mirror of
https://github.com/Instadapp/aave-protocol-v2.git
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280 lines
9.6 KiB
Solidity
280 lines
9.6 KiB
Solidity
// SPDX-License-Identifier: agpl-3.0
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pragma solidity ^0.6.8;
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pragma experimental ABIEncoderV2;
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import {SafeMath} from '../../dependencies/openzeppelin/contracts/SafeMath.sol';
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import {IERC20} from '../../dependencies/openzeppelin/contracts/IERC20.sol';
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import {ReserveLogic} from './ReserveLogic.sol';
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import {ReserveConfiguration} from '../configuration/ReserveConfiguration.sol';
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import {UserConfiguration} from '../configuration/UserConfiguration.sol';
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import {WadRayMath} from '../math/WadRayMath.sol';
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import {PercentageMath} from '../math/PercentageMath.sol';
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import {IPriceOracleGetter} from '../../interfaces/IPriceOracleGetter.sol';
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/**
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* @title GenericLogic library
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* @author Aave
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* @title Implements protocol-level logic to check the status of the user across all the reserves
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*/
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library GenericLogic {
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using ReserveLogic for ReserveLogic.ReserveData;
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using SafeMath for uint256;
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using WadRayMath for uint256;
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using PercentageMath for uint256;
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using ReserveConfiguration for ReserveConfiguration.Map;
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using UserConfiguration for UserConfiguration.Map;
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uint256 public constant HEALTH_FACTOR_LIQUIDATION_THRESHOLD = 1 ether;
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struct balanceDecreaseAllowedLocalVars {
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uint256 decimals;
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uint256 liquidationThreshold;
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uint256 collateralBalanceETH;
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uint256 borrowBalanceETH;
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uint256 avgLiquidationThreshold;
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uint256 amountToDecreaseETH;
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uint256 collateralBalancefterDecrease;
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uint256 liquidationThresholdAfterDecrease;
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uint256 healthFactorAfterDecrease;
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bool reserveUsageAsCollateralEnabled;
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}
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/**
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* @dev check if a specific balance decrease is allowed
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* (i.e. doesn't bring the user borrow position health factor under HEALTH_FACTOR_LIQUIDATION_THRESHOLD)
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* @param asset the address of the reserve
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* @param user the address of the user
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* @param amount the amount to decrease
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* @param reservesData the data of all the reserves
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* @param userConfig the user configuration
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* @param reserves the list of all the active reserves
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* @param oracle the address of the oracle contract
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* @return true if the decrease of the balance is allowed
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**/
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function balanceDecreaseAllowed(
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address asset,
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address user,
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uint256 amount,
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mapping(address => ReserveLogic.ReserveData) storage reservesData,
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UserConfiguration.Map calldata userConfig,
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mapping(uint256 => address) storage reserves,
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uint256 reservesCount,
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address oracle
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) external view returns (bool) {
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if (!userConfig.isBorrowingAny() || !userConfig.isUsingAsCollateral(reservesData[asset].id)) {
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return true;
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}
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balanceDecreaseAllowedLocalVars memory vars;
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(, vars.liquidationThreshold, , vars.decimals, ) = reservesData[asset]
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.configuration
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.getParams();
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if (vars.liquidationThreshold == 0) {
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return true; //if reserve is not used as collateral, no reasons to block the transfer
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}
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(
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vars.collateralBalanceETH,
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vars.borrowBalanceETH,
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,
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vars.avgLiquidationThreshold,
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) = calculateUserAccountData(user, reservesData, userConfig, reserves, reservesCount, oracle);
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if (vars.borrowBalanceETH == 0) {
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return true; //no borrows - no reasons to block the transfer
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}
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vars.amountToDecreaseETH = IPriceOracleGetter(oracle).getAssetPrice(asset).mul(amount).div(
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10**vars.decimals
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);
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vars.collateralBalancefterDecrease = vars.collateralBalanceETH.sub(vars.amountToDecreaseETH);
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//if there is a borrow, there can't be 0 collateral
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if (vars.collateralBalancefterDecrease == 0) {
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return false;
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}
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vars.liquidationThresholdAfterDecrease = vars
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.collateralBalanceETH
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.mul(vars.avgLiquidationThreshold)
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.sub(vars.amountToDecreaseETH.mul(vars.liquidationThreshold))
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.div(vars.collateralBalancefterDecrease);
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uint256 healthFactorAfterDecrease = calculateHealthFactorFromBalances(
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vars.collateralBalancefterDecrease,
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vars.borrowBalanceETH,
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vars.liquidationThresholdAfterDecrease
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);
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return healthFactorAfterDecrease > GenericLogic.HEALTH_FACTOR_LIQUIDATION_THRESHOLD;
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}
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struct CalculateUserAccountDataVars {
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uint256 reserveUnitPrice;
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uint256 tokenUnit;
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uint256 compoundedLiquidityBalance;
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uint256 compoundedBorrowBalance;
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uint256 decimals;
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uint256 ltv;
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uint256 liquidationThreshold;
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uint256 i;
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uint256 healthFactor;
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uint256 totalCollateralBalanceETH;
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uint256 totalBorrowBalanceETH;
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uint256 totalFeesETH;
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uint256 avgLtv;
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uint256 avgLiquidationThreshold;
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uint256 reservesLength;
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bool healthFactorBelowThreshold;
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address currentReserveAddress;
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bool usageAsCollateralEnabled;
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bool userUsesReserveAsCollateral;
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}
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/**
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* @dev calculates the user data across the reserves.
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* this includes the total liquidity/collateral/borrow balances in ETH,
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* the average Loan To Value, the average Liquidation Ratio, and the Health factor.
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* @param user the address of the user
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* @param reservesData data of all the reserves
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* @param userConfig the configuration of the user
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* @param reserves the list of the available reserves
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* @param oracle the price oracle address
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* @return the total collateral and total borrow balance of the user in ETH, the avg ltv and liquidation threshold and the HF
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* also the average Ltv, liquidation threshold, and the health factor
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**/
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function calculateUserAccountData(
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address user,
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mapping(address => ReserveLogic.ReserveData) storage reservesData,
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UserConfiguration.Map memory userConfig,
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mapping(uint256 => address) storage reserves,
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uint256 reservesCount,
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address oracle
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)
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internal
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view
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returns (
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uint256,
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uint256,
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uint256,
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uint256,
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uint256
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)
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{
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CalculateUserAccountDataVars memory vars;
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if (userConfig.isEmpty()) {
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return (0, 0, 0, 0, uint256(-1));
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}
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for (vars.i = 0; vars.i < reservesCount; vars.i++) {
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if (!userConfig.isUsingAsCollateralOrBorrowing(vars.i)) {
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continue;
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}
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vars.currentReserveAddress = reserves[vars.i];
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ReserveLogic.ReserveData storage currentReserve = reservesData[vars.currentReserveAddress];
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(vars.ltv, vars.liquidationThreshold, , vars.decimals, ) = currentReserve
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.configuration
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.getParams();
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vars.tokenUnit = 10**vars.decimals;
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vars.reserveUnitPrice = IPriceOracleGetter(oracle).getAssetPrice(vars.currentReserveAddress);
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if (vars.liquidationThreshold != 0 && userConfig.isUsingAsCollateral(vars.i)) {
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vars.compoundedLiquidityBalance = IERC20(currentReserve.aTokenAddress).balanceOf(user);
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uint256 liquidityBalanceETH = vars
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.reserveUnitPrice
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.mul(vars.compoundedLiquidityBalance)
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.div(vars.tokenUnit);
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vars.totalCollateralBalanceETH = vars.totalCollateralBalanceETH.add(liquidityBalanceETH);
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vars.avgLtv = vars.avgLtv.add(liquidityBalanceETH.mul(vars.ltv));
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vars.avgLiquidationThreshold = vars.avgLiquidationThreshold.add(
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liquidityBalanceETH.mul(vars.liquidationThreshold)
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);
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}
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if (userConfig.isBorrowing(vars.i)) {
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vars.compoundedBorrowBalance = IERC20(currentReserve.stableDebtTokenAddress).balanceOf(
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user
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);
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vars.compoundedBorrowBalance = vars.compoundedBorrowBalance.add(
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IERC20(currentReserve.variableDebtTokenAddress).balanceOf(user)
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);
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vars.totalBorrowBalanceETH = vars.totalBorrowBalanceETH.add(
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vars.reserveUnitPrice.mul(vars.compoundedBorrowBalance).div(vars.tokenUnit)
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);
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}
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}
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vars.avgLtv = vars.totalCollateralBalanceETH > 0
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? vars.avgLtv.div(vars.totalCollateralBalanceETH)
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: 0;
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vars.avgLiquidationThreshold = vars.totalCollateralBalanceETH > 0
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? vars.avgLiquidationThreshold.div(vars.totalCollateralBalanceETH)
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: 0;
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vars.healthFactor = calculateHealthFactorFromBalances(
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vars.totalCollateralBalanceETH,
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vars.totalBorrowBalanceETH,
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vars.avgLiquidationThreshold
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);
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return (
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vars.totalCollateralBalanceETH,
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vars.totalBorrowBalanceETH,
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vars.avgLtv,
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vars.avgLiquidationThreshold,
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vars.healthFactor
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);
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}
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/**
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* @dev calculates the health factor from the corresponding balances
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* @param collateralBalanceETH the total collateral balance in ETH
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* @param borrowBalanceETH the total borrow balance in ETH
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* @param liquidationThreshold the avg liquidation threshold
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* @return the health factor calculated from the balances provided
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**/
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function calculateHealthFactorFromBalances(
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uint256 collateralBalanceETH,
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uint256 borrowBalanceETH,
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uint256 liquidationThreshold
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) internal pure returns (uint256) {
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if (borrowBalanceETH == 0) return uint256(-1);
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return (collateralBalanceETH.percentMul(liquidationThreshold)).wadDiv(borrowBalanceETH);
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}
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/**
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* @dev calculates the equivalent amount in ETH that an user can borrow, depending on the available collateral and the
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* average Loan To Value.
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* @param collateralBalanceETH the total collateral balance
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* @param borrowBalanceETH the total borrow balance
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* @param ltv the average loan to value
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* @return the amount available to borrow in ETH for the user
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**/
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function calculateAvailableBorrowsETH(
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uint256 collateralBalanceETH,
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uint256 borrowBalanceETH,
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uint256 ltv
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) internal pure returns (uint256) {
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uint256 availableBorrowsETH = collateralBalanceETH.percentMul(ltv); //ltv is in percentage
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if (availableBorrowsETH < borrowBalanceETH) {
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return 0;
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}
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availableBorrowsETH = availableBorrowsETH.sub(borrowBalanceETH);
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return availableBorrowsETH;
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}
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}
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