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bitcoin/src/test/fuzz/rbf.cpp

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// Copyright (c) 2020-2022 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 <node/mempool_args.h>
#include <policy/rbf.h>
#include <primitives/transaction.h>
#include <sync.h>
#include <test/fuzz/FuzzedDataProvider.h>
#include <test/fuzz/fuzz.h>
#include <test/fuzz/util.h>
#include <test/fuzz/util/mempool.h>
#include <test/util/setup_common.h>
#include <test/util/txmempool.h>
#include <txmempool.h>
#include <cstdint>
#include <optional>
#include <string>
#include <vector>
namespace {
const BasicTestingSetup* g_setup;
} // namespace
const int NUM_ITERS = 10000;
std::vector<COutPoint> g_outpoints;
void initialize_rbf()
{
static const auto testing_setup = MakeNoLogFileContext<>();
g_setup = testing_setup.get();
}
void initialize_package_rbf()
{
static const auto testing_setup = MakeNoLogFileContext<>();
g_setup = testing_setup.get();
// Create a fixed set of unique "UTXOs" to source parents from
// to avoid fuzzer giving circular references
for (int i = 0; i < NUM_ITERS; ++i) {
g_outpoints.emplace_back();
g_outpoints.back().n = i;
}
}
FUZZ_TARGET(rbf, .init = initialize_rbf)
{
FuzzedDataProvider fuzzed_data_provider(buffer.data(), buffer.size());
SetMockTime(ConsumeTime(fuzzed_data_provider));
std::optional<CMutableTransaction> mtx = ConsumeDeserializable<CMutableTransaction>(fuzzed_data_provider, TX_WITH_WITNESS);
if (!mtx) {
return;
}
CTxMemPool pool{MemPoolOptionsForTest(g_setup->m_node)};
LIMITED_WHILE(fuzzed_data_provider.ConsumeBool(), NUM_ITERS)
{
const std::optional<CMutableTransaction> another_mtx = ConsumeDeserializable<CMutableTransaction>(fuzzed_data_provider, TX_WITH_WITNESS);
if (!another_mtx) {
break;
}
const CTransaction another_tx{*another_mtx};
if (fuzzed_data_provider.ConsumeBool() && !mtx->vin.empty()) {
mtx->vin[0].prevout = COutPoint{another_tx.GetHash(), 0};
}
LOCK2(cs_main, pool.cs);
pool.addUnchecked(ConsumeTxMemPoolEntry(fuzzed_data_provider, another_tx));
}
const CTransaction tx{*mtx};
if (fuzzed_data_provider.ConsumeBool()) {
LOCK2(cs_main, pool.cs);
pool.addUnchecked(ConsumeTxMemPoolEntry(fuzzed_data_provider, tx));
}
{
LOCK(pool.cs);
(void)IsRBFOptIn(tx, pool);
}
}
void CheckDiagramConcave(std::vector<FeeFrac>& diagram)
{
// Diagrams are in monotonically-decreasing feerate order.
FeeFrac last_chunk = diagram.front();
for (size_t i = 1; i<diagram.size(); ++i) {
FeeFrac next_chunk = diagram[i] - diagram[i-1];
assert(next_chunk <= last_chunk);
last_chunk = next_chunk;
}
}
FUZZ_TARGET(package_rbf, .init = initialize_package_rbf)
{
FuzzedDataProvider fuzzed_data_provider(buffer.data(), buffer.size());
SetMockTime(ConsumeTime(fuzzed_data_provider));
std::optional<CMutableTransaction> child = ConsumeDeserializable<CMutableTransaction>(fuzzed_data_provider, TX_WITH_WITNESS);
if (!child) return;
CTxMemPool pool{MemPoolOptionsForTest(g_setup->m_node)};
// Add a bunch of parent-child pairs to the mempool, and remember them.
std::vector<CTransaction> mempool_txs;
size_t iter{0};
LOCK2(cs_main, pool.cs);
LIMITED_WHILE(fuzzed_data_provider.ConsumeBool(), NUM_ITERS)
{
// Make sure txns only have one input, and that a unique input is given to avoid circular references
std::optional<CMutableTransaction> parent = ConsumeDeserializable<CMutableTransaction>(fuzzed_data_provider, TX_WITH_WITNESS);
if (!parent) {
continue;
}
assert(iter <= g_outpoints.size());
parent->vin.resize(1);
parent->vin[0].prevout = g_outpoints[iter++];
mempool_txs.emplace_back(*parent);
pool.addUnchecked(ConsumeTxMemPoolEntry(fuzzed_data_provider, mempool_txs.back()));
if (fuzzed_data_provider.ConsumeBool() && !child->vin.empty()) {
child->vin[0].prevout = COutPoint{mempool_txs.back().GetHash(), 0};
}
mempool_txs.emplace_back(*child);
pool.addUnchecked(ConsumeTxMemPoolEntry(fuzzed_data_provider, mempool_txs.back()));
}
// Pick some transactions at random to be the direct conflicts
CTxMemPool::setEntries direct_conflicts;
for (auto& tx : mempool_txs) {
if (fuzzed_data_provider.ConsumeBool()) {
direct_conflicts.insert(*pool.GetIter(tx.GetHash()));
}
}
// Calculate all conflicts:
CTxMemPool::setEntries all_conflicts;
for (auto& txiter : direct_conflicts) {
pool.CalculateDescendants(txiter, all_conflicts);
}
// Calculate the feerate diagrams for a replacement.
CAmount replacement_fees = ConsumeMoney(fuzzed_data_provider);
int64_t replacement_vsize = fuzzed_data_provider.ConsumeIntegralInRange<int64_t>(1, 1000000);
auto calc_results{pool.CalculateFeerateDiagramsForRBF(replacement_fees, replacement_vsize, direct_conflicts, all_conflicts)};
if (calc_results.has_value()) {
// Sanity checks on the diagrams.
// Diagrams start at 0.
assert(calc_results->first.front().size == 0);
assert(calc_results->first.front().fee == 0);
assert(calc_results->second.front().size == 0);
assert(calc_results->second.front().fee == 0);
CheckDiagramConcave(calc_results->first);
CheckDiagramConcave(calc_results->second);
CAmount replaced_fee{0};
int64_t replaced_size{0};
for (auto txiter : all_conflicts) {
replaced_fee += txiter->GetModifiedFee();
replaced_size += txiter->GetTxSize();
}
// The total fee of the new diagram should be the total fee of the old
// diagram - replaced_fee + replacement_fees
assert(calc_results->first.back().fee - replaced_fee + replacement_fees == calc_results->second.back().fee);
assert(calc_results->first.back().size - replaced_size + replacement_vsize == calc_results->second.back().size);
}
// If internals report error, wrapper should too
auto err_tuple{ImprovesFeerateDiagram(pool, direct_conflicts, all_conflicts, replacement_fees, replacement_vsize)};
if (!calc_results.has_value()) assert(err_tuple.has_value());
}
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