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@lightlink-network/ll-sdk

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[LightLink] Tools for working with LightLink

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"use strict"; var __importDefault = (this && this.__importDefault) || function (mod) { return (mod && mod.__esModule) ? mod : { "default": mod }; }; Object.defineProperty(exports, "__esModule", { value: true }); exports.StandardBridgeAdapter = void 0; const contracts_1 = require("@eth-optimism/contracts"); const core_utils_1 = require("@eth-optimism/core-utils"); const ethers_1 = require("ethers"); const L1StandardBridge_json_1 = __importDefault(require("../forge-artifacts/L1StandardBridge.json")); const L2StandardBridge_json_1 = __importDefault(require("../forge-artifacts/L2StandardBridge.json")); const OptimismMintableERC20_json_1 = __importDefault(require("../forge-artifacts/OptimismMintableERC20.json")); const interfaces_1 = require("../interfaces"); const coercion_1 = require("../utils/coercion"); class StandardBridgeAdapter { constructor(opts) { this.populateTransaction = { approve: async (l1Token, l2Token, amount, opts) => { if (!(await this.supportsTokenPair(l1Token, l2Token))) { throw new Error(`token pair not supported by bridge`); } const token = new ethers_1.Contract((0, coercion_1.toAddress)(l1Token), OptimismMintableERC20_json_1.default.abi, this.messenger.l1Provider); return token.populateTransaction.approve(this.l1Bridge.address, amount, (opts === null || opts === void 0 ? void 0 : opts.overrides) || {}); }, deposit: async (l1Token, l2Token, amount, opts) => { if (!(await this.supportsTokenPair(l1Token, l2Token))) { throw new Error(`token pair not supported by bridge`); } if ((opts === null || opts === void 0 ? void 0 : opts.recipient) === undefined) { return this.l1Bridge.populateTransaction.depositERC20((0, coercion_1.toAddress)(l1Token), (0, coercion_1.toAddress)(l2Token), amount, (opts === null || opts === void 0 ? void 0 : opts.l2GasLimit) || 200000, '0x', (opts === null || opts === void 0 ? void 0 : opts.overrides) || {}); } else { return this.l1Bridge.populateTransaction.depositERC20To((0, coercion_1.toAddress)(l1Token), (0, coercion_1.toAddress)(l2Token), (0, coercion_1.toAddress)(opts.recipient), amount, (opts === null || opts === void 0 ? void 0 : opts.l2GasLimit) || 200000, '0x', (opts === null || opts === void 0 ? void 0 : opts.overrides) || {}); } }, withdraw: async (l1Token, l2Token, amount, opts) => { if (!(await this.supportsTokenPair(l1Token, l2Token))) { throw new Error(`token pair not supported by bridge`); } if ((opts === null || opts === void 0 ? void 0 : opts.recipient) === undefined) { return this.l2Bridge.populateTransaction.withdraw((0, coercion_1.toAddress)(l2Token), amount, 0, '0x', (opts === null || opts === void 0 ? void 0 : opts.overrides) || {}); } else { return this.l2Bridge.populateTransaction.withdrawTo((0, coercion_1.toAddress)(l2Token), (0, coercion_1.toAddress)(opts.recipient), amount, 0, '0x', (opts === null || opts === void 0 ? void 0 : opts.overrides) || {}); } }, }; this.estimateGas = { approve: async (l1Token, l2Token, amount, opts) => { return this.messenger.l1Provider.estimateGas(await this.populateTransaction.approve(l1Token, l2Token, amount, opts)); }, deposit: async (l1Token, l2Token, amount, opts) => { return this.messenger.l1Provider.estimateGas(await this.populateTransaction.deposit(l1Token, l2Token, amount, opts)); }, withdraw: async (l1Token, l2Token, amount, opts) => { return this.messenger.l2Provider.estimateGas(await this.populateTransaction.withdraw(l1Token, l2Token, amount, opts)); }, }; this.messenger = opts.messenger; this.l1Bridge = new ethers_1.Contract((0, coercion_1.toAddress)(opts.l1Bridge), L1StandardBridge_json_1.default.abi, this.messenger.l1Provider); this.l2Bridge = new ethers_1.Contract((0, coercion_1.toAddress)(opts.l2Bridge), L2StandardBridge_json_1.default.abi, this.messenger.l2Provider); } async getDepositsByAddress(address, opts) { const events = await this.l1Bridge.queryFilter(this.l1Bridge.filters.ERC20DepositInitiated(undefined, undefined, address), opts === null || opts === void 0 ? void 0 : opts.fromBlock, opts === null || opts === void 0 ? void 0 : opts.toBlock); return events .filter((event) => { return (!(0, core_utils_1.hexStringEquals)(event.args.l1Token, ethers_1.ethers.constants.AddressZero) && !(0, core_utils_1.hexStringEquals)(event.args.l2Token, contracts_1.predeploys.OVM_ETH)); }) .map((event) => { return { direction: interfaces_1.MessageDirection.L1_TO_L2, from: event.args.from, to: event.args.to, l1Token: event.args.l1Token, l2Token: event.args.l2Token, amount: event.args.amount, data: event.args.extraData, logIndex: event.logIndex, blockNumber: event.blockNumber, transactionHash: event.transactionHash, }; }) .sort((a, b) => { return b.blockNumber - a.blockNumber; }); } async getWithdrawalsByAddress(address, opts) { const events = await this.l2Bridge.queryFilter(this.l2Bridge.filters.WithdrawalInitiated(undefined, undefined, address), opts === null || opts === void 0 ? void 0 : opts.fromBlock, opts === null || opts === void 0 ? void 0 : opts.toBlock); return events .filter((event) => { return (!(0, core_utils_1.hexStringEquals)(event.args.l1Token, ethers_1.ethers.constants.AddressZero) && !(0, core_utils_1.hexStringEquals)(event.args.l2Token, contracts_1.predeploys.OVM_ETH)); }) .map((event) => { return { direction: interfaces_1.MessageDirection.L2_TO_L1, from: event.args.from, to: event.args.to, l1Token: event.args.l1Token, l2Token: event.args.l2Token, amount: event.args.amount, data: event.args.extraData, logIndex: event.logIndex, blockNumber: event.blockNumber, transactionHash: event.transactionHash, }; }) .sort((a, b) => { return b.blockNumber - a.blockNumber; }); } async supportsTokenPair(l1Token, l2Token) { const contract = new ethers_1.Contract((0, coercion_1.toAddress)(l2Token), OptimismMintableERC20_json_1.default.abi, this.messenger.l2Provider); if ((0, core_utils_1.hexStringEquals)((0, coercion_1.toAddress)(l1Token), ethers_1.ethers.constants.AddressZero) || (0, core_utils_1.hexStringEquals)((0, coercion_1.toAddress)(l2Token), contracts_1.predeploys.OVM_ETH)) { return false; } const remoteL1Token = await contract.l1Token(); if (!(0, core_utils_1.hexStringEquals)(remoteL1Token, (0, coercion_1.toAddress)(l1Token))) { return false; } const remoteL2Bridge = await contract.l2Bridge(); if (!(0, core_utils_1.hexStringEquals)(remoteL2Bridge, this.l2Bridge.address)) { return false; } return true; } async approval(l1Token, l2Token, signer) { if (!(await this.supportsTokenPair(l1Token, l2Token))) { throw new Error(`token pair not supported by bridge`); } const token = new ethers_1.Contract((0, coercion_1.toAddress)(l1Token), OptimismMintableERC20_json_1.default.abi, this.messenger.l1Provider); return token.allowance(await signer.getAddress(), this.l1Bridge.address); } async approve(l1Token, l2Token, amount, signer, opts) { return signer.sendTransaction(await this.populateTransaction.approve(l1Token, l2Token, amount, opts)); } async deposit(l1Token, l2Token, amount, signer, opts) { return signer.sendTransaction(await this.populateTransaction.deposit(l1Token, l2Token, amount, opts)); } async withdraw(l1Token, l2Token, amount, signer, opts) { return signer.sendTransaction(await this.populateTransaction.withdraw(l1Token, l2Token, amount, opts)); } } exports.StandardBridgeAdapter = StandardBridgeAdapter; //# sourceMappingURL=standard-bridge.js.map