import {TestEnv, makeSuite} from './helpers/make-suite'; import {APPROVAL_AMOUNT_LENDING_POOL} from '../helpers/constants'; import {ethers} from 'ethers'; import BigNumber from 'bignumber.js'; import { calcExpectedVariableDebtTokenBalance, calcExpectedStableDebtTokenBalance, } from './helpers/utils/calculations'; import {getContractsData} from './helpers/actions'; import {waitForTx} from './__setup.spec'; import {timeLatest} from '../helpers/misc-utils'; import {tEthereumAddress} from '../helpers/types'; import {parse} from 'path'; const {expect} = require('chai'); const {parseUnits, parseEther} = ethers.utils; export const expectRepayWithCollateralEvent = ( events: ethers.Event[], pool: tEthereumAddress, collateral: tEthereumAddress, borrowing: tEthereumAddress, user: tEthereumAddress ) => { if (!events || events.length < 16) { expect(false, 'INVALID_EVENTS_LENGTH_ON_REPAY_COLLATERAL'); } const repayWithCollateralEvent = events[15]; expect(repayWithCollateralEvent.address).to.be.equal(pool); expect(`0x${repayWithCollateralEvent.topics[1].slice(26)}`.toLowerCase()).to.be.equal( collateral.toLowerCase() ); expect(`0x${repayWithCollateralEvent.topics[2].slice(26)}`).to.be.equal(borrowing.toLowerCase()); expect(`0x${repayWithCollateralEvent.topics[3].slice(26)}`.toLowerCase()).to.be.equal( user.toLowerCase() ); }; makeSuite('LendingPool. repayWithCollateral()', (testEnv: TestEnv) => { it("It's not possible to repayWithCollateral() on a non-active collateral or a non active principal", async () => { const {configurator, weth, pool, users, dai, mockSwapAdapter} = testEnv; const user = users[1]; await configurator.deactivateReserve(weth.address); await expect( pool .connect(user.signer) .repayWithCollateral( weth.address, dai.address, user.address, parseEther('100'), mockSwapAdapter.address, '0x' ) ).to.be.revertedWith('2'); await configurator.activateReserve(weth.address); await configurator.deactivateReserve(dai.address); await expect( pool .connect(user.signer) .repayWithCollateral( weth.address, dai.address, user.address, parseEther('100'), mockSwapAdapter.address, '0x' ) ).to.be.revertedWith('2'); await configurator.activateReserve(dai.address); }); it('User 1 provides some liquidity for others to borrow', async () => { const {pool, weth, dai, usdc, deployer} = testEnv; await weth.mint(parseEther('200')); await weth.approve(pool.address, parseEther('200')); await pool.deposit(weth.address, parseEther('200'), deployer.address, 0); await dai.mint(parseEther('20000')); await dai.approve(pool.address, parseEther('20000')); await pool.deposit(dai.address, parseEther('20000'), deployer.address, 0); await usdc.mint(parseEther('20000')); await usdc.approve(pool.address, parseEther('20000')); await pool.deposit(usdc.address, parseEther('20000'), deployer.address, 0); }); it('User 2 deposit WETH and borrows DAI at Variable', async () => { const {pool, weth, dai, users} = testEnv; const user = users[1]; const amountToDeposit = ethers.utils.parseEther('1'); const amountToBorrow = ethers.utils.parseEther('20'); await weth.connect(user.signer).mint(amountToDeposit); await weth.connect(user.signer).approve(pool.address, APPROVAL_AMOUNT_LENDING_POOL); await pool.connect(user.signer).deposit(weth.address, amountToDeposit, user.address, '0'); await pool.connect(user.signer).borrow(dai.address, amountToBorrow, 2, 0, user.address); }); it('It is not possible to do reentrancy on repayWithCollateral()', async () => { const {pool, weth, dai, users, mockSwapAdapter, oracle} = testEnv; const user = users[1]; const amountToRepay = parseEther('10'); await waitForTx(await mockSwapAdapter.setTryReentrancy(true)); await mockSwapAdapter.setAmountToReturn(amountToRepay); await expect( pool .connect(user.signer) .repayWithCollateral( weth.address, dai.address, user.address, amountToRepay, mockSwapAdapter.address, '0x' ) ).to.be.revertedWith('53'); }); it('User 2 tries to repay his DAI Variable loan using his WETH collateral. First half the amount, after that, the rest', async () => { const {pool, weth, dai, users, mockSwapAdapter, oracle} = testEnv; const user = users[1]; const amountToRepay = parseEther('10'); await waitForTx(await mockSwapAdapter.setTryReentrancy(false)); const {userData: wethUserDataBefore} = await getContractsData( weth.address, user.address, testEnv ); const {reserveData: daiReserveDataBefore, userData: daiUserDataBefore} = await getContractsData( dai.address, user.address, testEnv ); await mockSwapAdapter.setAmountToReturn(amountToRepay); await waitForTx( await pool .connect(user.signer) .repayWithCollateral( weth.address, dai.address, user.address, amountToRepay, mockSwapAdapter.address, '0x' ) ); const repayWithCollateralTimestamp = await timeLatest(); const {userData: wethUserDataAfter} = await getContractsData( weth.address, user.address, testEnv ); const {userData: daiUserDataAfter} = await getContractsData(dai.address, user.address, testEnv); const collateralPrice = await oracle.getAssetPrice(weth.address); const principalPrice = await oracle.getAssetPrice(dai.address); const collateralDecimals = ( await pool.getReserveConfigurationData(weth.address) ).decimals.toString(); const principalDecimals = ( await pool.getReserveConfigurationData(dai.address) ).decimals.toString(); const expectedCollateralLiquidated = new BigNumber(principalPrice.toString()) .times(new BigNumber(amountToRepay.toString()).times(105)) .times(new BigNumber(10).pow(collateralDecimals)) .div( new BigNumber(collateralPrice.toString()).times(new BigNumber(10).pow(principalDecimals)) ) .div(100) .decimalPlaces(0, BigNumber.ROUND_DOWN); const expectedVariableDebtIncrease = calcExpectedVariableDebtTokenBalance( daiReserveDataBefore, daiUserDataBefore, new BigNumber(repayWithCollateralTimestamp) ).minus(daiUserDataBefore.currentVariableDebt); expect(daiUserDataAfter.currentVariableDebt).to.be.bignumber.almostEqual( new BigNumber(daiUserDataBefore.currentVariableDebt) .minus(amountToRepay.toString()) .plus(expectedVariableDebtIncrease) .toString() ); expect(wethUserDataAfter.currentATokenBalance).to.be.bignumber.equal( new BigNumber(wethUserDataBefore.currentATokenBalance).minus( expectedCollateralLiquidated.toString() ) ); expect(wethUserDataAfter.usageAsCollateralEnabled).to.be.true; }); it('User 3 deposits WETH and borrows USDC at Variable', async () => { const {pool, weth, usdc, users} = testEnv; const user = users[2]; const amountToDeposit = parseEther('10'); const amountToBorrow = parseUnits('40', 6); await weth.connect(user.signer).mint(amountToDeposit); await weth.connect(user.signer).approve(pool.address, APPROVAL_AMOUNT_LENDING_POOL); await pool.connect(user.signer).deposit(weth.address, amountToDeposit, user.address, '0'); await pool.connect(user.signer).borrow(usdc.address, amountToBorrow, 2, 0, user.address); }); it('User 3 repays completely his USDC loan by swapping his WETH collateral', async () => { const {pool, weth, usdc, users, mockSwapAdapter, oracle} = testEnv; const user = users[2]; const amountToRepay = parseUnits('10', 6); const {userData: wethUserDataBefore} = await getContractsData( weth.address, user.address, testEnv ); const { reserveData: usdcReserveDataBefore, userData: usdcUserDataBefore, } = await getContractsData(usdc.address, user.address, testEnv); await mockSwapAdapter.setAmountToReturn(amountToRepay); await waitForTx( await pool .connect(user.signer) .repayWithCollateral( weth.address, usdc.address, user.address, amountToRepay, mockSwapAdapter.address, '0x' ) ); const repayWithCollateralTimestamp = await timeLatest(); const {userData: wethUserDataAfter} = await getContractsData( weth.address, user.address, testEnv ); const {userData: usdcUserDataAfter} = await getContractsData( usdc.address, user.address, testEnv ); const collateralPrice = await oracle.getAssetPrice(weth.address); const principalPrice = await oracle.getAssetPrice(usdc.address); const collateralDecimals = ( await pool.getReserveConfigurationData(weth.address) ).decimals.toString(); const principalDecimals = ( await pool.getReserveConfigurationData(usdc.address) ).decimals.toString(); const expectedCollateralLiquidated = new BigNumber(principalPrice.toString()) .times(new BigNumber(amountToRepay.toString()).times(105)) .times(new BigNumber(10).pow(collateralDecimals)) .div( new BigNumber(collateralPrice.toString()).times(new BigNumber(10).pow(principalDecimals)) ) .div(100) .decimalPlaces(0, BigNumber.ROUND_DOWN); const expectedVariableDebtIncrease = calcExpectedVariableDebtTokenBalance( usdcReserveDataBefore, usdcUserDataBefore, new BigNumber(repayWithCollateralTimestamp) ).minus(usdcUserDataBefore.currentVariableDebt); expect(usdcUserDataAfter.currentVariableDebt).to.be.bignumber.almostEqual( new BigNumber(usdcUserDataBefore.currentVariableDebt) .minus(amountToRepay.toString()) .plus(expectedVariableDebtIncrease) .toString(), 'INVALID_DEBT_POSITION' ); expect(wethUserDataAfter.currentATokenBalance).to.be.bignumber.equal( new BigNumber(wethUserDataBefore.currentATokenBalance).minus( expectedCollateralLiquidated.toString() ), 'INVALID_COLLATERAL_POSITION' ); expect(wethUserDataAfter.usageAsCollateralEnabled).to.be.true; }); it('Revert expected. User 3 tries to repay with his collateral a currency he havent borrow', async () => { const {pool, weth, dai, users, mockSwapAdapter} = testEnv; const user = users[2]; const amountToRepay = parseUnits('10', 6); await expect( pool .connect(user.signer) .repayWithCollateral( weth.address, dai.address, user.address, amountToRepay, mockSwapAdapter.address, '0x' ) ).to.be.revertedWith('40'); }); it('User 3 tries to repay with his collateral all his variable debt and part of the stable', async () => { const {pool, weth, usdc, users, mockSwapAdapter, oracle} = testEnv; const user = users[2]; const amountToDeposit = parseEther('20'); const amountToBorrowStable = parseUnits('40', 6); const amountToBorrowVariable = parseUnits('40', 6); await weth.connect(user.signer).mint(amountToDeposit); await pool.connect(user.signer).deposit(weth.address, amountToDeposit, user.address, '0'); await pool.connect(user.signer).borrow(usdc.address, amountToBorrowVariable, 2, 0, user.address); await pool.connect(user.signer).borrow(usdc.address, amountToBorrowStable, 1, 0, user.address); const amountToRepay = parseUnits('80', 6); const {userData: wethUserDataBefore} = await getContractsData( weth.address, user.address, testEnv ); const { reserveData: usdcReserveDataBefore, userData: usdcUserDataBefore, } = await getContractsData(usdc.address, user.address, testEnv); await mockSwapAdapter.setAmountToReturn(amountToRepay); const txReceipt = await waitForTx( await pool .connect(user.signer) .repayWithCollateral( weth.address, usdc.address, user.address, amountToRepay, mockSwapAdapter.address, '0x' ) ); const repayWithCollateralTimestamp = await timeLatest(); const {userData: wethUserDataAfter} = await getContractsData( weth.address, user.address, testEnv ); const {userData: usdcUserDataAfter} = await getContractsData( usdc.address, user.address, testEnv ); const collateralPrice = await oracle.getAssetPrice(weth.address); const principalPrice = await oracle.getAssetPrice(usdc.address); const collateralDecimals = ( await pool.getReserveConfigurationData(weth.address) ).decimals.toString(); const principalDecimals = ( await pool.getReserveConfigurationData(usdc.address) ).decimals.toString(); const expectedCollateralLiquidated = new BigNumber(principalPrice.toString()) .times(new BigNumber(amountToRepay.toString()).times(105)) .times(new BigNumber(10).pow(collateralDecimals)) .div( new BigNumber(collateralPrice.toString()).times(new BigNumber(10).pow(principalDecimals)) ) .div(100) .decimalPlaces(0, BigNumber.ROUND_DOWN); const expectedVariableDebtIncrease = calcExpectedVariableDebtTokenBalance( usdcReserveDataBefore, usdcUserDataBefore, new BigNumber(repayWithCollateralTimestamp) ).minus(usdcUserDataBefore.currentVariableDebt); const expectedStableDebtIncrease = calcExpectedStableDebtTokenBalance( usdcUserDataBefore, new BigNumber(repayWithCollateralTimestamp) ).minus(usdcUserDataBefore.currentStableDebt); expect(usdcUserDataAfter.currentVariableDebt).to.be.bignumber.equal( new BigNumber(usdcUserDataBefore.currentVariableDebt) .minus(amountToRepay.toString()) .plus(expectedVariableDebtIncrease) .gte(0) ? new BigNumber(usdcUserDataBefore.currentVariableDebt) .minus(amountToRepay.toString()) .plus(expectedVariableDebtIncrease) .toString() : '0', 'INVALID_VARIABLE_DEBT_POSITION' ); const stableDebtRepaid = new BigNumber(usdcUserDataBefore.currentVariableDebt) .minus(amountToRepay.toString()) .plus(expectedVariableDebtIncrease) .abs(); expect(usdcUserDataAfter.currentStableDebt).to.be.bignumber.equal( new BigNumber(usdcUserDataBefore.currentStableDebt) .minus(stableDebtRepaid) .plus(expectedStableDebtIncrease) .gte(0) ? new BigNumber(usdcUserDataBefore.currentStableDebt) .minus(stableDebtRepaid) .plus(expectedStableDebtIncrease) .toString() : '0', 'INVALID_STABLE_DEBT_POSITION' ); expect(wethUserDataAfter.currentATokenBalance).to.be.bignumber.equal( new BigNumber(wethUserDataBefore.currentATokenBalance).minus( expectedCollateralLiquidated.toString() ), 'INVALID_COLLATERAL_POSITION' ); const eventsEmitted = txReceipt.events || []; expectRepayWithCollateralEvent( eventsEmitted, pool.address, weth.address, usdc.address, user.address ); expect(wethUserDataAfter.usageAsCollateralEnabled).to.be.true; }); it('User 4 tries to repay a bigger amount that what can be swapped of a particular collateral, repaying only the maximum allowed by that collateral', async () => { const {pool, weth, dai, users, mockSwapAdapter, oracle} = testEnv; const user = users[3]; const amountToDepositWeth = parseEther('0.1'); const amountToDepositDAI = parseEther('500'); const amountToBorrowVariable = parseEther('80'); await weth.connect(user.signer).mint(amountToDepositWeth); await dai.connect(user.signer).mint(amountToDepositDAI); await weth.connect(user.signer).approve(pool.address, APPROVAL_AMOUNT_LENDING_POOL); await dai.connect(user.signer).approve(pool.address, APPROVAL_AMOUNT_LENDING_POOL); await pool.connect(user.signer).deposit(weth.address, amountToDepositWeth, user.address, '0'); await pool.connect(user.signer).deposit(dai.address, amountToDepositDAI, user.address, '0'); await pool.connect(user.signer).borrow(dai.address, amountToBorrowVariable, 2, 0, user.address); const amountToRepay = parseEther('80'); const {userData: wethUserDataBefore} = await getContractsData( weth.address, user.address, testEnv ); const {reserveData: daiReserveDataBefore, userData: daiUserDataBefore} = await getContractsData( dai.address, user.address, testEnv ); await mockSwapAdapter.setAmountToReturn(amountToRepay); await waitForTx( await pool .connect(user.signer) .repayWithCollateral( weth.address, dai.address, user.address, amountToRepay, mockSwapAdapter.address, '0x' ) ); const repayWithCollateralTimestamp = await timeLatest(); const {userData: wethUserDataAfter} = await getContractsData( weth.address, user.address, testEnv ); const {userData: daiUserDataAfter} = await getContractsData(dai.address, user.address, testEnv); const collateralPrice = await oracle.getAssetPrice(weth.address); const principalPrice = await oracle.getAssetPrice(dai.address); const collateralConfig = await pool.getReserveConfigurationData(weth.address); const collateralDecimals = collateralConfig.decimals.toString(); const principalDecimals = ( await pool.getReserveConfigurationData(dai.address) ).decimals.toString(); const collateralLiquidationBonus = collateralConfig.liquidationBonus.toString(); const expectedDebtCovered = new BigNumber(collateralPrice.toString()) .times(new BigNumber(wethUserDataBefore.currentATokenBalance.toString())) .times(new BigNumber(10).pow(principalDecimals)) .div( new BigNumber(principalPrice.toString()).times(new BigNumber(10).pow(collateralDecimals)) ) .div(new BigNumber(collateralLiquidationBonus).div(10000).toString()) .decimalPlaces(0, BigNumber.ROUND_DOWN); const expectedVariableDebtIncrease = calcExpectedVariableDebtTokenBalance( daiReserveDataBefore, daiUserDataBefore, new BigNumber(repayWithCollateralTimestamp) ).minus(daiUserDataBefore.currentVariableDebt); expect(daiUserDataAfter.currentVariableDebt).to.be.bignumber.equal( new BigNumber(daiUserDataBefore.currentVariableDebt) .minus(expectedDebtCovered.toString()) .plus(expectedVariableDebtIncrease), 'INVALID_VARIABLE_DEBT_POSITION' ); expect(wethUserDataAfter.currentATokenBalance).to.be.bignumber.equal(0); expect(wethUserDataAfter.usageAsCollateralEnabled).to.be.false; }); it('User 5 deposits WETH and DAI, then borrows USDC at Variable, then disables WETH as collateral', async () => { const {pool, weth, dai, usdc, users} = testEnv; const user = users[4]; const amountWETHToDeposit = parseEther('10'); const amountDAIToDeposit = parseEther('120'); const amountToBorrow = parseUnits('65', 6); await weth.connect(user.signer).mint(amountWETHToDeposit); await weth.connect(user.signer).approve(pool.address, APPROVAL_AMOUNT_LENDING_POOL); await pool.connect(user.signer).deposit(weth.address, amountWETHToDeposit, user.address, '0'); await dai.connect(user.signer).mint(amountDAIToDeposit); await dai.connect(user.signer).approve(pool.address, APPROVAL_AMOUNT_LENDING_POOL); await pool.connect(user.signer).deposit(dai.address, amountDAIToDeposit, user.address, '0'); await pool.connect(user.signer).borrow(usdc.address, amountToBorrow, 2, 0, user.address); }); it('User 5 tries to repay his USDC loan by swapping his WETH collateral, should not revert even with WETH collateral disabled', async () => { const {pool, weth, usdc, users, mockSwapAdapter, oracle} = testEnv; const user = users[4]; const amountToRepay = parseUnits('65', 6); // Disable WETH as collateral await pool.connect(user.signer).setUserUseReserveAsCollateral(weth.address, false); const {userData: wethUserDataBefore} = await getContractsData( weth.address, user.address, testEnv ); const { reserveData: usdcReserveDataBefore, userData: usdcUserDataBefore, } = await getContractsData(usdc.address, user.address, testEnv); expect(wethUserDataBefore.usageAsCollateralEnabled).to.be.false; // User 5 should be able to liquidate himself with WETH, even if is disabled await mockSwapAdapter.setAmountToReturn(amountToRepay); expect( await pool .connect(user.signer) .repayWithCollateral( weth.address, usdc.address, user.address, amountToRepay, mockSwapAdapter.address, '0x' ) ); const repayWithCollateralTimestamp = await timeLatest(); const {userData: wethUserDataAfter} = await getContractsData( weth.address, user.address, testEnv ); const {userData: usdcUserDataAfter} = await getContractsData( usdc.address, user.address, testEnv ); const collateralPrice = await oracle.getAssetPrice(weth.address); const principalPrice = await oracle.getAssetPrice(usdc.address); const collateralDecimals = ( await pool.getReserveConfigurationData(weth.address) ).decimals.toString(); const principalDecimals = ( await pool.getReserveConfigurationData(usdc.address) ).decimals.toString(); const expectedCollateralLiquidated = new BigNumber(principalPrice.toString()) .times(new BigNumber(amountToRepay.toString()).times(105)) .times(new BigNumber(10).pow(collateralDecimals)) .div( new BigNumber(collateralPrice.toString()).times(new BigNumber(10).pow(principalDecimals)) ) .div(100) .decimalPlaces(0, BigNumber.ROUND_DOWN); const expectedVariableDebtIncrease = calcExpectedVariableDebtTokenBalance( usdcReserveDataBefore, usdcUserDataBefore, new BigNumber(repayWithCollateralTimestamp) ).minus(usdcUserDataBefore.currentVariableDebt); expect(usdcUserDataAfter.currentVariableDebt).to.be.bignumber.almostEqual( new BigNumber(usdcUserDataBefore.currentVariableDebt) .minus(amountToRepay.toString()) .plus(expectedVariableDebtIncrease) .toString(), 'INVALID_DEBT_POSITION' ); expect(wethUserDataAfter.currentATokenBalance).to.be.bignumber.equal( new BigNumber(wethUserDataBefore.currentATokenBalance).minus( expectedCollateralLiquidated.toString() ), 'INVALID_COLLATERAL_POSITION' ); expect(wethUserDataAfter.usageAsCollateralEnabled).to.be.false; }); });