/* * Copyright (c) 2015 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 "api/rtc_event_log/rtc_event_log.h" #include #include #include #include #include #include #include #include #include "api/rtc_event_log/rtc_event_log_factory.h" #include "api/task_queue/default_task_queue_factory.h" #include "logging/rtc_event_log/events/rtc_event_audio_network_adaptation.h" #include "logging/rtc_event_log/events/rtc_event_audio_playout.h" #include "logging/rtc_event_log/events/rtc_event_audio_receive_stream_config.h" #include "logging/rtc_event_log/events/rtc_event_audio_send_stream_config.h" #include "logging/rtc_event_log/events/rtc_event_bwe_update_delay_based.h" #include "logging/rtc_event_log/events/rtc_event_bwe_update_loss_based.h" #include "logging/rtc_event_log/events/rtc_event_dtls_transport_state.h" #include "logging/rtc_event_log/events/rtc_event_dtls_writable_state.h" #include "logging/rtc_event_log/events/rtc_event_generic_ack_received.h" #include "logging/rtc_event_log/events/rtc_event_generic_packet_received.h" #include "logging/rtc_event_log/events/rtc_event_generic_packet_sent.h" #include "logging/rtc_event_log/events/rtc_event_probe_cluster_created.h" #include "logging/rtc_event_log/events/rtc_event_probe_result_failure.h" #include "logging/rtc_event_log/events/rtc_event_probe_result_success.h" #include "logging/rtc_event_log/events/rtc_event_rtcp_packet_incoming.h" #include "logging/rtc_event_log/events/rtc_event_rtcp_packet_outgoing.h" #include "logging/rtc_event_log/events/rtc_event_rtp_packet_incoming.h" #include "logging/rtc_event_log/events/rtc_event_rtp_packet_outgoing.h" #include "logging/rtc_event_log/events/rtc_event_video_receive_stream_config.h" #include "logging/rtc_event_log/events/rtc_event_video_send_stream_config.h" #include "logging/rtc_event_log/rtc_event_log_parser.h" #include "logging/rtc_event_log/rtc_event_log_unittest_helper.h" #include "logging/rtc_event_log/rtc_stream_config.h" #include "modules/rtp_rtcp/include/rtp_header_extension_map.h" #include "modules/rtp_rtcp/source/rtp_header_extensions.h" #include "rtc_base/checks.h" #include "rtc_base/fake_clock.h" #include "rtc_base/random.h" #include "test/gtest.h" #include "test/logging/memory_log_writer.h" #include "test/testsupport/file_utils.h" namespace webrtc { namespace { struct EventCounts { size_t audio_send_streams = 0; size_t audio_recv_streams = 0; size_t video_send_streams = 0; size_t video_recv_streams = 0; size_t alr_states = 0; size_t route_changes = 0; size_t audio_playouts = 0; size_t ana_configs = 0; size_t bwe_loss_events = 0; size_t bwe_delay_events = 0; size_t dtls_transport_states = 0; size_t dtls_writable_states = 0; size_t frame_decoded_events = 0; size_t probe_creations = 0; size_t probe_successes = 0; size_t probe_failures = 0; size_t ice_configs = 0; size_t ice_events = 0; size_t incoming_rtp_packets = 0; size_t outgoing_rtp_packets = 0; size_t incoming_rtcp_packets = 0; size_t outgoing_rtcp_packets = 0; size_t generic_packets_sent = 0; size_t generic_packets_received = 0; size_t generic_acks_received = 0; size_t total_nonconfig_events() const { return alr_states + route_changes + audio_playouts + ana_configs + bwe_loss_events + bwe_delay_events + dtls_transport_states + dtls_writable_states + frame_decoded_events + probe_creations + probe_successes + probe_failures + ice_configs + ice_events + incoming_rtp_packets + outgoing_rtp_packets + incoming_rtcp_packets + outgoing_rtcp_packets + generic_packets_sent + generic_packets_received + generic_acks_received; } size_t total_config_events() const { return audio_send_streams + audio_recv_streams + video_send_streams + video_recv_streams; } size_t total_events() const { return total_nonconfig_events() + total_config_events(); } }; class RtcEventLogSession : public ::testing::TestWithParam< std::tuple> { public: RtcEventLogSession() : seed_(std::get<0>(GetParam())), prng_(seed_), output_period_ms_(std::get<1>(GetParam())), encoding_type_(std::get<2>(GetParam())), gen_(seed_ * 880001UL), verifier_(encoding_type_), log_storage_(), log_output_factory_(log_storage_.CreateFactory()) { clock_.SetTime(Timestamp::Micros(prng_.Rand())); // Find the name of the current test, in order to use it as a temporary // filename. auto test_info = ::testing::UnitTest::GetInstance()->current_test_info(); std::string test_name = std::string(test_info->test_case_name()) + "_" + test_info->name(); std::replace(test_name.begin(), test_name.end(), '/', '_'); temp_filename_ = test::OutputPath() + test_name; } // Create and buffer the config events and `num_events_before_log_start` // randomized non-config events. Then call StartLogging and finally create and // write the remaining non-config events. void WriteLog(EventCounts count, size_t num_events_before_log_start); void ReadAndVerifyLog(); bool IsNewFormat() { return encoding_type_ == RtcEventLog::EncodingType::NewFormat; } private: void WriteAudioRecvConfigs(size_t audio_recv_streams, RtcEventLog* event_log); void WriteAudioSendConfigs(size_t audio_send_streams, RtcEventLog* event_log); void WriteVideoRecvConfigs(size_t video_recv_streams, RtcEventLog* event_log); void WriteVideoSendConfigs(size_t video_send_streams, RtcEventLog* event_log); std::vector> incoming_extensions_; std::vector> outgoing_extensions_; // Config events. std::vector> audio_send_config_list_; std::vector> audio_recv_config_list_; std::vector> video_send_config_list_; std::vector> video_recv_config_list_; // Regular events. std::vector> alr_state_list_; std::map>> audio_playout_map_; // Groups audio by SSRC. std::vector> ana_configs_list_; std::vector> bwe_delay_list_; std::vector> bwe_loss_list_; std::vector> dtls_transport_state_list_; std::vector> dtls_writable_state_list_; std::map>> frame_decoded_event_map_; std::vector> generic_acks_received_; std::vector> generic_packets_received_; std::vector> generic_packets_sent_; std::vector> ice_event_list_; std::vector> ice_config_list_; std::vector> probe_creation_list_; std::vector> probe_failure_list_; std::vector> probe_success_list_; std::vector> route_change_list_; std::vector> remote_estimate_list_; std::vector> incoming_rtcp_list_; std::vector> outgoing_rtcp_list_; std::map>> incoming_rtp_map_; // Groups incoming RTP by SSRC. std::map>> outgoing_rtp_map_; // Groups outgoing RTP by SSRC. int64_t start_time_us_; int64_t utc_start_time_us_; int64_t stop_time_us_; int64_t first_timestamp_ms_ = std::numeric_limits::max(); int64_t last_timestamp_ms_ = std::numeric_limits::min(); const uint64_t seed_; Random prng_; const int64_t output_period_ms_; const RtcEventLog::EncodingType encoding_type_; test::EventGenerator gen_; test::EventVerifier verifier_; rtc::ScopedFakeClock clock_; std::string temp_filename_; MemoryLogStorage log_storage_; std::unique_ptr log_output_factory_; }; bool SsrcUsed( uint32_t ssrc, const std::vector>& streams) { for (const auto& kv : streams) { if (kv.first == ssrc) return true; } return false; } void RtcEventLogSession::WriteAudioRecvConfigs(size_t audio_recv_streams, RtcEventLog* event_log) { RTC_CHECK(event_log != nullptr); uint32_t ssrc; for (size_t i = 0; i < audio_recv_streams; i++) { clock_.AdvanceTime(TimeDelta::Millis(prng_.Rand(20))); do { ssrc = prng_.Rand(); } while (SsrcUsed(ssrc, incoming_extensions_)); RtpHeaderExtensionMap extensions = gen_.NewRtpHeaderExtensionMap(); incoming_extensions_.emplace_back(ssrc, extensions); auto event = gen_.NewAudioReceiveStreamConfig(ssrc, extensions); event_log->Log(event->Copy()); audio_recv_config_list_.push_back(std::move(event)); } } void RtcEventLogSession::WriteAudioSendConfigs(size_t audio_send_streams, RtcEventLog* event_log) { RTC_CHECK(event_log != nullptr); uint32_t ssrc; for (size_t i = 0; i < audio_send_streams; i++) { clock_.AdvanceTime(TimeDelta::Millis(prng_.Rand(20))); do { ssrc = prng_.Rand(); } while (SsrcUsed(ssrc, outgoing_extensions_)); RtpHeaderExtensionMap extensions = gen_.NewRtpHeaderExtensionMap(); outgoing_extensions_.emplace_back(ssrc, extensions); auto event = gen_.NewAudioSendStreamConfig(ssrc, extensions); event_log->Log(event->Copy()); audio_send_config_list_.push_back(std::move(event)); } } void RtcEventLogSession::WriteVideoRecvConfigs(size_t video_recv_streams, RtcEventLog* event_log) { RTC_CHECK(event_log != nullptr); RTC_CHECK_GE(video_recv_streams, 1); // Force least one stream to use all header extensions, to ensure // (statistically) that every extension is tested in packet creation. RtpHeaderExtensionMap all_extensions = ParsedRtcEventLog::GetDefaultHeaderExtensionMap(); clock_.AdvanceTime(TimeDelta::Millis(prng_.Rand(20))); uint32_t ssrc = prng_.Rand(); incoming_extensions_.emplace_back(ssrc, all_extensions); auto event = gen_.NewVideoReceiveStreamConfig(ssrc, all_extensions); event_log->Log(event->Copy()); video_recv_config_list_.push_back(std::move(event)); for (size_t i = 1; i < video_recv_streams; i++) { clock_.AdvanceTime(TimeDelta::Millis(prng_.Rand(20))); do { ssrc = prng_.Rand(); } while (SsrcUsed(ssrc, incoming_extensions_)); RtpHeaderExtensionMap extensions = gen_.NewRtpHeaderExtensionMap(); incoming_extensions_.emplace_back(ssrc, extensions); auto new_event = gen_.NewVideoReceiveStreamConfig(ssrc, extensions); event_log->Log(new_event->Copy()); video_recv_config_list_.push_back(std::move(new_event)); } } void RtcEventLogSession::WriteVideoSendConfigs(size_t video_send_streams, RtcEventLog* event_log) { RTC_CHECK(event_log != nullptr); RTC_CHECK_GE(video_send_streams, 1); // Force least one stream to use all header extensions, to ensure // (statistically) that every extension is tested in packet creation. RtpHeaderExtensionMap all_extensions = ParsedRtcEventLog::GetDefaultHeaderExtensionMap(); clock_.AdvanceTime(TimeDelta::Millis(prng_.Rand(20))); uint32_t ssrc = prng_.Rand(); outgoing_extensions_.emplace_back(ssrc, all_extensions); auto event = gen_.NewVideoSendStreamConfig(ssrc, all_extensions); event_log->Log(event->Copy()); video_send_config_list_.push_back(std::move(event)); for (size_t i = 1; i < video_send_streams; i++) { clock_.AdvanceTime(TimeDelta::Millis(prng_.Rand(20))); do { ssrc = prng_.Rand(); } while (SsrcUsed(ssrc, outgoing_extensions_)); RtpHeaderExtensionMap extensions = gen_.NewRtpHeaderExtensionMap(); outgoing_extensions_.emplace_back(ssrc, extensions); auto event = gen_.NewVideoSendStreamConfig(ssrc, extensions); event_log->Log(event->Copy()); video_send_config_list_.push_back(std::move(event)); } } void RtcEventLogSession::WriteLog(EventCounts count, size_t num_events_before_start) { // TODO(terelius): Allow test to run with either a real or a fake clock_. // Maybe always use the ScopedFakeClock, but conditionally SleepMs()? auto task_queue_factory = CreateDefaultTaskQueueFactory(); RtcEventLogFactory rtc_event_log_factory(task_queue_factory.get()); // The log will be flushed to output when the event_log goes out of scope. std::unique_ptr event_log = rtc_event_log_factory.CreateRtcEventLog(encoding_type_); // We can't send or receive packets without configured streams. RTC_CHECK_GE(count.video_recv_streams, 1); RTC_CHECK_GE(count.video_send_streams, 1); WriteAudioRecvConfigs(count.audio_recv_streams, event_log.get()); WriteAudioSendConfigs(count.audio_send_streams, event_log.get()); WriteVideoRecvConfigs(count.video_recv_streams, event_log.get()); WriteVideoSendConfigs(count.video_send_streams, event_log.get()); size_t remaining_events = count.total_nonconfig_events(); ASSERT_LE(num_events_before_start, remaining_events); size_t remaining_events_at_start = remaining_events - num_events_before_start; for (; remaining_events > 0; remaining_events--) { if (remaining_events == remaining_events_at_start) { clock_.AdvanceTime(TimeDelta::Millis(prng_.Rand(20))); event_log->StartLogging(log_output_factory_->Create(temp_filename_), output_period_ms_); start_time_us_ = rtc::TimeMicros(); utc_start_time_us_ = rtc::TimeUTCMicros(); } clock_.AdvanceTime(TimeDelta::Millis(prng_.Rand(20))); size_t selection = prng_.Rand(remaining_events - 1); first_timestamp_ms_ = std::min(first_timestamp_ms_, rtc::TimeMillis()); last_timestamp_ms_ = std::max(last_timestamp_ms_, rtc::TimeMillis()); if (selection < count.alr_states) { auto event = gen_.NewAlrState(); event_log->Log(event->Copy()); alr_state_list_.push_back(std::move(event)); count.alr_states--; continue; } selection -= count.alr_states; if (selection < count.route_changes) { auto event = gen_.NewRouteChange(); event_log->Log(event->Copy()); route_change_list_.push_back(std::move(event)); count.route_changes--; continue; } selection -= count.route_changes; if (selection < count.audio_playouts) { size_t stream = prng_.Rand(incoming_extensions_.size() - 1); // This might be a video SSRC, but the parser does not use the config. uint32_t ssrc = incoming_extensions_[stream].first; auto event = gen_.NewAudioPlayout(ssrc); event_log->Log(event->Copy()); audio_playout_map_[ssrc].push_back(std::move(event)); count.audio_playouts--; continue; } selection -= count.audio_playouts; if (selection < count.ana_configs) { auto event = gen_.NewAudioNetworkAdaptation(); event_log->Log(event->Copy()); ana_configs_list_.push_back(std::move(event)); count.ana_configs--; continue; } selection -= count.ana_configs; if (selection < count.bwe_loss_events) { auto event = gen_.NewBweUpdateLossBased(); event_log->Log(event->Copy()); bwe_loss_list_.push_back(std::move(event)); count.bwe_loss_events--; continue; } selection -= count.bwe_loss_events; if (selection < count.bwe_delay_events) { auto event = gen_.NewBweUpdateDelayBased(); event_log->Log(event->Copy()); bwe_delay_list_.push_back(std::move(event)); count.bwe_delay_events--; continue; } selection -= count.bwe_delay_events; if (selection < count.probe_creations) { auto event = gen_.NewProbeClusterCreated(); event_log->Log(event->Copy()); probe_creation_list_.push_back(std::move(event)); count.probe_creations--; continue; } selection -= count.probe_creations; if (selection < count.probe_successes) { auto event = gen_.NewProbeResultSuccess(); event_log->Log(event->Copy()); probe_success_list_.push_back(std::move(event)); count.probe_successes--; continue; } selection -= count.probe_successes; if (selection < count.probe_failures) { auto event = gen_.NewProbeResultFailure(); event_log->Log(event->Copy()); probe_failure_list_.push_back(std::move(event)); count.probe_failures--; continue; } selection -= count.probe_failures; if (selection < count.dtls_transport_states) { auto event = gen_.NewDtlsTransportState(); event_log->Log(event->Copy()); dtls_transport_state_list_.push_back(std::move(event)); count.dtls_transport_states--; continue; } selection -= count.dtls_transport_states; if (selection < count.dtls_writable_states) { auto event = gen_.NewDtlsWritableState(); event_log->Log(event->Copy()); dtls_writable_state_list_.push_back(std::move(event)); count.dtls_writable_states--; continue; } selection -= count.dtls_writable_states; if (selection < count.frame_decoded_events) { size_t stream = prng_.Rand(incoming_extensions_.size() - 1); // This might be an audio SSRC, but that won't affect the parser. uint32_t ssrc = incoming_extensions_[stream].first; auto event = gen_.NewFrameDecodedEvent(ssrc); event_log->Log(event->Copy()); frame_decoded_event_map_[ssrc].push_back(std::move(event)); count.frame_decoded_events--; continue; } selection -= count.frame_decoded_events; if (selection < count.ice_configs) { auto event = gen_.NewIceCandidatePairConfig(); event_log->Log(event->Copy()); ice_config_list_.push_back(std::move(event)); count.ice_configs--; continue; } selection -= count.ice_configs; if (selection < count.ice_events) { auto event = gen_.NewIceCandidatePair(); event_log->Log(event->Copy()); ice_event_list_.push_back(std::move(event)); count.ice_events--; continue; } selection -= count.ice_events; if (selection < count.incoming_rtp_packets) { size_t stream = prng_.Rand(incoming_extensions_.size() - 1); uint32_t ssrc = incoming_extensions_[stream].first; auto event = gen_.NewRtpPacketIncoming(ssrc, incoming_extensions_[stream].second); event_log->Log(event->Copy()); incoming_rtp_map_[ssrc].push_back(std::move(event)); count.incoming_rtp_packets--; continue; } selection -= count.incoming_rtp_packets; if (selection < count.outgoing_rtp_packets) { size_t stream = prng_.Rand(outgoing_extensions_.size() - 1); uint32_t ssrc = outgoing_extensions_[stream].first; auto event = gen_.NewRtpPacketOutgoing(ssrc, outgoing_extensions_[stream].second); event_log->Log(event->Copy()); outgoing_rtp_map_[ssrc].push_back(std::move(event)); count.outgoing_rtp_packets--; continue; } selection -= count.outgoing_rtp_packets; if (selection < count.incoming_rtcp_packets) { auto event = gen_.NewRtcpPacketIncoming(); event_log->Log(event->Copy()); incoming_rtcp_list_.push_back(std::move(event)); count.incoming_rtcp_packets--; continue; } selection -= count.incoming_rtcp_packets; if (selection < count.outgoing_rtcp_packets) { auto event = gen_.NewRtcpPacketOutgoing(); event_log->Log(event->Copy()); outgoing_rtcp_list_.push_back(std::move(event)); count.outgoing_rtcp_packets--; continue; } selection -= count.outgoing_rtcp_packets; if (selection < count.generic_packets_sent) { auto event = gen_.NewGenericPacketSent(); generic_packets_sent_.push_back(event->Copy()); event_log->Log(std::move(event)); count.generic_packets_sent--; continue; } selection -= count.generic_packets_sent; if (selection < count.generic_packets_received) { auto event = gen_.NewGenericPacketReceived(); generic_packets_received_.push_back(event->Copy()); event_log->Log(std::move(event)); count.generic_packets_received--; continue; } selection -= count.generic_packets_received; if (selection < count.generic_acks_received) { auto event = gen_.NewGenericAckReceived(); generic_acks_received_.push_back(event->Copy()); event_log->Log(std::move(event)); count.generic_acks_received--; continue; } selection -= count.generic_acks_received; RTC_DCHECK_NOTREACHED(); } event_log->StopLogging(); stop_time_us_ = rtc::TimeMicros(); ASSERT_EQ(count.total_nonconfig_events(), static_cast(0)); } // Read the log and verify that what we read back from the event log is the // same as what we wrote down. void RtcEventLogSession::ReadAndVerifyLog() { // Read the generated log from memory. ParsedRtcEventLog parsed_log; auto it = log_storage_.logs().find(temp_filename_); ASSERT_TRUE(it != log_storage_.logs().end()); ASSERT_TRUE(parsed_log.ParseString(it->second).ok()); // Start and stop events. auto& parsed_start_log_events = parsed_log.start_log_events(); ASSERT_EQ(parsed_start_log_events.size(), static_cast(1)); verifier_.VerifyLoggedStartEvent(start_time_us_, utc_start_time_us_, parsed_start_log_events[0]); auto& parsed_stop_log_events = parsed_log.stop_log_events(); ASSERT_EQ(parsed_stop_log_events.size(), static_cast(1)); verifier_.VerifyLoggedStopEvent(stop_time_us_, parsed_stop_log_events[0]); auto& parsed_alr_state_events = parsed_log.alr_state_events(); ASSERT_EQ(parsed_alr_state_events.size(), alr_state_list_.size()); for (size_t i = 0; i < parsed_alr_state_events.size(); i++) { verifier_.VerifyLoggedAlrStateEvent(*alr_state_list_[i], parsed_alr_state_events[i]); } auto& parsed_route_change_events = parsed_log.route_change_events(); ASSERT_EQ(parsed_route_change_events.size(), route_change_list_.size()); for (size_t i = 0; i < parsed_route_change_events.size(); i++) { verifier_.VerifyLoggedRouteChangeEvent(*route_change_list_[i], parsed_route_change_events[i]); } const auto& parsed_audio_playout_map = parsed_log.audio_playout_events(); ASSERT_EQ(parsed_audio_playout_map.size(), audio_playout_map_.size()); for (const auto& kv : parsed_audio_playout_map) { uint32_t ssrc = kv.first; const auto& parsed_audio_playout_stream = kv.second; const auto& audio_playout_stream = audio_playout_map_[ssrc]; ASSERT_EQ(parsed_audio_playout_stream.size(), audio_playout_stream.size()); for (size_t i = 0; i < audio_playout_stream.size(); i++) { verifier_.VerifyLoggedAudioPlayoutEvent(*audio_playout_stream[i], parsed_audio_playout_stream[i]); } } auto& parsed_audio_network_adaptation_events = parsed_log.audio_network_adaptation_events(); ASSERT_EQ(parsed_audio_network_adaptation_events.size(), ana_configs_list_.size()); for (size_t i = 0; i < parsed_audio_network_adaptation_events.size(); i++) { verifier_.VerifyLoggedAudioNetworkAdaptationEvent( *ana_configs_list_[i], parsed_audio_network_adaptation_events[i]); } auto& parsed_bwe_delay_updates = parsed_log.bwe_delay_updates(); ASSERT_EQ(parsed_bwe_delay_updates.size(), bwe_delay_list_.size()); for (size_t i = 0; i < parsed_bwe_delay_updates.size(); i++) { verifier_.VerifyLoggedBweDelayBasedUpdate(*bwe_delay_list_[i], parsed_bwe_delay_updates[i]); } auto& parsed_bwe_loss_updates = parsed_log.bwe_loss_updates(); ASSERT_EQ(parsed_bwe_loss_updates.size(), bwe_loss_list_.size()); for (size_t i = 0; i < parsed_bwe_loss_updates.size(); i++) { verifier_.VerifyLoggedBweLossBasedUpdate(*bwe_loss_list_[i], parsed_bwe_loss_updates[i]); } auto& parsed_bwe_probe_cluster_created_events = parsed_log.bwe_probe_cluster_created_events(); ASSERT_EQ(parsed_bwe_probe_cluster_created_events.size(), probe_creation_list_.size()); for (size_t i = 0; i < parsed_bwe_probe_cluster_created_events.size(); i++) { verifier_.VerifyLoggedBweProbeClusterCreatedEvent( *probe_creation_list_[i], parsed_bwe_probe_cluster_created_events[i]); } auto& parsed_bwe_probe_failure_events = parsed_log.bwe_probe_failure_events(); ASSERT_EQ(parsed_bwe_probe_failure_events.size(), probe_failure_list_.size()); for (size_t i = 0; i < parsed_bwe_probe_failure_events.size(); i++) { verifier_.VerifyLoggedBweProbeFailureEvent( *probe_failure_list_[i], parsed_bwe_probe_failure_events[i]); } auto& parsed_bwe_probe_success_events = parsed_log.bwe_probe_success_events(); ASSERT_EQ(parsed_bwe_probe_success_events.size(), probe_success_list_.size()); for (size_t i = 0; i < parsed_bwe_probe_success_events.size(); i++) { verifier_.VerifyLoggedBweProbeSuccessEvent( *probe_success_list_[i], parsed_bwe_probe_success_events[i]); } auto& parsed_dtls_transport_states = parsed_log.dtls_transport_states(); ASSERT_EQ(parsed_dtls_transport_states.size(), dtls_transport_state_list_.size()); for (size_t i = 0; i < parsed_dtls_transport_states.size(); i++) { verifier_.VerifyLoggedDtlsTransportState(*dtls_transport_state_list_[i], parsed_dtls_transport_states[i]); } auto& parsed_dtls_writable_states = parsed_log.dtls_writable_states(); ASSERT_EQ(parsed_dtls_writable_states.size(), dtls_writable_state_list_.size()); for (size_t i = 0; i < parsed_dtls_writable_states.size(); i++) { verifier_.VerifyLoggedDtlsWritableState(*dtls_writable_state_list_[i], parsed_dtls_writable_states[i]); } const auto& parsed_frame_decoded_map = parsed_log.decoded_frames(); ASSERT_EQ(parsed_frame_decoded_map.size(), frame_decoded_event_map_.size()); for (const auto& kv : parsed_frame_decoded_map) { uint32_t ssrc = kv.first; const auto& parsed_decoded_frames = kv.second; const auto& decoded_frames = frame_decoded_event_map_[ssrc]; ASSERT_EQ(parsed_decoded_frames.size(), decoded_frames.size()); for (size_t i = 0; i < decoded_frames.size(); i++) { verifier_.VerifyLoggedFrameDecoded(*decoded_frames[i], parsed_decoded_frames[i]); } } auto& parsed_ice_candidate_pair_configs = parsed_log.ice_candidate_pair_configs(); ASSERT_EQ(parsed_ice_candidate_pair_configs.size(), ice_config_list_.size()); for (size_t i = 0; i < parsed_ice_candidate_pair_configs.size(); i++) { verifier_.VerifyLoggedIceCandidatePairConfig( *ice_config_list_[i], parsed_ice_candidate_pair_configs[i]); } auto& parsed_ice_candidate_pair_events = parsed_log.ice_candidate_pair_events(); ASSERT_EQ(parsed_ice_candidate_pair_events.size(), parsed_ice_candidate_pair_events.size()); for (size_t i = 0; i < parsed_ice_candidate_pair_events.size(); i++) { verifier_.VerifyLoggedIceCandidatePairEvent( *ice_event_list_[i], parsed_ice_candidate_pair_events[i]); } auto& parsed_incoming_rtp_packets_by_ssrc = parsed_log.incoming_rtp_packets_by_ssrc(); ASSERT_EQ(parsed_incoming_rtp_packets_by_ssrc.size(), incoming_rtp_map_.size()); for (const auto& kv : parsed_incoming_rtp_packets_by_ssrc) { uint32_t ssrc = kv.ssrc; const auto& parsed_rtp_stream = kv.incoming_packets; const auto& rtp_stream = incoming_rtp_map_[ssrc]; ASSERT_EQ(parsed_rtp_stream.size(), rtp_stream.size()); for (size_t i = 0; i < parsed_rtp_stream.size(); i++) { verifier_.VerifyLoggedRtpPacketIncoming(*rtp_stream[i], parsed_rtp_stream[i]); } } auto& parsed_outgoing_rtp_packets_by_ssrc = parsed_log.outgoing_rtp_packets_by_ssrc(); ASSERT_EQ(parsed_outgoing_rtp_packets_by_ssrc.size(), outgoing_rtp_map_.size()); for (const auto& kv : parsed_outgoing_rtp_packets_by_ssrc) { uint32_t ssrc = kv.ssrc; const auto& parsed_rtp_stream = kv.outgoing_packets; const auto& rtp_stream = outgoing_rtp_map_[ssrc]; ASSERT_EQ(parsed_rtp_stream.size(), rtp_stream.size()); for (size_t i = 0; i < parsed_rtp_stream.size(); i++) { verifier_.VerifyLoggedRtpPacketOutgoing(*rtp_stream[i], parsed_rtp_stream[i]); } } auto& parsed_incoming_rtcp_packets = parsed_log.incoming_rtcp_packets(); ASSERT_EQ(parsed_incoming_rtcp_packets.size(), incoming_rtcp_list_.size()); for (size_t i = 0; i < parsed_incoming_rtcp_packets.size(); i++) { verifier_.VerifyLoggedRtcpPacketIncoming(*incoming_rtcp_list_[i], parsed_incoming_rtcp_packets[i]); } auto& parsed_outgoing_rtcp_packets = parsed_log.outgoing_rtcp_packets(); ASSERT_EQ(parsed_outgoing_rtcp_packets.size(), outgoing_rtcp_list_.size()); for (size_t i = 0; i < parsed_outgoing_rtcp_packets.size(); i++) { verifier_.VerifyLoggedRtcpPacketOutgoing(*outgoing_rtcp_list_[i], parsed_outgoing_rtcp_packets[i]); } auto& parsed_audio_recv_configs = parsed_log.audio_recv_configs(); ASSERT_EQ(parsed_audio_recv_configs.size(), audio_recv_config_list_.size()); for (size_t i = 0; i < parsed_audio_recv_configs.size(); i++) { verifier_.VerifyLoggedAudioRecvConfig(*audio_recv_config_list_[i], parsed_audio_recv_configs[i]); } auto& parsed_audio_send_configs = parsed_log.audio_send_configs(); ASSERT_EQ(parsed_audio_send_configs.size(), audio_send_config_list_.size()); for (size_t i = 0; i < parsed_audio_send_configs.size(); i++) { verifier_.VerifyLoggedAudioSendConfig(*audio_send_config_list_[i], parsed_audio_send_configs[i]); } auto& parsed_video_recv_configs = parsed_log.video_recv_configs(); ASSERT_EQ(parsed_video_recv_configs.size(), video_recv_config_list_.size()); for (size_t i = 0; i < parsed_video_recv_configs.size(); i++) { verifier_.VerifyLoggedVideoRecvConfig(*video_recv_config_list_[i], parsed_video_recv_configs[i]); } auto& parsed_video_send_configs = parsed_log.video_send_configs(); ASSERT_EQ(parsed_video_send_configs.size(), video_send_config_list_.size()); for (size_t i = 0; i < parsed_video_send_configs.size(); i++) { verifier_.VerifyLoggedVideoSendConfig(*video_send_config_list_[i], parsed_video_send_configs[i]); } auto& parsed_generic_packets_received = parsed_log.generic_packets_received(); ASSERT_EQ(parsed_generic_packets_received.size(), generic_packets_received_.size()); for (size_t i = 0; i < parsed_generic_packets_received.size(); i++) { verifier_.VerifyLoggedGenericPacketReceived( *generic_packets_received_[i], parsed_generic_packets_received[i]); } auto& parsed_generic_packets_sent = parsed_log.generic_packets_sent(); ASSERT_EQ(parsed_generic_packets_sent.size(), generic_packets_sent_.size()); for (size_t i = 0; i < parsed_generic_packets_sent.size(); i++) { verifier_.VerifyLoggedGenericPacketSent(*generic_packets_sent_[i], parsed_generic_packets_sent[i]); } auto& parsed_generic_acks_received = parsed_log.generic_acks_received(); ASSERT_EQ(parsed_generic_acks_received.size(), generic_acks_received_.size()); for (size_t i = 0; i < parsed_generic_acks_received.size(); i++) { verifier_.VerifyLoggedGenericAckReceived(*generic_acks_received_[i], parsed_generic_acks_received[i]); } EXPECT_EQ(first_timestamp_ms_, parsed_log.first_timestamp().ms()); EXPECT_EQ(last_timestamp_ms_, parsed_log.last_timestamp().ms()); EXPECT_EQ(parsed_log.first_log_segment().start_time_ms(), std::min(start_time_us_ / 1000, first_timestamp_ms_)); EXPECT_EQ(parsed_log.first_log_segment().stop_time_ms(), stop_time_us_ / 1000); } } // namespace TEST_P(RtcEventLogSession, StartLoggingFromBeginning) { EventCounts count; count.audio_send_streams = 2; count.audio_recv_streams = 2; count.video_send_streams = 3; count.video_recv_streams = 4; count.alr_states = 4; count.audio_playouts = 100; count.ana_configs = 3; count.bwe_loss_events = 20; count.bwe_delay_events = 20; count.probe_creations = 4; count.probe_successes = 2; count.probe_failures = 2; count.ice_configs = 3; count.ice_events = 10; count.incoming_rtp_packets = 100; count.outgoing_rtp_packets = 100; count.incoming_rtcp_packets = 20; count.outgoing_rtcp_packets = 20; if (IsNewFormat()) { count.dtls_transport_states = 4; count.dtls_writable_states = 2; count.frame_decoded_events = 50; count.generic_packets_sent = 100; count.generic_packets_received = 100; count.generic_acks_received = 20; count.route_changes = 4; } WriteLog(count, 0); ReadAndVerifyLog(); } TEST_P(RtcEventLogSession, StartLoggingInTheMiddle) { EventCounts count; count.audio_send_streams = 3; count.audio_recv_streams = 4; count.video_send_streams = 5; count.video_recv_streams = 6; count.alr_states = 10; count.audio_playouts = 500; count.ana_configs = 10; count.bwe_loss_events = 50; count.bwe_delay_events = 50; count.probe_creations = 10; count.probe_successes = 5; count.probe_failures = 5; count.ice_configs = 10; count.ice_events = 20; count.incoming_rtp_packets = 500; count.outgoing_rtp_packets = 500; count.incoming_rtcp_packets = 50; count.outgoing_rtcp_packets = 50; if (IsNewFormat()) { count.dtls_transport_states = 4; count.dtls_writable_states = 5; count.frame_decoded_events = 250; count.generic_packets_sent = 500; count.generic_packets_received = 500; count.generic_acks_received = 50; count.route_changes = 10; } WriteLog(count, 500); ReadAndVerifyLog(); } INSTANTIATE_TEST_SUITE_P( RtcEventLogTest, RtcEventLogSession, ::testing::Combine( ::testing::Values(1234567, 7654321), ::testing::Values(RtcEventLog::kImmediateOutput, 1, 5), ::testing::Values(RtcEventLog::EncodingType::Legacy, RtcEventLog::EncodingType::NewFormat))); class RtcEventLogCircularBufferTest : public ::testing::TestWithParam { public: RtcEventLogCircularBufferTest() : encoding_type_(GetParam()), verifier_(encoding_type_), log_storage_(), log_output_factory_(log_storage_.CreateFactory()) {} const RtcEventLog::EncodingType encoding_type_; const test::EventVerifier verifier_; MemoryLogStorage log_storage_; std::unique_ptr log_output_factory_; }; TEST_P(RtcEventLogCircularBufferTest, KeepsMostRecentEvents) { // TODO(terelius): Maybe make a separate RtcEventLogImplTest that can access // the size of the cyclic buffer? constexpr size_t kNumEvents = 20000; constexpr int64_t kStartTimeSeconds = 1; constexpr int32_t kStartBitrate = 1000000; auto test_info = ::testing::UnitTest::GetInstance()->current_test_info(); std::string test_name = std::string(test_info->test_case_name()) + "_" + test_info->name(); std::replace(test_name.begin(), test_name.end(), '/', '_'); const std::string temp_filename = test::OutputPath() + test_name; std::unique_ptr fake_clock = std::make_unique(); fake_clock->SetTime(Timestamp::Seconds(kStartTimeSeconds)); // Create a scope for the TQ and event log factories. // This way, we make sure that task queue instances that may rely on a clock // have been torn down before we run the verification steps at the end of // the test. int64_t start_time_us, utc_start_time_us, stop_time_us; { auto task_queue_factory = CreateDefaultTaskQueueFactory(); RtcEventLogFactory rtc_event_log_factory(task_queue_factory.get()); // When `log` goes out of scope, the contents are flushed // to the output. std::unique_ptr log = rtc_event_log_factory.CreateRtcEventLog(encoding_type_); for (size_t i = 0; i < kNumEvents; i++) { // The purpose of the test is to verify that the log can handle // more events than what fits in the internal circular buffer. The exact // type of events does not matter so we chose ProbeSuccess events for // simplicity. // We base the various values on the index. We use this for some basic // consistency checks when we read back. log->Log(std::make_unique( i, kStartBitrate + i * 1000)); fake_clock->AdvanceTime(TimeDelta::Millis(10)); } start_time_us = rtc::TimeMicros(); utc_start_time_us = rtc::TimeUTCMicros(); log->StartLogging(log_output_factory_->Create(temp_filename), RtcEventLog::kImmediateOutput); fake_clock->AdvanceTime(TimeDelta::Millis(10)); stop_time_us = rtc::TimeMicros(); log->StopLogging(); } // Read the generated log from memory. ParsedRtcEventLog parsed_log; auto it = log_storage_.logs().find(temp_filename); ASSERT_TRUE(it != log_storage_.logs().end()); ASSERT_TRUE(parsed_log.ParseString(it->second).ok()); const auto& start_log_events = parsed_log.start_log_events(); ASSERT_EQ(start_log_events.size(), 1u); verifier_.VerifyLoggedStartEvent(start_time_us, utc_start_time_us, start_log_events[0]); const auto& stop_log_events = parsed_log.stop_log_events(); ASSERT_EQ(stop_log_events.size(), 1u); verifier_.VerifyLoggedStopEvent(stop_time_us, stop_log_events[0]); const auto& probe_success_events = parsed_log.bwe_probe_success_events(); // If the following fails, it probably means that kNumEvents isn't larger // than the size of the cyclic buffer in the event log. Try increasing // kNumEvents. EXPECT_LT(probe_success_events.size(), kNumEvents); ASSERT_GT(probe_success_events.size(), 1u); int64_t first_timestamp_ms = probe_success_events[0].timestamp.ms(); uint32_t first_id = probe_success_events[0].id; int32_t first_bitrate_bps = probe_success_events[0].bitrate_bps; // We want to reset the time to what we used when generating the events, but // the fake clock implementation DCHECKS if time moves backwards. We therefore // recreate the clock. However we must ensure that the old fake_clock is // destroyed before the new one is created, so we have to reset() first. fake_clock.reset(); fake_clock = std::make_unique(); fake_clock->SetTime(Timestamp::Millis(first_timestamp_ms)); for (size_t i = 1; i < probe_success_events.size(); i++) { fake_clock->AdvanceTime(TimeDelta::Millis(10)); verifier_.VerifyLoggedBweProbeSuccessEvent( RtcEventProbeResultSuccess(first_id + i, first_bitrate_bps + i * 1000), probe_success_events[i]); } } INSTANTIATE_TEST_SUITE_P( RtcEventLogTest, RtcEventLogCircularBufferTest, ::testing::Values(RtcEventLog::EncodingType::Legacy, RtcEventLog::EncodingType::NewFormat)); // TODO(terelius): Verify parser behavior if the timestamps are not // monotonically increasing in the log. TEST(DereferencingVectorTest, NonConstVector) { std::vector v{0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; DereferencingVector even; EXPECT_TRUE(even.empty()); EXPECT_EQ(even.size(), 0u); EXPECT_EQ(even.begin(), even.end()); for (size_t i = 0; i < v.size(); i += 2) { even.push_back(&v[i]); } EXPECT_FALSE(even.empty()); EXPECT_EQ(even.size(), 5u); EXPECT_NE(even.begin(), even.end()); // Test direct access. for (size_t i = 0; i < even.size(); i++) { EXPECT_EQ(even[i], 2 * static_cast(i)); } // Test iterator. for (int val : even) { EXPECT_EQ(val % 2, 0); } // Test modification through iterator. for (int& val : even) { val = val * 2; EXPECT_EQ(val % 2, 0); } // Backing vector should have been modified. std::vector expected{0, 1, 4, 3, 8, 5, 12, 7, 16, 9}; for (size_t i = 0; i < v.size(); i++) { EXPECT_EQ(v[i], expected[i]); } } TEST(DereferencingVectorTest, ConstVector) { std::vector v{0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; DereferencingVector odd; EXPECT_TRUE(odd.empty()); EXPECT_EQ(odd.size(), 0u); EXPECT_EQ(odd.begin(), odd.end()); for (size_t i = 1; i < v.size(); i += 2) { odd.push_back(&v[i]); } EXPECT_FALSE(odd.empty()); EXPECT_EQ(odd.size(), 5u); EXPECT_NE(odd.begin(), odd.end()); // Test direct access. for (size_t i = 0; i < odd.size(); i++) { EXPECT_EQ(odd[i], 2 * static_cast(i) + 1); } // Test iterator. for (int val : odd) { EXPECT_EQ(val % 2, 1); } } } // namespace webrtc