path: root/test/pc/e2e/stats_based_network_quality_metrics_reporter.cc

/*
 *  Copyright (c) 2020 The WebRTC project authors. All Rights Reserved.
 *
 *  Use of this source code is governed by a BSD-style license
 *  that can be found in the LICENSE file in the root of the source
 *  tree. An additional intellectual property rights grant can be found
 *  in the file PATENTS.  All contributing project authors may
 *  be found in the AUTHORS file in the root of the source tree.
 */

#include "test/pc/e2e/stats_based_network_quality_metrics_reporter.h"

#include <cstdint>
#include <map>
#include <memory>
#include <set>
#include <string>
#include <type_traits>
#include <utility>
#include <vector>

#include "absl/strings/string_view.h"
#include "api/array_view.h"
#include "api/scoped_refptr.h"
#include "api/stats/rtc_stats.h"
#include "api/stats/rtcstats_objects.h"
#include "api/test/network_emulation/network_emulation_interfaces.h"
#include "api/test/network_emulation_manager.h"
#include "api/units/data_rate.h"
#include "api/units/timestamp.h"
#include "rtc_base/event.h"
#include "rtc_base/ip_address.h"
#include "rtc_base/strings/string_builder.h"
#include "rtc_base/synchronization/mutex.h"
#include "system_wrappers/include/field_trial.h"
#include "test/testsupport/perf_test.h"

namespace webrtc {
namespace webrtc_pc_e2e {
namespace {

constexpr int kStatsWaitTimeoutMs = 1000;

// Field trial which controls whether to report standard-compliant bytes
// sent/received per stream.  If enabled, padding and headers are not included
// in bytes sent or received.
constexpr char kUseStandardBytesStats[] = "WebRTC-UseStandardBytesStats";

std::unique_ptr<EmulatedNetworkStats> PopulateStats(
    std::vector<EmulatedEndpoint*> endpoints,
    NetworkEmulationManager* network_emulation) {
  rtc::Event stats_loaded;
  std::unique_ptr<EmulatedNetworkStats> stats;
  network_emulation->GetStats(endpoints,
                              [&](std::unique_ptr<EmulatedNetworkStats> s) {
                                stats = std::move(s);
                                stats_loaded.Set();
                              });
  bool stats_received = stats_loaded.Wait(kStatsWaitTimeoutMs);
  RTC_CHECK(stats_received);
  return stats;
}

std::map<rtc::IPAddress, std::string> PopulateIpToPeer(
    const std::map<std::string, std::vector<EmulatedEndpoint*>>&
        peer_endpoints) {
  std::map<rtc::IPAddress, std::string> out;
  for (const auto& entry : peer_endpoints) {
    for (const EmulatedEndpoint* const endpoint : entry.second) {
      out.emplace(endpoint->GetPeerLocalAddress(), entry.first);
    }
  }
  return out;
}

}  // namespace

StatsBasedNetworkQualityMetricsReporter::NetworkLayerStatsCollector::
    NetworkLayerStatsCollector(
        std::map<std::string, std::vector<EmulatedEndpoint*>> peer_endpoints,
        NetworkEmulationManager* network_emulation)
    : peer_endpoints_(std::move(peer_endpoints)),
      ip_to_peer_(PopulateIpToPeer(peer_endpoints_)),
      network_emulation_(network_emulation) {}

void StatsBasedNetworkQualityMetricsReporter::NetworkLayerStatsCollector::
    Start() {
  // Check that network stats are clean before test execution.
  for (const auto& entry : peer_endpoints_) {
    std::unique_ptr<EmulatedNetworkStats> stats =
        PopulateStats(entry.second, network_emulation_);
    RTC_CHECK_EQ(stats->PacketsSent(), 0);
    RTC_CHECK_EQ(stats->PacketsReceived(), 0);
  }
}

std::map<std::string,
         StatsBasedNetworkQualityMetricsReporter::NetworkLayerStats>
StatsBasedNetworkQualityMetricsReporter::NetworkLayerStatsCollector::
    GetStats() {
  std::map<std::string, NetworkLayerStats> peer_to_stats;
  std::map<std::string, std::vector<std::string>> sender_to_receivers;
  for (const auto& entry : peer_endpoints_) {
    NetworkLayerStats stats;
    stats.stats = PopulateStats(entry.second, network_emulation_);
    const std::string& peer_name = entry.first;
    for (const auto& income_stats_entry :
         stats.stats->IncomingStatsPerSource()) {
      const rtc::IPAddress& source_ip = income_stats_entry.first;
      auto it = ip_to_peer_.find(source_ip);
      if (it == ip_to_peer_.end()) {
        // Source IP is unknown for this collector, so will be skipped.
        continue;
      }
      sender_to_receivers[it->second].push_back(peer_name);
    }
    peer_to_stats.emplace(peer_name, std::move(stats));
  }
  for (auto& entry : peer_to_stats) {
    const std::vector<std::string>& receivers =
        sender_to_receivers[entry.first];
    entry.second.receivers =
        std::set<std::string>(receivers.begin(), receivers.end());
  }
  return peer_to_stats;
}

void StatsBasedNetworkQualityMetricsReporter::Start(
    absl::string_view test_case_name,
    const TrackIdStreamInfoMap* reporter_helper) {
  test_case_name_ = std::string(test_case_name);
  collector_.Start();
  start_time_ = clock_->CurrentTime();
}

void StatsBasedNetworkQualityMetricsReporter::OnStatsReports(
    absl::string_view pc_label,
    const rtc::scoped_refptr<const RTCStatsReport>& report) {
  PCStats cur_stats;

  auto inbound_stats = report->GetStatsOfType<RTCInboundRTPStreamStats>();
  for (const auto& stat : inbound_stats) {
    cur_stats.payload_received +=
        DataSize::Bytes(stat->bytes_received.ValueOrDefault(0ul) +
                        stat->header_bytes_received.ValueOrDefault(0ul));
  }

  auto outbound_stats = report->GetStatsOfType<RTCOutboundRTPStreamStats>();
  for (const auto& stat : outbound_stats) {
    cur_stats.payload_sent +=
        DataSize::Bytes(stat->bytes_sent.ValueOrDefault(0ul) +
                        stat->header_bytes_sent.ValueOrDefault(0ul));
  }

  auto candidate_pairs_stats = report->GetStatsOfType<RTCTransportStats>();
  for (const auto& stat : candidate_pairs_stats) {
    cur_stats.total_received +=
        DataSize::Bytes(stat->bytes_received.ValueOrDefault(0ul));
    cur_stats.total_sent +=
        DataSize::Bytes(stat->bytes_sent.ValueOrDefault(0ul));
    cur_stats.packets_received += stat->packets_received.ValueOrDefault(0ul);
    cur_stats.packets_sent += stat->packets_sent.ValueOrDefault(0ul);
  }

  MutexLock lock(&mutex_);
  pc_stats_[std::string(pc_label)] = cur_stats;
}

void StatsBasedNetworkQualityMetricsReporter::StopAndReportResults() {
  Timestamp end_time = clock_->CurrentTime();

  if (!webrtc::field_trial::IsEnabled(kUseStandardBytesStats)) {
    RTC_LOG(LS_ERROR)
        << "Non-standard GetStats; \"payload\" counts include RTP headers";
  }

  std::map<std::string, NetworkLayerStats> stats = collector_.GetStats();
  for (const auto& entry : stats) {
    LogNetworkLayerStats(entry.first, entry.second);
  }
  MutexLock lock(&mutex_);
  for (const auto& pair : pc_stats_) {
    auto it = stats.find(pair.first);
    RTC_CHECK(it != stats.end())
        << "Peer name used for PeerConnection stats collection and peer name "
           "used for endpoints naming doesn't match. No endpoints found for "
           "peer "
        << pair.first;
    const NetworkLayerStats& network_layer_stats = it->second;
    int64_t total_packets_received = 0;
    bool found = false;
    for (const auto& dest_peer : network_layer_stats.receivers) {
      auto pc_stats_it = pc_stats_.find(dest_peer);
      if (pc_stats_it == pc_stats_.end()) {
        continue;
      }
      found = true;
      total_packets_received += pc_stats_it->second.packets_received;
    }
    int64_t packet_loss = -1;
    if (found) {
      packet_loss = pair.second.packets_sent - total_packets_received;
    }
    ReportStats(pair.first, pair.second, network_layer_stats, packet_loss,
                end_time);
  }
}

void StatsBasedNetworkQualityMetricsReporter::ReportStats(
    const std::string& pc_label,
    const PCStats& pc_stats,
    const NetworkLayerStats& network_layer_stats,
    int64_t packet_loss,
    const Timestamp& end_time) {
  ReportResult("bytes_discarded_no_receiver", pc_label,
               network_layer_stats.stats->BytesDropped().bytes(),
               "sizeInBytes");
  ReportResult("packets_discarded_no_recevier", pc_label,
               network_layer_stats.stats->PacketsDropped(), "unitless");

  ReportResult("payload_bytes_received", pc_label,
               pc_stats.payload_received.bytes(), "sizeInBytes");
  ReportResult("payload_bytes_sent", pc_label, pc_stats.payload_sent.bytes(),
               "sizeInBytes");

  ReportResult("bytes_sent", pc_label, pc_stats.total_sent.bytes(),
               "sizeInBytes");
  ReportResult("packets_sent", pc_label, pc_stats.packets_sent, "unitless");
  ReportResult("average_send_rate", pc_label,
               (pc_stats.total_sent / (end_time - start_time_)).bytes_per_sec(),
               "bytesPerSecond");
  ReportResult("bytes_received", pc_label, pc_stats.total_received.bytes(),
               "sizeInBytes");
  ReportResult("packets_received", pc_label, pc_stats.packets_received,
               "unitless");
  ReportResult(
      "average_receive_rate", pc_label,
      (pc_stats.total_received / (end_time - start_time_)).bytes_per_sec(),
      "bytesPerSecond");
  ReportResult("sent_packets_loss", pc_label, packet_loss, "unitless");
}

void StatsBasedNetworkQualityMetricsReporter::ReportResult(
    const std::string& metric_name,
    const std::string& network_label,
    const double value,
    const std::string& unit) const {
  test::PrintResult(metric_name, /*modifier=*/"",
                    GetTestCaseName(network_label), value, unit,
                    /*important=*/false);
}

void StatsBasedNetworkQualityMetricsReporter::ReportResult(
    const std::string& metric_name,
    const std::string& network_label,
    const SamplesStatsCounter& value,
    const std::string& unit) const {
  test::PrintResult(metric_name, /*modifier=*/"",
                    GetTestCaseName(network_label), value, unit,
                    /*important=*/false);
}

std::string StatsBasedNetworkQualityMetricsReporter::GetTestCaseName(
    absl::string_view network_label) const {
  rtc::StringBuilder builder;
  builder << test_case_name_ << "/" << network_label.data();
  return builder.str();
}

void StatsBasedNetworkQualityMetricsReporter::LogNetworkLayerStats(
    const std::string& peer_name,
    const NetworkLayerStats& stats) const {
  DataRate average_send_rate = stats.stats->PacketsSent() >= 2
                                   ? stats.stats->AverageSendRate()
                                   : DataRate::Zero();
  DataRate average_receive_rate = stats.stats->PacketsReceived() >= 2
                                      ? stats.stats->AverageReceiveRate()
                                      : DataRate::Zero();
  rtc::StringBuilder log;
  log << "Raw network layer statistic for [" << peer_name << "]:\n"
      << "Local IPs:\n";
  std::vector<rtc::IPAddress> local_ips = stats.stats->LocalAddresses();
  for (size_t i = 0; i < local_ips.size(); ++i) {
    log << "  " << local_ips[i].ToString() << "\n";
  }
  if (!stats.stats->SentPacketsSizeCounter().IsEmpty()) {
    ReportResult("sent_packets_size", peer_name,
                 stats.stats->SentPacketsSizeCounter(), "sizeInBytes");
  }
  if (!stats.stats->ReceivedPacketsSizeCounter().IsEmpty()) {
    ReportResult("received_packets_size", peer_name,
                 stats.stats->ReceivedPacketsSizeCounter(), "sizeInBytes");
  }
  if (!stats.stats->DroppedPacketsSizeCounter().IsEmpty()) {
    ReportResult("dropped_packets_size", peer_name,
                 stats.stats->DroppedPacketsSizeCounter(), "sizeInBytes");
  }
  if (!stats.stats->SentPacketsQueueWaitTimeUs().IsEmpty()) {
    ReportResult("sent_packets_queue_wait_time_us", peer_name,
                 stats.stats->SentPacketsQueueWaitTimeUs(), "unitless");
  }

  log << "Send statistic:\n"
      << "  packets: " << stats.stats->PacketsSent()
      << " bytes: " << stats.stats->BytesSent().bytes()
      << " avg_rate (bytes/sec): " << average_send_rate.bytes_per_sec()
      << " avg_rate (bps): " << average_send_rate.bps() << "\n"
      << "Send statistic per destination:\n";

  for (const auto& entry : stats.stats->OutgoingStatsPerDestination()) {
    DataRate source_average_send_rate = entry.second->PacketsSent() >= 2
                                            ? entry.second->AverageSendRate()
                                            : DataRate::Zero();
    log << "(" << entry.first.ToString() << "):\n"
        << "  packets: " << entry.second->PacketsSent()
        << " bytes: " << entry.second->BytesSent().bytes()
        << " avg_rate (bytes/sec): " << source_average_send_rate.bytes_per_sec()
        << " avg_rate (bps): " << source_average_send_rate.bps() << "\n";
    if (!entry.second->SentPacketsSizeCounter().IsEmpty()) {
      ReportResult("sent_packets_size",
                   peer_name + "/" + entry.first.ToString(),
                   stats.stats->SentPacketsSizeCounter(), "sizeInBytes");
    }
  }

  log << "Receive statistic:\n"
      << "  packets: " << stats.stats->PacketsReceived()
      << " bytes: " << stats.stats->BytesReceived().bytes()
      << " avg_rate (bytes/sec): " << average_receive_rate.bytes_per_sec()
      << " avg_rate (bps): " << average_receive_rate.bps() << "\n"
      << "Receive statistic per source:\n";

  for (const auto& entry : stats.stats->IncomingStatsPerSource()) {
    DataRate source_average_receive_rate =
        entry.second->PacketsReceived() >= 2
            ? entry.second->AverageReceiveRate()
            : DataRate::Zero();
    log << "(" << entry.first.ToString() << "):\n"
        << "  packets: " << entry.second->PacketsReceived()
        << " bytes: " << entry.second->BytesReceived().bytes()
        << " avg_rate (bytes/sec): "
        << source_average_receive_rate.bytes_per_sec()
        << " avg_rate (bps): " << source_average_receive_rate.bps() << "\n";
    if (!entry.second->ReceivedPacketsSizeCounter().IsEmpty()) {
      ReportResult("received_packets_size",
                   peer_name + "/" + entry.first.ToString(),
                   stats.stats->ReceivedPacketsSizeCounter(), "sizeInBytes");
    }
    if (!entry.second->DroppedPacketsSizeCounter().IsEmpty()) {
      ReportResult("dropped_packets_size",
                   peer_name + "/" + entry.first.ToString(),
                   stats.stats->DroppedPacketsSizeCounter(), "sizeInBytes");
    }
  }

  RTC_LOG(INFO) << log.str();
}

}  // namespace webrtc_pc_e2e
}  // namespace webrtc