blob: e66a504b450bd4129586d2ddde2ef81b4da7bec4 [file] [log] [blame]
/*
* Copyright 2016 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 "pc/rtc_stats_collector.h"
#include <memory>
#include <string>
#include <utility>
#include <vector>
#include "absl/memory/memory.h"
#include "api/candidate.h"
#include "api/media_stream_interface.h"
#include "api/peer_connection_interface.h"
#include "media/base/media_channel.h"
#include "p2p/base/p2p_constants.h"
#include "p2p/base/port.h"
#include "pc/peer_connection.h"
#include "pc/rtc_stats_traversal.h"
#include "rtc_base/checks.h"
#include "rtc_base/strings/string_builder.h"
#include "rtc_base/time_utils.h"
#include "rtc_base/trace_event.h"
namespace webrtc {
namespace {
std::string RTCCertificateIDFromFingerprint(const std::string& fingerprint) {
return "RTCCertificate_" + fingerprint;
}
std::string RTCCodecStatsIDFromMidDirectionAndPayload(const std::string& mid,
bool inbound,
uint32_t payload_type) {
char buf[1024];
rtc::SimpleStringBuilder sb(buf);
sb << "RTCCodec_" << mid << (inbound ? "_Inbound_" : "_Outbound_")
<< payload_type;
return sb.str();
}
std::string RTCIceCandidatePairStatsIDFromConnectionInfo(
const cricket::ConnectionInfo& info) {
char buf[4096];
rtc::SimpleStringBuilder sb(buf);
sb << "RTCIceCandidatePair_" << info.local_candidate.id() << "_"
<< info.remote_candidate.id();
return sb.str();
}
const char kSender[] = "sender";
const char kReceiver[] = "receiver";
std::string RTCMediaStreamTrackStatsIDFromDirectionAndAttachment(
const char* direction,
int attachment_id) {
char buf[1024];
rtc::SimpleStringBuilder sb(buf);
sb << "RTCMediaStreamTrack_" << direction << "_" << attachment_id;
return sb.str();
}
std::string RTCTransportStatsIDFromTransportChannel(
const std::string& transport_name, int channel_component) {
char buf[1024];
rtc::SimpleStringBuilder sb(buf);
sb << "RTCTransport_" << transport_name << "_" << channel_component;
return sb.str();
}
std::string RTCInboundRTPStreamStatsIDFromSSRC(bool audio, uint32_t ssrc) {
char buf[1024];
rtc::SimpleStringBuilder sb(buf);
sb << "RTCInboundRTP" << (audio ? "Audio" : "Video") << "Stream_" << ssrc;
return sb.str();
}
std::string RTCOutboundRTPStreamStatsIDFromSSRC(bool audio, uint32_t ssrc) {
char buf[1024];
rtc::SimpleStringBuilder sb(buf);
sb << "RTCOutboundRTP" << (audio ? "Audio" : "Video") << "Stream_" << ssrc;
return sb.str();
}
const char* CandidateTypeToRTCIceCandidateType(const std::string& type) {
if (type == cricket::LOCAL_PORT_TYPE)
return RTCIceCandidateType::kHost;
if (type == cricket::STUN_PORT_TYPE)
return RTCIceCandidateType::kSrflx;
if (type == cricket::PRFLX_PORT_TYPE)
return RTCIceCandidateType::kPrflx;
if (type == cricket::RELAY_PORT_TYPE)
return RTCIceCandidateType::kRelay;
RTC_NOTREACHED();
return nullptr;
}
const char* DataStateToRTCDataChannelState(
DataChannelInterface::DataState state) {
switch (state) {
case DataChannelInterface::kConnecting:
return RTCDataChannelState::kConnecting;
case DataChannelInterface::kOpen:
return RTCDataChannelState::kOpen;
case DataChannelInterface::kClosing:
return RTCDataChannelState::kClosing;
case DataChannelInterface::kClosed:
return RTCDataChannelState::kClosed;
default:
RTC_NOTREACHED();
return nullptr;
}
}
const char* IceCandidatePairStateToRTCStatsIceCandidatePairState(
cricket::IceCandidatePairState state) {
switch (state) {
case cricket::IceCandidatePairState::WAITING:
return RTCStatsIceCandidatePairState::kWaiting;
case cricket::IceCandidatePairState::IN_PROGRESS:
return RTCStatsIceCandidatePairState::kInProgress;
case cricket::IceCandidatePairState::SUCCEEDED:
return RTCStatsIceCandidatePairState::kSucceeded;
case cricket::IceCandidatePairState::FAILED:
return RTCStatsIceCandidatePairState::kFailed;
default:
RTC_NOTREACHED();
return nullptr;
}
}
const char* DtlsTransportStateToRTCDtlsTransportState(
cricket::DtlsTransportState state) {
switch (state) {
case cricket::DTLS_TRANSPORT_NEW:
return RTCDtlsTransportState::kNew;
case cricket::DTLS_TRANSPORT_CONNECTING:
return RTCDtlsTransportState::kConnecting;
case cricket::DTLS_TRANSPORT_CONNECTED:
return RTCDtlsTransportState::kConnected;
case cricket::DTLS_TRANSPORT_CLOSED:
return RTCDtlsTransportState::kClosed;
case cricket::DTLS_TRANSPORT_FAILED:
return RTCDtlsTransportState::kFailed;
default:
RTC_NOTREACHED();
return nullptr;
}
}
const char* NetworkAdapterTypeToStatsType(rtc::AdapterType type) {
switch (type) {
case rtc::ADAPTER_TYPE_CELLULAR:
return RTCNetworkType::kCellular;
case rtc::ADAPTER_TYPE_ETHERNET:
return RTCNetworkType::kEthernet;
case rtc::ADAPTER_TYPE_WIFI:
return RTCNetworkType::kWifi;
case rtc::ADAPTER_TYPE_VPN:
return RTCNetworkType::kVpn;
case rtc::ADAPTER_TYPE_UNKNOWN:
case rtc::ADAPTER_TYPE_LOOPBACK:
case rtc::ADAPTER_TYPE_ANY:
return RTCNetworkType::kUnknown;
}
RTC_NOTREACHED();
return nullptr;
}
double DoubleAudioLevelFromIntAudioLevel(int audio_level) {
RTC_DCHECK_GE(audio_level, 0);
RTC_DCHECK_LE(audio_level, 32767);
return audio_level / 32767.0;
}
std::unique_ptr<RTCCodecStats> CodecStatsFromRtpCodecParameters(
uint64_t timestamp_us,
const std::string& mid,
bool inbound,
const RtpCodecParameters& codec_params) {
RTC_DCHECK_GE(codec_params.payload_type, 0);
RTC_DCHECK_LE(codec_params.payload_type, 127);
RTC_DCHECK(codec_params.clock_rate);
uint32_t payload_type = static_cast<uint32_t>(codec_params.payload_type);
std::unique_ptr<RTCCodecStats> codec_stats(new RTCCodecStats(
RTCCodecStatsIDFromMidDirectionAndPayload(mid, inbound, payload_type),
timestamp_us));
codec_stats->payload_type = payload_type;
codec_stats->mime_type = codec_params.mime_type();
if (codec_params.clock_rate) {
codec_stats->clock_rate = static_cast<uint32_t>(*codec_params.clock_rate);
}
return codec_stats;
}
void SetMediaStreamTrackStatsFromMediaStreamTrackInterface(
const MediaStreamTrackInterface& track,
RTCMediaStreamTrackStats* track_stats) {
track_stats->track_identifier = track.id();
track_stats->ended = (track.state() == MediaStreamTrackInterface::kEnded);
}
// Provides the media independent counters (both audio and video).
void SetInboundRTPStreamStatsFromMediaReceiverInfo(
const cricket::MediaReceiverInfo& media_receiver_info,
RTCInboundRTPStreamStats* inbound_stats) {
RTC_DCHECK(inbound_stats);
inbound_stats->ssrc = media_receiver_info.ssrc();
// TODO(hbos): Support the remote case. https://crbug.com/657855
inbound_stats->is_remote = false;
inbound_stats->packets_received =
static_cast<uint32_t>(media_receiver_info.packets_rcvd);
inbound_stats->bytes_received =
static_cast<uint64_t>(media_receiver_info.bytes_rcvd);
inbound_stats->packets_lost =
static_cast<int32_t>(media_receiver_info.packets_lost);
inbound_stats->fraction_lost =
static_cast<double>(media_receiver_info.fraction_lost);
}
void SetInboundRTPStreamStatsFromVoiceReceiverInfo(
const std::string& mid,
const cricket::VoiceReceiverInfo& voice_receiver_info,
RTCInboundRTPStreamStats* inbound_audio) {
SetInboundRTPStreamStatsFromMediaReceiverInfo(
voice_receiver_info, inbound_audio);
inbound_audio->media_type = "audio";
inbound_audio->kind = "audio";
if (voice_receiver_info.codec_payload_type) {
inbound_audio->codec_id = RTCCodecStatsIDFromMidDirectionAndPayload(
mid, true, *voice_receiver_info.codec_payload_type);
}
inbound_audio->jitter =
static_cast<double>(voice_receiver_info.jitter_ms) /
rtc::kNumMillisecsPerSec;
// |fir_count|, |pli_count| and |sli_count| are only valid for video and are
// purposefully left undefined for audio.
}
void SetInboundRTPStreamStatsFromVideoReceiverInfo(
const std::string& mid,
const cricket::VideoReceiverInfo& video_receiver_info,
RTCInboundRTPStreamStats* inbound_video) {
SetInboundRTPStreamStatsFromMediaReceiverInfo(
video_receiver_info, inbound_video);
inbound_video->media_type = "video";
inbound_video->kind = "video";
if (video_receiver_info.codec_payload_type) {
inbound_video->codec_id = RTCCodecStatsIDFromMidDirectionAndPayload(
mid, true, *video_receiver_info.codec_payload_type);
}
inbound_video->fir_count =
static_cast<uint32_t>(video_receiver_info.firs_sent);
inbound_video->pli_count =
static_cast<uint32_t>(video_receiver_info.plis_sent);
inbound_video->nack_count =
static_cast<uint32_t>(video_receiver_info.nacks_sent);
inbound_video->frames_decoded = video_receiver_info.frames_decoded;
if (video_receiver_info.qp_sum)
inbound_video->qp_sum = *video_receiver_info.qp_sum;
}
// Provides the media independent counters (both audio and video).
void SetOutboundRTPStreamStatsFromMediaSenderInfo(
const cricket::MediaSenderInfo& media_sender_info,
RTCOutboundRTPStreamStats* outbound_stats) {
RTC_DCHECK(outbound_stats);
outbound_stats->ssrc = media_sender_info.ssrc();
// TODO(hbos): Support the remote case. https://crbug.com/657856
outbound_stats->is_remote = false;
outbound_stats->packets_sent =
static_cast<uint32_t>(media_sender_info.packets_sent);
outbound_stats->bytes_sent =
static_cast<uint64_t>(media_sender_info.bytes_sent);
}
void SetOutboundRTPStreamStatsFromVoiceSenderInfo(
const std::string& mid,
const cricket::VoiceSenderInfo& voice_sender_info,
RTCOutboundRTPStreamStats* outbound_audio) {
SetOutboundRTPStreamStatsFromMediaSenderInfo(
voice_sender_info, outbound_audio);
outbound_audio->media_type = "audio";
outbound_audio->kind = "audio";
if (voice_sender_info.codec_payload_type) {
outbound_audio->codec_id = RTCCodecStatsIDFromMidDirectionAndPayload(
mid, false, *voice_sender_info.codec_payload_type);
}
// |fir_count|, |pli_count| and |sli_count| are only valid for video and are
// purposefully left undefined for audio.
}
void SetOutboundRTPStreamStatsFromVideoSenderInfo(
const std::string& mid,
const cricket::VideoSenderInfo& video_sender_info,
RTCOutboundRTPStreamStats* outbound_video) {
SetOutboundRTPStreamStatsFromMediaSenderInfo(
video_sender_info, outbound_video);
outbound_video->media_type = "video";
outbound_video->kind = "video";
if (video_sender_info.codec_payload_type) {
outbound_video->codec_id = RTCCodecStatsIDFromMidDirectionAndPayload(
mid, false, *video_sender_info.codec_payload_type);
}
outbound_video->fir_count =
static_cast<uint32_t>(video_sender_info.firs_rcvd);
outbound_video->pli_count =
static_cast<uint32_t>(video_sender_info.plis_rcvd);
outbound_video->nack_count =
static_cast<uint32_t>(video_sender_info.nacks_rcvd);
if (video_sender_info.qp_sum)
outbound_video->qp_sum = *video_sender_info.qp_sum;
outbound_video->frames_encoded = video_sender_info.frames_encoded;
}
void ProduceCertificateStatsFromSSLCertificateStats(
int64_t timestamp_us, const rtc::SSLCertificateStats& certificate_stats,
RTCStatsReport* report) {
RTCCertificateStats* prev_certificate_stats = nullptr;
for (const rtc::SSLCertificateStats* s = &certificate_stats; s;
s = s->issuer.get()) {
std::string certificate_stats_id =
RTCCertificateIDFromFingerprint(s->fingerprint);
// It is possible for the same certificate to show up multiple times, e.g.
// if local and remote side use the same certificate in a loopback call.
// If the report already contains stats for this certificate, skip it.
if (report->Get(certificate_stats_id)) {
RTC_DCHECK_EQ(s, &certificate_stats);
break;
}
RTCCertificateStats* certificate_stats = new RTCCertificateStats(
certificate_stats_id, timestamp_us);
certificate_stats->fingerprint = s->fingerprint;
certificate_stats->fingerprint_algorithm = s->fingerprint_algorithm;
certificate_stats->base64_certificate = s->base64_certificate;
if (prev_certificate_stats)
prev_certificate_stats->issuer_certificate_id = certificate_stats->id();
report->AddStats(std::unique_ptr<RTCCertificateStats>(certificate_stats));
prev_certificate_stats = certificate_stats;
}
}
const std::string& ProduceIceCandidateStats(
int64_t timestamp_us, const cricket::Candidate& candidate, bool is_local,
const std::string& transport_id, RTCStatsReport* report) {
const std::string& id = "RTCIceCandidate_" + candidate.id();
const RTCStats* stats = report->Get(id);
if (!stats) {
std::unique_ptr<RTCIceCandidateStats> candidate_stats;
if (is_local)
candidate_stats.reset(new RTCLocalIceCandidateStats(id, timestamp_us));
else
candidate_stats.reset(new RTCRemoteIceCandidateStats(id, timestamp_us));
candidate_stats->transport_id = transport_id;
if (is_local) {
candidate_stats->network_type =
NetworkAdapterTypeToStatsType(candidate.network_type());
if (candidate.type() == cricket::RELAY_PORT_TYPE) {
std::string relay_protocol = candidate.relay_protocol();
RTC_DCHECK(relay_protocol.compare("udp") == 0 ||
relay_protocol.compare("tcp") == 0 ||
relay_protocol.compare("tls") == 0);
candidate_stats->relay_protocol = relay_protocol;
}
} else {
// We don't expect to know the adapter type of remote candidates.
RTC_DCHECK_EQ(rtc::ADAPTER_TYPE_UNKNOWN, candidate.network_type());
}
candidate_stats->ip = candidate.address().ipaddr().ToString();
candidate_stats->port = static_cast<int32_t>(candidate.address().port());
candidate_stats->protocol = candidate.protocol();
candidate_stats->candidate_type = CandidateTypeToRTCIceCandidateType(
candidate.type());
candidate_stats->priority = static_cast<int32_t>(candidate.priority());
stats = candidate_stats.get();
report->AddStats(std::move(candidate_stats));
}
RTC_DCHECK_EQ(stats->type(), is_local ? RTCLocalIceCandidateStats::kType
: RTCRemoteIceCandidateStats::kType);
return stats->id();
}
std::unique_ptr<RTCMediaStreamTrackStats>
ProduceMediaStreamTrackStatsFromVoiceSenderInfo(
int64_t timestamp_us,
const AudioTrackInterface& audio_track,
const cricket::VoiceSenderInfo& voice_sender_info,
int attachment_id) {
std::unique_ptr<RTCMediaStreamTrackStats> audio_track_stats(
new RTCMediaStreamTrackStats(
RTCMediaStreamTrackStatsIDFromDirectionAndAttachment(kSender,
attachment_id),
timestamp_us, RTCMediaStreamTrackKind::kAudio));
SetMediaStreamTrackStatsFromMediaStreamTrackInterface(
audio_track, audio_track_stats.get());
audio_track_stats->remote_source = false;
audio_track_stats->detached = false;
if (voice_sender_info.audio_level >= 0) {
audio_track_stats->audio_level = DoubleAudioLevelFromIntAudioLevel(
voice_sender_info.audio_level);
}
audio_track_stats->total_audio_energy = voice_sender_info.total_input_energy;
audio_track_stats->total_samples_duration =
voice_sender_info.total_input_duration;
if (voice_sender_info.apm_statistics.echo_return_loss) {
audio_track_stats->echo_return_loss =
*voice_sender_info.apm_statistics.echo_return_loss;
}
if (voice_sender_info.apm_statistics.echo_return_loss_enhancement) {
audio_track_stats->echo_return_loss_enhancement =
*voice_sender_info.apm_statistics.echo_return_loss_enhancement;
}
return audio_track_stats;
}
std::unique_ptr<RTCMediaStreamTrackStats>
ProduceMediaStreamTrackStatsFromVoiceReceiverInfo(
int64_t timestamp_us,
const AudioTrackInterface& audio_track,
const cricket::VoiceReceiverInfo& voice_receiver_info,
int attachment_id) {
// Since receiver tracks can't be reattached, we use the SSRC as
// an attachment identifier.
std::unique_ptr<RTCMediaStreamTrackStats> audio_track_stats(
new RTCMediaStreamTrackStats(
RTCMediaStreamTrackStatsIDFromDirectionAndAttachment(kReceiver,
attachment_id),
timestamp_us, RTCMediaStreamTrackKind::kAudio));
SetMediaStreamTrackStatsFromMediaStreamTrackInterface(
audio_track, audio_track_stats.get());
audio_track_stats->remote_source = true;
audio_track_stats->detached = false;
if (voice_receiver_info.audio_level >= 0) {
audio_track_stats->audio_level = DoubleAudioLevelFromIntAudioLevel(
voice_receiver_info.audio_level);
}
audio_track_stats->jitter_buffer_delay =
voice_receiver_info.jitter_buffer_delay_seconds;
audio_track_stats->jitter_buffer_emitted_count =
voice_receiver_info.jitter_buffer_emitted_count;
audio_track_stats->total_audio_energy =
voice_receiver_info.total_output_energy;
audio_track_stats->total_samples_received =
voice_receiver_info.total_samples_received;
audio_track_stats->total_samples_duration =
voice_receiver_info.total_output_duration;
audio_track_stats->concealed_samples = voice_receiver_info.concealed_samples;
audio_track_stats->concealment_events =
voice_receiver_info.concealment_events;
audio_track_stats->jitter_buffer_flushes =
voice_receiver_info.jitter_buffer_flushes;
audio_track_stats->delayed_packet_outage_samples =
voice_receiver_info.delayed_packet_outage_samples;
return audio_track_stats;
}
std::unique_ptr<RTCMediaStreamTrackStats>
ProduceMediaStreamTrackStatsFromVideoSenderInfo(
int64_t timestamp_us,
const VideoTrackInterface& video_track,
const cricket::VideoSenderInfo& video_sender_info,
int attachment_id) {
std::unique_ptr<RTCMediaStreamTrackStats> video_track_stats(
new RTCMediaStreamTrackStats(
RTCMediaStreamTrackStatsIDFromDirectionAndAttachment(kSender,
attachment_id),
timestamp_us, RTCMediaStreamTrackKind::kVideo));
SetMediaStreamTrackStatsFromMediaStreamTrackInterface(
video_track, video_track_stats.get());
video_track_stats->remote_source = false;
video_track_stats->detached = false;
video_track_stats->frame_width = static_cast<uint32_t>(
video_sender_info.send_frame_width);
video_track_stats->frame_height = static_cast<uint32_t>(
video_sender_info.send_frame_height);
// TODO(hbos): Will reduce this by frames dropped due to congestion control
// when available. https://crbug.com/659137
video_track_stats->frames_sent = video_sender_info.frames_encoded;
video_track_stats->huge_frames_sent = video_sender_info.huge_frames_sent;
return video_track_stats;
}
std::unique_ptr<RTCMediaStreamTrackStats>
ProduceMediaStreamTrackStatsFromVideoReceiverInfo(
int64_t timestamp_us,
const VideoTrackInterface& video_track,
const cricket::VideoReceiverInfo& video_receiver_info,
int attachment_id) {
std::unique_ptr<RTCMediaStreamTrackStats> video_track_stats(
new RTCMediaStreamTrackStats(
RTCMediaStreamTrackStatsIDFromDirectionAndAttachment(kReceiver,
attachment_id),
timestamp_us, RTCMediaStreamTrackKind::kVideo));
SetMediaStreamTrackStatsFromMediaStreamTrackInterface(
video_track, video_track_stats.get());
video_track_stats->remote_source = true;
video_track_stats->detached = false;
if (video_receiver_info.frame_width > 0 &&
video_receiver_info.frame_height > 0) {
video_track_stats->frame_width = static_cast<uint32_t>(
video_receiver_info.frame_width);
video_track_stats->frame_height = static_cast<uint32_t>(
video_receiver_info.frame_height);
}
video_track_stats->frames_received = video_receiver_info.frames_received;
// TODO(hbos): When we support receiving simulcast, this should be the total
// number of frames correctly decoded, independent of which SSRC it was
// received from. Since we don't support that, this is correct and is the same
// value as "RTCInboundRTPStreamStats.framesDecoded". https://crbug.com/659137
video_track_stats->frames_decoded = video_receiver_info.frames_decoded;
RTC_DCHECK_GE(video_receiver_info.frames_received,
video_receiver_info.frames_rendered);
video_track_stats->frames_dropped = video_receiver_info.frames_received -
video_receiver_info.frames_rendered;
return video_track_stats;
}
void ProduceSenderMediaTrackStats(
int64_t timestamp_us,
const TrackMediaInfoMap& track_media_info_map,
std::vector<rtc::scoped_refptr<RtpSenderInternal>> senders,
RTCStatsReport* report) {
// This function iterates over the senders to generate outgoing track stats.
// TODO(hbos): Return stats of detached tracks. We have to perform stats
// gathering at the time of detachment to get accurate stats and timestamps.
// https://crbug.com/659137
for (const auto& sender : senders) {
if (sender->media_type() == cricket::MEDIA_TYPE_AUDIO) {
AudioTrackInterface* track =
static_cast<AudioTrackInterface*>(sender->track().get());
if (!track)
continue;
cricket::VoiceSenderInfo null_sender_info;
const cricket::VoiceSenderInfo* voice_sender_info = &null_sender_info;
// TODO(hta): Checking on ssrc is not proper. There should be a way
// to see from a sender whether it's connected or not.
// Related to https://crbug.com/8694 (using ssrc 0 to indicate "none")
if (sender->ssrc() != 0) {
// When pc.close is called, sender info is discarded, so
// we generate zeroes instead. Bug: It should be retained.
// https://crbug.com/807174
const cricket::VoiceSenderInfo* sender_info =
track_media_info_map.GetVoiceSenderInfoBySsrc(sender->ssrc());
if (sender_info) {
voice_sender_info = sender_info;
} else {
RTC_LOG(LS_INFO)
<< "RTCStatsCollector: No voice sender info for sender with ssrc "
<< sender->ssrc();
}
}
std::unique_ptr<RTCMediaStreamTrackStats> audio_track_stats =
ProduceMediaStreamTrackStatsFromVoiceSenderInfo(
timestamp_us, *track, *voice_sender_info, sender->AttachmentId());
report->AddStats(std::move(audio_track_stats));
} else if (sender->media_type() == cricket::MEDIA_TYPE_VIDEO) {
VideoTrackInterface* track =
static_cast<VideoTrackInterface*>(sender->track().get());
if (!track)
continue;
cricket::VideoSenderInfo null_sender_info;
const cricket::VideoSenderInfo* video_sender_info = &null_sender_info;
// TODO(hta): Check on state not ssrc when state is available
// Related to https://bugs.webrtc.org/8694 (using ssrc 0 to indicate
// "none")
if (sender->ssrc() != 0) {
// When pc.close is called, sender info is discarded, so
// we generate zeroes instead. Bug: It should be retained.
// https://crbug.com/807174
const cricket::VideoSenderInfo* sender_info =
track_media_info_map.GetVideoSenderInfoBySsrc(sender->ssrc());
if (sender_info) {
video_sender_info = sender_info;
} else {
RTC_LOG(LS_INFO) << "No video sender info for sender with ssrc "
<< sender->ssrc();
}
}
std::unique_ptr<RTCMediaStreamTrackStats> video_track_stats =
ProduceMediaStreamTrackStatsFromVideoSenderInfo(
timestamp_us, *track, *video_sender_info, sender->AttachmentId());
report->AddStats(std::move(video_track_stats));
} else {
RTC_NOTREACHED();
}
}
}
void ProduceReceiverMediaTrackStats(
int64_t timestamp_us,
const TrackMediaInfoMap& track_media_info_map,
std::vector<rtc::scoped_refptr<RtpReceiverInternal>> receivers,
RTCStatsReport* report) {
// This function iterates over the receivers to find the remote tracks.
for (const auto& receiver : receivers) {
if (receiver->media_type() == cricket::MEDIA_TYPE_AUDIO) {
AudioTrackInterface* track =
static_cast<AudioTrackInterface*>(receiver->track().get());
const cricket::VoiceReceiverInfo* voice_receiver_info =
track_media_info_map.GetVoiceReceiverInfo(*track);
if (!voice_receiver_info) {
continue;
}
std::unique_ptr<RTCMediaStreamTrackStats> audio_track_stats =
ProduceMediaStreamTrackStatsFromVoiceReceiverInfo(
timestamp_us, *track, *voice_receiver_info,
receiver->AttachmentId());
report->AddStats(std::move(audio_track_stats));
} else if (receiver->media_type() == cricket::MEDIA_TYPE_VIDEO) {
VideoTrackInterface* track =
static_cast<VideoTrackInterface*>(receiver->track().get());
const cricket::VideoReceiverInfo* video_receiver_info =
track_media_info_map.GetVideoReceiverInfo(*track);
if (!video_receiver_info) {
continue;
}
std::unique_ptr<RTCMediaStreamTrackStats> video_track_stats =
ProduceMediaStreamTrackStatsFromVideoReceiverInfo(
timestamp_us, *track, *video_receiver_info,
receiver->AttachmentId());
report->AddStats(std::move(video_track_stats));
} else {
RTC_NOTREACHED();
}
}
}
rtc::scoped_refptr<RTCStatsReport> CreateReportFilteredBySelector(
bool filter_by_sender_selector,
rtc::scoped_refptr<const RTCStatsReport> report,
rtc::scoped_refptr<RtpSenderInternal> sender_selector,
rtc::scoped_refptr<RtpReceiverInternal> receiver_selector) {
std::vector<std::string> rtpstream_ids;
if (filter_by_sender_selector) {
// Filter mode: RTCStatsCollector::RequestInfo::kSenderSelector
if (sender_selector) {
// Find outbound-rtp(s) of the sender, i.e. the outbound-rtp(s) that
// reference the sender stats.
// Because we do not implement sender stats, we look at outbound-rtp(s)
// that reference the track attachment stats for the sender instead.
std::string track_id =
RTCMediaStreamTrackStatsIDFromDirectionAndAttachment(
kSender, sender_selector->AttachmentId());
for (const auto& stats : *report) {
if (stats.type() != RTCOutboundRTPStreamStats::kType)
continue;
const auto& outbound_rtp = stats.cast_to<RTCOutboundRTPStreamStats>();
if (outbound_rtp.track_id.is_defined() &&
*outbound_rtp.track_id == track_id) {
rtpstream_ids.push_back(outbound_rtp.id());
}
}
}
} else {
// Filter mode: RTCStatsCollector::RequestInfo::kReceiverSelector
if (receiver_selector) {
// Find inbound-rtp(s) of the receiver, i.e. the inbound-rtp(s) that
// reference the receiver stats.
// Because we do not implement receiver stats, we look at inbound-rtp(s)
// that reference the track attachment stats for the receiver instead.
std::string track_id =
RTCMediaStreamTrackStatsIDFromDirectionAndAttachment(
kReceiver, receiver_selector->AttachmentId());
for (const auto& stats : *report) {
if (stats.type() != RTCInboundRTPStreamStats::kType)
continue;
const auto& inbound_rtp = stats.cast_to<RTCInboundRTPStreamStats>();
if (inbound_rtp.track_id.is_defined() &&
*inbound_rtp.track_id == track_id) {
rtpstream_ids.push_back(inbound_rtp.id());
}
}
}
}
if (rtpstream_ids.empty())
return RTCStatsReport::Create(report->timestamp_us());
return TakeReferencedStats(report->Copy(), rtpstream_ids);
}
} // namespace
RTCStatsCollector::RequestInfo::RequestInfo(
rtc::scoped_refptr<RTCStatsCollectorCallback> callback)
: RequestInfo(FilterMode::kAll, std::move(callback), nullptr, nullptr) {}
RTCStatsCollector::RequestInfo::RequestInfo(
rtc::scoped_refptr<RtpSenderInternal> selector,
rtc::scoped_refptr<RTCStatsCollectorCallback> callback)
: RequestInfo(FilterMode::kSenderSelector,
std::move(callback),
std::move(selector),
nullptr) {}
RTCStatsCollector::RequestInfo::RequestInfo(
rtc::scoped_refptr<RtpReceiverInternal> selector,
rtc::scoped_refptr<RTCStatsCollectorCallback> callback)
: RequestInfo(FilterMode::kReceiverSelector,
std::move(callback),
nullptr,
std::move(selector)) {}
RTCStatsCollector::RequestInfo::RequestInfo(
RTCStatsCollector::RequestInfo::FilterMode filter_mode,
rtc::scoped_refptr<RTCStatsCollectorCallback> callback,
rtc::scoped_refptr<RtpSenderInternal> sender_selector,
rtc::scoped_refptr<RtpReceiverInternal> receiver_selector)
: filter_mode_(filter_mode),
callback_(std::move(callback)),
sender_selector_(std::move(sender_selector)),
receiver_selector_(std::move(receiver_selector)) {
RTC_DCHECK(callback_);
RTC_DCHECK(!sender_selector_ || !receiver_selector_);
}
rtc::scoped_refptr<RTCStatsCollector> RTCStatsCollector::Create(
PeerConnectionInternal* pc,
int64_t cache_lifetime_us) {
return rtc::scoped_refptr<RTCStatsCollector>(
new rtc::RefCountedObject<RTCStatsCollector>(pc, cache_lifetime_us));
}
RTCStatsCollector::RTCStatsCollector(PeerConnectionInternal* pc,
int64_t cache_lifetime_us)
: pc_(pc),
signaling_thread_(pc->signaling_thread()),
worker_thread_(pc->worker_thread()),
network_thread_(pc->network_thread()),
num_pending_partial_reports_(0),
partial_report_timestamp_us_(0),
cache_timestamp_us_(0),
cache_lifetime_us_(cache_lifetime_us) {
RTC_DCHECK(pc_);
RTC_DCHECK(signaling_thread_);
RTC_DCHECK(worker_thread_);
RTC_DCHECK(network_thread_);
RTC_DCHECK_GE(cache_lifetime_us_, 0);
pc_->SignalDataChannelCreated().connect(
this, &RTCStatsCollector::OnDataChannelCreated);
}
RTCStatsCollector::~RTCStatsCollector() {
RTC_DCHECK_EQ(num_pending_partial_reports_, 0);
}
void RTCStatsCollector::GetStatsReport(
rtc::scoped_refptr<RTCStatsCollectorCallback> callback) {
GetStatsReportInternal(RequestInfo(std::move(callback)));
}
void RTCStatsCollector::GetStatsReport(
rtc::scoped_refptr<RtpSenderInternal> selector,
rtc::scoped_refptr<RTCStatsCollectorCallback> callback) {
GetStatsReportInternal(RequestInfo(std::move(selector), std::move(callback)));
}
void RTCStatsCollector::GetStatsReport(
rtc::scoped_refptr<RtpReceiverInternal> selector,
rtc::scoped_refptr<RTCStatsCollectorCallback> callback) {
GetStatsReportInternal(RequestInfo(std::move(selector), std::move(callback)));
}
void RTCStatsCollector::GetStatsReportInternal(
RTCStatsCollector::RequestInfo request) {
RTC_DCHECK(signaling_thread_->IsCurrent());
requests_.push_back(std::move(request));
// "Now" using a monotonically increasing timer.
int64_t cache_now_us = rtc::TimeMicros();
if (cached_report_ &&
cache_now_us - cache_timestamp_us_ <= cache_lifetime_us_) {
// We have a fresh cached report to deliver. Deliver asynchronously, since
// the caller may not be expecting a synchronous callback, and it avoids
// reentrancy problems.
std::vector<RequestInfo> requests;
requests.swap(requests_);
invoker_.AsyncInvoke<void>(
RTC_FROM_HERE, signaling_thread_,
rtc::Bind(&RTCStatsCollector::DeliverCachedReport, this, cached_report_,
std::move(requests)));
} else if (!num_pending_partial_reports_) {
// Only start gathering stats if we're not already gathering stats. In the
// case of already gathering stats, |callback_| will be invoked when there
// are no more pending partial reports.
// "Now" using a system clock, relative to the UNIX epoch (Jan 1, 1970,
// UTC), in microseconds. The system clock could be modified and is not
// necessarily monotonically increasing.
int64_t timestamp_us = rtc::TimeUTCMicros();
num_pending_partial_reports_ = 2;
partial_report_timestamp_us_ = cache_now_us;
// Prepare |transceiver_stats_infos_| for use in
// |ProducePartialResultsOnNetworkThread| and
// |ProducePartialResultsOnSignalingThread|.
transceiver_stats_infos_ = PrepareTransceiverStatsInfos_s();
// Prepare |transport_names_| for use in
// |ProducePartialResultsOnNetworkThread|.
transport_names_ = PrepareTransportNames_s();
// Prepare |call_stats_| here since GetCallStats() will hop to the worker
// thread.
// TODO(holmer): To avoid the hop we could move BWE and BWE stats to the
// network thread, where it more naturally belongs.
call_stats_ = pc_->GetCallStats();
invoker_.AsyncInvoke<void>(
RTC_FROM_HERE, network_thread_,
rtc::Bind(&RTCStatsCollector::ProducePartialResultsOnNetworkThread,
rtc::scoped_refptr<RTCStatsCollector>(this), timestamp_us));
ProducePartialResultsOnSignalingThread(timestamp_us);
}
}
void RTCStatsCollector::ClearCachedStatsReport() {
RTC_DCHECK(signaling_thread_->IsCurrent());
cached_report_ = nullptr;
}
void RTCStatsCollector::WaitForPendingRequest() {
RTC_DCHECK(signaling_thread_->IsCurrent());
if (num_pending_partial_reports_) {
rtc::Thread::Current()->ProcessMessages(0);
while (num_pending_partial_reports_) {
rtc::Thread::Current()->SleepMs(1);
rtc::Thread::Current()->ProcessMessages(0);
}
}
}
void RTCStatsCollector::ProducePartialResultsOnSignalingThread(
int64_t timestamp_us) {
RTC_DCHECK(signaling_thread_->IsCurrent());
rtc::scoped_refptr<RTCStatsReport> report = RTCStatsReport::Create(
timestamp_us);
ProduceDataChannelStats_s(timestamp_us, report.get());
ProduceMediaStreamStats_s(timestamp_us, report.get());
ProduceMediaStreamTrackStats_s(timestamp_us, report.get());
ProducePeerConnectionStats_s(timestamp_us, report.get());
AddPartialResults(report);
}
void RTCStatsCollector::ProducePartialResultsOnNetworkThread(
int64_t timestamp_us) {
RTC_DCHECK(network_thread_->IsCurrent());
rtc::scoped_refptr<RTCStatsReport> report = RTCStatsReport::Create(
timestamp_us);
std::map<std::string, cricket::TransportStats> transport_stats_by_name =
pc_->GetTransportStatsByNames(transport_names_);
std::map<std::string, CertificateStatsPair> transport_cert_stats =
PrepareTransportCertificateStats_n(transport_stats_by_name);
ProduceCertificateStats_n(timestamp_us, transport_cert_stats, report.get());
ProduceCodecStats_n(timestamp_us, transceiver_stats_infos_, report.get());
ProduceIceCandidateAndPairStats_n(timestamp_us, transport_stats_by_name,
call_stats_, report.get());
ProduceRTPStreamStats_n(timestamp_us, transceiver_stats_infos_, report.get());
ProduceTransportStats_n(timestamp_us, transport_stats_by_name,
transport_cert_stats, report.get());
AddPartialResults(report);
}
void RTCStatsCollector::AddPartialResults(
const rtc::scoped_refptr<RTCStatsReport>& partial_report) {
if (!signaling_thread_->IsCurrent()) {
invoker_.AsyncInvoke<void>(RTC_FROM_HERE, signaling_thread_,
rtc::Bind(&RTCStatsCollector::AddPartialResults_s,
rtc::scoped_refptr<RTCStatsCollector>(this),
partial_report));
return;
}
AddPartialResults_s(partial_report);
}
void RTCStatsCollector::AddPartialResults_s(
rtc::scoped_refptr<RTCStatsReport> partial_report) {
RTC_DCHECK(signaling_thread_->IsCurrent());
RTC_DCHECK_GT(num_pending_partial_reports_, 0);
if (!partial_report_)
partial_report_ = partial_report;
else
partial_report_->TakeMembersFrom(partial_report);
--num_pending_partial_reports_;
if (!num_pending_partial_reports_) {
cache_timestamp_us_ = partial_report_timestamp_us_;
cached_report_ = partial_report_;
partial_report_ = nullptr;
transceiver_stats_infos_.clear();
// Trace WebRTC Stats when getStats is called on Javascript.
// This allows access to WebRTC stats from trace logs. To enable them,
// select the "webrtc_stats" category when recording traces.
TRACE_EVENT_INSTANT1("webrtc_stats", "webrtc_stats", "report",
cached_report_->ToJson());
// Deliver report and clear |requests_|.
std::vector<RequestInfo> requests;
requests.swap(requests_);
DeliverCachedReport(cached_report_, std::move(requests));
}
}
void RTCStatsCollector::DeliverCachedReport(
rtc::scoped_refptr<const RTCStatsReport> cached_report,
std::vector<RTCStatsCollector::RequestInfo> requests) {
RTC_DCHECK(signaling_thread_->IsCurrent());
RTC_DCHECK(!requests.empty());
RTC_DCHECK(cached_report);
for (const RequestInfo& request : requests) {
if (request.filter_mode() == RequestInfo::FilterMode::kAll) {
request.callback()->OnStatsDelivered(cached_report);
} else {
bool filter_by_sender_selector;
rtc::scoped_refptr<RtpSenderInternal> sender_selector;
rtc::scoped_refptr<RtpReceiverInternal> receiver_selector;
if (request.filter_mode() == RequestInfo::FilterMode::kSenderSelector) {
filter_by_sender_selector = true;
sender_selector = request.sender_selector();
} else {
RTC_DCHECK(request.filter_mode() ==
RequestInfo::FilterMode::kReceiverSelector);
filter_by_sender_selector = false;
receiver_selector = request.receiver_selector();
}
request.callback()->OnStatsDelivered(CreateReportFilteredBySelector(
filter_by_sender_selector, cached_report, sender_selector,
receiver_selector));
}
}
}
void RTCStatsCollector::ProduceCertificateStats_n(
int64_t timestamp_us,
const std::map<std::string, CertificateStatsPair>& transport_cert_stats,
RTCStatsReport* report) const {
RTC_DCHECK(network_thread_->IsCurrent());
for (const auto& transport_cert_stats_pair : transport_cert_stats) {
if (transport_cert_stats_pair.second.local) {
ProduceCertificateStatsFromSSLCertificateStats(
timestamp_us, *transport_cert_stats_pair.second.local.get(), report);
}
if (transport_cert_stats_pair.second.remote) {
ProduceCertificateStatsFromSSLCertificateStats(
timestamp_us, *transport_cert_stats_pair.second.remote.get(), report);
}
}
}
void RTCStatsCollector::ProduceCodecStats_n(
int64_t timestamp_us,
const std::vector<RtpTransceiverStatsInfo>& transceiver_stats_infos,
RTCStatsReport* report) const {
RTC_DCHECK(network_thread_->IsCurrent());
for (const auto& stats : transceiver_stats_infos) {
if (!stats.mid) {
continue;
}
const cricket::VoiceMediaInfo* voice_media_info =
stats.track_media_info_map->voice_media_info();
const cricket::VideoMediaInfo* video_media_info =
stats.track_media_info_map->video_media_info();
// Audio
if (voice_media_info) {
// Inbound
for (const auto& pair : voice_media_info->receive_codecs) {
report->AddStats(CodecStatsFromRtpCodecParameters(
timestamp_us, *stats.mid, true, pair.second));
}
// Outbound
for (const auto& pair : voice_media_info->send_codecs) {
report->AddStats(CodecStatsFromRtpCodecParameters(
timestamp_us, *stats.mid, false, pair.second));
}
}
// Video
if (video_media_info) {
// Inbound
for (const auto& pair : video_media_info->receive_codecs) {
report->AddStats(CodecStatsFromRtpCodecParameters(
timestamp_us, *stats.mid, true, pair.second));
}
// Outbound
for (const auto& pair : video_media_info->send_codecs) {
report->AddStats(CodecStatsFromRtpCodecParameters(
timestamp_us, *stats.mid, false, pair.second));
}
}
}
}
void RTCStatsCollector::ProduceDataChannelStats_s(
int64_t timestamp_us, RTCStatsReport* report) const {
RTC_DCHECK(signaling_thread_->IsCurrent());
for (const rtc::scoped_refptr<DataChannel>& data_channel :
pc_->sctp_data_channels()) {
std::unique_ptr<RTCDataChannelStats> data_channel_stats(
new RTCDataChannelStats(
"RTCDataChannel_" + rtc::ToString(data_channel->id()),
timestamp_us));
data_channel_stats->label = data_channel->label();
data_channel_stats->protocol = data_channel->protocol();
data_channel_stats->datachannelid = data_channel->id();
data_channel_stats->state =
DataStateToRTCDataChannelState(data_channel->state());
data_channel_stats->messages_sent = data_channel->messages_sent();
data_channel_stats->bytes_sent = data_channel->bytes_sent();
data_channel_stats->messages_received = data_channel->messages_received();
data_channel_stats->bytes_received = data_channel->bytes_received();
report->AddStats(std::move(data_channel_stats));
}
}
void RTCStatsCollector::ProduceIceCandidateAndPairStats_n(
int64_t timestamp_us,
const std::map<std::string, cricket::TransportStats>&
transport_stats_by_name,
const Call::Stats& call_stats,
RTCStatsReport* report) const {
RTC_DCHECK(network_thread_->IsCurrent());
for (const auto& entry : transport_stats_by_name) {
const std::string& transport_name = entry.first;
const cricket::TransportStats& transport_stats = entry.second;
for (const auto& channel_stats : transport_stats.channel_stats) {
std::string transport_id = RTCTransportStatsIDFromTransportChannel(
transport_name, channel_stats.component);
for (const cricket::ConnectionInfo& info :
channel_stats.connection_infos) {
std::unique_ptr<RTCIceCandidatePairStats> candidate_pair_stats(
new RTCIceCandidatePairStats(
RTCIceCandidatePairStatsIDFromConnectionInfo(info),
timestamp_us));
candidate_pair_stats->transport_id = transport_id;
// TODO(hbos): There could be other candidates that are not paired with
// anything. We don't have a complete list. Local candidates come from
// Port objects, and prflx candidates (both local and remote) are only
// stored in candidate pairs. https://crbug.com/632723
candidate_pair_stats->local_candidate_id = ProduceIceCandidateStats(
timestamp_us, info.local_candidate, true, transport_id, report);
candidate_pair_stats->remote_candidate_id = ProduceIceCandidateStats(
timestamp_us, info.remote_candidate, false, transport_id, report);
candidate_pair_stats->state =
IceCandidatePairStateToRTCStatsIceCandidatePairState(info.state);
candidate_pair_stats->priority = info.priority;
candidate_pair_stats->nominated = info.nominated;
// TODO(hbos): This writable is different than the spec. It goes to
// false after a certain amount of time without a response passes.
// https://crbug.com/633550
candidate_pair_stats->writable = info.writable;
candidate_pair_stats->bytes_sent =
static_cast<uint64_t>(info.sent_total_bytes);
candidate_pair_stats->bytes_received =
static_cast<uint64_t>(info.recv_total_bytes);
candidate_pair_stats->total_round_trip_time =
static_cast<double>(info.total_round_trip_time_ms) /
rtc::kNumMillisecsPerSec;
if (info.current_round_trip_time_ms) {
candidate_pair_stats->current_round_trip_time =
static_cast<double>(*info.current_round_trip_time_ms) /
rtc::kNumMillisecsPerSec;
}
if (info.best_connection) {
// The bandwidth estimations we have are for the selected candidate
// pair ("info.best_connection").
RTC_DCHECK_GE(call_stats.send_bandwidth_bps, 0);
RTC_DCHECK_GE(call_stats.recv_bandwidth_bps, 0);
if (call_stats.send_bandwidth_bps > 0) {
candidate_pair_stats->available_outgoing_bitrate =
static_cast<double>(call_stats.send_bandwidth_bps);
}
if (call_stats.recv_bandwidth_bps > 0) {
candidate_pair_stats->available_incoming_bitrate =
static_cast<double>(call_stats.recv_bandwidth_bps);
}
}
candidate_pair_stats->requests_received =
static_cast<uint64_t>(info.recv_ping_requests);
candidate_pair_stats->requests_sent = static_cast<uint64_t>(
info.sent_ping_requests_before_first_response);
candidate_pair_stats->responses_received =
static_cast<uint64_t>(info.recv_ping_responses);
candidate_pair_stats->responses_sent =
static_cast<uint64_t>(info.sent_ping_responses);
RTC_DCHECK_GE(info.sent_ping_requests_total,
info.sent_ping_requests_before_first_response);
candidate_pair_stats->consent_requests_sent = static_cast<uint64_t>(
info.sent_ping_requests_total -
info.sent_ping_requests_before_first_response);
report->AddStats(std::move(candidate_pair_stats));
}
}
}
}
void RTCStatsCollector::ProduceMediaStreamStats_s(
int64_t timestamp_us,
RTCStatsReport* report) const {
RTC_DCHECK(signaling_thread_->IsCurrent());
std::map<std::string, std::vector<std::string>> track_ids;
for (const auto& stats : transceiver_stats_infos_) {
for (const auto& sender : stats.transceiver->senders()) {
std::string track_id =
RTCMediaStreamTrackStatsIDFromDirectionAndAttachment(
kSender, sender->internal()->AttachmentId());
for (auto& stream_id : sender->stream_ids()) {
track_ids[stream_id].push_back(track_id);
}
}
for (const auto& receiver : stats.transceiver->receivers()) {
std::string track_id =
RTCMediaStreamTrackStatsIDFromDirectionAndAttachment(
kReceiver, receiver->internal()->AttachmentId());
for (auto& stream : receiver->streams()) {
track_ids[stream->id()].push_back(track_id);
}
}
}
// Build stats for each stream ID known.
for (auto& it : track_ids) {
std::unique_ptr<RTCMediaStreamStats> stream_stats(
new RTCMediaStreamStats("RTCMediaStream_" + it.first, timestamp_us));
stream_stats->stream_identifier = it.first;
stream_stats->track_ids = it.second;
report->AddStats(std::move(stream_stats));
}
}
void RTCStatsCollector::ProduceMediaStreamTrackStats_s(
int64_t timestamp_us,
RTCStatsReport* report) const {
RTC_DCHECK(signaling_thread_->IsCurrent());
for (const RtpTransceiverStatsInfo& stats : transceiver_stats_infos_) {
std::vector<rtc::scoped_refptr<RtpSenderInternal>> senders;
for (const auto& sender : stats.transceiver->senders()) {
senders.push_back(sender->internal());
}
ProduceSenderMediaTrackStats(timestamp_us, *stats.track_media_info_map,
senders, report);
std::vector<rtc::scoped_refptr<RtpReceiverInternal>> receivers;
for (const auto& receiver : stats.transceiver->receivers()) {
receivers.push_back(receiver->internal());
}
ProduceReceiverMediaTrackStats(timestamp_us, *stats.track_media_info_map,
receivers, report);
}
}
void RTCStatsCollector::ProducePeerConnectionStats_s(
int64_t timestamp_us, RTCStatsReport* report) const {
RTC_DCHECK(signaling_thread_->IsCurrent());
std::unique_ptr<RTCPeerConnectionStats> stats(
new RTCPeerConnectionStats("RTCPeerConnection", timestamp_us));
stats->data_channels_opened = internal_record_.data_channels_opened;
stats->data_channels_closed = internal_record_.data_channels_closed;
report->AddStats(std::move(stats));
}
void RTCStatsCollector::ProduceRTPStreamStats_n(
int64_t timestamp_us,
const std::vector<RtpTransceiverStatsInfo>& transceiver_stats_infos,
RTCStatsReport* report) const {
RTC_DCHECK(network_thread_->IsCurrent());
for (const RtpTransceiverStatsInfo& stats : transceiver_stats_infos) {
if (stats.media_type == cricket::MEDIA_TYPE_AUDIO) {
ProduceAudioRTPStreamStats_n(timestamp_us, stats, report);
} else if (stats.media_type == cricket::MEDIA_TYPE_VIDEO) {
ProduceVideoRTPStreamStats_n(timestamp_us, stats, report);
} else {
RTC_NOTREACHED();
}
}
}
void RTCStatsCollector::ProduceAudioRTPStreamStats_n(
int64_t timestamp_us,
const RtpTransceiverStatsInfo& stats,
RTCStatsReport* report) const {
if (!stats.mid || !stats.transport_name) {
return;
}
RTC_DCHECK(stats.track_media_info_map);
const TrackMediaInfoMap& track_media_info_map = *stats.track_media_info_map;
RTC_DCHECK(track_media_info_map.voice_media_info());
std::string mid = *stats.mid;
std::string transport_id = RTCTransportStatsIDFromTransportChannel(
*stats.transport_name, cricket::ICE_CANDIDATE_COMPONENT_RTP);
// Inbound
for (const cricket::VoiceReceiverInfo& voice_receiver_info :
track_media_info_map.voice_media_info()->receivers) {
if (!voice_receiver_info.connected())
continue;
auto inbound_audio = absl::make_unique<RTCInboundRTPStreamStats>(
RTCInboundRTPStreamStatsIDFromSSRC(true, voice_receiver_info.ssrc()),
timestamp_us);
SetInboundRTPStreamStatsFromVoiceReceiverInfo(mid, voice_receiver_info,
inbound_audio.get());
// TODO(hta): This lookup should look for the sender, not the track.
rtc::scoped_refptr<AudioTrackInterface> audio_track =
track_media_info_map.GetAudioTrack(voice_receiver_info);
if (audio_track) {
inbound_audio->track_id =
RTCMediaStreamTrackStatsIDFromDirectionAndAttachment(
kReceiver,
track_media_info_map.GetAttachmentIdByTrack(audio_track).value());
}
inbound_audio->transport_id = transport_id;
report->AddStats(std::move(inbound_audio));
}
// Outbound
for (const cricket::VoiceSenderInfo& voice_sender_info :
track_media_info_map.voice_media_info()->senders) {
if (!voice_sender_info.connected())
continue;
auto outbound_audio = absl::make_unique<RTCOutboundRTPStreamStats>(
RTCOutboundRTPStreamStatsIDFromSSRC(true, voice_sender_info.ssrc()),
timestamp_us);
SetOutboundRTPStreamStatsFromVoiceSenderInfo(mid, voice_sender_info,
outbound_audio.get());
rtc::scoped_refptr<AudioTrackInterface> audio_track =
track_media_info_map.GetAudioTrack(voice_sender_info);
if (audio_track) {
outbound_audio->track_id =
RTCMediaStreamTrackStatsIDFromDirectionAndAttachment(
kSender,
track_media_info_map.GetAttachmentIdByTrack(audio_track).value());
}
outbound_audio->transport_id = transport_id;
report->AddStats(std::move(outbound_audio));
}
}
void RTCStatsCollector::ProduceVideoRTPStreamStats_n(
int64_t timestamp_us,
const RtpTransceiverStatsInfo& stats,
RTCStatsReport* report) const {
if (!stats.mid || !stats.transport_name) {
return;
}
RTC_DCHECK(stats.track_media_info_map);
const TrackMediaInfoMap& track_media_info_map = *stats.track_media_info_map;
RTC_DCHECK(track_media_info_map.video_media_info());
std::string mid = *stats.mid;
std::string transport_id = RTCTransportStatsIDFromTransportChannel(
*stats.transport_name, cricket::ICE_CANDIDATE_COMPONENT_RTP);
// Inbound
for (const cricket::VideoReceiverInfo& video_receiver_info :
track_media_info_map.video_media_info()->receivers) {
if (!video_receiver_info.connected())
continue;
auto inbound_video = absl::make_unique<RTCInboundRTPStreamStats>(
RTCInboundRTPStreamStatsIDFromSSRC(false, video_receiver_info.ssrc()),
timestamp_us);
SetInboundRTPStreamStatsFromVideoReceiverInfo(mid, video_receiver_info,
inbound_video.get());
rtc::scoped_refptr<VideoTrackInterface> video_track =
track_media_info_map.GetVideoTrack(video_receiver_info);
if (video_track) {
inbound_video->track_id =
RTCMediaStreamTrackStatsIDFromDirectionAndAttachment(
kReceiver,
track_media_info_map.GetAttachmentIdByTrack(video_track).value());
}
inbound_video->transport_id = transport_id;
report->AddStats(std::move(inbound_video));
}
// Outbound
for (const cricket::VideoSenderInfo& video_sender_info :
track_media_info_map.video_media_info()->senders) {
if (!video_sender_info.connected())
continue;
auto outbound_video = absl::make_unique<RTCOutboundRTPStreamStats>(
RTCOutboundRTPStreamStatsIDFromSSRC(false, video_sender_info.ssrc()),
timestamp_us);
SetOutboundRTPStreamStatsFromVideoSenderInfo(mid, video_sender_info,
outbound_video.get());
rtc::scoped_refptr<VideoTrackInterface> video_track =
track_media_info_map.GetVideoTrack(video_sender_info);
if (video_track) {
outbound_video->track_id =
RTCMediaStreamTrackStatsIDFromDirectionAndAttachment(
kSender,
track_media_info_map.GetAttachmentIdByTrack(video_track).value());
}
outbound_video->transport_id = transport_id;
report->AddStats(std::move(outbound_video));
}
}
void RTCStatsCollector::ProduceTransportStats_n(
int64_t timestamp_us,
const std::map<std::string, cricket::TransportStats>&
transport_stats_by_name,
const std::map<std::string, CertificateStatsPair>& transport_cert_stats,
RTCStatsReport* report) const {
RTC_DCHECK(network_thread_->IsCurrent());
for (const auto& entry : transport_stats_by_name) {
const std::string& transport_name = entry.first;
const cricket::TransportStats& transport_stats = entry.second;
// Get reference to RTCP channel, if it exists.
std::string rtcp_transport_stats_id;
for (const cricket::TransportChannelStats& channel_stats :
transport_stats.channel_stats) {
if (channel_stats.component ==
cricket::ICE_CANDIDATE_COMPONENT_RTCP) {
rtcp_transport_stats_id = RTCTransportStatsIDFromTransportChannel(
transport_name, channel_stats.component);
break;
}
}
// Get reference to local and remote certificates of this transport, if they
// exist.
const auto& certificate_stats_it =
transport_cert_stats.find(transport_name);
RTC_DCHECK(certificate_stats_it != transport_cert_stats.cend());
std::string local_certificate_id;
if (certificate_stats_it->second.local) {
local_certificate_id = RTCCertificateIDFromFingerprint(
certificate_stats_it->second.local->fingerprint);
}
std::string remote_certificate_id;
if (certificate_stats_it->second.remote) {
remote_certificate_id = RTCCertificateIDFromFingerprint(
certificate_stats_it->second.remote->fingerprint);
}
// There is one transport stats for each channel.
for (const cricket::TransportChannelStats& channel_stats :
transport_stats.channel_stats) {
std::unique_ptr<RTCTransportStats> transport_stats(
new RTCTransportStats(RTCTransportStatsIDFromTransportChannel(
transport_name, channel_stats.component),
timestamp_us));
transport_stats->bytes_sent = 0;
transport_stats->bytes_received = 0;
transport_stats->dtls_state = DtlsTransportStateToRTCDtlsTransportState(
channel_stats.dtls_state);
for (const cricket::ConnectionInfo& info :
channel_stats.connection_infos) {
*transport_stats->bytes_sent += info.sent_total_bytes;
*transport_stats->bytes_received += info.recv_total_bytes;
if (info.best_connection) {
transport_stats->selected_candidate_pair_id =
RTCIceCandidatePairStatsIDFromConnectionInfo(info);
}
}
if (channel_stats.component != cricket::ICE_CANDIDATE_COMPONENT_RTCP &&
!rtcp_transport_stats_id.empty()) {
transport_stats->rtcp_transport_stats_id = rtcp_transport_stats_id;
}
if (!local_certificate_id.empty())
transport_stats->local_certificate_id = local_certificate_id;
if (!remote_certificate_id.empty())
transport_stats->remote_certificate_id = remote_certificate_id;
report->AddStats(std::move(transport_stats));
}
}
}
std::map<std::string, RTCStatsCollector::CertificateStatsPair>
RTCStatsCollector::PrepareTransportCertificateStats_n(
const std::map<std::string, cricket::TransportStats>&
transport_stats_by_name) const {
RTC_DCHECK(network_thread_->IsCurrent());
std::map<std::string, CertificateStatsPair> transport_cert_stats;
for (const auto& entry : transport_stats_by_name) {
const std::string& transport_name = entry.first;
CertificateStatsPair certificate_stats_pair;
rtc::scoped_refptr<rtc::RTCCertificate> local_certificate;
if (pc_->GetLocalCertificate(transport_name, &local_certificate)) {
certificate_stats_pair.local =
local_certificate->GetSSLCertificateChain().GetStats();
}
std::unique_ptr<rtc::SSLCertChain> remote_cert_chain =
pc_->GetRemoteSSLCertChain(transport_name);
if (remote_cert_chain) {
certificate_stats_pair.remote = remote_cert_chain->GetStats();
}
transport_cert_stats.insert(
std::make_pair(transport_name, std::move(certificate_stats_pair)));
}
return transport_cert_stats;
}
std::vector<RTCStatsCollector::RtpTransceiverStatsInfo>
RTCStatsCollector::PrepareTransceiverStatsInfos_s() const {
std::vector<RtpTransceiverStatsInfo> transceiver_stats_infos;
// These are used to invoke GetStats for all the media channels together in
// one worker thread hop.
std::map<cricket::VoiceMediaChannel*,
std::unique_ptr<cricket::VoiceMediaInfo>>
voice_stats;
std::map<cricket::VideoMediaChannel*,
std::unique_ptr<cricket::VideoMediaInfo>>
video_stats;
for (const auto& transceiver : pc_->GetTransceiversInternal()) {
cricket::MediaType media_type = transceiver->media_type();
// Prepare stats entry. The TrackMediaInfoMap will be filled in after the
// stats have been fetched on the worker thread.
transceiver_stats_infos.emplace_back();
RtpTransceiverStatsInfo& stats = transceiver_stats_infos.back();
stats.transceiver = transceiver->internal();
stats.media_type = media_type;
cricket::ChannelInterface* channel = transceiver->internal()->channel();
if (!channel) {
// The remaining fields require a BaseChannel.
continue;
}
stats.mid = channel->content_name();
stats.transport_name = channel->transport_name();
if (media_type == cricket::MEDIA_TYPE_AUDIO) {
auto* voice_channel = static_cast<cricket::VoiceChannel*>(channel);
RTC_DCHECK(voice_stats.find(voice_channel->media_channel()) ==
voice_stats.end());
voice_stats[voice_channel->media_channel()] =
absl::make_unique<cricket::VoiceMediaInfo>();
} else if (media_type == cricket::MEDIA_TYPE_VIDEO) {
auto* video_channel = static_cast<cricket::VideoChannel*>(channel);
RTC_DCHECK(video_stats.find(video_channel->media_channel()) ==
video_stats.end());
video_stats[video_channel->media_channel()] =
absl::make_unique<cricket::VideoMediaInfo>();
} else {
RTC_NOTREACHED();
}
}
// Call GetStats for all media channels together on the worker thread in one
// hop.
worker_thread_->Invoke<void>(RTC_FROM_HERE, [&] {
for (const auto& entry : voice_stats) {
if (!entry.first->GetStats(entry.second.get())) {
RTC_LOG(LS_WARNING) << "Failed to get voice stats.";
}
}
for (const auto& entry : video_stats) {
if (!entry.first->GetStats(entry.second.get())) {
RTC_LOG(LS_WARNING) << "Failed to get video stats.";
}
}
});
// Create the TrackMediaInfoMap for each transceiver stats object.
for (auto& stats : transceiver_stats_infos) {
auto transceiver = stats.transceiver;
std::unique_ptr<cricket::VoiceMediaInfo> voice_media_info;
std::unique_ptr<cricket::VideoMediaInfo> video_media_info;
if (transceiver->channel()) {
cricket::MediaType media_type = transceiver->media_type();
if (media_type == cricket::MEDIA_TYPE_AUDIO) {
auto* voice_channel =
static_cast<cricket::VoiceChannel*>(transceiver->channel());
RTC_DCHECK(voice_stats[voice_channel->media_channel()]);
voice_media_info =
std::move(voice_stats[voice_channel->media_channel()]);
} else if (media_type == cricket::MEDIA_TYPE_VIDEO) {
auto* video_channel =
static_cast<cricket::VideoChannel*>(transceiver->channel());
RTC_DCHECK(video_stats[video_channel->media_channel()]);
video_media_info =
std::move(video_stats[video_channel->media_channel()]);
}
}
std::vector<rtc::scoped_refptr<RtpSenderInternal>> senders;
for (const auto& sender : transceiver->senders()) {
senders.push_back(sender->internal());
}
std::vector<rtc::scoped_refptr<RtpReceiverInternal>> receivers;
for (const auto& receiver : transceiver->receivers()) {
receivers.push_back(receiver->internal());
}
stats.track_media_info_map = absl::make_unique<TrackMediaInfoMap>(
std::move(voice_media_info), std::move(video_media_info), senders,
receivers);
}
return transceiver_stats_infos;
}
std::set<std::string> RTCStatsCollector::PrepareTransportNames_s() const {
std::set<std::string> transport_names;
for (const auto& transceiver : pc_->GetTransceiversInternal()) {
if (transceiver->internal()->channel()) {
transport_names.insert(
transceiver->internal()->channel()->transport_name());
}
}
if (pc_->rtp_data_channel()) {
transport_names.insert(pc_->rtp_data_channel()->transport_name());
}
if (pc_->sctp_transport_name()) {
transport_names.insert(*pc_->sctp_transport_name());
}
return transport_names;
}
void RTCStatsCollector::OnDataChannelCreated(DataChannel* channel) {
channel->SignalOpened.connect(this, &RTCStatsCollector::OnDataChannelOpened);
channel->SignalClosed.connect(this, &RTCStatsCollector::OnDataChannelClosed);
}
void RTCStatsCollector::OnDataChannelOpened(DataChannel* channel) {
RTC_DCHECK(signaling_thread_->IsCurrent());
bool result = internal_record_.opened_data_channels.insert(
reinterpret_cast<uintptr_t>(channel)).second;
++internal_record_.data_channels_opened;
RTC_DCHECK(result);
}
void RTCStatsCollector::OnDataChannelClosed(DataChannel* channel) {
RTC_DCHECK(signaling_thread_->IsCurrent());
// Only channels that have been fully opened (and have increased the
// |data_channels_opened_| counter) increase the closed counter.
if (internal_record_.opened_data_channels.erase(
reinterpret_cast<uintptr_t>(channel))) {
++internal_record_.data_channels_closed;
}
}
const char* CandidateTypeToRTCIceCandidateTypeForTesting(
const std::string& type) {
return CandidateTypeToRTCIceCandidateType(type);
}
const char* DataStateToRTCDataChannelStateForTesting(
DataChannelInterface::DataState state) {
return DataStateToRTCDataChannelState(state);
}
} // namespace webrtc