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webrtc_m130/pc/rtc_stats_collector.cc
Henrik Boström 646fda0212 Implement RTCMediaSourceStats and friends in standard getStats(). 
This implements RTCAudioSourceStats and RTCVideoSourceStats, both
inheriting from abstract dictionary RTCMediaSourceStats:
https://w3c.github.io/webrtc-stats/#dom-rtcmediasourcestats

All members are implemented except for the total "frames" counter:
- trackIdentifier
- kind
- width
- height
- framesPerSecond

This means to make googFrameWidthInput, googFrameHeightInput and
googFrameRateInput obsolete.

Implemented using the same code path as the goog stats, there are
some minor bugs that should be fixed in the future, but not this CL:
1. We create media-source objects on a per-track attachment basis.
   If the same track is attached multiple times this results in
   multiple media-source objects, but the spec says it should be on a
   per-source basis.
2. framesPerSecond is only calculated after connecting (when we have a
   sender with SSRC), but if collected on a per-source basis the source
   should be able to tell us the FPS whether or not we are sending it.

Bug: webrtc:10453
Change-Id: I23705a79f15075dca2536275934af1904a7f0d39
Reviewed-on: https://webrtc-review.googlesource.com/c/src/+/137804
Commit-Queue: Henrik Boström <hbos@webrtc.org>
Reviewed-by: Harald Alvestrand <hta@webrtc.org>
Cr-Commit-Position: refs/heads/master@{#28028}
2019-05-22 16:03:41 +00:00

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/*
* 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 "api/video/video_content_type.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 {
// TODO(https://crbug.com/webrtc/10656): Consider making IDs less predictable.
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();
}
std::string RTCMediaSourceStatsIDFromKindAndAttachment(
cricket::MediaType media_type,
int attachment_id) {
char buf[1024];
rtc::SimpleStringBuilder sb(buf);
sb << "RTC" << (media_type == cricket::MEDIA_TYPE_AUDIO ? "Audio" : "Video")
<< "Source_" << attachment_id;
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.
if (voice_receiver_info.last_packet_received_timestamp_ms) {
inbound_audio->last_packet_received_timestamp =
static_cast<double>(
*voice_receiver_info.last_packet_received_timestamp_ms) /
rtc::kNumMillisecsPerSec;
}
inbound_audio->fec_packets_received =
voice_receiver_info.fec_packets_received;
inbound_audio->fec_packets_discarded =
voice_receiver_info.fec_packets_discarded;
}
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;
if (video_receiver_info.last_packet_received_timestamp_ms) {
inbound_video->last_packet_received_timestamp =
static_cast<double>(
*video_receiver_info.last_packet_received_timestamp_ms) /
rtc::kNumMillisecsPerSec;
}
// TODO(https://crbug.com/webrtc/10529): When info's |content_info| is
// optional, support the "unspecified" value.
if (video_receiver_info.content_type == VideoContentType::SCREENSHARE)
inbound_video->content_type = RTCContentType::kScreenshare;
}
// 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->retransmitted_packets_sent =
media_sender_info.retransmitted_packets_sent;
outbound_stats->bytes_sent =
static_cast<uint64_t>(media_sender_info.bytes_sent);
outbound_stats->retransmitted_bytes_sent =
media_sender_info.retransmitted_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;
outbound_video->total_encode_time =
static_cast<double>(video_sender_info.total_encode_time_ms) /
rtc::kNumMillisecsPerSec;
outbound_video->total_encoded_bytes_target =
video_sender_info.total_encoded_bytes_target;
outbound_video->total_packet_send_delay =
static_cast<double>(video_sender_info.total_packet_send_delay_ms) /
rtc::kNumMillisecsPerSec;
// TODO(https://crbug.com/webrtc/10529): When info's |content_info| is
// optional, support the "unspecified" value.
if (video_sender_info.content_type == VideoContentType::SCREENSHARE)
outbound_video->content_type = RTCContentType::kScreenshare;
}
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->media_source_id =
RTCMediaSourceStatsIDFromKindAndAttachment(cricket::MEDIA_TYPE_AUDIO,
attachment_id);
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->inserted_samples_for_deceleration =
voice_receiver_info.inserted_samples_for_deceleration;
audio_track_stats->removed_samples_for_acceleration =
voice_receiver_info.removed_samples_for_acceleration;
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->silent_concealed_samples =
voice_receiver_info.silent_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;
audio_track_stats->relative_packet_arrival_delay =
voice_receiver_info.relative_packet_arrival_delay_seconds;
audio_track_stats->interruption_count =
voice_receiver_info.interruption_count >= 0
? voice_receiver_info.interruption_count
: 0;
audio_track_stats->total_interruption_duration =
static_cast<double>(voice_receiver_info.total_interruption_duration_ms) /
rtc::kNumMillisecsPerSec;
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->media_source_id =
RTCMediaSourceStatsIDFromKindAndAttachment(cricket::MEDIA_TYPE_VIDEO,
attachment_id);
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;
video_track_stats->freeze_count = video_receiver_info.freeze_count;
video_track_stats->pause_count = video_receiver_info.pause_count;
video_track_stats->total_freezes_duration =
static_cast<double>(video_receiver_info.total_freezes_duration_ms) /
rtc::kNumMillisecsPerSec;
video_track_stats->total_pauses_duration =
static_cast<double>(video_receiver_info.total_pauses_duration_ms) /
rtc::kNumMillisecsPerSec;
video_track_stats->total_frames_duration =
static_cast<double>(video_receiver_info.total_frames_duration_ms) /
rtc::kNumMillisecsPerSec;
video_track_stats->sum_squared_frame_durations =
video_receiver_info.sum_squared_frame_durations;
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),
network_report_event_(true /* manual_reset */,
true /* initially_signaled */),
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_);
signaling_thread_->PostTask(
RTC_FROM_HERE, 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();
// Don't touch |network_report_| on the signaling thread until
// ProducePartialResultsOnNetworkThread() has signaled the
// |network_report_event_|.
network_report_event_.Reset();
network_thread_->PostTask(
RTC_FROM_HERE,
rtc::Bind(&RTCStatsCollector::ProducePartialResultsOnNetworkThread,
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 a request is pending, blocks until the |network_report_event_| is
// signaled and then delivers the result. Otherwise this is a NO-OP.
MergeNetworkReport_s();
}
void RTCStatsCollector::ProducePartialResultsOnSignalingThread(
int64_t timestamp_us) {
RTC_DCHECK(signaling_thread_->IsCurrent());
partial_report_ = RTCStatsReport::Create(timestamp_us);
ProducePartialResultsOnSignalingThreadImpl(timestamp_us,
partial_report_.get());
// ProducePartialResultsOnSignalingThread() is running synchronously on the
// signaling thread, so it is always the first partial result delivered on the
// signaling thread. The request is not complete until MergeNetworkReport_s()
// happens; we don't have to do anything here.
RTC_DCHECK_GT(num_pending_partial_reports_, 1);
--num_pending_partial_reports_;
}
void RTCStatsCollector::ProducePartialResultsOnSignalingThreadImpl(
int64_t timestamp_us,
RTCStatsReport* partial_report) {
RTC_DCHECK(signaling_thread_->IsCurrent());
ProduceDataChannelStats_s(timestamp_us, partial_report);
ProduceMediaStreamStats_s(timestamp_us, partial_report);
ProduceMediaStreamTrackStats_s(timestamp_us, partial_report);
ProduceMediaSourceStats_s(timestamp_us, partial_report);
ProducePeerConnectionStats_s(timestamp_us, partial_report);
}
void RTCStatsCollector::ProducePartialResultsOnNetworkThread(
int64_t timestamp_us) {
RTC_DCHECK(network_thread_->IsCurrent());
// Touching |network_report_| on this thread is safe by this method because
// |network_report_event_| is reset before this method is invoked.
network_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);
ProducePartialResultsOnNetworkThreadImpl(
timestamp_us, transport_stats_by_name, transport_cert_stats,
network_report_.get());
// Signal that it is now safe to touch |network_report_| on the signaling
// thread, and post a task to merge it into the final results.
network_report_event_.Set();
signaling_thread_->PostTask(
RTC_FROM_HERE, rtc::Bind(&RTCStatsCollector::MergeNetworkReport_s, this));
}
void RTCStatsCollector::ProducePartialResultsOnNetworkThreadImpl(
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* partial_report) {
RTC_DCHECK(network_thread_->IsCurrent());
ProduceCertificateStats_n(timestamp_us, transport_cert_stats, partial_report);
ProduceCodecStats_n(timestamp_us, transceiver_stats_infos_, partial_report);
ProduceIceCandidateAndPairStats_n(timestamp_us, transport_stats_by_name,
call_stats_, partial_report);
ProduceRTPStreamStats_n(timestamp_us, transceiver_stats_infos_,
partial_report);
ProduceTransportStats_n(timestamp_us, transport_stats_by_name,
transport_cert_stats, partial_report);
}
void RTCStatsCollector::MergeNetworkReport_s() {
RTC_DCHECK(signaling_thread_->IsCurrent());
// The |network_report_event_| must be signaled for it to be safe to touch
// |network_report_|. This is normally not blocking, but if
// WaitForPendingRequest() is called while a request is pending, we might have
// to wait until the network thread is done touching |network_report_|.
network_report_event_.Wait(rtc::Event::kForever);
if (!network_report_) {
// Normally, MergeNetworkReport_s() is executed because it is posted from
// the network thread. But if WaitForPendingRequest() is called while a
// request is pending, an early call to MergeNetworkReport_s() is made,
// merging the report and setting |network_report_| to null. If so, when the
// previously posted MergeNetworkReport_s() is later executed, the report is
// already null and nothing needs to be done here.
return;
}
RTC_DCHECK_GT(num_pending_partial_reports_, 0);
RTC_DCHECK(partial_report_);
partial_report_->TakeMembersFrom(network_report_);
network_report_ = nullptr;
--num_pending_partial_reports_;
// |network_report_| is currently the only partial report collected
// asynchronously, so |num_pending_partial_reports_| must now be 0 and we are
// ready to deliver the result.
RTC_DCHECK_EQ(num_pending_partial_reports_, 0);
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::ProduceMediaSourceStats_s(
int64_t timestamp_us,
RTCStatsReport* report) const {
RTC_DCHECK(signaling_thread_->IsCurrent());
for (const RtpTransceiverStatsInfo& transceiver_stats_info :
transceiver_stats_infos_) {
const auto& track_media_info_map =
transceiver_stats_info.track_media_info_map;
for (const auto& sender : transceiver_stats_info.transceiver->senders()) {
const auto& sender_internal = sender->internal();
const auto& track = sender_internal->track();
if (!track)
continue;
// TODO(hbos): The same track could be attached to multiple senders which
// should result in multiple senders referencing the same media source
// stats. When all media source related metrics are moved to the track's
// source (e.g. input frame rate is moved from cricket::VideoSenderInfo to
// VideoTrackSourceInterface::Stats), don't create separate media source
// stats objects on a per-attachment basis.
std::unique_ptr<RTCMediaSourceStats> media_source_stats;
if (track->kind() == MediaStreamTrackInterface::kAudioKind) {
media_source_stats = absl::make_unique<RTCAudioSourceStats>(
RTCMediaSourceStatsIDFromKindAndAttachment(
cricket::MEDIA_TYPE_AUDIO, sender_internal->AttachmentId()),
timestamp_us);
} else {
RTC_DCHECK_EQ(MediaStreamTrackInterface::kVideoKind, track->kind());
auto video_source_stats = absl::make_unique<RTCVideoSourceStats>(
RTCMediaSourceStatsIDFromKindAndAttachment(
cricket::MEDIA_TYPE_VIDEO, sender_internal->AttachmentId()),
timestamp_us);
auto* video_track = static_cast<VideoTrackInterface*>(track.get());
auto* video_source = video_track->GetSource();
VideoTrackSourceInterface::Stats source_stats;
if (video_source && video_source->GetStats(&source_stats)) {
video_source_stats->width = source_stats.input_width;
video_source_stats->height = source_stats.input_height;
}
// TODO(hbos): Source stats should not depend on whether or not we are
// connected/have an SSRC assigned. Related to
// https://crbug.com/webrtc/8694 (using ssrc 0 to indicate "none").
if (sender_internal->ssrc() != 0) {
auto* sender_info = track_media_info_map->GetVideoSenderInfoBySsrc(
sender_internal->ssrc());
if (sender_info) {
video_source_stats->frames_per_second =
sender_info->framerate_input;
}
}
media_source_stats = std::move(video_source_stats);
}
media_source_stats->track_identifier = track->id();
media_source_stats->kind = track->kind();
report->AddStats(std::move(media_source_stats));
}
}
}
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) {
int attachment_id =
track_media_info_map.GetAttachmentIdByTrack(audio_track).value();
outbound_audio->track_id =
RTCMediaStreamTrackStatsIDFromDirectionAndAttachment(kSender,
attachment_id);
outbound_audio->media_source_id =
RTCMediaSourceStatsIDFromKindAndAttachment(cricket::MEDIA_TYPE_AUDIO,
attachment_id);
}
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) {
int attachment_id =
track_media_info_map.GetAttachmentIdByTrack(video_track).value();
outbound_video->track_id =
RTCMediaStreamTrackStatsIDFromDirectionAndAttachment(kSender,
attachment_id);
outbound_video->media_source_id =
RTCMediaSourceStatsIDFromKindAndAttachment(cricket::MEDIA_TYPE_VIDEO,
attachment_id);
}
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
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