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bitcoin/src/bench/addrman.cpp
Lőrinc e6430b2773 bench: make setup() use single-iteration epochs 
`setup()` in nanobench runs once per epoch, not once per timed call.
If an epoch executes the benchmark body multiple times, `setup()` can silently leave later iterations with different preconditions.

Make `setup()` force `epochIterations(1)` itself: keep rejecting incompatible larger explicit epoch sizes, but allow existing single-iteration callers such as `-sanity-check`.

With `setup()` handling this centrally, remove the redundant `epochIterations(1)` calls from the benchmarks that use it.

Co-authored-by: David Gumberg <davidzgumberg@gmail.com>
2026-04-23 20:54:40 +02:00

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// Copyright (c) 2020-present 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 <addrman.h>
#include <bench/bench.h>
#include <compat/compat.h>
#include <netaddress.h>
#include <netbase.h>
#include <netgroup.h>
#include <protocol.h>
#include <random.h>
#include <span.h>
#include <uint256.h>
#include <util/check.h>
#include <util/time.h>
#include <cstring>
#include <optional>
#include <vector>
/* A "source" is a source address from which we have received a bunch of other addresses. */
static constexpr size_t NUM_SOURCES = 64;
static constexpr size_t NUM_ADDRESSES_PER_SOURCE = 256;
static auto EMPTY_NETGROUPMAN{NetGroupManager::NoAsmap()};
static constexpr uint32_t ADDRMAN_CONSISTENCY_CHECK_RATIO{0};
static std::vector<CAddress> g_sources;
static std::vector<std::vector<CAddress>> g_addresses;
static void CreateAddresses()
{
if (g_sources.size() > 0) { // already created
return;
}
FastRandomContext rng(uint256(std::vector<unsigned char>(32, 123)));
auto randAddr = [&rng]() {
in6_addr addr;
memcpy(&addr, rng.randbytes(sizeof(addr)).data(), sizeof(addr));
uint16_t port;
memcpy(&port, rng.randbytes(sizeof(port)).data(), sizeof(port));
if (port == 0) {
port = 1;
}
CAddress ret(CService(addr, port), NODE_NETWORK);
ret.nTime = Now<NodeSeconds>();
return ret;
};
for (size_t source_i = 0; source_i < NUM_SOURCES; ++source_i) {
g_sources.emplace_back(randAddr());
g_addresses.emplace_back();
for (size_t addr_i = 0; addr_i < NUM_ADDRESSES_PER_SOURCE; ++addr_i) {
g_addresses[source_i].emplace_back(randAddr());
}
}
}
static void AddAddressesToAddrMan(AddrMan& addrman)
{
for (size_t source_i = 0; source_i < NUM_SOURCES; ++source_i) {
addrman.Add(g_addresses[source_i], g_sources[source_i]);
}
}
static void FillAddrMan(AddrMan& addrman)
{
CreateAddresses();
AddAddressesToAddrMan(addrman);
}
/* Benchmarks */
static void AddrManAdd(benchmark::Bench& bench)
{
CreateAddresses();
bench.run([&] {
AddrMan addrman{EMPTY_NETGROUPMAN, /*deterministic=*/false, ADDRMAN_CONSISTENCY_CHECK_RATIO};
AddAddressesToAddrMan(addrman);
});
}
static void AddrManSelect(benchmark::Bench& bench)
{
AddrMan addrman{EMPTY_NETGROUPMAN, /*deterministic=*/false, ADDRMAN_CONSISTENCY_CHECK_RATIO};
FillAddrMan(addrman);
bench.run([&] {
const auto& address = addrman.Select();
assert(address.first.GetPort() > 0);
});
}
// The worst case performance of the Select() function is when there is only
// one address on the table, because it linearly searches every position of
// several buckets before identifying the correct bucket
static void AddrManSelectFromAlmostEmpty(benchmark::Bench& bench)
{
AddrMan addrman{EMPTY_NETGROUPMAN, /*deterministic=*/false, ADDRMAN_CONSISTENCY_CHECK_RATIO};
// Add one address to the new table
CService addr = Lookup("250.3.1.1", 8333, false).value();
addrman.Add({CAddress(addr, NODE_NONE)}, addr);
bench.run([&] {
(void)addrman.Select();
});
}
static void AddrManSelectByNetwork(benchmark::Bench& bench)
{
AddrMan addrman{EMPTY_NETGROUPMAN, /*deterministic=*/false, ADDRMAN_CONSISTENCY_CHECK_RATIO};
// add single I2P address to new table
CService i2p_service;
i2p_service.SetSpecial("udhdrtrcetjm5sxzskjyr5ztpeszydbh4dpl3pl4utgqqw2v4jna.b32.i2p");
CAddress i2p_address(i2p_service, NODE_NONE);
i2p_address.nTime = Now<NodeSeconds>();
const CNetAddr source{LookupHost("252.2.2.2", false).value()};
addrman.Add({i2p_address}, source);
FillAddrMan(addrman);
bench.run([&] {
(void)addrman.Select(/*new_only=*/false, {NET_I2P});
});
}
static void AddrManGetAddr(benchmark::Bench& bench)
{
AddrMan addrman{EMPTY_NETGROUPMAN, /*deterministic=*/false, ADDRMAN_CONSISTENCY_CHECK_RATIO};
FillAddrMan(addrman);
bench.run([&] {
const auto& addresses = addrman.GetAddr(/*max_addresses=*/2500, /*max_pct=*/23, /*network=*/std::nullopt);
assert(addresses.size() > 0);
});
}
static void AddrManAddThenGood(benchmark::Bench& bench)
{
auto markSomeAsGood = [](AddrMan& addrman) {
for (size_t source_i = 0; source_i < NUM_SOURCES; ++source_i) {
for (size_t addr_i = 0; addr_i < NUM_ADDRESSES_PER_SOURCE; ++addr_i) {
addrman.Good(g_addresses[source_i][addr_i]);
}
}
};
CreateAddresses();
std::optional<AddrMan> addrman;
bench.setup([&] {
addrman.emplace(EMPTY_NETGROUPMAN, /*deterministic=*/false, ADDRMAN_CONSISTENCY_CHECK_RATIO);
AddAddressesToAddrMan(*addrman);
})
.run([&] { markSomeAsGood(*addrman); });
}
BENCHMARK(AddrManAdd);
BENCHMARK(AddrManSelect);
BENCHMARK(AddrManSelectFromAlmostEmpty);
BENCHMARK(AddrManSelectByNetwork);
BENCHMARK(AddrManGetAddr);
BENCHMARK(AddrManAddThenGood);
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