytes32, bytes32, bool)
);
return
RepayParams(
collateralAsset,
collateralAmount,
rateMode,
PermitSignature(permitAmount, deadline, v, r, s),
useEthPath
);
}
}