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index.js
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index.js
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const Web3 = require("web3");
const Big = require("big.js");
const axios = require("axios");
const fusePoolDirectoryAbi = require(__dirname + '/abi/FusePoolDirectory.json');
const fusePoolLensAbi = require(__dirname + '/abi/FusePoolLens.json');
const fuseSafeLiquidatorAbi = require(__dirname + '/abi/FuseSafeLiquidator.json');
const erc20Abi = require(__dirname + '/abi/ERC20.json');
// Set Big.js rounding mode to round down
Big.RM = 0;
var web3 = new Web3(new Web3.providers.HttpProvider(process.env.WEB3_HTTP_PROVIDER_URL));
var fusePoolDirectory = new web3.eth.Contract(fusePoolDirectoryAbi, process.env.FUSE_POOL_DIRECTORY_CONTRACT_ADDRESS);
var fusePoolLens = new web3.eth.Contract(fusePoolLensAbi, process.env.FUSE_POOL_LENS_CONTRACT_ADDRESS);
var fuseSafeLiquidator = new web3.eth.Contract(fuseSafeLiquidatorAbi, process.env.FUSE_SAFE_LIQUIDATOR_CONTRACT_ADDRESS);
async function approveTokensToSafeLiquidator(erc20Address, amount) {
// Build data
var token = new web3.eth.Contract(erc20Abi, erc20Address);
var data = token.methods.approve(amount).encodeABI();
// Build transaction
var tx = {
from: process.env.ETHEREUM_ADMIN_ACCOUNT,
to: erc20Address,
value: 0,
data: data,
nonce: await web3.eth.getTransactionCount(process.env.ETHEREUM_ADMIN_ACCOUNT)
};
if (process.env.NODE_ENV !== "production") console.log("Signing and sending " + erc20Address + " approval transaction:", tx);
// Estimate gas for transaction
try {
tx["gas"] = await web3.eth.estimateGas(tx);
} catch (error) {
throw "Failed to estimate gas before signing and sending " + erc20Address + " approval transaction: " + error;
}
// Sign transaction
try {
var signedTx = await web3.eth.accounts.signTransaction(tx, process.env.ETHEREUM_ADMIN_PRIVATE_KEY);
} catch (error) {
throw "Error signing " + erc20Address + " approval transaction: " + error;
}
// Send transaction
try {
var sentTx = await web3.eth.sendSignedTransaction(signedTx.rawTransaction);
} catch (error) {
throw "Error sending " + erc20Address + " approval transaction: " + error;
}
console.log("Successfully sent " + erc20Address + " approval transaction:", sentTx);
return sentTx;
}
async function sendTransactionToSafeLiquidator(method, params, value) {
// Build data
var data = fuseSafeLiquidator.methods[method](...params).encodeABI();
// Build transaction
var tx = {
from: process.env.ETHEREUM_ADMIN_ACCOUNT,
to: fuseSafeLiquidator.options.address,
value: value,
data: data,
nonce: await web3.eth.getTransactionCount(process.env.ETHEREUM_ADMIN_ACCOUNT)
};
if (process.env.NODE_ENV !== "production") console.log("Signing and sending", method, "transaction:", tx);
// Estimate gas for transaction
try {
tx["gas"] = await web3.eth.estimateGas(tx);
} catch (error) {
throw "Failed to estimate gas before signing and sending", method, "transaction: " + error;
}
// Sign transaction
try {
var signedTx = await web3.eth.accounts.signTransaction(tx, process.env.ETHEREUM_ADMIN_PRIVATE_KEY);
} catch (error) {
throw "Error signing", method, "transaction: " + error;
}
// Send transaction
try {
var sentTx = await web3.eth.sendSignedTransaction(signedTx.rawTransaction);
} catch (error) {
throw "Error sending", method, "transaction: " + error;
}
console.log("Successfully sent", method, "transaction:", sentTx);
return sentTx;
}
async function liquidateUnhealthyBorrows() {
var liquidations = await getPotentialLiquidations();
for (const comptroller of Object.keys(liquidations))
for (const liquidation of liquidations[comptroller])
try {
await sendTransactionToSafeLiquidator(liquidation[0], liquidation[1], liquidation[2]);
} catch { }
}
async function getPotentialLiquidations() {
var pools = {};
// Get potential liquidations from public pools
if (process.env.SUPPORT_ALL_PUBLIC_POOLS) {
var data = await fusePoolLens.methods.getPublicPoolUsersWithData(Web3.utils.toBN(1e18)).call({ gas: 1e18 });
var comptrollers = data["0"];
var users = data["1"];
var closeFactors = data["2"];
var liquidationIncentives = data["3"];
for (var i = 0; i < comptrollers.length; i++) {
users[i].slice().sort((a, b) => parseInt(b.totalBorrow) - parseInt(a.totalBorrow));
var liquidations = [];
for (var j = 0; j < users[i].length; j++) {
var liquidation = await getPotentialLiquidation(users[i][j], closeFactors[i], liquidationIncentives[i]);
if (liquidation !== null) liquidations.push(liquidation);
}
if (liquidations.length > 0) pools[comptrollers[i]] = liquidations;
}
}
// Get potential liquidations from supported pools (excluding the public pools that have already been checked)
if (process.env.SUPPORTED_POOL_COMPTROLLERS.length > 0) {
var potentialComptrollers = process.env.SUPPORTED_POOL_COMPTROLLERS.split(",");
var comptrollers = [];
for (const comptroller of potentialComptrollers) if (!pools[comptrollers[i]]) comptrollers.push(comptroller);
var data = await fusePoolLens.methods.getPoolUsersWithData(comptrollers, Web3.utils.toBN(1e18)).call({ gas: 1e18 });
var users = data["0"];
var closeFactors = data["1"];
var liquidationIncentives = data["2"];
for (var i = 0; i < comptrollers.length; i++) {
users[i].slice().sort((a, b) => parseInt(b.totalBorrow) - parseInt(a.totalBorrow));
var liquidations = [];
for (var j = 0; j < users[i].length; j++) {
var liquidation = await getPotentialLiquidation(users[i][j], closeFactors[i], liquidationIncentives[i]);
if (liquidation !== null) liquidations.push(liquidation);
}
if (liquidations.length > 0) pools[comptrollers[i]] = liquidations;
}
}
return pools;
}
async function getPotentialLiquidation(borrower, closeFactor, liquidationIncentive) {
var closeFactor = (new Big(closeFactor)).div(1e18);
var liquidationIncentive = (new Big(liquidationIncentive)).div(1e18);
// Get debt and collateral
borrower = { ...borrower };
borrower.debt = [];
borrower.collateral = [];
for (var asset of borrower.assets) {
asset = { ...asset };
asset.borrowBalanceEth = new Big(asset.borrowBalance).mul(asset.underlyingPrice).div(1e36);
asset.supplyBalanceEth = new Big(asset.supplyBalance).mul(asset.underlyingPrice).div(1e36);
if (parseInt(asset.borrowBalance) > 0) borrower.debt.push(asset);
if (asset.membership && parseInt(asset.supplyBalance) > 0) borrower.collateral.push(asset);
}
// Sort debt and collateral from highest to lowest ETH value
borrower.debt.sort((a, b) => b.borrowBalanceEth.gt(a.borrowBalanceEth) ? 1 : -1);
borrower.collateral.sort((a, b) => b.supplyBalanceEth.gt(a.supplyBalanceEth) ? 1 : -1);
// Check SUPPORTED_INPUT_CURRENCIES (if LIQUIDATION_STRATEGY === "")
if (process.env.LIQUIDATION_STRATEGY === "" && process.env.SUPPORTED_INPUT_CURRENCIES.split(',').indexOf(borrower.debt[0].underlyingSymbol === "ETH" ? "ETH" : borrower.debt[0].underlyingToken) >= 0) return null;
// Check SUPPORTED_OUTPUT_CURRENCIES: replace EXCHANGE_TO_TOKEN_ADDRESS with underlying collateral if underlying collateral is in SUPPORTED_OUTPUT_CURRENCIES
var exchangeToTokenAddress = process.env.EXCHANGE_TO_TOKEN_ADDRESS;
if (process.env.EXCHANGE_TO_TOKEN_ADDRESS === "" || process.env.SUPPORTED_OUTPUT_CURRENCIES.split(',').indexOf(borrower.collateral[0].underlyingSymbol === "ETH" ? "ETH" : borrower.collateral[0].underlyingToken) >= 0) exchangeToTokenAddress = borrower.collateral[0].underlyingSymbol === "ETH" ? "ETH" : borrower.collateral[0].underlyingToken;
// Get exchangeToTokenAddress price and decimals
var [outputPrice, outputDecimals] = await getCurrencyEthPriceAndDecimals(exchangeToTokenAddress);
// exchangeToTokenAddress to 0x0000000000000000000000000000000000000000 if ETH
if (exchangeToTokenAddress === "ETH") exchangeToTokenAddress = "0x0000000000000000000000000000000000000000";
// Get debt and collateral prices
const underlyingDebtPrice = (new Big(borrower.debt[0].underlyingPrice)).div((new Big(10)).pow(36 - borrower.debt[0].underlyingDecimals));
const underlyingCollateralPrice = (new Big(borrower.collateral[0].underlyingPrice)).div((new Big(10)).pow(36 - borrower.collateral[0].underlyingDecimals));
// Get liquidation amount
var liquidationAmountScaled = (new Big(borrower.debt[0].borrowBalance)).mul(closeFactor);
var liquidationAmount = liquidationAmountScaled.div((new Big(10)).pow(parseInt(borrower.debt[0].underlyingDecimals)));
var liquidationValueEth = liquidationAmount.mul(underlyingDebtPrice);
// Get seize amount
var seizeAmountEth = liquidationValueEth.mul(liquidationIncentive);
var seizeAmount = seizeAmountEth.div(underlyingCollateralPrice);
// Check if actual collateral is too low to seize seizeAmount; if so, recalculate liquidation amount
const actualCollateral = (new Big(borrower.collateral[0].supplyBalance)).div((new Big(10)).pow(parseInt(borrower.collateral[0].underlyingDecimals)));
if (seizeAmount.gt(actualCollateral)) {
seizeAmount = actualCollateral;
seizeAmountEth = seizeAmount.mul(underlyingCollateralPrice);
liquidationValueEth = seizeAmountEth.div(liquidationIncentive);
liquidationAmount = liquidationValueEth.div(underlyingDebtPrice);
liquidationAmountScaled = liquidationAmount.mul((new Big(10)).pow(parseInt(borrower.debt[0].underlyingDecimals)));
}
// Convert liquidationAmountScaled to string
liquidationAmountScaled = liquidationAmountScaled.toFixed(0);
// Depending on liquidation strategy
if (process.env.LIQUIDATION_STRATEGY === "") {
// Estimate gas usage
try {
if (borrower.debt[0].underlyingSymbol === 'ETH') {
var expectedGasAmount = await fuseSafeLiquidator.methods.safeLiquidate(borrower.account, borrower.debt[0].cToken, borrower.collateral[0].cToken, 0, exchangeToTokenAddress).estimateGas({ gas: 1e9, value: liquidationAmountScaled, from: process.env.ETHEREUM_ADMIN_ACCOUNT });
} else {
var expectedGasAmount = await fuseSafeLiquidator.methods.safeLiquidate(borrower.account, liquidationAmountScaled, borrower.debt[0].cToken, borrower.collateral[0].cToken, 0, exchangeToTokenAddress).estimateGas({ gas: 1e9, from: process.env.ETHEREUM_ADMIN_ACCOUNT });
}
} catch {
var expectedGasAmount = 600000;
}
// Get gas fee
const gasPrice = new Big(await web3.eth.getGasPrice()).div(1e18);
const expectedGasFee = gasPrice.mul(expectedGasAmount);
// Get min seize
var minEthSeizeAmountBreakEven = expectedGasFee.add(liquidationValueEth);
var minEthSeizeAmount = minEthSeizeAmountBreakEven.add(process.env.MINIMUM_PROFIT);
var minSeizeAmount = minEthSeizeAmount.div(outputPrice);
var minSeizeAmountScaled = minSeizeAmount.mul((new Big(10)).pow(outputDecimals)).toFixed(0);
// Check expected seize against minSeizeAmount
if (seizeAmount.lt(minSeizeAmount)) return null;
// Return transaction
if (borrower.debt[0].underlyingSymbol === 'ETH') {
return ["safeLiquidate", [borrower.account, borrower.debt[0].cToken, borrower.collateral[0].cToken, minSeizeAmountScaled, exchangeToTokenAddress], liquidationAmountScaled];
} else {
return ["safeLiquidate", [borrower.account, liquidationAmountScaled, borrower.debt[0].cToken, borrower.collateral[0].cToken, minSeizeAmountScaled, exchangeToTokenAddress], 0];
}
} else if (process.env.LIQUIDATION_STRATEGY === "uniswap") {
// Estimate gas usage
try {
if (borrower.debt[0].underlyingSymbol === 'ETH') {
var expectedGasAmount = await fuseSafeLiquidator.methods.safeLiquidateToEthWithFlashLoan(borrower.account, liquidationAmountScaled, borrower.debt[0].cToken, borrower.collateral[0].cToken, 0, exchangeToTokenAddress).estimateGas({ gas: 1e9, from: process.env.ETHEREUM_ADMIN_ACCOUNT });
} else {
var expectedGasAmount = await fuseSafeLiquidator.methods.safeLiquidateToTokensWithFlashLoan(borrower.account, liquidationAmountScaled, borrower.debt[0].cToken, borrower.collateral[0].cToken, 0, exchangeToTokenAddress).estimateGas({ gas: 1e9, from: process.env.ETHEREUM_ADMIN_ACCOUNT });
}
} catch {
var expectedGasAmount = 750000;
}
// Get gas fee
const gasPrice = new Big(await web3.eth.getGasPrice()).div(1e18);
const expectedGasFee = gasPrice.mul(expectedGasAmount);
// Get min profit
var minOutputEth = (new Big(process.env.MINIMUM_PROFIT_ETH)).add(expectedGasFee);
var minProfitAmountScaled = minOutputEth.div(outputPrice).mul((new Big(10)).pow(outputDecimals)).toFixed(0);
// Return transaction
if (borrower.debt[0].underlyingSymbol === 'ETH') {
return ["safeLiquidateToEthWithFlashLoan", [borrower.account, liquidationAmountScaled, borrower.debt[0].cToken, borrower.collateral[0].cToken, minProfitAmountScaled, exchangeToTokenAddress], 0];
} else {
return ["safeLiquidateToTokensWithFlashLoan", [borrower.account, liquidationAmountScaled, borrower.debt[0].cToken, borrower.collateral[0].cToken, minProfitAmountScaled, exchangeToTokenAddress], 0];
}
} else throw "Invalid liquidation strategy";
}
async function getPrice(tokenAddress) {
tokenAddress = tokenAddress.toLowerCase();
// Get ETH-based price of an ERC20 via CoinGecko
var decoded = (await axios.get('https://api.coingecko.com/api/v3/simple/token_price/ethereum', {
params: {
vs_currencies: "eth",
contract_addresses: tokenAddress
}
})).data;
if (!decoded || !decoded[tokenAddress]) throw "Failed to decode price of " + tokenAddress + " from CoinGecko";
return decoded[tokenAddress].eth;
}
var currencyDecimalsCache = {};
var currencyPriceCache = {};
async function getCurrencyEthPriceAndDecimals(tokenAddressOrEth) {
// Quick return for ETH
if (tokenAddressOrEth === "ETH") return [1, 18];
// Lowercase token address
tokenAddressOrEth = tokenAddressOrEth.toLowerCase();
// Get price (from cache if possible)
if (currencyPriceCache[tokenAddressOrEth] === undefined || currencyPriceCache[tokenAddressOrEth].lastUpdated < (epochNow - (60 * 15))) {
currencyPriceCache[tokenAddressOrEth] = {
lastUpdated: epochNow,
value: await getPrice(tokenAddressOrEth)
};
}
// Get decimals (from cache if possible)
if (currencyDecimalsCache[tokenAddressOrEth] === undefined) currencyDecimalsCache[tokenAddressOrEth] = tokenAddressOrEth === "ETH" ? 18 : parseInt(await (new web3.eth.Contract(erc20Abi, tokenAddressOrEth)).methods.decimals().call());
var epochNow = (new Date()).getTime() / 1000;
return [currencyPriceCache[tokenAddressOrEth].value, currencyDecimalsCache[tokenAddressOrEth]];
}
// Liquidate unhealthy borrows and repeat every LIQUIDATION_INTERVAL_SECONDS
async function liquidateAndRepeat() {
await liquidateUnhealthyBorrows();
setTimeout(liquidateAndRepeat, process.env.LIQUIDATION_INTERVAL_SECONDS * 1000);
}
(async function() {
if (process.env.LIQUIDATION_STRATEGY === "") for (const tokenAddress of process.env.SUPPORTED_INPUT_CURRENCIES.split(',')) if (tokenAddress !== "ETH") await approveTokensToSafeLiquidator(tokenAddress, web3.utils.toBN(2).pow(web3.utils.toBN(256)).subn(1));
liquidateAndRepeat();
})();