//SPDX-License-Identifier: MIT pragma solidity ^0.8.2; /** * @title Fluid. * @dev Lending & Borrowing. */ import {Stores} from "../../common/stores.sol"; import {TokenInterface} from "../../common/interfaces.sol"; import {Events} from "./events.sol"; import {IVault} from "./interface.sol"; abstract contract FluidConnector is Events, Stores { /** * @dev Returns Eth address */ function getMaticAddr() internal pure returns (address) { return 0xEeeeeEeeeEeEeeEeEeEeeEEEeeeeEeeeeeeeEEeE; } /** * @dev Deposit, borrow, payback and withdraw asset from the vault. * @notice Single function which handles supply, withdraw, borrow & payback * @param vaultAddress_ Vault address. * @param nftId_ NFT ID for interaction. If 0 then create new NFT/position. * @param newCol_ New collateral. If positive then deposit, if negative then withdraw, if 0 then do nothing. * For max deposit use type(uint25).max, for max withdraw use type(uint25).min. * @param newDebt_ New debt. If positive then borrow, if negative then payback, if 0 then do nothing * For max payback use type(uint25).min. * @param repayApproveAmt_ In case of max amount for payback, this amount will be approved for spending. * Should always be positive. * @param getIds_ Array of 5 elements to retrieve IDs: * Nft Id, Supply amount, Withdraw amount, Borrow Amount, Payback Amount * @param setIds_ Array of 5 elements to store IDs generated: * Nft Id, Supply amount, Withdraw amount, Borrow Amount, Payback Amount */ function operateWithIds( address vaultAddress_, uint256 nftId_, int256 newCol_, int256 newDebt_, uint256 repayApproveAmt_, uint256[] memory getIds_, uint256[] memory setIds_ ) external payable returns (string memory _eventName, bytes memory _eventParam) { if (getIds_[1] > 0 && getIds_[2] > 0) { revert("Supply and withdraw get IDs cannot both be > 0."); } if (getIds_[3] > 0 && getIds_[4] > 0) { revert("Borrow and payback get IDs cannot both be > 0."); } if (setIds_[1] > 0 && setIds_[2] > 0) { revert("Supply and withdraw set IDs cannot both be > 0."); } if (setIds_[3] > 0 && setIds_[4] > 0) { revert("Borrow and payback set IDs cannot both be > 0."); } nftId_ = getUint(getIds_[0], nftId_); newCol_ = getIds_[1] > 0 ? int256(getUint(getIds_[1], uint256(newCol_))) : getIds_[2] > 0 ? -int256(getUint(getIds_[2], uint256(newCol_))) : newCol_; newDebt_ = getIds_[3] > 0 ? int256(getUint(getIds_[3], uint256(newDebt_))) : getIds_[4] > 0 ? -int256(getUint(getIds_[4], uint256(newDebt_))) : newDebt_; IVault vault_ = IVault(vaultAddress_); IVault.ConstantViews memory vaultDetails_ = vault_.constantsView(); uint256 maticAmount_; bool isColMax_ = newCol_ == type(int256).max; // Deposit if (newCol_ > 0) { if (vaultDetails_.supplyToken == getMaticAddr()) { maticAmount_ = isColMax_ ? address(this).balance : uint256(newCol_); newCol_ = int256(maticAmount_); } else { if (isColMax_) { newCol_ = int256( TokenInterface(vaultDetails_.supplyToken).balanceOf( address(this) ) ); } TokenInterface(vaultDetails_.supplyToken).approve( vaultAddress_, uint256(newCol_) ); } } bool isPaybackMin_ = newDebt_ == type(int256).min; // Payback if (newDebt_ < 0) { if (vaultDetails_.borrowToken == getMaticAddr()) { // Needs to be positive as it will be send in msg.value maticAmount_ = isPaybackMin_ ? repayApproveAmt_ : uint256(-newDebt_); } else { isPaybackMin_ ? TokenInterface(vaultDetails_.borrowToken).approve( vaultAddress_, repayApproveAmt_ ) : TokenInterface(vaultDetails_.borrowToken).approve( vaultAddress_, uint256(-newDebt_) ); } } // Note max withdraw will be handled by Fluid contract (nftId_, newCol_, newDebt_) = vault_.operate{value: maticAmount_}( nftId_, newCol_, newDebt_, address(this) ); setUint(setIds_[0], nftId_); setIds_[1] > 0 ? setUint(setIds_[1], uint256(newCol_)) : setUint(setIds_[2], uint256(newCol_)); // If setIds_[2] != 0, it will set the ID. setIds_[3] > 0 ? setUint(setIds_[3], uint256(newDebt_)) : setUint(setIds_[4], uint256(newDebt_)); // If setIds_[4] != 0, it will set the ID. _eventName = "LogOperateWithIds(address,uint256,int256,int256,uint256[],uint256[])"; _eventParam = abi.encode( vaultAddress_, nftId_, newCol_, newDebt_, getIds_, setIds_ ); } /** * @dev Deposit, borrow, payback and withdraw asset from the vault. * @notice Single function which handles supply, withdraw, borrow & payback * @param vaultAddress_ Vault address. * @param nftId_ NFT ID for interaction. If 0 then create new NFT/position. * @param newCol_ New collateral. If positive then deposit, if negative then withdraw, if 0 then do nothing. * For max deposit use type(uint25).max, for max withdraw use type(uint25).min. * @param newDebt_ New debt. If positive then borrow, if negative then payback, if 0 then do nothing * For max payback use type(uint25).min. * @param repayApproveAmt_ In case of max amount for payback, this amount will be approved for spending. * Should always be positive. */ function operate( address vaultAddress_, uint256 nftId_, int256 newCol_, int256 newDebt_, uint256 repayApproveAmt_ ) external payable returns (string memory _eventName, bytes memory _eventParam) { IVault vault_ = IVault(vaultAddress_); IVault.ConstantViews memory vaultDetails_ = vault_.constantsView(); uint256 maticAmount_; bool isColMax_ = newCol_ == type(int256).max; // Deposit if (newCol_ > 0) { if (vaultDetails_.supplyToken == getMaticAddr()) { maticAmount_ = isColMax_ ? address(this).balance : uint256(newCol_); newCol_ = int256(maticAmount_); } else { if (isColMax_) { newCol_ = int256( TokenInterface(vaultDetails_.supplyToken).balanceOf( address(this) ) ); } TokenInterface(vaultDetails_.supplyToken).approve( vaultAddress_, uint256(newCol_) ); } } bool isPaybackMin_ = newDebt_ == type(int256).min; // Payback if (newDebt_ < 0) { if (vaultDetails_.borrowToken == getMaticAddr()) { // Needs to be positive as it will be send in msg.value maticAmount_ = isPaybackMin_ ? repayApproveAmt_ : uint256(-1 * newDebt_); } else { isPaybackMin_ ? TokenInterface(vaultDetails_.borrowToken).approve( vaultAddress_, repayApproveAmt_ ) : TokenInterface(vaultDetails_.borrowToken).approve( vaultAddress_, uint256(-1 * newDebt_) ); } } // Note max withdraw will be handled by Fluid contract (nftId_, newCol_, newDebt_) = vault_.operate{value: maticAmount_}( nftId_, newCol_, newDebt_, address(this) ); _eventName = "LogOperate(address,uint256,int256,int256)"; _eventParam = abi.encode( vaultAddress_, nftId_, newCol_, newDebt_ ); } } contract ConnectV2FluidPolygon is FluidConnector { string public constant name = "Fluid-v1.0"; }