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/*
*
* Copyright 2016, Google Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following disclaimer
* in the documentation and/or other materials provided with the
* distribution.
* * Neither the name of Google Inc. nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*/
/* Benchmark gRPC end2end in various configurations */
#include <benchmark/benchmark.h>
#include <gflags/gflags.h>
#include <fstream>
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#include "src/core/lib/profiling/timers.h"
#include "src/cpp/client/create_channel_internal.h"
#include "src/proto/grpc/testing/echo.grpc.pb.h"
#include "test/cpp/microbenchmarks/fullstack_context_mutators.h"
#include "test/cpp/microbenchmarks/fullstack_fixtures.h"
extern "C" {
#include "src/core/ext/transport/chttp2/transport/chttp2_transport.h"
#include "src/core/ext/transport/chttp2/transport/internal.h"
#include "test/core/util/trickle_endpoint.h"
}
DEFINE_bool(log, false, "Log state to CSV files");
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DEFINE_int32(
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warmup_megabytes, 1,
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"Number of megabytes to pump before collecting flow control stats");
DEFINE_int32(
warmup_iterations, 100,
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"Number of iterations to run before collecting flow control stats");
DEFINE_int32(warmup_max_time_seconds, 10,
"Maximum number of seconds to run warmup loop");
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namespace grpc {
namespace testing {
static void* tag(intptr_t x) { return reinterpret_cast<void*>(x); }
template <class A0>
static void write_csv(std::ostream* out, A0&& a0) {
if (!out) return;
(*out) << a0 << "\n";
}
template <class A0, class... Arg>
static void write_csv(std::ostream* out, A0&& a0, Arg&&... arg) {
if (!out) return;
(*out) << a0 << ",";
write_csv(out, std::forward<Arg>(arg)...);
}
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class TrickledCHTTP2 : public EndpointPairFixture {
public:
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TrickledCHTTP2(Service* service, bool streaming, size_t req_size,
size_t resp_size, size_t kilobits_per_second)
: EndpointPairFixture(service, MakeEndpoints(kilobits_per_second),
FixtureConfiguration()) {
if (FLAGS_log) {
std::ostringstream fn;
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fn << "trickle." << (streaming ? "streaming" : "unary") << "." << req_size
<< "." << resp_size << "." << kilobits_per_second << ".csv";
log_.reset(new std::ofstream(fn.str().c_str()));
write_csv(log_.get(), "t", "iteration", "client_backlog",
"server_backlog", "client_t_stall", "client_s_stall",
"server_t_stall", "server_s_stall", "client_t_outgoing",
"server_t_outgoing", "client_t_incoming", "server_t_incoming",
"client_s_outgoing_delta", "server_s_outgoing_delta",
"client_s_incoming_delta", "server_s_incoming_delta",
"client_s_announce_window", "server_s_announce_window",
"client_peer_iws", "client_local_iws", "client_sent_iws",
"client_acked_iws", "server_peer_iws", "server_local_iws",
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"server_sent_iws", "server_acked_iws", "client_queued_bytes",
"server_queued_bytes");
}
}
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void AddToLabel(std::ostream& out, benchmark::State& state) {
grpc_chttp2_transport* client =
reinterpret_cast<grpc_chttp2_transport*>(client_transport_);
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out << " writes/iter:"
<< ((double)stats_.num_writes / (double)state.iterations())
<< " cli_transport_stalls/iter:"
<< ((double)
client_stats_.streams_stalled_due_to_transport_flow_control /
(double)state.iterations())
<< " cli_stream_stalls/iter:"
<< ((double)client_stats_.streams_stalled_due_to_stream_flow_control /
(double)state.iterations())
<< " svr_transport_stalls/iter:"
<< ((double)
server_stats_.streams_stalled_due_to_transport_flow_control /
(double)state.iterations())
<< " svr_stream_stalls/iter:"
<< ((double)server_stats_.streams_stalled_due_to_stream_flow_control /
(double)state.iterations())
<< " cli_bw_est:" << (double)client->bdp_estimator.bw_est;
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}
void Log(int64_t iteration) {
auto now = gpr_time_sub(gpr_now(GPR_CLOCK_MONOTONIC), start_);
grpc_chttp2_transport* client =
reinterpret_cast<grpc_chttp2_transport*>(client_transport_);
grpc_chttp2_transport* server =
reinterpret_cast<grpc_chttp2_transport*>(server_transport_);
grpc_chttp2_stream* client_stream =
client->stream_map.count == 1
? static_cast<grpc_chttp2_stream*>(client->stream_map.values[0])
: nullptr;
grpc_chttp2_stream* server_stream =
server->stream_map.count == 1
? static_cast<grpc_chttp2_stream*>(server->stream_map.values[0])
: nullptr;
write_csv(
log_.get(), static_cast<double>(now.tv_sec) +
1e-9 * static_cast<double>(now.tv_nsec),
iteration, grpc_trickle_get_backlog(endpoint_pair_.client),
grpc_trickle_get_backlog(endpoint_pair_.server),
client->lists[GRPC_CHTTP2_LIST_STALLED_BY_TRANSPORT].head != nullptr,
client->lists[GRPC_CHTTP2_LIST_STALLED_BY_STREAM].head != nullptr,
server->lists[GRPC_CHTTP2_LIST_STALLED_BY_TRANSPORT].head != nullptr,
server->lists[GRPC_CHTTP2_LIST_STALLED_BY_STREAM].head != nullptr,
client->outgoing_window, server->outgoing_window,
client->incoming_window, server->incoming_window,
client_stream ? client_stream->outgoing_window_delta : -1,
server_stream ? server_stream->outgoing_window_delta : -1,
client_stream ? client_stream->incoming_window_delta : -1,
server_stream ? server_stream->incoming_window_delta : -1,
client_stream ? client_stream->announce_window : -1,
server_stream ? server_stream->announce_window : -1,
client->settings[GRPC_PEER_SETTINGS]
[GRPC_CHTTP2_SETTINGS_INITIAL_WINDOW_SIZE],
client->settings[GRPC_LOCAL_SETTINGS]
[GRPC_CHTTP2_SETTINGS_INITIAL_WINDOW_SIZE],
client->settings[GRPC_SENT_SETTINGS]
[GRPC_CHTTP2_SETTINGS_INITIAL_WINDOW_SIZE],
client->settings[GRPC_ACKED_SETTINGS]
[GRPC_CHTTP2_SETTINGS_INITIAL_WINDOW_SIZE],
server->settings[GRPC_PEER_SETTINGS]
[GRPC_CHTTP2_SETTINGS_INITIAL_WINDOW_SIZE],
server->settings[GRPC_LOCAL_SETTINGS]
[GRPC_CHTTP2_SETTINGS_INITIAL_WINDOW_SIZE],
server->settings[GRPC_SENT_SETTINGS]
[GRPC_CHTTP2_SETTINGS_INITIAL_WINDOW_SIZE],
server->settings[GRPC_ACKED_SETTINGS]
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[GRPC_CHTTP2_SETTINGS_INITIAL_WINDOW_SIZE],
client_stream ? client_stream->flow_controlled_buffer.length : 0,
server_stream ? server_stream->flow_controlled_buffer.length : 0);
}
void Step(bool update_stats) {
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grpc_exec_ctx exec_ctx = GRPC_EXEC_CTX_INIT;
size_t client_backlog =
grpc_trickle_endpoint_trickle(&exec_ctx, endpoint_pair_.client);
size_t server_backlog =
grpc_trickle_endpoint_trickle(&exec_ctx, endpoint_pair_.server);
grpc_exec_ctx_finish(&exec_ctx);
if (update_stats) {
UpdateStats((grpc_chttp2_transport*)client_transport_, &client_stats_,
client_backlog);
UpdateStats((grpc_chttp2_transport*)server_transport_, &server_stats_,
server_backlog);
}
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}
private:
grpc_passthru_endpoint_stats stats_;
struct Stats {
int streams_stalled_due_to_stream_flow_control = 0;
int streams_stalled_due_to_transport_flow_control = 0;
};
Stats client_stats_;
Stats server_stats_;
std::unique_ptr<std::ofstream> log_;
gpr_timespec start_ = gpr_now(GPR_CLOCK_MONOTONIC);
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grpc_endpoint_pair MakeEndpoints(size_t kilobits) {
grpc_endpoint_pair p;
grpc_passthru_endpoint_create(&p.client, &p.server, Library::get().rq(),
&stats_);
double bytes_per_second = 125.0 * kilobits;
p.client = grpc_trickle_endpoint_create(p.client, bytes_per_second);
p.server = grpc_trickle_endpoint_create(p.server, bytes_per_second);
return p;
}
void UpdateStats(grpc_chttp2_transport* t, Stats* s, size_t backlog) {
if (backlog == 0) {
if (t->lists[GRPC_CHTTP2_LIST_STALLED_BY_STREAM].head != NULL) {
s->streams_stalled_due_to_stream_flow_control++;
}
if (t->lists[GRPC_CHTTP2_LIST_STALLED_BY_TRANSPORT].head != NULL) {
s->streams_stalled_due_to_transport_flow_control++;
}
}
}
};
// force library initialization
auto& force_library_initialization = Library::get();
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static void TrickleCQNext(TrickledCHTTP2* fixture, void** t, bool* ok,
int64_t iteration) {
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while (true) {
fixture->Log(iteration);
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switch (fixture->cq()->AsyncNext(
t, ok, gpr_time_add(gpr_now(GPR_CLOCK_MONOTONIC),
gpr_time_from_micros(100, GPR_TIMESPAN)))) {
case CompletionQueue::TIMEOUT:
fixture->Step(iteration != -1);
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break;
case CompletionQueue::SHUTDOWN:
GPR_ASSERT(false);
break;
case CompletionQueue::GOT_EVENT:
return;
}
}
}
static void BM_PumpStreamServerToClient_Trickle(benchmark::State& state) {
EchoTestService::AsyncService service;
std::unique_ptr<TrickledCHTTP2> fixture(new TrickledCHTTP2(
&service, true, state.range(0) /* req_size */,
state.range(0) /* resp_size */, state.range(1) /* bw in kbit/s */));
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{
EchoResponse send_response;
EchoResponse recv_response;
if (state.range(0) > 0) {
send_response.set_message(std::string(state.range(0), 'a'));
}
Status recv_status;
ServerContext svr_ctx;
ServerAsyncReaderWriter<EchoResponse, EchoRequest> response_rw(&svr_ctx);
service.RequestBidiStream(&svr_ctx, &response_rw, fixture->cq(),
fixture->cq(), tag(0));
std::unique_ptr<EchoTestService::Stub> stub(
EchoTestService::NewStub(fixture->channel()));
ClientContext cli_ctx;
auto request_rw = stub->AsyncBidiStream(&cli_ctx, fixture->cq(), tag(1));
int need_tags = (1 << 0) | (1 << 1);
void* t;
bool ok;
while (need_tags) {
TrickleCQNext(fixture.get(), &t, &ok, -1);
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GPR_ASSERT(ok);
int i = (int)(intptr_t)t;
GPR_ASSERT(need_tags & (1 << i));
need_tags &= ~(1 << i);
}
request_rw->Read(&recv_response, tag(0));
auto inner_loop = [&](bool in_warmup) {
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GPR_TIMER_SCOPE("BenchmarkCycle", 0);
response_rw.Write(send_response, tag(1));
while (true) {
TrickleCQNext(fixture.get(), &t, &ok,
in_warmup ? -1 : state.iterations());
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if (t == tag(0)) {
request_rw->Read(&recv_response, tag(0));
} else if (t == tag(1)) {
break;
} else {
GPR_ASSERT(false);
}
}
};
gpr_timespec warmup_start = gpr_now(GPR_CLOCK_MONOTONIC);
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for (int i = 0;
i < GPR_MAX(FLAGS_warmup_iterations, FLAGS_warmup_megabytes * 1024 *
1024 / (14 + state.range(0)));
i++) {
inner_loop(true);
if (gpr_time_cmp(gpr_time_sub(gpr_now(GPR_CLOCK_MONOTONIC), warmup_start),
gpr_time_from_seconds(FLAGS_warmup_max_time_seconds,
GPR_TIMESPAN)) > 0) {
break;
}
}
while (state.KeepRunning()) {
inner_loop(false);
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}
response_rw.Finish(Status::OK, tag(1));
need_tags = (1 << 0) | (1 << 1);
while (need_tags) {
TrickleCQNext(fixture.get(), &t, &ok, -1);
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int i = (int)(intptr_t)t;
GPR_ASSERT(need_tags & (1 << i));
need_tags &= ~(1 << i);
}
}
fixture->Finish(state);
fixture.reset();
state.SetBytesProcessed(state.range(0) * state.iterations());
}
static void StreamingTrickleArgs(benchmark::internal::Benchmark* b) {
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for (int i = 1; i <= 128 * 1024 * 1024; i *= 8) {
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for (int j = 64; j <= 128 * 1024 * 1024; j *= 8) {
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double expected_time =
static_cast<double>(14 + i) / (125.0 * static_cast<double>(j));
if (expected_time > 2.0) continue;
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b->Args({i, j});
}
}
}
BENCHMARK(BM_PumpStreamServerToClient_Trickle)->Apply(StreamingTrickleArgs);
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static void BM_PumpUnbalancedUnary_Trickle(benchmark::State& state) {
EchoTestService::AsyncService service;
std::unique_ptr<TrickledCHTTP2> fixture(new TrickledCHTTP2(
&service, true, state.range(0) /* req_size */,
state.range(1) /* resp_size */, state.range(2) /* bw in kbit/s */));
EchoRequest send_request;
EchoResponse send_response;
EchoResponse recv_response;
if (state.range(0) > 0) {
send_request.set_message(std::string(state.range(0), 'a'));
}
if (state.range(1) > 0) {
send_response.set_message(std::string(state.range(1), 'a'));
}
Status recv_status;
struct ServerEnv {
ServerContext ctx;
EchoRequest recv_request;
grpc::ServerAsyncResponseWriter<EchoResponse> response_writer;
ServerEnv() : response_writer(&ctx) {}
};
uint8_t server_env_buffer[2 * sizeof(ServerEnv)];
ServerEnv* server_env[2] = {
reinterpret_cast<ServerEnv*>(server_env_buffer),
reinterpret_cast<ServerEnv*>(server_env_buffer + sizeof(ServerEnv))};
new (server_env[0]) ServerEnv;
new (server_env[1]) ServerEnv;
service.RequestEcho(&server_env[0]->ctx, &server_env[0]->recv_request,
&server_env[0]->response_writer, fixture->cq(),
fixture->cq(), tag(0));
service.RequestEcho(&server_env[1]->ctx, &server_env[1]->recv_request,
&server_env[1]->response_writer, fixture->cq(),
fixture->cq(), tag(1));
std::unique_ptr<EchoTestService::Stub> stub(
EchoTestService::NewStub(fixture->channel()));
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auto inner_loop = [&](bool in_warmup) {
GPR_TIMER_SCOPE("BenchmarkCycle", 0);
recv_response.Clear();
ClientContext cli_ctx;
std::unique_ptr<ClientAsyncResponseReader<EchoResponse>> response_reader(
stub->AsyncEcho(&cli_ctx, send_request, fixture->cq()));
void* t;
bool ok;
TrickleCQNext(fixture.get(), &t, &ok, state.iterations());
GPR_ASSERT(ok);
GPR_ASSERT(t == tag(0) || t == tag(1));
intptr_t slot = reinterpret_cast<intptr_t>(t);
ServerEnv* senv = server_env[slot];
senv->response_writer.Finish(send_response, Status::OK, tag(3));
response_reader->Finish(&recv_response, &recv_status, tag(4));
for (int i = (1 << 3) | (1 << 4); i != 0;) {
TrickleCQNext(fixture.get(), &t, &ok, state.iterations());
GPR_ASSERT(ok);
int tagnum = (int)reinterpret_cast<intptr_t>(t);
GPR_ASSERT(i & (1 << tagnum));
i -= 1 << tagnum;
}
GPR_ASSERT(recv_status.ok());
senv->~ServerEnv();
senv = new (senv) ServerEnv();
service.RequestEcho(&senv->ctx, &senv->recv_request, &senv->response_writer,
fixture->cq(), fixture->cq(), tag(slot));
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};
gpr_timespec warmup_start = gpr_now(GPR_CLOCK_MONOTONIC);
for (int i = 0;
i < GPR_MAX(FLAGS_warmup_iterations, FLAGS_warmup_megabytes * 1024 *
1024 / (14 + state.range(0)));
i++) {
inner_loop(true);
if (gpr_time_cmp(gpr_time_sub(gpr_now(GPR_CLOCK_MONOTONIC), warmup_start),
gpr_time_from_seconds(FLAGS_warmup_max_time_seconds,
GPR_TIMESPAN)) > 0) {
break;
}
}
while (state.KeepRunning()) {
inner_loop(false);
}
fixture->Finish(state);
fixture.reset();
server_env[0]->~ServerEnv();
server_env[1]->~ServerEnv();
state.SetBytesProcessed(state.range(0) * state.iterations() +
state.range(1) * state.iterations());
}
static void UnaryTrickleArgs(benchmark::internal::Benchmark* b) {
const int cli_1024k = 1024 * 1024;
const int cli_32M = 32 * 1024 * 1024;
const int svr_256k = 256 * 1024;
const int svr_4M = 4 * 1024 * 1024;
const int svr_64M = 64 * 1024 * 1024;
for (int bw = 64; bw <= 128 * 1024 * 1024; bw *= 16) {
b->Args({bw, cli_1024k, svr_256k});
b->Args({bw, cli_1024k, svr_4M});
b->Args({bw, cli_1024k, svr_64M});
b->Args({bw, cli_32M, svr_256k});
b->Args({bw, cli_32M, svr_4M});
b->Args({bw, cli_32M, svr_64M});
}
}
BENCHMARK(BM_PumpUnbalancedUnary_Trickle)->Apply(UnaryTrickleArgs);
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}
}
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int main(int argc, char** argv) {
::benchmark::Initialize(&argc, argv);
::google::ParseCommandLineFlags(&argc, &argv, false);
::benchmark::RunSpecifiedBenchmarks();
}