aave-protocol-v2/test/liquidation-underlying.spec.ts

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import BigNumber from 'bignumber.js';
import {BRE} from '../helpers/misc-utils';
import {APPROVAL_AMOUNT_LENDING_POOL, oneEther} from '../helpers/constants';
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import {convertToCurrencyDecimals} from '../helpers/contracts-helpers';
import {makeSuite} from './helpers/make-suite';
import {ProtocolErrors, RateMode} from '../helpers/types';
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import {calcExpectedStableDebtTokenBalance} from './helpers/utils/calculations';
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import {getUserData} from './helpers/utils/helpers';
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const chai = require('chai');
chai.use(require('chai-bignumber')());
const {expect} = chai;
const almostEqual: any = function (this: any, expected: any, actual: any): any {
this.assert(
expected.plus(new BigNumber(1)).eq(actual) ||
expected.plus(new BigNumber(2)).eq(actual) ||
actual.plus(new BigNumber(1)).eq(expected) ||
actual.plus(new BigNumber(2)).eq(expected) ||
expected.eq(actual),
'expected #{act} to be almost equal #{exp}',
'expected #{act} to be different from #{exp}',
expected.toString(),
actual.toString()
);
};
chai.use(function (chai: any, utils: any) {
chai.Assertion.overwriteMethod('almostEqual', function (original: any) {
return function (this: any, value: any) {
if (utils.flag(this, 'bignumber')) {
var expected = new BigNumber(value);
var actual = new BigNumber(this._obj);
almostEqual.apply(this, [expected, actual]);
} else {
original.apply(this, arguments);
}
};
});
});
makeSuite('LendingPool liquidation - liquidator receiving the underlying asset', (testEnv) => {
const {
HF_IS_NOT_BELLOW_THRESHOLD,
INVALID_HF,
USER_DID_NOT_BORROW_SPECIFIED,
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THE_COLLATERAL_CHOSEN_CANNOT_BE_LIQUIDATED,
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} = ProtocolErrors;
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it('LIQUIDATION - Deposits WETH, borrows DAI', async () => {
const {dai, weth, users, pool, oracle} = testEnv;
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const depositor = users[0];
const borrower = users[1];
//mints DAI to depositor
await dai.connect(depositor.signer).mint(await convertToCurrencyDecimals(dai.address, '1000'));
//approve protocol to access depositor wallet
await dai.connect(depositor.signer).approve(pool.address, APPROVAL_AMOUNT_LENDING_POOL);
//user 1 deposits 1000 DAI
const amountDAItoDeposit = await convertToCurrencyDecimals(dai.address, '1000');
await pool.connect(depositor.signer).deposit(dai.address, amountDAItoDeposit, '0');
//user 2 deposits 1 ETH
const amountETHtoDeposit = await convertToCurrencyDecimals(weth.address, '1');
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//mints WETH to borrower
await weth.connect(borrower.signer).mint(await convertToCurrencyDecimals(weth.address, '1000'));
//approve protocol to access the borrower wallet
await weth.connect(borrower.signer).approve(pool.address, APPROVAL_AMOUNT_LENDING_POOL);
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await pool.connect(borrower.signer).deposit(weth.address, amountETHtoDeposit, '0');
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//user 2 borrows
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const userGlobalData = await pool.getUserAccountData(borrower.address);
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const daiPrice = await oracle.getAssetPrice(dai.address);
const amountDAIToBorrow = await convertToCurrencyDecimals(
dai.address,
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new BigNumber(userGlobalData.availableBorrowsETH.toString())
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.div(daiPrice.toString())
.multipliedBy(0.95)
.toFixed(0)
);
await pool
.connect(borrower.signer)
.borrow(dai.address, amountDAIToBorrow, RateMode.Stable, '0');
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const userGlobalDataAfter = await pool.getUserAccountData(borrower.address);
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expect(userGlobalDataAfter.currentLiquidationThreshold.toString()).to.be.bignumber.equal(
'8000',
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'Invalid liquidation threshold'
);
});
it('LIQUIDATION - Drop the health factor below 1', async () => {
const {dai, weth, users, pool, oracle} = testEnv;
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const borrower = users[1];
const daiPrice = await oracle.getAssetPrice(dai.address);
await oracle.setAssetPrice(
dai.address,
new BigNumber(daiPrice.toString()).multipliedBy(1.25).toFixed(0)
);
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const userGlobalData = await pool.getUserAccountData(borrower.address);
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expect(userGlobalData.healthFactor.toString()).to.be.bignumber.lt(
oneEther.toFixed(0),
'Invalid health factor'
);
});
it('LIQUIDATION - Liquidates the borrow', async () => {
const {dai, weth, users, pool, oracle} = testEnv;
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const liquidator = users[3];
const borrower = users[1];
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//mints dai to the liquidator
await dai.connect(liquidator.signer).mint(await convertToCurrencyDecimals(dai.address, '1000'));
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//approve protocol to access the liquidator wallet
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await dai.connect(liquidator.signer).approve(pool.address, APPROVAL_AMOUNT_LENDING_POOL);
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const daiReserveDataBefore = await pool.getReserveData(dai.address);
const ethReserveDataBefore = await pool.getReserveData(weth.address);
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const userReserveDataBefore = await getUserData(pool, dai.address, borrower.address);
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const amountToLiquidate = userReserveDataBefore.currentStableDebt.div(2).toFixed(0);
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const tx = await pool
.connect(liquidator.signer)
.liquidationCall(weth.address, dai.address, borrower.address, amountToLiquidate, false);
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const userReserveDataAfter = await getUserData(pool, dai.address, borrower.address);
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const daiReserveDataAfter = await pool.getReserveData(dai.address);
const ethReserveDataAfter = await pool.getReserveData(weth.address);
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const collateralPrice = await oracle.getAssetPrice(weth.address);
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const principalPrice = await oracle.getAssetPrice(dai.address);
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const collateralDecimals = (
await pool.getReserveConfigurationData(weth.address)
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).decimals.toString();
const principalDecimals = (
await pool.getReserveConfigurationData(dai.address)
).decimals.toString();
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const expectedCollateralLiquidated = new BigNumber(principalPrice.toString())
.times(new BigNumber(amountToLiquidate).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);
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if (!tx.blockNumber) {
expect(false, 'Invalid block number');
return;
}
const txTimestamp = new BigNumber(
(await BRE.ethers.provider.getBlock(tx.blockNumber)).timestamp
);
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const stableDebtBeforeTx = calcExpectedStableDebtTokenBalance(
userReserveDataBefore,
txTimestamp.plus(2)
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);
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expect(userReserveDataAfter.currentStableDebt.toString()).to.be.bignumber.almostEqual(
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stableDebtBeforeTx.minus(amountToLiquidate).toFixed(0),
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'Invalid user debt after liquidation'
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);
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//the liquidity index of the principal reserve needs to be bigger than the index before
expect(daiReserveDataAfter.liquidityIndex.toString()).to.be.bignumber.gt(
daiReserveDataBefore.liquidityIndex.toString(),
'Invalid liquidity index'
);
//the principal APY after a liquidation needs to be lower than the APY before
expect(daiReserveDataAfter.liquidityRate.toString()).to.be.bignumber.lt(
daiReserveDataBefore.liquidityRate.toString(),
'Invalid liquidity APY'
);
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expect(daiReserveDataAfter.availableLiquidity.toString()).to.be.bignumber.almostEqual(
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new BigNumber(daiReserveDataBefore.availableLiquidity.toString())
.plus(amountToLiquidate)
.toFixed(0),
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'Invalid principal available liquidity'
);
expect(ethReserveDataAfter.availableLiquidity.toString()).to.be.bignumber.almostEqual(
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new BigNumber(ethReserveDataBefore.availableLiquidity.toString())
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.minus(expectedCollateralLiquidated)
.toFixed(0),
'Invalid collateral available liquidity'
);
});
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it('User 3 deposits 1000 USDC, user 4 1 WETH, user 4 borrows - drops HF, liquidates the borrow', async () => {
const {usdc, users, pool, oracle, weth} = testEnv;
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const depositor = users[3];
const borrower = users[4];
const liquidator = users[5];
//mints USDC to depositor
await usdc
.connect(depositor.signer)
.mint(await convertToCurrencyDecimals(usdc.address, '1000'));
//approve protocol to access depositor wallet
await usdc.connect(depositor.signer).approve(pool.address, APPROVAL_AMOUNT_LENDING_POOL);
//depositor deposits 1000 USDC
const amountUSDCtoDeposit = await convertToCurrencyDecimals(usdc.address, '1000');
await pool.connect(depositor.signer).deposit(usdc.address, amountUSDCtoDeposit, '0');
//borrower deposits 1 ETH
const amountETHtoDeposit = await convertToCurrencyDecimals(weth.address, '1');
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//mints WETH to borrower
await weth.connect(borrower.signer).mint(await convertToCurrencyDecimals(weth.address, '1000'));
//approve protocol to access the borrower wallet
await weth.connect(borrower.signer).approve(pool.address, APPROVAL_AMOUNT_LENDING_POOL);
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await pool.connect(borrower.signer).deposit(weth.address, amountETHtoDeposit, '0');
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//borrower borrows
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const userGlobalData = await pool.getUserAccountData(borrower.address);
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const usdcPrice = await oracle.getAssetPrice(usdc.address);
const amountUSDCToBorrow = await convertToCurrencyDecimals(
usdc.address,
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new BigNumber(userGlobalData.availableBorrowsETH.toString())
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.div(usdcPrice.toString())
.multipliedBy(0.95)
.toFixed(0)
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);
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await pool
.connect(borrower.signer)
.borrow(usdc.address, amountUSDCToBorrow, RateMode.Stable, '0');
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//drops HF below 1
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await oracle.setAssetPrice(
usdc.address,
new BigNumber(usdcPrice.toString()).multipliedBy(1.2).toFixed(0)
);
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//mints dai to the liquidator
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await usdc
.connect(liquidator.signer)
.mint(await convertToCurrencyDecimals(usdc.address, '1000'));
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//approve protocol to access depositor wallet
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await usdc.connect(liquidator.signer).approve(pool.address, APPROVAL_AMOUNT_LENDING_POOL);
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const userReserveDataBefore = await pool.getUserReserveData(usdc.address, borrower.address);
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const usdcReserveDataBefore = await pool.getReserveData(usdc.address);
const ethReserveDataBefore = await pool.getReserveData(weth.address);
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const amountToLiquidate = new BigNumber(userReserveDataBefore.currentStableDebt.toString())
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.div(2)
.decimalPlaces(0, BigNumber.ROUND_DOWN)
.toFixed(0);
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await pool
.connect(liquidator.signer)
.liquidationCall(weth.address, usdc.address, borrower.address, amountToLiquidate, false);
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const userReserveDataAfter = await pool.getUserReserveData(usdc.address, borrower.address);
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const userGlobalDataAfter = await pool.getUserAccountData(borrower.address);
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const usdcReserveDataAfter = await pool.getReserveData(usdc.address);
const ethReserveDataAfter = await pool.getReserveData(weth.address);
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const collateralPrice = await oracle.getAssetPrice(weth.address);
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const principalPrice = await oracle.getAssetPrice(usdc.address);
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const collateralDecimals = (
await pool.getReserveConfigurationData(weth.address)
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).decimals.toString();
const principalDecimals = (
await pool.getReserveConfigurationData(usdc.address)
).decimals.toString();
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const expectedCollateralLiquidated = new BigNumber(principalPrice.toString())
.times(new BigNumber(amountToLiquidate).times(105))
.times(new BigNumber(10).pow(collateralDecimals))
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.div(
new BigNumber(collateralPrice.toString()).times(new BigNumber(10).pow(principalDecimals))
)
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.div(100)
.decimalPlaces(0, BigNumber.ROUND_DOWN);
expect(userGlobalDataAfter.healthFactor.toString()).to.be.bignumber.gt(
oneEther.toFixed(0),
'Invalid health factor'
);
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expect(userReserveDataAfter.currentStableDebt.toString()).to.be.bignumber.almostEqual(
new BigNumber(userReserveDataBefore.currentStableDebt.toString())
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.minus(amountToLiquidate)
.toFixed(0),
'Invalid user borrow balance after liquidation'
);
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//the liquidity index of the principal reserve needs to be bigger than the index before
expect(usdcReserveDataAfter.liquidityIndex.toString()).to.be.bignumber.gt(
usdcReserveDataBefore.liquidityIndex.toString(),
'Invalid liquidity index'
);
//the principal APY after a liquidation needs to be lower than the APY before
expect(usdcReserveDataAfter.liquidityRate.toString()).to.be.bignumber.lt(
usdcReserveDataBefore.liquidityRate.toString(),
'Invalid liquidity APY'
);
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expect(usdcReserveDataAfter.availableLiquidity.toString()).to.be.bignumber.almostEqual(
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new BigNumber(usdcReserveDataBefore.availableLiquidity.toString())
.plus(amountToLiquidate)
.toFixed(0),
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'Invalid principal available liquidity'
);
expect(ethReserveDataAfter.availableLiquidity.toString()).to.be.bignumber.almostEqual(
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new BigNumber(ethReserveDataBefore.availableLiquidity.toString())
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.minus(expectedCollateralLiquidated)
.toFixed(0),
'Invalid collateral available liquidity'
);
});
it('User 4 deposits 1000 LEND - drops HF, liquidates the LEND, which results on a lower amount being liquidated', async () => {
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const {lend, usdc, users, pool, oracle} = testEnv;
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const depositor = users[3];
const borrower = users[4];
const liquidator = users[5];
//mints LEND to borrower
await lend.connect(borrower.signer).mint(await convertToCurrencyDecimals(lend.address, '1000'));
//approve protocol to access the borrower wallet
await lend.connect(borrower.signer).approve(pool.address, APPROVAL_AMOUNT_LENDING_POOL);
//borrower deposits 1000 LEND
const amountLENDtoDeposit = await convertToCurrencyDecimals(lend.address, '1000');
await pool.connect(borrower.signer).deposit(lend.address, amountLENDtoDeposit, '0');
const usdcPrice = await oracle.getAssetPrice(usdc.address);
//drops HF below 1
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await oracle.setAssetPrice(
usdc.address,
new BigNumber(usdcPrice.toString()).multipliedBy(1.12).toFixed(0)
);
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//mints usdc to the liquidator
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await usdc
.connect(liquidator.signer)
.mint(await convertToCurrencyDecimals(usdc.address, '1000'));
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//approve protocol to access depositor wallet
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await usdc.connect(liquidator.signer).approve(pool.address, APPROVAL_AMOUNT_LENDING_POOL);
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const userReserveDataBefore = await pool.getUserReserveData(usdc.address, borrower.address);
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const usdcReserveDataBefore = await pool.getReserveData(usdc.address);
const lendReserveDataBefore = await pool.getReserveData(lend.address);
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const amountToLiquidate = new BigNumber(userReserveDataBefore.currentStableDebt.toString())
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.div(2)
.decimalPlaces(0, BigNumber.ROUND_DOWN)
.toFixed(0);
const collateralPrice = await oracle.getAssetPrice(lend.address);
const principalPrice = await oracle.getAssetPrice(usdc.address);
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await pool
.connect(liquidator.signer)
.liquidationCall(lend.address, usdc.address, borrower.address, amountToLiquidate, false);
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const userReserveDataAfter = await pool.getUserReserveData(usdc.address, borrower.address);
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const userGlobalDataAfter = await pool.getUserAccountData(borrower.address);
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const usdcReserveDataAfter = await pool.getReserveData(usdc.address);
const lendReserveDataAfter = await pool.getReserveData(lend.address);
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const collateralDecimals = (
await pool.getReserveConfigurationData(lend.address)
).decimals.toString();
const principalDecimals = (
await pool.getReserveConfigurationData(usdc.address)
).decimals.toString();
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const expectedCollateralLiquidated = oneEther.multipliedBy('1000');
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const liquidationBonus = (
await pool.getReserveConfigurationData(lend.address)
).liquidationBonus.toString();
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const expectedPrincipal = new BigNumber(collateralPrice.toString())
.times(expectedCollateralLiquidated)
.times(new BigNumber(10).pow(principalDecimals))
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.div(
new BigNumber(principalPrice.toString()).times(new BigNumber(10).pow(collateralDecimals))
)
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.times(10000)
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.div(liquidationBonus.toString())
.decimalPlaces(0, BigNumber.ROUND_DOWN);
expect(userGlobalDataAfter.healthFactor.toString()).to.be.bignumber.gt(
oneEther.toFixed(0),
'Invalid health factor'
);
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expect(userReserveDataAfter.currentStableDebt.toString()).to.be.bignumber.almostEqual(
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new BigNumber(userReserveDataBefore.currentStableDebt.toString())
.minus(expectedPrincipal)
.toFixed(0),
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'Invalid user borrow balance after liquidation'
);
expect(usdcReserveDataAfter.availableLiquidity.toString()).to.be.bignumber.almostEqual(
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new BigNumber(usdcReserveDataBefore.availableLiquidity.toString())
.plus(expectedPrincipal)
.toFixed(0),
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'Invalid principal available liquidity'
);
expect(lendReserveDataAfter.availableLiquidity.toString()).to.be.bignumber.almostEqual(
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new BigNumber(lendReserveDataBefore.availableLiquidity.toString())
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.minus(expectedCollateralLiquidated)
.toFixed(0),
'Invalid collateral available liquidity'
);
});
});