{

EchoClient(const std::shared_ptr<Service>& service, const std::string& address, int port, int messages)

: TCPClient(service, address, port),

_messages(messages)

{

}

void SendMessage() { SendAsync(message_to_send.data(), message_to_send.size()); }

void onConnected() override

{

for (size_t i = _messages; i > 0; --i)

SendMessage();

}

void onSent(size_t sent, size_t pending) override

{

_sent += sent;

}

void onReceived(const void* buffer, size_t size) override

{

_received += size;

while (_received >= message_to_send.size())

{

SendMessage();

_received -= message_to_send.size();

}

timestamp_stop = Timestamp::nano();

total_bytes += size;

}

void onError(int error, const std::string& category, const std::string& message) override

{

std::cout << "TCP client caught an error with code " << error << " and category '" << category << "': " << message << std::endl;

++total_errors;

}

size_t _sent{0};

size_t _received{0};

size_t _messages{0};

{

auto parser = optparse::OptionParser().version("1.0.0.0");

parser.add_option("-a", "--address").dest("address").set_default("127.0.0.1").help("Server address. Default: %default");

parser.add_option("-p", "--port").dest("port").action("store").type("int").set_default(1111).help("Server port. Default: %default");

parser.add_option("-t", "--threads").dest("threads").action("store").type("int").set_default(CPU::PhysicalCores()).help("Count of working threads. Default: %default");

parser.add_option("-c", "--clients").dest("clients").action("store").type("int").set_default(100).help("Count of working clients. Default: %default");

parser.add_option("-m", "--messages").dest("messages").action("store").type("int").set_default(1000).help("Count of messages to send at the same time. Default: %default");

parser.add_option("-s", "--size").dest("size").action("store").type("int").set_default(32).help("Single message size. Default: %default");

parser.add_option("-z", "--seconds").dest("seconds").action("store").type("int").set_default(10).help("Count of seconds to benchmarking. Default: %default");

optparse::Values options = parser.parse_args(argc, argv);

// Print help

if (options.get("help"))

{

parser.print_help();

return 0;

}

// Client parameters

std::string address(options.get("address"));

int port = options.get("port");

int threads_count = options.get("threads");

int clients_count = options.get("clients");

int messages_count = options.get("messages");

int message_size = options.get("size");

int seconds_count = options.get("seconds");

std::cout << "Server address: " << address << std::endl;

std::cout << "Server port: " << port << std::endl;

std::cout << "Working threads: " << threads_count << std::endl;

std::cout << "Working clients: " << clients_count << std::endl;

std::cout << "Working messages: " << messages_count << std::endl;

std::cout << "Message size: " << message_size << std::endl;

std::cout << "Seconds to benchmarking: " << seconds_count << std::endl;

std::cout << std::endl;

// Prepare a message to send

message_to_send.resize(message_size, 0);

// Create a new Asio service

auto service = std::make_shared<Service>(threads_count);

// Start the Asio service

std::cout << "Asio service starting...";

service->Start();

std::cout << "Done!" << std::endl;

// Create echo clients

std::vector<std::shared_ptr<EchoClient>> clients;

for (int i = 0; i < clients_count; ++i)

{

// Create echo client

auto client = std::make_shared<EchoClient>(service, address, port, messages_count);

// client->SetupNoDelay(true);

clients.emplace_back(client);

}

timestamp_start = Timestamp::nano();

// Connect clients

std::cout << "Clients connecting...";

for (auto& client : clients)

client->ConnectAsync();

std::cout << "Done!" << std::endl;

for (const auto& client : clients)

while (!client->IsConnected())

Thread::Yield();

std::cout << "All clients connected!" << std::endl;

// Wait for benchmarking

std::cout << "Benchmarking...";

Thread::Sleep(seconds_count * 1000);

std::cout << "Done!" << std::endl;

// Disconnect clients

std::cout << "Clients disconnecting...";

for (auto& client : clients)

client->DisconnectAsync();

std::cout << "Done!" << std::endl;

for (const auto& client : clients)

while (client->IsConnected())

Thread::Yield();

std::cout << "All clients disconnected!" << std::endl;

// Stop the Asio service

std::cout << "Asio service stopping...";

service->Stop();

std::cout << "Done!" << std::endl;

std::cout << std::endl;

std::cout << "Errors: " << total_errors << std::endl;

std::cout << std::endl;

total_messages = total_bytes / message_size;

std::cout << "Total time: " << CppBenchmark::ReporterConsole::GenerateTimePeriod(timestamp_stop - timestamp_start) << std::endl;

std::cout << "Total data: " << CppBenchmark::ReporterConsole::GenerateDataSize(total_bytes) << std::endl;

std::cout << "Total messages: " << total_messages << std::endl;

std::cout << "Data throughput: " << CppBenchmark::ReporterConsole::GenerateDataSize(total_bytes * 1000000000 / (timestamp_stop - timestamp_start)) << "/s" << std::endl;

if (total_messages > 0)

{

std::cout << "Message latency: " << CppBenchmark::ReporterConsole::GenerateTimePeriod((timestamp_stop - timestamp_start) / total_messages) << std::endl;

std::cout << "Message throughput: " << total_messages * 1000000000 / (timestamp_stop - timestamp_start) << " msg/s" << std::endl;

}

return 0;