const OTOKEN_ABI = [ { inputs: [], name: "totalSupply", outputs: [{ internalType: "uint256", name: "", type: "uint256" }], stateMutability: "view", type: "function", }, { inputs: [], name: "totalBorrows", outputs: [{ internalType: "uint256", name: "", type: "uint256" }], stateMutability: "view", type: "function", }, { inputs: [], name: "exchangeRateCurrent", outputs: [{ internalType: "uint256", name: "", type: "uint256" }], stateMutability: "view", type: "function", }, { inputs: [{ internalType: "address", name: "account", type: "address" }], name: "getAccountSnapshot", outputs: [ { internalType: "uint256", name: "", type: "uint256" }, { internalType: "uint256", name: "", type: "uint256" }, { internalType: "uint256", name: "", type: "uint256" }, { internalType: "uint256", name: "", type: "uint256" }, ], stateMutability: "view", type: "function", }, { inputs: [], name: "supplyRatePerSecond", outputs: [{ internalType: "uint256", name: "", type: "uint256" }], stateMutability: "view", type: "function", }, { inputs: [], name: "borrowRatePerSecond", outputs: [{ internalType: "uint256", name: "", type: "uint256" }], stateMutability: "view", type: "function", }, ]; const UNITROLLER_ABI = [ { inputs: [{ internalType: "address", name: "", type: "address" }], name: "markets", outputs: [ { internalType: "bool", name: "isListed", type: "bool" }, { internalType: "uint256", name: "collateralFactorMantissa", type: "uint256", }, ], stateMutability: "view", type: "function", }, { inputs: [ { internalType: "address", name: "account", type: "address" }, { internalType: "contract MToken", name: "mToken", type: "address" }, ], name: "checkMembership", outputs: [{ internalType: "bool", name: "", type: "bool" }], stateMutability: "view", type: "function", }, ]; const ORACLE_ABI = [ { inputs: [ { internalType: "contract IOToken", name: "oToken", type: "address", }, ], name: "getUnderlyingPrice", outputs: [{ internalType: "uint256", name: "price", type: "uint256" }], stateMutability: "view", type: "function", }, ]; const ERC20_ABI = [ { constant: true, inputs: [ { name: "_owner", type: "address", }, ], name: "balanceOf", outputs: [ { name: "balance", type: "uint256", }, ], payable: false, stateMutability: "view", type: "function", }, ]; const REWARD_ABI = [ { constant: true, inputs: [ { internalType: "uint8", name: "", type: "uint8", }, { internalType: "address", name: "", type: "address", }, ], name: "rewardBorrowSpeeds", outputs: [ { internalType: "uint256", name: "", type: "uint256", }, ], payable: false, stateMutability: "view", type: "function", }, { constant: true, inputs: [ { internalType: "uint8", name: "", type: "uint8", }, { internalType: "address", name: "", type: "address", }, ], name: "rewardSupplySpeeds", outputs: [ { internalType: "uint256", name: "", type: "uint256", }, ], payable: false, stateMutability: "view", type: "function", }, ]; const { multicallAddress, unitrollerAddress, oracleAddress, rewardDistributorAddress, account, update, dapp, onLoad, markets, multicall, prices, } = props; if (!multicallAddress || !unitrollerAddress || !update) return ""; let _cTokensData = {}; let _loanToValue = null; let _underlyPrice = {}; let _liquidity = null; let _underlyingBalance = null; let _userMerberShip = null; let _accountRewards = {}; let _rewards = {}; let count = 0; let oTokensLength = Object.values(markets).length; const REWARD_TOKEN = [ { icon: "https://ipfs.near.social/ipfs/bafkreiayj2bv6br4lt77qzhty7yu6butss42lqoatekdyk3is76yjxlw4e", symbol: "JOE", }, { icon: "https://ipfs.near.social/ipfs/bafkreiaxodsgromeeaihu44fazsxdopkrqvinqzhyfxvx5mrbcmduqdfpq", symbol: "AVAX", }, ]; const formatedData = (key) => { console.log(`${dapp}-${key}`, count); if (count < 6) return; count = 0; oTokensLength = Object.values(markets).length; let totalSupplyUsd = Big(0); let totalBorrowUsd = Big(0); let userTotalSupplyUsd = Big(0); let userTotalBorrowUsd = Big(0); let totalCollateralUsd = Big(0); let totalAccountDistributionApy = Big(0); const markets = {}; Object.values(_cTokensData).forEach((market) => { const underlyingPrice = _underlyPrice[market.address]; const marketSupplyUsd = Big(market.totalSupply || 0).mul(underlyingPrice); const marketBorrowUsd = Big(market.totalBorrows || 0).mul(underlyingPrice); totalSupplyUsd = totalSupplyUsd.plus(marketSupplyUsd); totalBorrowUsd = totalBorrowUsd.plus(marketBorrowUsd); userTotalSupplyUsd = userTotalSupplyUsd.plus( Big(market.userSupply).mul(underlyingPrice) ); userTotalBorrowUsd = userTotalBorrowUsd.plus( Big(market.userBorrow).mul(underlyingPrice) ); if (_userMerberShip[market.address]) { totalCollateralUsd = totalCollateralUsd.plus( Big(market.userSupply) .mul(underlyingPrice) .mul(_loanToValue[market.address]) .div(100) ); } const distributionApy = []; REWARD_TOKEN.forEach((reward) => { const _reward = _rewards[reward.symbol][market.address]; const distributionSupplyApy = Big(_reward.supply) .div(marketSupplyUsd.eq(0) ? 1 : marketSupplyUsd) .plus(1) .pow(365) .minus(1) .mul(100) .toFixed(2); const distributionBorrowApy = Big(_reward.borrow) .div(marketBorrowUsd.eq(0) ? 1 : marketBorrowUsd) .plus(1) .pow(365) .minus(1) .mul(100) .toFixed(2); _reward.totalAccountDistributionApy = totalAccountDistributionApy .plus(distributionSupplyApy) .plus(distributionBorrowApy); distributionApy.push({ icon: reward.icon, symbol: reward.symbol, supply: distributionSupplyApy + "%", borrow: distributionBorrowApy + "%", }); }); const supplyApy = Big(market.supplyRatePerTimestamp) .mul(60 * 60 * 24) .plus(1) .pow(365) .minus(1) .mul(100) .toFixed(2); const borrowApy = Big(market.borrowRatePerTimestamp) .mul(60 * 60 * 24) .plus(1) .pow(365) .minus(1) .mul(100) .toFixed(2); markets[market.address] = { ...market, loanToValue: _loanToValue[market.address], liquidity: _liquidity[market.address], underlyingPrice: underlyingPrice, userUnderlyingBalance: _underlyingBalance[market.address], userMerberShip: _userMerberShip[market.address], supplyApy: supplyApy + "%", borrowApy: borrowApy + "%", distributionApy, dapp, rewards, }; }); let rewards = []; REWARD_TOKEN.forEach((reward) => { const _reward = _rewards[reward.symbol]; if (_reward.reward && Big(_reward.reward || 0).gt(0)) { const dailyRewards = _reward.totalAccountDistributionApy .mul(userTotalSupplyUsd.add(userTotalBorrowUsd)) .div(365 * 100) .div(_reward.price); rewards.push({ icon: reward.icon, symbol: reward.symbol, dailyRewards: dailyRewards.toString(), price: _reward.price, unclaimed: _reward.reward, }); } }); onLoad({ markets, rewards, totalSupplyUsd: totalSupplyUsd.toString(), totalBorrowUsd: totalBorrowUsd.toString(), userTotalSupplyUsd: userTotalSupplyUsd.toString(), userTotalBorrowUsd: userTotalBorrowUsd.toString(), totalCollateralUsd: totalCollateralUsd.toString(), }); }; const getUnitrollerData = () => { const calls = []; const oTokens = Object.values(markets); oTokens.forEach((token) => { calls.push({ address: unitrollerAddress, name: "markets", params: [token.address], }); if (account) { calls.push({ address: unitrollerAddress, name: "checkMembership", params: [account, token.address], }); } }); multicall({ abi: UNITROLLER_ABI, calls, options: {}, multicallAddress, provider: Ethers.provider(), }) .then((res) => { _loanToValue = {}; _userMerberShip = {}; for (let i = 0, len = res.length; i < len; i++) { const index = Math.floor(i / (account ? 2 : 1)); const mod = i % (account ? 2 : 1); switch (mod) { case 0: _loanToValue[oTokens[index].address] = ethers.utils.formatUnits( res[i][1]._hex, 16 ); break; case 1: _userMerberShip[oTokens[index].address] = res[i][0]; break; default: } } count++; formatedData("getUnitrollerData"); }) .catch((err) => { console.log("getUnitrollerData error", err); setTimeout(() => { getUnitrollerData(); }, 1000); }); }; const getUnderlyPrice = () => { if (!oracleAddress) return; const oTokens = Object.keys(markets); const calls = oTokens.map((token) => ({ address: oracleAddress, name: "getUnderlyingPrice", params: [token], })); multicall({ abi: ORACLE_ABI, calls, options: {}, multicallAddress, provider: Ethers.provider(), }) .then((res) => { _underlyPrice = {}; for (let i = 0, len = res.length; i < len; i++) { _underlyPrice[oTokens[i]] = ethers.utils.formatUnits( res[i][0]._hex, 36 - markets[oTokens[i]].underlyingToken.decimals ); } count++; formatedData("getUnderlyPrice"); }) .catch((err) => { console.log("getUnderlyPrice error", err); }); }; const getOTokenLiquidity = () => { if (!account) { return; } const underlyingTokens = Object.values(markets).map((market) => ({ ...market.underlyingToken, oTokenAddress: market.address, })); const calls = underlyingTokens.map((token) => ({ address: token.address, name: "balanceOf", params: [token.oTokenAddress], })); multicall({ abi: ERC20_ABI, calls, options: {}, multicallAddress, provider: Ethers.provider(), }) .then((res) => { _liquidity = {}; for (let i = 0, len = res.length; i < len; i++) { const oToken = markets[calls[i].params[0]]; _liquidity[oToken.address] = ethers.utils.formatUnits( res[i][0]._hex, oToken.underlyingToken.decimals ); } count++; formatedData("getOTokenLiquidity"); }) .catch((err) => { console.log("getOTokenLiquidity error", err); setTimeout(() => { getOTokenLiquidity(); }, 500); }); }; const getWalletBalance = () => { let nativeOToken = ""; const underlyingTokens = Object.values(markets) .filter((market) => { if (market.underlyingToken.address === "native") nativeOToken = market.address; return ( market.underlyingToken.address && market.underlyingToken.address !== "native" ); }) .map((market) => ({ ...market.underlyingToken, oTokenAddress: market.address, })); const calls = underlyingTokens.map((token) => ({ address: token.address, name: "balanceOf", params: [account], })); multicall({ abi: ERC20_ABI, calls, options: {}, multicallAddress, provider: Ethers.provider(), }) .then((res) => { _underlyingBalance = {}; for (let i = 0, len = res.length; i < len; i++) { _underlyingBalance[underlyingTokens[i].oTokenAddress] = res[i][0] ? ethers.utils.formatUnits( res[i][0]._hex, underlyingTokens[i].decimals ) : "0"; } if (nativeOToken) { const provider = Ethers.provider(); provider.getBalance(account).then((rawBalance) => { _underlyingBalance[nativeOToken] = ethers.utils.formatUnits( rawBalance._hex, 18 ); count++; formatedData("getWalletBalance"); }); } else { count++; formatedData("getWalletBalance"); } }) .catch((err) => { console.log("getWalletBalance error", err); setTimeout(() => { getWalletBalance(); }, 500); }); }; const getCTokenData = (oToken) => { if (oTokensLength === 0) return; const calls = [ { address: oToken.address, name: "exchangeRateCurrent", }, { address: oToken.address, name: "totalSupply", }, { address: oToken.address, name: "totalBorrows", }, { address: oToken.address, name: "supplyRatePerSecond", }, { address: oToken.address, name: "borrowRatePerSecond", }, { address: oToken.address, name: "getAccountSnapshot", params: [account], }, ]; multicall({ abi: OTOKEN_ABI, calls, options: {}, multicallAddress, provider: Ethers.provider(), }) .then((res) => { oTokensLength--; const exchangeRateStored = ethers.utils.formatUnits( res[0][0]._hex, 10 + oToken.underlyingToken.decimals ); const userSupply = ethers.utils.formatUnits( res[5][1]._hex, oToken.decimals ); const totalSupply = ethers.utils.formatUnits( res[1][0]._hex, oToken.decimals ); _cTokensData[oToken.address] = { ...oToken, exchangeRateStored, totalSupply: Big(totalSupply).mul(exchangeRateStored).toString(), totalBorrows: ethers.utils.formatUnits( res[2][0]._hex, oToken.underlyingToken.decimals ), supplyRatePerTimestamp: ethers.utils.formatUnits(res[3][0]._hex, 18), borrowRatePerTimestamp: ethers.utils.formatUnits(res[4][0]._hex, 18), userSupply: Big(userSupply).mul(exchangeRateStored).toString(), userBorrow: ethers.utils.formatUnits( res[5][2]._hex, oToken.underlyingToken.decimals ), }; if (oTokensLength === 0) { count++; formatedData("oTokens data"); } }) .catch((err) => { console.log("oTokens data error", err); // setTimeout(() => { // getCTokenData(oToken); // }, 500); }); }; const getCTokensData = () => { Object.values(markets).forEach((market) => { getCTokenData(market); }); }; const getRewards = () => { const cTokens = Object.keys(markets); const calls = []; cTokens.forEach((token) => { calls.push({ address: rewardDistributorAddress, name: "rewardSupplySpeeds", params: [0, token], }); calls.push({ address: rewardDistributorAddress, name: "rewardBorrowSpeeds", params: [0, token], }); calls.push({ address: rewardDistributorAddress, name: "rewardSupplySpeeds", params: [1, token], }); calls.push({ address: rewardDistributorAddress, name: "rewardBorrowSpeeds", params: [1, token], }); }); multicall({ abi: REWARD_ABI, calls, options: {}, multicallAddress, provider: Ethers.provider(), }) .then((res) => { cTokens.forEach((cToken, i) => { REWARD_TOKEN.forEach((reward, j) => { if (!_rewards[reward.symbol]) _rewards[reward.symbol] = {}; const price = prices[reward].symbol || 1; _rewards[reward.symbol].price = price; const index = i * 4 + j * 2; _rewards[reward.symbol][cToken] = { supply: res[index][0] ? ethers.utils .formatUnits(item[index][0]._hex, 18) .mul(price) .mul(60 * 60 * 24) : "0", borrow: res[index + 1][0] ? ethers.utils .formatUnits(item[index + 1][0]._hex, 18) .mul(price) .mul(60 * 60 * 24) : "0", }; }); }); count++; formatedData("getRewards"); }) .catch((err) => { console.log("rewards error", err); }); }; const init = () => { getUnitrollerData(); getUnderlyPrice(); getOTokenLiquidity(); getWalletBalance(); getCTokensData(); getRewards(); }; useEffect(() => { init(); }, []); return "";