Merge branch 'finer_stats' of https://github.com/ericcarlschwartz/nghttp2 into ericcarlschwartz-finer_stats
This commit is contained in:
commit
555d5abac9
161
src/h2load.cc
161
src/h2load.cc
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@ -150,7 +150,7 @@ void readcb(struct ev_loop *loop, ev_io *w, int revents) {
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Client::Client(Worker *worker, size_t req_todo)
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: worker(worker), ssl(nullptr), next_addr(config.addrs), reqidx(0),
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state(CLIENT_IDLE), req_todo(req_todo), req_started(0), req_done(0),
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state(CLIENT_IDLE), first_byte_received(false), req_todo(req_todo), req_started(0), req_done(0),
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fd(-1) {
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ev_io_init(&wev, writecb, 0, EV_WRITE);
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ev_io_init(&rev, readcb, 0, EV_READ);
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@ -165,6 +165,8 @@ int Client::do_read() { return readfn(*this); }
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int Client::do_write() { return writefn(*this); }
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int Client::connect() {
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record_start_time(&worker->stats);
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while (next_addr) {
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auto addr = next_addr;
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next_addr = next_addr->ai_next;
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@ -469,6 +471,8 @@ int Client::connection_made() {
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session->on_connect();
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record_connect_time(&worker->stats);
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auto nreq =
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std::min(req_todo - req_started, (size_t)config.max_concurrent_streams);
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@ -519,6 +523,11 @@ int Client::read_clear() {
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if (on_read(buf, nread) != 0) {
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return -1;
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}
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if (!first_byte_received) {
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first_byte_received = true;
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record_time_to_first_byte(&worker->stats);
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}
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}
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return 0;
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@ -641,6 +650,11 @@ int Client::read_tls() {
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if (on_read(buf, rv) != 0) {
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return -1;
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}
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if (!first_byte_received) {
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first_byte_received = true;
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record_time_to_first_byte(&worker->stats);
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}
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}
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}
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@ -691,6 +705,18 @@ void Client::record_request_time(RequestStat *req_stat) {
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req_stat->request_time = std::chrono::steady_clock::now();
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}
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void Client::record_start_time(Stats *stat) {
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stat->start_times.push_back(std::chrono::steady_clock::now());
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}
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void Client::record_connect_time(Stats *stat) {
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stat->connect_times.push_back(std::chrono::steady_clock::now());
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}
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void Client::record_time_to_first_byte(Stats *stat) {
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stat->time_to_first_bytes.push_back(std::chrono::steady_clock::now());
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}
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void Client::signal_write() { ev_io_start(worker->loop, &wev); }
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Worker::Worker(uint32_t id, SSL_CTX *ssl_ctx, size_t req_todo, size_t nclients,
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@ -733,21 +759,40 @@ void Worker::run() {
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namespace {
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double within_sd(const std::vector<std::unique_ptr<Worker>> &workers,
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const std::chrono::microseconds &mean,
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const std::chrono::microseconds &sd, size_t n) {
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const std::chrono::microseconds &sd, size_t n, TimeStatType type) {
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auto upper = mean.count() + sd.count();
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auto lower = mean.count() - sd.count();
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size_t m = 0;
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for (const auto &w : workers) {
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if (type == STAT_REQUEST) {
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for (const auto &req_stat : w->stats.req_stats) {
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if (!req_stat.completed) {
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continue;
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}
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auto t = std::chrono::duration_cast<std::chrono::microseconds>(
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req_stat.stream_close_time - req_stat.request_time);
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auto t = std::chrono::duration_cast<std::chrono::microseconds>(req_stat.stream_close_time - req_stat.request_time);
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if (lower <= t.count() && t.count() <= upper) {
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++m;
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}
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}
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} else {
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const auto &stat = w->stats;
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for (unsigned int i = 0; i < stat.start_times.size(); i++) {
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if (i >= stat.connect_times.size() || i >= stat.time_to_first_bytes.size()) {
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continue; //rule out cases where we started but didn't connect or get the first byte (errors)
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}
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std::chrono::microseconds t;
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if (type == STAT_CONNECT) {
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t = std::chrono::duration_cast<std::chrono::microseconds>(stat.connect_times[i] - stat.start_times[i]);
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} else if (type == STAT_FIRST_BYTE) {
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t = std::chrono::duration_cast<std::chrono::microseconds>(stat.time_to_first_bytes[i] - stat.start_times[i]);
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} else {
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return -1;
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}
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if (lower <= t.count() && t.count() <= upper) {
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++m;
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}
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}
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}
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}
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return (m / static_cast<double>(n)) * 100;
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}
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@ -757,43 +802,95 @@ namespace {
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TimeStats
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process_time_stats(const std::vector<std::unique_ptr<Worker>> &workers) {
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auto ts = TimeStats();
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int64_t sum = 0;
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int64_t request_sum = 0;
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int64_t connect_sum = 0;
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int64_t ttfb_sum = 0;
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size_t m = 0;
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size_t n = 0;
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ts.time_min = std::chrono::microseconds::max();
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ts.time_max = std::chrono::microseconds::min();
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ts.within_sd = 0.;
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ts.request_time_min = std::chrono::microseconds::max();
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ts.request_time_max = std::chrono::microseconds::min();
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ts.request_within_sd = 0.;
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ts.connect_time_min = std::chrono::microseconds::max();
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ts.connect_time_max = std::chrono::microseconds::min();
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ts.connect_within_sd = 0.;
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ts.ttfb_min = std::chrono::microseconds::max();
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ts.ttfb_max = std::chrono::microseconds::min();
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ts.ttfb_within_sd = 0.;
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// standard deviation calculated using Rapid calculation method:
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// http://en.wikipedia.org/wiki/Standard_deviation#Rapid_calculation_methods
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double a = 0, q = 0;
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double request_a = 0, request_q = 0;
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double connect_a = 0, connect_q = 0;
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double ttfb_a = 0, ttfb_q = 0;
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for (const auto &w : workers) {
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const auto stat = w->stats;
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for (const auto &req_stat : w->stats.req_stats) {
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if (!req_stat.completed) {
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continue;
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}
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++n;
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auto t = std::chrono::duration_cast<std::chrono::microseconds>(
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auto request_t = std::chrono::duration_cast<std::chrono::microseconds>(
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req_stat.stream_close_time - req_stat.request_time);
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ts.time_min = std::min(ts.time_min, t);
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ts.time_max = std::max(ts.time_max, t);
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sum += t.count();
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ts.request_time_min = std::min(ts.request_time_min, request_t);
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ts.request_time_max = std::max(ts.request_time_max, request_t);
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request_sum += request_t.count();
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auto na = a + (t.count() - a) / n;
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q = q + (t.count() - a) * (t.count() - na);
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a = na;
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auto request_na = request_a + (request_t.count() - request_a) / n;
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request_q = request_q + (request_t.count() - request_a) * (request_t.count() - request_na);
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request_a = request_na;
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}
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for (unsigned int i = 0; i < stat.start_times.size(); i++) {
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if (i >= stat.connect_times.size() || i >= stat.time_to_first_bytes.size()) {
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continue; //rule out cases where we started but didn't connect or get the first byte (errors)
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}
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++m;
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auto connect_t = std::chrono::duration_cast<std::chrono::microseconds>(
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stat.connect_times[i] - stat.start_times[i]);
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ts.connect_time_min = std::min(ts.connect_time_min, connect_t);
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ts.connect_time_max = std::max(ts.connect_time_max, connect_t);
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connect_sum += connect_t.count();
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auto ttfb_t = std::chrono::duration_cast<std::chrono::microseconds>(
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stat.time_to_first_bytes[i] - stat.start_times[i]);
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ts.ttfb_min = std::min(ts.ttfb_min, ttfb_t);
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ts.ttfb_max = std::max(ts.ttfb_max, ttfb_t);
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ttfb_sum += ttfb_t.count();
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auto connect_na = connect_a + (connect_t.count() - connect_a) / m;
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connect_q = connect_q + (connect_t.count() - connect_a) * (connect_t.count() - connect_na);
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connect_a = connect_na;
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auto ttfb_na = ttfb_a + (ttfb_t.count() - ttfb_a) / m;
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ttfb_q = ttfb_q + (ttfb_t.count() - ttfb_a) * (ttfb_t.count() - ttfb_na);
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ttfb_a = ttfb_na;
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}
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}
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if (n == 0) {
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ts.time_max = ts.time_min = std::chrono::microseconds::zero();
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ts.request_time_max = ts.request_time_min = std::chrono::microseconds::zero();
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ts.connect_time_max = ts.connect_time_min = std::chrono::microseconds::zero();
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ts.ttfb_max = ts.ttfb_min = std::chrono::microseconds::zero();
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return ts;
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}
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ts.time_mean = std::chrono::microseconds(sum / n);
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ts.time_sd = std::chrono::microseconds(
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static_cast<std::chrono::microseconds::rep>(sqrt(q / n)));
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ts.request_time_mean = std::chrono::microseconds(request_sum / n);
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ts.request_time_sd = std::chrono::microseconds(
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static_cast<std::chrono::microseconds::rep>(sqrt(request_q / n)));
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ts.within_sd = within_sd(workers, ts.time_mean, ts.time_sd, n);
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ts.connect_time_mean = std::chrono::microseconds(connect_sum / m);
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ts.connect_time_sd = std::chrono::microseconds(
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static_cast<std::chrono::microseconds::rep>(sqrt(connect_q / m)));
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ts.ttfb_mean = std::chrono::microseconds(ttfb_sum / m);
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ts.ttfb_sd = std::chrono::microseconds(
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static_cast<std::chrono::microseconds::rep>(sqrt(ttfb_q / m)));
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ts.request_within_sd = within_sd(workers, ts.request_time_mean, ts.request_time_sd, n, STAT_REQUEST);
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ts.connect_within_sd = within_sd(workers, ts.connect_time_mean, ts.connect_time_sd, m, STAT_CONNECT);
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ts.ttfb_within_sd = within_sd(workers, ts.ttfb_mean, ts.ttfb_sd, m, STAT_FIRST_BYTE);
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return ts;
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}
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} // namespace
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@ -1442,12 +1539,24 @@ traffic: )" << stats.bytes_total << " bytes total, " << stats.bytes_head
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<< " bytes headers, " << stats.bytes_body << R"( bytes data
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min max mean sd +/- sd
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time for request: )" << std::setw(10)
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<< util::format_duration(time_stats.time_min) << " "
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<< std::setw(10) << util::format_duration(time_stats.time_max)
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<< util::format_duration(time_stats.request_time_min) << " "
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<< std::setw(10) << util::format_duration(time_stats.request_time_max)
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<< " " << std::setw(10)
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<< util::format_duration(time_stats.time_mean) << " "
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<< std::setw(10) << util::format_duration(time_stats.time_sd)
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<< std::setw(9) << util::dtos(time_stats.within_sd) << "%"
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<< util::format_duration(time_stats.request_time_mean) << " "
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<< std::setw(10) << util::format_duration(time_stats.request_time_sd)
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<< std::setw(9) << util::dtos(time_stats.request_within_sd) << "%" << "\ntime for connect: " << std::setw(10)
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<< util::format_duration(time_stats.connect_time_min) << " "
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<< std::setw(10) << util::format_duration(time_stats.connect_time_max)
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<< " " << std::setw(10)
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<< util::format_duration(time_stats.connect_time_mean) << " "
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<< std::setw(10) << util::format_duration(time_stats.connect_time_sd)
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<< std::setw(9) << util::dtos(time_stats.connect_within_sd) << "%" << "\ntime to 1st byte: " << std::setw(10)
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<< util::format_duration(time_stats.ttfb_min) << " "
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<< std::setw(10) << util::format_duration(time_stats.ttfb_max)
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<< " " << std::setw(10)
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<< util::format_duration(time_stats.ttfb_mean) << " "
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<< std::setw(10) << util::format_duration(time_stats.ttfb_sd)
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<< std::setw(9) << util::dtos(time_stats.ttfb_within_sd) << "%"
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<< std::endl;
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SSL_CTX_free(ssl_ctx);
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24
src/h2load.h
24
src/h2load.h
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@ -96,11 +96,21 @@ struct RequestStat {
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struct TimeStats {
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// time for request: max, min, mean and sd (standard deviation)
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std::chrono::microseconds time_max, time_min, time_mean, time_sd;
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std::chrono::microseconds request_time_max, request_time_min, request_time_mean, request_time_sd;
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// percentage of number of requests inside mean -/+ sd
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double within_sd;
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double request_within_sd;
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// time for connect: max, min, mean and sd (standard deviation)
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std::chrono::microseconds connect_time_max, connect_time_min, connect_time_mean, connect_time_sd;
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// percentage of number of connects inside mean -/+ sd
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double connect_within_sd;
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// time to first byte: max, min, mean and sd (standard deviation)
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std::chrono::microseconds ttfb_max, ttfb_min, ttfb_mean, ttfb_sd;
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// percentage of number of connects inside mean -/+ sd
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double ttfb_within_sd;
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};
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enum TimeStatType { STAT_REQUEST, STAT_CONNECT, STAT_FIRST_BYTE };
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struct Stats {
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Stats(size_t req_todo);
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// The total number of requests
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@ -132,6 +142,12 @@ struct Stats {
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std::array<size_t, 6> status;
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// The statistics per request
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std::vector<RequestStat> req_stats;
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// time connect starts
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std::vector<std::chrono::steady_clock::time_point> start_times;
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// time to connect
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std::vector<std::chrono::steady_clock::time_point> connect_times;
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// time to first byte
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std::vector<std::chrono::steady_clock::time_point> time_to_first_bytes;
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};
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enum ClientState { CLIENT_IDLE, CLIENT_CONNECTED };
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@ -171,6 +187,7 @@ struct Client {
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addrinfo *next_addr;
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size_t reqidx;
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ClientState state;
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bool first_byte_received;
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// The number of requests this client has to issue.
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size_t req_todo;
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// The number of requests this client has issued so far.
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@ -215,6 +232,9 @@ struct Client {
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void on_stream_close(int32_t stream_id, bool success, RequestStat *req_stat);
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void record_request_time(RequestStat *req_stat);
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void record_start_time(Stats *stat);
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void record_connect_time(Stats *stat);
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void record_time_to_first_byte(Stats *stat);
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void signal_write();
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};
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