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tomato/toxav/audio_bench.cc
Green Sky 9b36dd9d99 Squashed 'external/toxcore/c-toxcore/' changes from c9cdae001..9ed2fa80d 
9ed2fa80d fix(toxav): remove extra copy of video frame on encode
de30cf3ad docs: Add new file kinds, that should be useful to all clients.
d5b5e879d fix(DHT): Correct node skipping logic timed out nodes.
30e71fe97 refactor: Generate event dispatch functions and add tox_events_dispatch.
8fdbb0b50 style: Format parameter lists in event handlers.
d00dee12b refactor: Add warning logs when losing chat invites.
b144e8db1 feat: Add a way to look up a file number by ID.
849281ea0 feat: Add a way to fetch groups by chat ID.
a2c177396 refactor: Harden event system and improve type safety.
8f5caa656 refactor: Add MessagePack string support to bin_pack.
34e8d5ad5 chore: Add GitHub CodeQL workflow and local Docker runner.
f7b068010 refactor: Add nullability annotations to event headers.
788abe651 refactor(toxav): Use system allocator for mutexes.
2e4b423eb refactor: Use specific typedefs for public API arrays.
2baf34775 docs(toxav): update idle iteration interval see 679444751876fa3882a717772918ebdc8f083354
2f87ac67b feat: Add Event Loop abstraction (Ev).
f8dfc38d8 test: Fix data race in ToxScenario virtual_clock.
38313921e test(TCP): Add regression test for TCP priority queue integrity.
f94a50d9a refactor(toxav): Replace mutable_mutex with dynamically allocated mutex.
ad054511e refactor: Internalize DHT structs and add debug helpers.
8b467cc96 fix: Prevent potential integer overflow in group chat handshake.
4962bdbb8 test: Improve TCP simulation and add tests
5f0227093 refactor: Allow nullable data in group chat handlers.
e97b18ea9 chore: Improve Windows Docker support.
b14943bbd refactor: Move Logger out of Messenger into Tox.
dd3136250 cleanup: Apply nullability qualifiers to C++ codebase.
1849f70fc refactor: Extract low-level networking code to net and os_network.
8fec75421 refactor: Delete tox_random, align on rng and os_random.
a03ae8051 refactor: Delete tox_memory, align on mem and os_memory.
4c88fed2c refactor: Use `std::` prefixes more consistently in C++ code.
72452f2ae test: Add some more tests for onion and shared key cache.
d5a51b09a cleanup: Use tox_attributes.h in tox_private.h and install it.
b6f5b9fc5 test: Add some benchmarks for various high level things.
8a8d02785 test(support): Introduce threaded Tox runner and simulation barrier
d68d1d095 perf(toxav): optimize audio and video intermediate buffers by keeping them around
REVERT: c9cdae001 fix(toxav): remove extra copy of video frame on encode

git-subtree-dir: external/toxcore/c-toxcore
git-subtree-split: 9ed2fa80d582c714d6bdde6a7648220a92cddff8
2026-02-01 14:26:52 +01:00

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/* SPDX-License-Identifier: GPL-3.0-or-later
* Copyright © 2025 The TokTok team.
*/
#include <benchmark/benchmark.h>
#include <cmath>
#include <cstddef>
#include <cstdint>
#include <cstring>
#include <vector>
#include "../toxcore/attributes.h"
#include "../toxcore/logger.h"
#include "../toxcore/mono_time.h"
#include "../toxcore/network.h"
#include "../toxcore/os_memory.h"
#include "audio.h"
#include "av_test_support.hh"
#include "rtp.h"
namespace {
class AudioBench : public benchmark::Fixture {
public:
void SetUp(const ::benchmark::State &state) override
{
const Memory *_Nonnull mem = os_memory();
log = logger_new(mem);
tm.t = 1000;
mono_time = mono_time_new(mem, mock_time_cb, &tm);
ac = ac_new(mono_time, log, 123, nullptr, nullptr);
sampling_rate = static_cast<std::uint32_t>(state.range(0));
channels = static_cast<std::uint8_t>(state.range(1));
std::uint32_t bitrate = (channels == 1) ? 32000 : 64000;
ac_reconfigure_encoder(ac, bitrate, sampling_rate, channels);
sample_count = sampling_rate / 50; // 20ms frames
pcm.resize(sample_count * channels);
rtp_mock.capture_packets = false; // Disable capturing for benchmarks
rtp_mock.auto_forward = true;
rtp_mock.recv_session = rtp_new(log, RTP_TYPE_AUDIO, mono_time, RtpMock::send_packet,
&rtp_mock, nullptr, nullptr, nullptr, ac, RtpMock::audio_cb);
}
void TearDown(const ::benchmark::State &state) override
{
const Memory *mem = os_memory();
if (rtp_mock.recv_session) {
rtp_kill(log, rtp_mock.recv_session);
}
if (ac) {
ac_kill(ac);
}
if (mono_time) {
mono_time_free(mem, mono_time);
}
if (log) {
logger_kill(log);
}
}
Logger *_Nullable log = nullptr;
Mono_Time *_Nullable mono_time = nullptr;
MockTime tm;
ACSession *_Nullable ac = nullptr;
RtpMock rtp_mock;
std::uint32_t sampling_rate = 0;
std::uint8_t channels = 0;
std::size_t sample_count = 0;
std::vector<std::int16_t> pcm;
};
// Benchmark encoding a sequence of silent audio frames.
BENCHMARK_DEFINE_F(AudioBench, EncodeSilentSequence)(benchmark::State &state)
{
std::vector<std::int16_t> silent_pcm(sample_count * channels);
fill_silent_frame(channels, sample_count, silent_pcm);
std::vector<std::uint8_t> encoded(2000);
for (auto _ : state) {
int encoded_size
= ac_encode(ac, silent_pcm.data(), sample_count, encoded.data(), encoded.size());
benchmark::DoNotOptimize(encoded_size);
}
}
BENCHMARK_REGISTER_F(AudioBench, EncodeSilentSequence)
->Args({8000, 1})
->Args({48000, 1})
->Args({48000, 2});
// Benchmark encoding a sequence of audio frames.
BENCHMARK_DEFINE_F(AudioBench, EncodeSequence)(benchmark::State &state)
{
int frame_index = 0;
const int num_prefilled = 50;
std::vector<std::vector<std::int16_t>> pcms(
num_prefilled, std::vector<std::int16_t>(sample_count * channels));
for (int i = 0; i < num_prefilled; ++i) {
fill_audio_frame(sampling_rate, channels, i, sample_count, pcms[i]);
}
std::vector<std::uint8_t> encoded(2000);
for (auto _ : state) {
int idx = frame_index % num_prefilled;
int encoded_size
= ac_encode(ac, pcms[idx].data(), sample_count, encoded.data(), encoded.size());
benchmark::DoNotOptimize(encoded_size);
frame_index++;
}
}
BENCHMARK_REGISTER_F(AudioBench, EncodeSequence)
->Args({8000, 1})
->Args({16000, 1})
->Args({24000, 1})
->Args({48000, 1})
->Args({48000, 2});
// Benchmark decoding a sequence of audio frames.
BENCHMARK_DEFINE_F(AudioBench, DecodeSequence)(benchmark::State &state)
{
const int num_frames = 50;
std::vector<std::vector<std::uint8_t>> encoded_frames(num_frames);
// Pre-encode
std::vector<std::uint8_t> encoded_tmp(2000);
for (int i = 0; i < num_frames; ++i) {
fill_audio_frame(sampling_rate, channels, i, sample_count, pcm);
int size = ac_encode(ac, pcm.data(), sample_count, encoded_tmp.data(), encoded_tmp.size());
encoded_frames[i].resize(4 + size);
std::uint32_t net_sr = net_htonl(sampling_rate);
std::memcpy(encoded_frames[i].data(), &net_sr, 4);
std::memcpy(encoded_frames[i].data() + 4, encoded_tmp.data(), size);
}
int frame_index = 0;
for (auto _ : state) {
int idx = frame_index % num_frames;
rtp_send_data(log, rtp_mock.recv_session, encoded_frames[idx].data(),
static_cast<std::uint32_t>(encoded_frames[idx].size()), false);
ac_iterate(ac);
frame_index++;
}
}
BENCHMARK_REGISTER_F(AudioBench, DecodeSequence)
->Args({8000, 1})
->Args({16000, 1})
->Args({24000, 1})
->Args({48000, 1})
->Args({48000, 2});
// Full end-to-end sequence benchmark (Encode -> RTP -> Decode)
BENCHMARK_DEFINE_F(AudioBench, FullSequence)(benchmark::State &state)
{
int frame_index = 0;
const int num_prefilled = 50;
std::vector<std::vector<std::int16_t>> pcms(
num_prefilled, std::vector<std::int16_t>(sample_count * channels));
for (int i = 0; i < num_prefilled; ++i) {
fill_audio_frame(sampling_rate, channels, i, sample_count, pcms[i]);
}
std::vector<std::uint8_t> encoded_tmp(2000);
for (auto _ : state) {
int idx = frame_index % num_prefilled;
int size
= ac_encode(ac, pcms[idx].data(), sample_count, encoded_tmp.data(), encoded_tmp.size());
std::vector<std::uint8_t> payload(4 + size);
std::uint32_t net_sr = net_htonl(sampling_rate);
std::memcpy(payload.data(), &net_sr, 4);
std::memcpy(payload.data() + 4, encoded_tmp.data(), size);
rtp_send_data(log, rtp_mock.recv_session, payload.data(),
static_cast<std::uint32_t>(payload.size()), false);
ac_iterate(ac);
frame_index++;
}
}
BENCHMARK_REGISTER_F(AudioBench, FullSequence)
->Args({8000, 1})
->Args({16000, 1})
->Args({24000, 1})
->Args({48000, 1})
->Args({48000, 2});
}
BENCHMARK_MAIN();
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