/* This file is part of GNU Taler (C) 2021 Taler Systems S.A. GNU Taler is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. GNU Taler is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GNU Taler; see the file COPYING. If not, see */ /** * Imports. */ import { buildCodecForObject, codecForNumber, codecForString, codecOptional, Logger, } from "@gnu-taler/taler-util"; import { getDefaultNodeWallet, NodeHttpLib, WalletApiOperation, Wallet, } from "@gnu-taler/taler-wallet-core"; /** * Entry point for the benchmark. * * The benchmark runs against an existing Taler deployment and does not * set up its own services. */ export async function runBench1(configJson: any): Promise { const logger = new Logger("Bench1"); // Validate the configuration file for this benchmark. const b1conf = codecForBench1Config().decode(configJson); const myHttpLib = new NodeHttpLib(); myHttpLib.setThrottling(false); const numIter = b1conf.iterations ?? 1; const numDeposits = b1conf.deposits ?? 5; const restartWallet = b1conf.restartAfter ?? 20; const withdrawAmount = (numDeposits + 1) * 10; logger.info(`Starting Benchmark iterations=${numIter} deposits=${numDeposits}`); let wallet = {} as Wallet; for (let i = 0; i < numIter; i++) { // Create a new wallet in each iteration // otherwise the TPS go down // my assumption is that the in-memory db file gets too large if (i % restartWallet == 0) { wallet = await getDefaultNodeWallet({ // No persistent DB storage. persistentStoragePath: undefined, httpLib: myHttpLib, }); } await wallet.client.call(WalletApiOperation.InitWallet, {}); logger.trace(`Starting withdrawal amount=${withdrawAmount}`); let start = Date.now(); await wallet.client.call(WalletApiOperation.WithdrawFakebank, { amount: b1conf.currency + ":" + withdrawAmount, bank: b1conf.bank, exchange: b1conf.exchange, }); await wallet.runTaskLoop({ stopWhenDone: true, }); logger.info(`Finished withdrawal amount=${withdrawAmount} time=${Date.now() - start}`); for (let i = 0; i < numDeposits; i++) { logger.trace(`Starting deposit amount=10`); start = Date.now() await wallet.client.call(WalletApiOperation.CreateDepositGroup, { amount: b1conf.currency + ":10", depositPaytoUri: b1conf.payto, }); await wallet.runTaskLoop({ stopWhenDone: true, }); logger.info(`Finished deposit amount=10 time=${Date.now() - start}`); } wallet.stop(); } } /** * Format of the configuration file passed to the benchmark */ interface Bench1Config { /** * Base URL of the bank. */ bank: string; /** * Payto url for deposits. */ payto: string; /** * Base URL of the exchange. */ exchange: string; /** * How many withdraw/deposit iterations should be made? * Defaults to 1. */ iterations?: number; currency: string; deposits?: number; /** * How any iterations run until the wallet db gets purged * Defaults to 20. */ restartAfter?: number; } /** * Schema validation codec for Bench1Config. */ const codecForBench1Config = () => buildCodecForObject() .property("bank", codecForString()) .property("payto", codecForString()) .property("exchange", codecForString()) .property("iterations", codecOptional(codecForNumber())) .property("deposits", codecOptional(codecForNumber())) .property("currency", codecForString()) .property("restartAfter", codecOptional(codecForNumber())) .build("Bench1Config");