// Copyright (c) 2011-2021 The Bitcoin Core developers // Distributed under the MIT software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. #include #include #include #include #include #include static void AddTx(const CTransactionRef& tx, CTxMemPool& pool) EXCLUSIVE_LOCKS_REQUIRED(cs_main, pool.cs) { int64_t nTime = 0; unsigned int nHeight = 1; bool spendsCoinbase = false; unsigned int sigOpCost = 4; LockPoints lp; pool.addUnchecked(CTxMemPoolEntry(tx, 1000, nTime, nHeight, spendsCoinbase, sigOpCost, lp)); } struct Available { CTransactionRef ref; size_t vin_left{0}; size_t tx_count; Available(CTransactionRef& ref, size_t tx_count) : ref(ref), tx_count(tx_count){} }; static std::vector CreateOrderedCoins(FastRandomContext& det_rand, int childTxs, int min_ancestors) { std::vector available_coins; std::vector ordered_coins; // Create some base transactions size_t tx_counter = 1; for (auto x = 0; x < 100; ++x) { CMutableTransaction tx = CMutableTransaction(); tx.vin.resize(1); tx.vin[0].scriptSig = CScript() << CScriptNum(tx_counter); tx.vin[0].scriptWitness.stack.push_back(CScriptNum(x).getvch()); tx.vout.resize(det_rand.randrange(10)+2); for (auto& out : tx.vout) { out.scriptPubKey = CScript() << CScriptNum(tx_counter) << OP_EQUAL; out.nValue = 10 * COIN; } ordered_coins.emplace_back(MakeTransactionRef(tx)); available_coins.emplace_back(ordered_coins.back(), tx_counter++); } for (auto x = 0; x < childTxs && !available_coins.empty(); ++x) { CMutableTransaction tx = CMutableTransaction(); size_t n_ancestors = det_rand.randrange(10)+1; for (size_t ancestor = 0; ancestor < n_ancestors && !available_coins.empty(); ++ancestor){ size_t idx = det_rand.randrange(available_coins.size()); Available coin = available_coins[idx]; uint256 hash = coin.ref->GetHash(); // biased towards taking min_ancestors parents, but maybe more size_t n_to_take = det_rand.randrange(2) == 0 ? min_ancestors : min_ancestors + det_rand.randrange(coin.ref->vout.size() - coin.vin_left); for (size_t i = 0; i < n_to_take; ++i) { tx.vin.emplace_back(); tx.vin.back().prevout = COutPoint(hash, coin.vin_left++); tx.vin.back().scriptSig = CScript() << coin.tx_count; tx.vin.back().scriptWitness.stack.push_back(CScriptNum(coin.tx_count).getvch()); } if (coin.vin_left == coin.ref->vin.size()) { coin = available_coins.back(); available_coins.pop_back(); } tx.vout.resize(det_rand.randrange(10)+2); for (auto& out : tx.vout) { out.scriptPubKey = CScript() << CScriptNum(tx_counter) << OP_EQUAL; out.nValue = 10 * COIN; } } ordered_coins.emplace_back(MakeTransactionRef(tx)); available_coins.emplace_back(ordered_coins.back(), tx_counter++); } return ordered_coins; } static void ComplexMemPool(benchmark::Bench& bench) { FastRandomContext det_rand{true}; int childTxs = 800; if (bench.complexityN() > 1) { childTxs = static_cast(bench.complexityN()); } std::vector ordered_coins = CreateOrderedCoins(det_rand, childTxs, /*min_ancestors=*/1); const auto testing_setup = MakeNoLogFileContext(CBaseChainParams::MAIN); CTxMemPool& pool = *testing_setup.get()->m_node.mempool; LOCK2(cs_main, pool.cs); bench.run([&]() NO_THREAD_SAFETY_ANALYSIS { for (auto& tx : ordered_coins) { AddTx(tx, pool); } pool.TrimToSize(pool.DynamicMemoryUsage() * 3 / 4); pool.TrimToSize(GetVirtualTransactionSize(*ordered_coins.front())); }); } static void MempoolCheck(benchmark::Bench& bench) { FastRandomContext det_rand{true}; auto testing_setup = MakeNoLogFileContext(CBaseChainParams::REGTEST, {"-checkmempool=1"}); CTxMemPool& pool = *testing_setup.get()->m_node.mempool; LOCK2(cs_main, pool.cs); testing_setup->PopulateMempool(det_rand, 400, true); const CCoinsViewCache& coins_tip = testing_setup.get()->m_node.chainman->ActiveChainstate().CoinsTip(); bench.run([&]() NO_THREAD_SAFETY_ANALYSIS { // Bump up the spendheight so we don't hit premature coinbase spend errors. pool.check(coins_tip, /*spendheight=*/300); }); } BENCHMARK(ComplexMemPool); BENCHMARK(MempoolCheck);