testFlash1.js

"use strict";
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    }
};
Object.defineProperty(exports, "__esModule", { value: true });
var sdk_1 = require("@balancer-labs/sdk");
var ethers_1 = require("ethers");
var PRIVATE_KEY = '7af4cd760da9c199055c764019290db0417c109ddd913968c0138ae548ef66ed';
var INFURA_API_KEY = 'f5363227615e463db096757712e53f20';
function findArbitrageOpportunities() {
    return __awaiter(this, void 0, void 0, function () {
        var config, balancer, pools, vaultAddress, allPools, filteredPools, arbitrageOpportunities, graph, _i, arbitrageOpportunities_1, opportunity, path, error_1;
        return __generator(this, function (_a) {
            switch (_a.label) {
                case 0:
                    config = {
                        network: sdk_1.Network.MAINNET,
                        rpcUrl: "https://mainnet.infura.io/v3/f5363227615e463db096757712e53f20",
                    };
                    balancer = new sdk_1.BalancerSDK(config);
                    pools = balancer.data.pools;
                    vaultAddress = '0xBA12222222228d8Ba445958a75a0704d566BF2C8';
                    _a.label = 1;
                case 1:
                    _a.trys.push([1, 10, , 11]);
                    return [4 /*yield*/, pools.all()];
                case 2:
                    allPools = _a.sent();
                    filteredPools = allPools.filter(function (pool) { return parseFloat(pool.totalLiquidity) > 50000; });
                    arbitrageOpportunities = [];
                    _a.label = 3;
                case 3:
                    if (!(arbitrageOpportunities.length === 0)) return [3 /*break*/, 9];
                    return [4 /*yield*/, buildTokenGraph(filteredPools, balancer)];
                case 4:
                    graph = _a.sent();
                    // Perform graph search to find arbitrage opportunities using FloydWarshall algorithm
                    arbitrageOpportunities = findArbitrageOpportunitiesFloydWarshall(graph);
                    _i = 0, arbitrageOpportunities_1 = arbitrageOpportunities;
                    _a.label = 5;
                case 5:
                    if (!(_i < arbitrageOpportunities_1.length)) return [3 /*break*/, 8];
                    opportunity = arbitrageOpportunities_1[_i];
                    path = opportunity.split('-').slice(1).map(function (address) { return address.split('_')[1]; });
                    return [4 /*yield*/, executeFlashSwap(path, vaultAddress, balancer)];
                case 6:
                    _a.sent();
                    _a.label = 7;
                case 7:
                    _i++;
                    return [3 /*break*/, 5];
                case 8: return [3 /*break*/, 3];
                case 9: return [3 /*break*/, 11];
                case 10:
                    error_1 = _a.sent();
                    console.error('An error occurred:', error_1);
                    return [3 /*break*/, 11];
                case 11: return [2 /*return*/];
            }
        });
    });
}
function executeFlashSwap(path, vaultAddress, balancer) {
    return __awaiter(this, void 0, void 0, function () {
        var provider, wallet, swaps, assets, i, poolId, tokenA, tokenB, swapStep, funds, limits, deadline, encodedBatchSwapData, deltas, flashSwapTx;
        return __generator(this, function (_a) {
            switch (_a.label) {
                case 0:
                    provider = new ethers_1.ethers.providers.InfuraProvider(sdk_1.Network.MAINNET, INFURA_API_KEY);
                    wallet = new ethers_1.ethers.Wallet(PRIVATE_KEY, provider);
                    swaps = [];
                    assets = [];
                    for (i = 0; i < path.length - 1; i++) {
                        poolId = getPoolIdFromKey(path[i]);
                        if (!poolId) {
                            throw new Error("Pool not found for path ".concat(path[i]));
                        }
                        tokenA = path[i].split('_')[1];
                        tokenB = path[i + 1].split('_')[1];
                        swapStep = {
                            poolId: poolId,
                            assetInIndex: i === 0 ? i : i - 1,
                            assetOutIndex: i === 0 ? i + 1 : i,
                            amount: '1000000000000000',
                            userData: '0x',
                        };
                        swaps.push(swapStep);
                        assets.push(tokenA);
                    }
                    funds = {
                        sender: wallet.address,
                        fromInternalBalance: false,
                        recipient: wallet.address,
                        toInternalBalance: false,
                    };
                    limits = ['1000000000000000', '0', '0'];
                    deadline = '9999999999999999';
                    encodedBatchSwapData = sdk_1.Swaps.encodeBatchSwap({
                        kind: sdk_1.SwapType.SwapExactIn,
                        swaps: swaps,
                        assets: assets,
                        funds: funds,
                        limits: limits,
                        deadline: deadline,
                    });
                    return [4 /*yield*/, balancer.swaps.queryBatchSwap({
                            kind: sdk_1.SwapType.SwapExactIn,
                            swaps: swaps,
                            assets: assets,
                        })];
                case 1:
                    deltas = _a.sent();
                    console.log(deltas.toString());
                    return [4 /*yield*/, wallet.sendTransaction({
                            to: vaultAddress,
                            data: encodedBatchSwapData,
                            value: '0',
                            gasLimit: 4000000,
                        })];
                case 2:
                    flashSwapTx = _a.sent();
                    console.log('Flash Swap Transaction:', flashSwapTx.hash);
                    return [2 /*return*/];
            }
        });
    });
}
function buildTokenGraph(poolfilter, balancer) {
    var _a, _b;
    return __awaiter(this, void 0, void 0, function () {
        var graph, uniqueTokens, _i, poolfilter_1, pool, tokens, poolId, pool1, j, tokenA, priceTokenA, k, tokenB, priceTokenB, wrtPriceAB, wrtPriceBA, spotPriceAtoB, spotPriceBtoA, tokenPairKey, inverseTokenPairKey;
        return __generator(this, function (_c) {
            switch (_c.label) {
                case 0:
                    graph = new Map();
                    uniqueTokens = new Set();
                    _i = 0, poolfilter_1 = poolfilter;
                    _c.label = 1;
                case 1:
                    if (!(_i < poolfilter_1.length)) return [3 /*break*/, 4];
                    pool = poolfilter_1[_i];
                    tokens = pool.tokens.map(function (token) { return token.id; });
                    poolId = pool.id;
                    return [4 /*yield*/, balancer.pools.find(poolId)];
                case 2:
                    pool1 = _c.sent();
                    for (j = 0; j < tokens.length; j++) {
                        tokenA = tokens[j];
                        uniqueTokens.add(tokenA);
                        priceTokenA = parseFloat(((_a = pool1.tokens[j].token) === null || _a === void 0 ? void 0 : _a.latestUSDPrice) || '0');
                        for (k = j + 1; k < tokens.length; k++) {
                            tokenB = tokens[k];
                            uniqueTokens.add(tokenB);
                            priceTokenB = parseFloat(((_b = pool1.tokens[k].token) === null || _b === void 0 ? void 0 : _b.latestUSDPrice) || '0');
                            wrtPriceAB = priceTokenA / priceTokenB;
                            wrtPriceBA = priceTokenB / priceTokenA;
                            spotPriceAtoB = wrtPriceAB * (1 + parseFloat(pool1.swapFee));
                            spotPriceBtoA = wrtPriceBA * (1 + parseFloat(pool1.swapFee));
                            tokenPairKey = "".concat(tokenA, "_").concat(tokenB);
                            inverseTokenPairKey = "".concat(tokenB, "_").concat(tokenA);
                            graph.set(tokenPairKey, Math.log(spotPriceAtoB));
                            graph.set(inverseTokenPairKey, Math.log(spotPriceBtoA));
                        }
                    }
                    _c.label = 3;
                case 3:
                    _i++;
                    return [3 /*break*/, 1];
                case 4: return [2 /*return*/, { graph: graph, nodes: Array.from(uniqueTokens) }];
            }
        });
    });
}
function findArbitrageOpportunitiesFloydWarshall(graphData) {
    var graph = graphData.graph, nodes = graphData.nodes;
    var distances = new Map();
    var next = new Map();
    // Initialize distances and next nodes
    for (var _i = 0, nodes_1 = nodes; _i < nodes_1.length; _i++) {
        var node = nodes_1[_i];
        distances.set(node, new Map());
        next.set(node, new Map());
        for (var _a = 0, nodes_2 = nodes; _a < nodes_2.length; _a++) {
            var neighbor = nodes_2[_a];
            distances.get(node).set(neighbor, Infinity);
            next.get(node).set(neighbor, null);
        }
        distances.get(node).set(node, 0);
    }
    // Update distances and next nodes based on direct edges
    for (var _b = 0, _c = graph.entries(); _b < _c.length; _b++) {
        var _d = _c[_b], edge = _d[0], weight = _d[1];
        var _e = edge.split('_'), source = _e[0], target = _e[1];
        distances.get(source).set(target, weight);
        next.get(source).set(target, target);
    }
    // Update distances and next nodes based on intermediate nodes
    for (var _f = 0, nodes_3 = nodes; _f < nodes_3.length; _f++) {
        var intermediate = nodes_3[_f];
        for (var _g = 0, nodes_4 = nodes; _g < nodes_4.length; _g++) {
            var source = nodes_4[_g];
            for (var _h = 0, nodes_5 = nodes; _h < nodes_5.length; _h++) {
                var target = nodes_5[_h];
                var newDistance = distances.get(source).get(intermediate) + distances.get(intermediate).get(target);
                if (newDistance < distances.get(source).get(target)) {
                    distances.get(source).set(target, newDistance);
                    next.get(source).set(target, next.get(source).get(intermediate));
                }
            }
        }
    }
    // Find negative weight cycles
    var arbitrageOpportunities = [];
    for (var _j = 0, nodes_6 = nodes; _j < nodes_6.length; _j++) {
        var source = nodes_6[_j];
        for (var _k = 0, nodes_7 = nodes; _k < nodes_7.length; _k++) {
            var target = nodes_7[_k];
            if (distances.get(source).get(target) < 0) {
                var cycle = findNegativeWeightCycle(next, source, target);
                arbitrageOpportunities.push(cycle.join(' -> '));
            }
        }
    }
    return arbitrageOpportunities;
}
function findNegativeWeightCycle(next, source, target) {
    var cycle = [source];
    var node = source;
    while (node !== target) {
        node = next.get(node).get(target);
        cycle.push(node);
    }
    cycle.push(source);
    return cycle;
}
/* function findtokenaddress(key) {
   const startIndex = key.indexOf('-') + 1; // Find the index after the first '-'
   const endIndex = key.indexOf('_', startIndex); // Find the index of the first '_'
 
   // Extract the pool ID substring from the key
   const poolId = key.substring(startIndex, endIndex);
 
   return poolId;
 }*/
function getPoolIdFromKey(key) {
    var separatorIndex = key.indexOf('-'); // Find the index of the first '-'
    var poolId = key.substring(0, separatorIndex); // Extract the pool ID from the key
    return poolId;
}
findArbitrageOpportunities();