grpc/test/cpp/qps/report.cc

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#include "test/cpp/qps/report.h"

#include <grpc/support/log.h>
#include "test/cpp/qps/stats.h"

namespace grpc {
namespace testing {

void CompositeReporter::add(std::unique_ptr<Reporter> reporter) {
  reporters_.emplace_back(std::move(reporter));
}

void CompositeReporter::ReportQPS(const ScenarioResult& result) {
  for (size_t i = 0; i < reporters_.size(); ++i) {
    reporters_[i]->ReportQPS(result);
  }
}

void CompositeReporter::ReportQPSPerCore(const ScenarioResult& result) {
  for (size_t i = 0; i < reporters_.size(); ++i) {
    reporters_[i]->ReportQPSPerCore(result);
  }
}

void CompositeReporter::ReportLatency(const ScenarioResult& result) {
  for (size_t i = 0; i < reporters_.size(); ++i) {
    reporters_[i]->ReportLatency(result);
  }
}

void CompositeReporter::ReportTimes(const ScenarioResult& result) {
  for (size_t i = 0; i < reporters_.size(); ++i) {
    reporters_[i]->ReportTimes(result);
  }
}


void GprLogReporter::ReportQPS(const ScenarioResult& result) {
  gpr_log(GPR_INFO, "QPS: %.1f",
          result.latencies.Count() /
              average(result.client_resources,
                      [](ResourceUsage u) { return u.wall_time; }));
}

void GprLogReporter::ReportQPSPerCore(const ScenarioResult& result) {
  auto qps =
      result.latencies.Count() /
      average(result.client_resources,
          [](ResourceUsage u) { return u.wall_time; });

  gpr_log(GPR_INFO, "QPS: %.1f (%.1f/server core)", qps,
          qps / result.server_config.threads());
}

void GprLogReporter::ReportLatency(const ScenarioResult& result) {
  gpr_log(GPR_INFO,
          "Latencies (50/90/95/99/99.9%%-ile): %.1f/%.1f/%.1f/%.1f/%.1f us",
          result.latencies.Percentile(50) / 1000,
          result.latencies.Percentile(90) / 1000,
          result.latencies.Percentile(95) / 1000,
          result.latencies.Percentile(99) / 1000,
          result.latencies.Percentile(99.9) / 1000);
}

void GprLogReporter::ReportTimes(const ScenarioResult& result) {
  gpr_log(GPR_INFO, "Server system time: %.2f%%",
          100.0 * sum(result.server_resources,
                      [](ResourceUsage u) { return u.system_time; }) /
              sum(result.server_resources,
                  [](ResourceUsage u) { return u.wall_time; }));
  gpr_log(GPR_INFO, "Server user time:   %.2f%%",
          100.0 * sum(result.server_resources,
                      [](ResourceUsage u) { return u.user_time; }) /
              sum(result.server_resources,
                  [](ResourceUsage u) { return u.wall_time; }));
  gpr_log(GPR_INFO, "Client system time: %.2f%%",
          100.0 * sum(result.client_resources,
                      [](ResourceUsage u) { return u.system_time; }) /
              sum(result.client_resources,
                  [](ResourceUsage u) { return u.wall_time; }));
  gpr_log(GPR_INFO, "Client user time:   %.2f%%",
          100.0 * sum(result.client_resources,
                      [](ResourceUsage u) { return u.user_time; }) /
              sum(result.client_resources,
                  [](ResourceUsage u) { return u.wall_time; }));
}

void PerfDbReporter::ReportQPS(const ScenarioResult& result) {
  auto qps = result.latencies.Count() /
              average(result.client_resources,
                      [](ResourceUsage u) { return u.wall_time; });

  perfDbClient_.setQPS(qps);
  perfDbClient_.setConfigs(result.client_config, result.server_config);
}

void PerfDbReporter::ReportQPSPerCore(const ScenarioResult& result) {
  auto qps = result.latencies.Count() /
            average(result.client_resources,
                    [](ResourceUsage u) { return u.wall_time; });

  auto qpsPerCore = qps / result.server_config.threads();

  perfDbClient_.setQPS(qps);
  perfDbClient_.setQPSPerCore(qpsPerCore);
  perfDbClient_.setConfigs(result.client_config, result.server_config);
}

void PerfDbReporter::ReportLatency(const ScenarioResult& result) {
  perfDbClient_.setLatencies(result.latencies.Percentile(50) / 1000,
                              result.latencies.Percentile(90) / 1000,
                              result.latencies.Percentile(95) / 1000,
                              result.latencies.Percentile(99) / 1000,
                              result.latencies.Percentile(99.9) / 1000);
  perfDbClient_.setConfigs(result.client_config, result.server_config);
}

void PerfDbReporter::ReportTimes(const ScenarioResult& result) {
  double serverSystemTime = 100.0 * sum(result.server_resources,
                  [](ResourceUsage u) { return u.system_time; }) /
                    sum(result.server_resources,
                  [](ResourceUsage u) { return u.wall_time; });
  double serverUserTime = 100.0 * sum(result.server_resources,
                  [](ResourceUsage u) { return u.user_time; }) /
                    sum(result.server_resources,
                  [](ResourceUsage u) { return u.wall_time; });
  double clientSystemTime = 100.0 * sum(result.client_resources,
                  [](ResourceUsage u) { return u.system_time; }) /
                    sum(result.client_resources,
                  [](ResourceUsage u) { return u.wall_time; });
  double clientUserTime = 100.0 * sum(result.client_resources,
                  [](ResourceUsage u) { return u.user_time; }) /
                    sum(result.client_resources,
                  [](ResourceUsage u) { return u.wall_time; });

  perfDbClient_.setTimes(serverSystemTime, serverUserTime, 
    clientSystemTime, clientUserTime);
  perfDbClient_.setConfigs(result.client_config, result.server_config);
}

void PerfDbReporter::SendData() {
  //send data to performance database
  int dataState = perfDbClient_.sendData(access_token_, test_name_, sys_info_, tag_);

  //check state of data sending
  switch(dataState) {
    case 1:
      gpr_log(GPR_INFO, "Data sent to performance database successfully");
      break;
    case -1:
      gpr_log(GPR_INFO, "Data could not be sent to performance database");
      break;
  }
}

}  // namespace testing
}  // namespace grpc