dsa-connectors-2.0/contracts/mainnet/connectors/morpho-blue/helpers.sol
2023-12-16 15:38:21 +05:30

182 lines
4.9 KiB
Solidity

//SPDX-License-Identifier: MIT
pragma solidity ^0.8.2;
pragma experimental ABIEncoderV2;
import { Id, IMorpho, MarketParams, Position, Market } from "./interfaces/IMorpho.sol";
import "../../common/stores.sol";
import "../../common/basic.sol";
import "../../common/interfaces.sol";
import { MorphoBalancesLib } from "./libraries/periphery/MorphoBalancesLib.sol";
import { UtilsLib } from "./libraries/UtilsLib.sol";
import { MarketParamsLib } from "./libraries/MarketParamsLib.sol";
abstract contract Helpers is Stores, Basic {
using MorphoBalancesLib for IMorpho;
using MarketParamsLib for MarketParams;
using UtilsLib for uint256;
IMorpho public constant MORPHO_BLUE =
IMorpho(0x777777c9898D384F785Ee44Acfe945efDFf5f3E0); // TODO: Update
uint256 internal constant MARKET_PARAMS_BYTES_LENGTH = 5 * 32;
/// @dev The number of virtual assets of 1 enforces a conversion rate between shares and assets when a market is
/// empty.
uint256 internal constant VIRTUAL_ASSETS = 1;
/// @dev The number of virtual shares has been chosen low enough to prevent overflows, and high enough to ensure
/// high precision computations.
uint256 internal constant VIRTUAL_SHARES = 1e6;
enum Mode {
Collateral,
Repay,
Supply
}
/// @notice Handles Eth to Weth conversion if assets are provided.
function _performEthToWethConversion(
MarketParams memory _marketParams,
uint256 _assets,
address _onBehalf,
uint256 _getId,
Mode _mode
) internal returns (MarketParams memory, uint256 _amt) {
_amt = getUint(_getId, _assets);
bool _isEth = _mode == Mode.Collateral
? _marketParams.collateralToken == ethAddr
: _marketParams.loanToken == ethAddr;
_marketParams = updateTokenAddresses(_marketParams);
// Check for max value
if (_assets == type(uint256).max) {
uint256 _maxAvailable = _isEth
? address(this).balance
: TokenInterface(_marketParams.loanToken).balanceOf(
address(this)
);
if (_mode == Mode.Repay) {
uint256 _amtDebt = getPaybackBalance(_marketParams, _onBehalf);
_amt = _maxAvailable.min(_amtDebt); // TODO: Ask
} else {
_amt = _maxAvailable;
}
}
// Perform conversion if necessary
convertEthToWeth(
true,
TokenInterface(_marketParams.loanToken),
_amt
);
return (_marketParams, _amt);
}
/// @notice Handles Eth to Weth conversion if shares are provided.
function _performEthToWethSharesConversion(
MarketParams memory _marketParams,
uint256 _shares,
address _onBehalf,
uint256 _getId,
bool _isRepay
) internal returns (MarketParams memory, uint256 _assets) {
uint256 _shareAmt = getUint(_getId, _shares);
bool _isEth = _marketParams.loanToken == ethAddr;
_marketParams = updateTokenAddresses(_marketParams);
// Handle the max share case
if (_shares == type(uint256).max) {
uint256 _maxAvailable = _isEth
? address(this).balance
: TokenInterface(_marketParams.loanToken).balanceOf(
address(this)
);
// If it's repay calculate the min of balance available and debt to repay
if (_isRepay) {
_assets = _maxAvailable.min(
getPaybackBalance(_marketParams, _onBehalf) // TODO: Ask
);
} else {
_assets = _maxAvailable;
}
} else {
(uint256 totalSupplyAssets, uint256 totalSupplyShares, , ) = MORPHO_BLUE.expectedMarketBalances(_marketParams);
_assets = _toAssetsUp(
_shareAmt,
totalSupplyAssets,
totalSupplyShares
);
}
// Perform ETH to WETH conversion if necessary
convertEthToWeth(
true,
TokenInterface(_marketParams.loanToken),
_assets
);
return (_marketParams, _assets);
}
/// @notice Returns the payback balance in assets.
function getPaybackBalance(
MarketParams memory _marketParams,
address _onBehalf
) internal view returns (uint256 _assets) {
Id _id = _marketParams.id();
uint256 _shareAmt = MORPHO_BLUE.position(_id, _onBehalf).supplyShares;
(uint256 totalSupplyAssets, uint256 totalSupplyShares, , ) = MORPHO_BLUE.expectedMarketBalances(_marketParams);
_assets = _toAssetsUp(
_shareAmt,
totalSupplyAssets,
totalSupplyShares
);
}
/// @notice Calculates the value of `shares` quoted in assets, rounding up.
function _toAssetsUp(
uint256 _shares,
uint256 _totalAssets,
uint256 _totalShares
) internal pure returns (uint256) {
return
_mulDivUp(
_shares,
_totalAssets + VIRTUAL_ASSETS,
_totalShares + VIRTUAL_SHARES
);
}
/// @notice Returns (`x` * `y`) / `d` rounded up.
function _mulDivUp(
uint256 x,
uint256 y,
uint256 d
) internal pure returns (uint256) {
return (x * y + (d - 1)) / d;
}
function updateTokenAddresses(
MarketParams memory _marketParams
) internal pure returns (MarketParams memory) {
_marketParams.loanToken = _marketParams.loanToken == ethAddr
? wethAddr
: _marketParams.loanToken;
_marketParams.collateralToken = _marketParams.collateralToken == ethAddr
? wethAddr
: _marketParams.collateralToken;
return _marketParams;
}
}