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/*
* libjingle
* Copyright 2012 Google Inc.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO
* EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
* OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
* OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "talk/app/webrtc/statscollector.h"
#include <utility>
#include <vector>
#include "talk/app/webrtc/peerconnection.h"
#include "talk/session/media/channel.h"
#include "webrtc/base/base64.h"
#include "webrtc/base/checks.h"
#include "webrtc/base/scoped_ptr.h"
#include "webrtc/base/timing.h"
using rtc::scoped_ptr;
namespace webrtc {
namespace {
// The following is the enum RTCStatsIceCandidateType from
// http://w3c.github.io/webrtc-stats/#rtcstatsicecandidatetype-enum such that
// our stats report for ice candidate type could conform to that.
const char STATSREPORT_LOCAL_PORT_TYPE[] = "host";
const char STATSREPORT_STUN_PORT_TYPE[] = "serverreflexive";
const char STATSREPORT_PRFLX_PORT_TYPE[] = "peerreflexive";
const char STATSREPORT_RELAY_PORT_TYPE[] = "relayed";
// Strings used by the stats collector to report adapter types. This fits the
// general stype of http://w3c.github.io/webrtc-stats than what
// AdapterTypeToString does.
const char* STATSREPORT_ADAPTER_TYPE_ETHERNET = "lan";
const char* STATSREPORT_ADAPTER_TYPE_WIFI = "wlan";
const char* STATSREPORT_ADAPTER_TYPE_WWAN = "wwan";
const char* STATSREPORT_ADAPTER_TYPE_VPN = "vpn";
const char* STATSREPORT_ADAPTER_TYPE_LOOPBACK = "loopback";
template<typename ValueType>
struct TypeForAdd {
const StatsReport::StatsValueName name;
const ValueType& value;
};
typedef TypeForAdd<bool> BoolForAdd;
typedef TypeForAdd<float> FloatForAdd;
typedef TypeForAdd<int64_t> Int64ForAdd;
typedef TypeForAdd<int> IntForAdd;
StatsReport::Id GetTransportIdFromProxy(const ProxyTransportMap& map,
const std::string& proxy) {
RTC_DCHECK(!proxy.empty());
auto found = map.find(proxy);
if (found == map.end()) {
return StatsReport::Id();
}
return StatsReport::NewComponentId(
found->second, cricket::ICE_CANDIDATE_COMPONENT_RTP);
}
StatsReport* AddTrackReport(StatsCollection* reports,
const std::string& track_id) {
// Adds an empty track report.
StatsReport::Id id(
StatsReport::NewTypedId(StatsReport::kStatsReportTypeTrack, track_id));
StatsReport* report = reports->ReplaceOrAddNew(id);
report->AddString(StatsReport::kStatsValueNameTrackId, track_id);
return report;
}
template <class TrackVector>
void CreateTrackReports(const TrackVector& tracks, StatsCollection* reports,
TrackIdMap& track_ids) {
for (const auto& track : tracks) {
const std::string& track_id = track->id();
StatsReport* report = AddTrackReport(reports, track_id);
RTC_DCHECK(report != nullptr);
track_ids[track_id] = report;
}
}
void ExtractCommonSendProperties(const cricket::MediaSenderInfo& info,
StatsReport* report) {
report->AddString(StatsReport::kStatsValueNameCodecName, info.codec_name);
report->AddInt64(StatsReport::kStatsValueNameBytesSent, info.bytes_sent);
report->AddInt64(StatsReport::kStatsValueNameRtt, info.rtt_ms);
}
void ExtractCommonReceiveProperties(const cricket::MediaReceiverInfo& info,
StatsReport* report) {
report->AddString(StatsReport::kStatsValueNameCodecName, info.codec_name);
}
void SetAudioProcessingStats(StatsReport* report, int signal_level,
bool typing_noise_detected, int echo_return_loss,
int echo_return_loss_enhancement, int echo_delay_median_ms,
float aec_quality_min, int echo_delay_std_ms) {
report->AddBoolean(StatsReport::kStatsValueNameTypingNoiseState,
typing_noise_detected);
report->AddFloat(StatsReport::kStatsValueNameEchoCancellationQualityMin,
aec_quality_min);
// Don't overwrite the previous signal level if it's not available now.
if (signal_level >= 0)
report->AddInt(StatsReport::kStatsValueNameAudioInputLevel, signal_level);
const IntForAdd ints[] = {
{ StatsReport::kStatsValueNameEchoReturnLoss, echo_return_loss },
{ StatsReport::kStatsValueNameEchoReturnLossEnhancement,
echo_return_loss_enhancement },
{ StatsReport::kStatsValueNameEchoDelayMedian, echo_delay_median_ms },
{ StatsReport::kStatsValueNameEchoDelayStdDev, echo_delay_std_ms },
};
for (const auto& i : ints)
report->AddInt(i.name, i.value);
}
void ExtractStats(const cricket::VoiceReceiverInfo& info, StatsReport* report) {
ExtractCommonReceiveProperties(info, report);
const FloatForAdd floats[] = {
{ StatsReport::kStatsValueNameExpandRate, info.expand_rate },
{ StatsReport::kStatsValueNameSecondaryDecodedRate,
info.secondary_decoded_rate },
{ StatsReport::kStatsValueNameSpeechExpandRate, info.speech_expand_rate },
{ StatsReport::kStatsValueNameAccelerateRate, info.accelerate_rate },
{ StatsReport::kStatsValueNamePreemptiveExpandRate,
info.preemptive_expand_rate },
};
const IntForAdd ints[] = {
{ StatsReport::kStatsValueNameAudioOutputLevel, info.audio_level },
{ StatsReport::kStatsValueNameCurrentDelayMs, info.delay_estimate_ms },
{ StatsReport::kStatsValueNameDecodingCNG, info.decoding_cng },
{ StatsReport::kStatsValueNameDecodingCTN, info.decoding_calls_to_neteq },
{ StatsReport::kStatsValueNameDecodingCTSG,
info.decoding_calls_to_silence_generator },
{ StatsReport::kStatsValueNameDecodingNormal, info.decoding_normal },
{ StatsReport::kStatsValueNameDecodingPLC, info.decoding_plc },
{ StatsReport::kStatsValueNameDecodingPLCCNG, info.decoding_plc_cng },
{ StatsReport::kStatsValueNameJitterBufferMs, info.jitter_buffer_ms },
{ StatsReport::kStatsValueNameJitterReceived, info.jitter_ms },
{ StatsReport::kStatsValueNamePacketsLost, info.packets_lost },
{ StatsReport::kStatsValueNamePacketsReceived, info.packets_rcvd },
{ StatsReport::kStatsValueNamePreferredJitterBufferMs,
info.jitter_buffer_preferred_ms },
};
for (const auto& f : floats)
report->AddFloat(f.name, f.value);
for (const auto& i : ints)
report->AddInt(i.name, i.value);
report->AddInt64(StatsReport::kStatsValueNameBytesReceived,
info.bytes_rcvd);
report->AddInt64(StatsReport::kStatsValueNameCaptureStartNtpTimeMs,
info.capture_start_ntp_time_ms);
}
void ExtractStats(const cricket::VoiceSenderInfo& info, StatsReport* report) {
ExtractCommonSendProperties(info, report);
SetAudioProcessingStats(report, info.audio_level, info.typing_noise_detected,
info.echo_return_loss, info.echo_return_loss_enhancement,
info.echo_delay_median_ms, info.aec_quality_min, info.echo_delay_std_ms);
const IntForAdd ints[] = {
{ StatsReport::kStatsValueNameJitterReceived, info.jitter_ms },
{ StatsReport::kStatsValueNamePacketsLost, info.packets_lost },
{ StatsReport::kStatsValueNamePacketsSent, info.packets_sent },
};
for (const auto& i : ints)
report->AddInt(i.name, i.value);
}
void ExtractStats(const cricket::VideoReceiverInfo& info, StatsReport* report) {
ExtractCommonReceiveProperties(info, report);
report->AddInt64(StatsReport::kStatsValueNameBytesReceived,
info.bytes_rcvd);
report->AddInt64(StatsReport::kStatsValueNameCaptureStartNtpTimeMs,
info.capture_start_ntp_time_ms);
const IntForAdd ints[] = {
{ StatsReport::kStatsValueNameCurrentDelayMs, info.current_delay_ms },
{ StatsReport::kStatsValueNameDecodeMs, info.decode_ms },
{ StatsReport::kStatsValueNameFirsSent, info.firs_sent },
{ StatsReport::kStatsValueNameFrameHeightReceived, info.frame_height },
{ StatsReport::kStatsValueNameFrameRateDecoded, info.framerate_decoded },
{ StatsReport::kStatsValueNameFrameRateOutput, info.framerate_output },
{ StatsReport::kStatsValueNameFrameRateReceived, info.framerate_rcvd },
{ StatsReport::kStatsValueNameFrameWidthReceived, info.frame_width },
{ StatsReport::kStatsValueNameJitterBufferMs, info.jitter_buffer_ms },
{ StatsReport::kStatsValueNameMaxDecodeMs, info.max_decode_ms },
{ StatsReport::kStatsValueNameMinPlayoutDelayMs,
info.min_playout_delay_ms },
{ StatsReport::kStatsValueNameNacksSent, info.nacks_sent },
{ StatsReport::kStatsValueNamePacketsLost, info.packets_lost },
{ StatsReport::kStatsValueNamePacketsReceived, info.packets_rcvd },
{ StatsReport::kStatsValueNamePlisSent, info.plis_sent },
{ StatsReport::kStatsValueNameRenderDelayMs, info.render_delay_ms },
{ StatsReport::kStatsValueNameTargetDelayMs, info.target_delay_ms },
};
for (const auto& i : ints)
report->AddInt(i.name, i.value);
}
void ExtractStats(const cricket::VideoSenderInfo& info, StatsReport* report) {
ExtractCommonSendProperties(info, report);
report->AddBoolean(StatsReport::kStatsValueNameBandwidthLimitedResolution,
(info.adapt_reason & 0x2) > 0);
report->AddBoolean(StatsReport::kStatsValueNameCpuLimitedResolution,
(info.adapt_reason & 0x1) > 0);
report->AddBoolean(StatsReport::kStatsValueNameViewLimitedResolution,
(info.adapt_reason & 0x4) > 0);
const IntForAdd ints[] = {
{ StatsReport::kStatsValueNameAdaptationChanges, info.adapt_changes },
{ StatsReport::kStatsValueNameAvgEncodeMs, info.avg_encode_ms },
{ StatsReport::kStatsValueNameEncodeUsagePercent,
info.encode_usage_percent },
{ StatsReport::kStatsValueNameFirsReceived, info.firs_rcvd },
{ StatsReport::kStatsValueNameFrameHeightInput, info.input_frame_height },
{ StatsReport::kStatsValueNameFrameHeightSent, info.send_frame_height },
{ StatsReport::kStatsValueNameFrameRateInput, info.framerate_input },
{ StatsReport::kStatsValueNameFrameRateSent, info.framerate_sent },
{ StatsReport::kStatsValueNameFrameWidthInput, info.input_frame_width },
{ StatsReport::kStatsValueNameFrameWidthSent, info.send_frame_width },
{ StatsReport::kStatsValueNameNacksReceived, info.nacks_rcvd },
{ StatsReport::kStatsValueNamePacketsLost, info.packets_lost },
{ StatsReport::kStatsValueNamePacketsSent, info.packets_sent },
{ StatsReport::kStatsValueNamePlisReceived, info.plis_rcvd },
};
for (const auto& i : ints)
report->AddInt(i.name, i.value);
}
void ExtractStats(const cricket::BandwidthEstimationInfo& info,
double stats_gathering_started,
PeerConnectionInterface::StatsOutputLevel level,
StatsReport* report) {
RTC_DCHECK(report->type() == StatsReport::kStatsReportTypeBwe);
report->set_timestamp(stats_gathering_started);
const IntForAdd ints[] = {
{ StatsReport::kStatsValueNameAvailableSendBandwidth,
info.available_send_bandwidth },
{ StatsReport::kStatsValueNameAvailableReceiveBandwidth,
info.available_recv_bandwidth },
{ StatsReport::kStatsValueNameTargetEncBitrate, info.target_enc_bitrate },
{ StatsReport::kStatsValueNameActualEncBitrate, info.actual_enc_bitrate },
{ StatsReport::kStatsValueNameRetransmitBitrate, info.retransmit_bitrate },
{ StatsReport::kStatsValueNameTransmitBitrate, info.transmit_bitrate },
};
for (const auto& i : ints)
report->AddInt(i.name, i.value);
report->AddInt64(StatsReport::kStatsValueNameBucketDelay, info.bucket_delay);
}
void ExtractRemoteStats(const cricket::MediaSenderInfo& info,
StatsReport* report) {
report->set_timestamp(info.remote_stats[0].timestamp);
// TODO(hta): Extract some stats here.
}
void ExtractRemoteStats(const cricket::MediaReceiverInfo& info,
StatsReport* report) {
report->set_timestamp(info.remote_stats[0].timestamp);
// TODO(hta): Extract some stats here.
}
// Template to extract stats from a data vector.
// In order to use the template, the functions that are called from it,
// ExtractStats and ExtractRemoteStats, must be defined and overloaded
// for each type.
template<typename T>
void ExtractStatsFromList(const std::vector<T>& data,
const StatsReport::Id& transport_id,
StatsCollector* collector,
StatsReport::Direction direction) {
for (const auto& d : data) {
uint32_t ssrc = d.ssrc();
// Each track can have stats for both local and remote objects.
// TODO(hta): Handle the case of multiple SSRCs per object.
StatsReport* report = collector->PrepareReport(true, ssrc, transport_id,
direction);
if (report)
ExtractStats(d, report);
if (!d.remote_stats.empty()) {
report = collector->PrepareReport(false, ssrc, transport_id, direction);
if (report)
ExtractRemoteStats(d, report);
}
}
}
} // namespace
const char* IceCandidateTypeToStatsType(const std::string& candidate_type) {
if (candidate_type == cricket::LOCAL_PORT_TYPE) {
return STATSREPORT_LOCAL_PORT_TYPE;
}
if (candidate_type == cricket::STUN_PORT_TYPE) {
return STATSREPORT_STUN_PORT_TYPE;
}
if (candidate_type == cricket::PRFLX_PORT_TYPE) {
return STATSREPORT_PRFLX_PORT_TYPE;
}
if (candidate_type == cricket::RELAY_PORT_TYPE) {
return STATSREPORT_RELAY_PORT_TYPE;
}
RTC_DCHECK(false);
return "unknown";
}
const char* AdapterTypeToStatsType(rtc::AdapterType type) {
switch (type) {
case rtc::ADAPTER_TYPE_UNKNOWN:
return "unknown";
case rtc::ADAPTER_TYPE_ETHERNET:
return STATSREPORT_ADAPTER_TYPE_ETHERNET;
case rtc::ADAPTER_TYPE_WIFI:
return STATSREPORT_ADAPTER_TYPE_WIFI;
case rtc::ADAPTER_TYPE_CELLULAR:
return STATSREPORT_ADAPTER_TYPE_WWAN;
case rtc::ADAPTER_TYPE_VPN:
return STATSREPORT_ADAPTER_TYPE_VPN;
case rtc::ADAPTER_TYPE_LOOPBACK:
return STATSREPORT_ADAPTER_TYPE_LOOPBACK;
default:
RTC_DCHECK(false);
return "";
}
}
StatsCollector::StatsCollector(PeerConnection* pc)
: pc_(pc), stats_gathering_started_(0) {
RTC_DCHECK(pc_);
}
StatsCollector::~StatsCollector() {
RTC_DCHECK(pc_->session()->signaling_thread()->IsCurrent());
}
double StatsCollector::GetTimeNow() {
return rtc::Timing::WallTimeNow() * rtc::kNumMillisecsPerSec;
}
// Adds a MediaStream with tracks that can be used as a |selector| in a call
// to GetStats.
void StatsCollector::AddStream(MediaStreamInterface* stream) {
RTC_DCHECK(pc_->session()->signaling_thread()->IsCurrent());
RTC_DCHECK(stream != NULL);
CreateTrackReports<AudioTrackVector>(stream->GetAudioTracks(),
&reports_, track_ids_);
CreateTrackReports<VideoTrackVector>(stream->GetVideoTracks(),
&reports_, track_ids_);
}
void StatsCollector::AddLocalAudioTrack(AudioTrackInterface* audio_track,
uint32_t ssrc) {
RTC_DCHECK(pc_->session()->signaling_thread()->IsCurrent());
RTC_DCHECK(audio_track != NULL);
#if (!defined(NDEBUG) || defined(DCHECK_ALWAYS_ON))
for (const auto& track : local_audio_tracks_)
RTC_DCHECK(track.first != audio_track || track.second != ssrc);
#endif
local_audio_tracks_.push_back(std::make_pair(audio_track, ssrc));
// Create the kStatsReportTypeTrack report for the new track if there is no
// report yet.
StatsReport::Id id(StatsReport::NewTypedId(StatsReport::kStatsReportTypeTrack,
audio_track->id()));
StatsReport* report = reports_.Find(id);
if (!report) {
report = reports_.InsertNew(id);
report->AddString(StatsReport::kStatsValueNameTrackId, audio_track->id());
}
}
void StatsCollector::RemoveLocalAudioTrack(AudioTrackInterface* audio_track,
uint32_t ssrc) {
RTC_DCHECK(audio_track != NULL);
local_audio_tracks_.erase(std::remove_if(local_audio_tracks_.begin(),
local_audio_tracks_.end(),
[audio_track, ssrc](const LocalAudioTrackVector::value_type& track) {
return track.first == audio_track && track.second == ssrc;
}));
}
void StatsCollector::GetStats(MediaStreamTrackInterface* track,
StatsReports* reports) {
RTC_DCHECK(pc_->session()->signaling_thread()->IsCurrent());
RTC_DCHECK(reports != NULL);
RTC_DCHECK(reports->empty());
rtc::Thread::ScopedDisallowBlockingCalls no_blocking_calls;
if (!track) {
reports->reserve(reports_.size());
for (auto* r : reports_)
reports->push_back(r);
return;
}
StatsReport* report = reports_.Find(StatsReport::NewTypedId(
StatsReport::kStatsReportTypeSession, pc_->session()->id()));
if (report)
reports->push_back(report);
report = reports_.Find(StatsReport::NewTypedId(
StatsReport::kStatsReportTypeTrack, track->id()));
if (!report)
return;
reports->push_back(report);
std::string track_id;
for (const auto* r : reports_) {
if (r->type() != StatsReport::kStatsReportTypeSsrc)
continue;
const StatsReport::Value* v =
r->FindValue(StatsReport::kStatsValueNameTrackId);
if (v && v->string_val() == track->id())
reports->push_back(r);
}
}
void
StatsCollector::UpdateStats(PeerConnectionInterface::StatsOutputLevel level) {
RTC_DCHECK(pc_->session()->signaling_thread()->IsCurrent());
double time_now = GetTimeNow();
// Calls to UpdateStats() that occur less than kMinGatherStatsPeriod number of
// ms apart will be ignored.
const double kMinGatherStatsPeriod = 50;
if (stats_gathering_started_ != 0 &&
stats_gathering_started_ + kMinGatherStatsPeriod > time_now) {
return;
}
stats_gathering_started_ = time_now;
if (pc_->session()) {
// TODO(tommi): All of these hop over to the worker thread to fetch
// information. We could use an AsyncInvoker to run all of these and post
// the information back to the signaling thread where we can create and
// update stats reports. That would also clean up the threading story a bit
// since we'd be creating/updating the stats report objects consistently on
// the same thread (this class has no locks right now).
ExtractSessionInfo();
ExtractVoiceInfo();
ExtractVideoInfo(level);
ExtractDataInfo();
UpdateTrackReports();
}
}
StatsReport* StatsCollector::PrepareReport(
bool local,
uint32_t ssrc,
const StatsReport::Id& transport_id,
StatsReport::Direction direction) {
RTC_DCHECK(pc_->session()->signaling_thread()->IsCurrent());
StatsReport::Id id(StatsReport::NewIdWithDirection(
local ? StatsReport::kStatsReportTypeSsrc
: StatsReport::kStatsReportTypeRemoteSsrc,
rtc::ToString<uint32_t>(ssrc), direction));
StatsReport* report = reports_.Find(id);
// Use the ID of the track that is currently mapped to the SSRC, if any.
std::string track_id;
if (!GetTrackIdBySsrc(ssrc, &track_id, direction)) {
if (!report) {
// The ssrc is not used by any track or existing report, return NULL
// in such case to indicate no report is prepared for the ssrc.
return NULL;
}
// The ssrc is not used by any existing track. Keeps the old track id
// since we want to report the stats for inactive ssrc.
const StatsReport::Value* v =
report->FindValue(StatsReport::kStatsValueNameTrackId);
if (v)
track_id = v->string_val();
}
if (!report)
report = reports_.InsertNew(id);
// FYI - for remote reports, the timestamp will be overwritten later.
report->set_timestamp(stats_gathering_started_);
report->AddInt64(StatsReport::kStatsValueNameSsrc, ssrc);
report->AddString(StatsReport::kStatsValueNameTrackId, track_id);
// Add the mapping of SSRC to transport.
report->AddId(StatsReport::kStatsValueNameTransportId, transport_id);
return report;
}
StatsReport* StatsCollector::AddOneCertificateReport(
const rtc::SSLCertificate* cert, const StatsReport* issuer) {
RTC_DCHECK(pc_->session()->signaling_thread()->IsCurrent());
// TODO(bemasc): Move this computation to a helper class that caches these
// values to reduce CPU use in GetStats. This will require adding a fast
// SSLCertificate::Equals() method to detect certificate changes.
std::string digest_algorithm;
if (!cert->GetSignatureDigestAlgorithm(&digest_algorithm))
return nullptr;
rtc::scoped_ptr<rtc::SSLFingerprint> ssl_fingerprint(
rtc::SSLFingerprint::Create(digest_algorithm, cert));
// SSLFingerprint::Create can fail if the algorithm returned by
// SSLCertificate::GetSignatureDigestAlgorithm is not supported by the
// implementation of SSLCertificate::ComputeDigest. This currently happens
// with MD5- and SHA-224-signed certificates when linked to libNSS.
if (!ssl_fingerprint)
return nullptr;
std::string fingerprint = ssl_fingerprint->GetRfc4572Fingerprint();
rtc::Buffer der_buffer;
cert->ToDER(&der_buffer);
std::string der_base64;
rtc::Base64::EncodeFromArray(der_buffer.data(), der_buffer.size(),
&der_base64);
StatsReport::Id id(StatsReport::NewTypedId(
StatsReport::kStatsReportTypeCertificate, fingerprint));
StatsReport* report = reports_.ReplaceOrAddNew(id);
report->set_timestamp(stats_gathering_started_);
report->AddString(StatsReport::kStatsValueNameFingerprint, fingerprint);
report->AddString(StatsReport::kStatsValueNameFingerprintAlgorithm,
digest_algorithm);
report->AddString(StatsReport::kStatsValueNameDer, der_base64);
if (issuer)
report->AddId(StatsReport::kStatsValueNameIssuerId, issuer->id());
return report;
}
StatsReport* StatsCollector::AddCertificateReports(
const rtc::SSLCertificate* cert) {
RTC_DCHECK(pc_->session()->signaling_thread()->IsCurrent());
// Produces a chain of StatsReports representing this certificate and the rest
// of its chain, and adds those reports to |reports_|. The return value is
// the id of the leaf report. The provided cert must be non-null, so at least
// one report will always be provided and the returned string will never be
// empty.
RTC_DCHECK(cert != NULL);
StatsReport* issuer = nullptr;
rtc::scoped_ptr<rtc::SSLCertChain> chain;
if (cert->GetChain(chain.accept())) {
// This loop runs in reverse, i.e. from root to leaf, so that each
// certificate's issuer's report ID is known before the child certificate's
// report is generated. The root certificate does not have an issuer ID
// value.
for (ptrdiff_t i = chain->GetSize() - 1; i >= 0; --i) {
const rtc::SSLCertificate& cert_i = chain->Get(i);
issuer = AddOneCertificateReport(&cert_i, issuer);
}
}
// Add the leaf certificate.
return AddOneCertificateReport(cert, issuer);
}
StatsReport* StatsCollector::AddConnectionInfoReport(
const std::string& content_name, int component, int connection_id,
const StatsReport::Id& channel_report_id,
const cricket::ConnectionInfo& info) {
StatsReport::Id id(StatsReport::NewCandidatePairId(content_name, component,
connection_id));
StatsReport* report = reports_.ReplaceOrAddNew(id);
report->set_timestamp(stats_gathering_started_);
const BoolForAdd bools[] = {
{StatsReport::kStatsValueNameActiveConnection, info.best_connection},
{StatsReport::kStatsValueNameReceiving, info.receiving},
{StatsReport::kStatsValueNameWritable, info.writable},
};
for (const auto& b : bools)
report->AddBoolean(b.name, b.value);
report->AddId(StatsReport::kStatsValueNameChannelId, channel_report_id);
report->AddId(StatsReport::kStatsValueNameLocalCandidateId,
AddCandidateReport(info.local_candidate, true)->id());
report->AddId(StatsReport::kStatsValueNameRemoteCandidateId,
AddCandidateReport(info.remote_candidate, false)->id());
const Int64ForAdd int64s[] = {
{ StatsReport::kStatsValueNameBytesReceived, info.recv_total_bytes },
{ StatsReport::kStatsValueNameBytesSent, info.sent_total_bytes },
{ StatsReport::kStatsValueNamePacketsSent, info.sent_total_packets },
{ StatsReport::kStatsValueNameRtt, info.rtt },
{ StatsReport::kStatsValueNameSendPacketsDiscarded,
info.sent_discarded_packets },
};
for (const auto& i : int64s)
report->AddInt64(i.name, i.value);
report->AddString(StatsReport::kStatsValueNameLocalAddress,
info.local_candidate.address().ToString());
report->AddString(StatsReport::kStatsValueNameLocalCandidateType,
info.local_candidate.type());
report->AddString(StatsReport::kStatsValueNameRemoteAddress,
info.remote_candidate.address().ToString());
report->AddString(StatsReport::kStatsValueNameRemoteCandidateType,
info.remote_candidate.type());
report->AddString(StatsReport::kStatsValueNameTransportType,
info.local_candidate.protocol());
return report;
}
StatsReport* StatsCollector::AddCandidateReport(
const cricket::Candidate& candidate,
bool local) {
StatsReport::Id id(StatsReport::NewCandidateId(local, candidate.id()));
StatsReport* report = reports_.Find(id);
if (!report) {
report = reports_.InsertNew(id);
report->set_timestamp(stats_gathering_started_);
if (local) {
report->AddString(StatsReport::kStatsValueNameCandidateNetworkType,
AdapterTypeToStatsType(candidate.network_type()));
}
report->AddString(StatsReport::kStatsValueNameCandidateIPAddress,
candidate.address().ipaddr().ToString());
report->AddString(StatsReport::kStatsValueNameCandidatePortNumber,
candidate.address().PortAsString());
report->AddInt(StatsReport::kStatsValueNameCandidatePriority,
candidate.priority());
report->AddString(StatsReport::kStatsValueNameCandidateType,
IceCandidateTypeToStatsType(candidate.type()));
report->AddString(StatsReport::kStatsValueNameCandidateTransportType,
candidate.protocol());
}
return report;
}
void StatsCollector::ExtractSessionInfo() {
RTC_DCHECK(pc_->session()->signaling_thread()->IsCurrent());
// Extract information from the base session.
StatsReport::Id id(StatsReport::NewTypedId(
StatsReport::kStatsReportTypeSession, pc_->session()->id()));
StatsReport* report = reports_.ReplaceOrAddNew(id);
report->set_timestamp(stats_gathering_started_);
report->AddBoolean(StatsReport::kStatsValueNameInitiator,
pc_->session()->initial_offerer());
SessionStats stats;
if (!pc_->session()->GetTransportStats(&stats)) {
return;
}
// Store the proxy map away for use in SSRC reporting.
// TODO(tommi): This shouldn't be necessary if we post the stats back to the
// signaling thread after fetching them on the worker thread, then just use
// the proxy map directly from the session stats.
// As is, if GetStats() failed, we could be using old (incorrect?) proxy
// data.
proxy_to_transport_ = stats.proxy_to_transport;
for (const auto& transport_iter : stats.transport_stats) {
// Attempt to get a copy of the certificates from the transport and
// expose them in stats reports. All channels in a transport share the
// same local and remote certificates.
//
StatsReport::Id local_cert_report_id, remote_cert_report_id;
rtc::scoped_refptr<rtc::RTCCertificate> certificate;
if (pc_->session()->GetLocalCertificate(
transport_iter.second.transport_name, &certificate)) {
StatsReport* r = AddCertificateReports(&(certificate->ssl_certificate()));
if (r)
local_cert_report_id = r->id();
}
rtc::scoped_ptr<rtc::SSLCertificate> cert;
if (pc_->session()->GetRemoteSSLCertificate(
transport_iter.second.transport_name, cert.accept())) {
StatsReport* r = AddCertificateReports(cert.get());
if (r)
remote_cert_report_id = r->id();
}
for (const auto& channel_iter : transport_iter.second.channel_stats) {
StatsReport::Id id(StatsReport::NewComponentId(
transport_iter.second.transport_name, channel_iter.component));
StatsReport* channel_report = reports_.ReplaceOrAddNew(id);
channel_report->set_timestamp(stats_gathering_started_);
channel_report->AddInt(StatsReport::kStatsValueNameComponent,
channel_iter.component);
if (local_cert_report_id.get()) {
channel_report->AddId(StatsReport::kStatsValueNameLocalCertificateId,
local_cert_report_id);
}
if (remote_cert_report_id.get()) {
channel_report->AddId(StatsReport::kStatsValueNameRemoteCertificateId,
remote_cert_report_id);
}
const std::string& srtp_cipher = channel_iter.srtp_cipher;
if (!srtp_cipher.empty()) {
channel_report->AddString(StatsReport::kStatsValueNameSrtpCipher,
srtp_cipher);
}
int ssl_cipher = channel_iter.ssl_cipher;
if (ssl_cipher &&
rtc::SSLStreamAdapter::GetSslCipherSuiteName(ssl_cipher).length()) {
channel_report->AddString(
StatsReport::kStatsValueNameDtlsCipher,
rtc::SSLStreamAdapter::GetSslCipherSuiteName(ssl_cipher));
}
int connection_id = 0;
for (const cricket::ConnectionInfo& info :
channel_iter.connection_infos) {
StatsReport* connection_report = AddConnectionInfoReport(
transport_iter.first, channel_iter.component, connection_id++,
channel_report->id(), info);
if (info.best_connection) {
channel_report->AddId(
StatsReport::kStatsValueNameSelectedCandidatePairId,
connection_report->id());
}
}
}
}
}
void StatsCollector::ExtractVoiceInfo() {
RTC_DCHECK(pc_->session()->signaling_thread()->IsCurrent());
if (!pc_->session()->voice_channel()) {
return;
}
cricket::VoiceMediaInfo voice_info;
if (!pc_->session()->voice_channel()->GetStats(&voice_info)) {
LOG(LS_ERROR) << "Failed to get voice channel stats.";
return;
}
// TODO(tommi): The above code should run on the worker thread and post the
// results back to the signaling thread, where we can add data to the reports.
rtc::Thread::ScopedDisallowBlockingCalls no_blocking_calls;
StatsReport::Id transport_id(GetTransportIdFromProxy(
proxy_to_transport_, pc_->session()->voice_channel()->content_name()));
if (!transport_id.get()) {
LOG(LS_ERROR) << "Failed to get transport name for proxy "
<< pc_->session()->voice_channel()->content_name();
return;
}
ExtractStatsFromList(voice_info.receivers, transport_id, this,
StatsReport::kReceive);
ExtractStatsFromList(voice_info.senders, transport_id, this,
StatsReport::kSend);
UpdateStatsFromExistingLocalAudioTracks();
}
void StatsCollector::ExtractVideoInfo(
PeerConnectionInterface::StatsOutputLevel level) {
RTC_DCHECK(pc_->session()->signaling_thread()->IsCurrent());
if (!pc_->session()->video_channel())
return;
cricket::VideoMediaInfo video_info;
if (!pc_->session()->video_channel()->GetStats(&video_info)) {
LOG(LS_ERROR) << "Failed to get video channel stats.";
return;
}
// TODO(tommi): The above code should run on the worker thread and post the
// results back to the signaling thread, where we can add data to the reports.
rtc::Thread::ScopedDisallowBlockingCalls no_blocking_calls;
StatsReport::Id transport_id(GetTransportIdFromProxy(
proxy_to_transport_, pc_->session()->video_channel()->content_name()));
if (!transport_id.get()) {
LOG(LS_ERROR) << "Failed to get transport name for proxy "
<< pc_->session()->video_channel()->content_name();
return;
}
ExtractStatsFromList(video_info.receivers, transport_id, this,
StatsReport::kReceive);
ExtractStatsFromList(video_info.senders, transport_id, this,
StatsReport::kSend);
if (video_info.bw_estimations.size() != 1) {
LOG(LS_ERROR) << "BWEs count: " << video_info.bw_estimations.size();
} else {
StatsReport::Id report_id(StatsReport::NewBandwidthEstimationId());
StatsReport* report = reports_.FindOrAddNew(report_id);
ExtractStats(
video_info.bw_estimations[0], stats_gathering_started_, level, report);
}
}
void StatsCollector::ExtractDataInfo() {
RTC_DCHECK(pc_->session()->signaling_thread()->IsCurrent());
rtc::Thread::ScopedDisallowBlockingCalls no_blocking_calls;
for (const auto& dc : pc_->sctp_data_channels()) {
StatsReport::Id id(StatsReport::NewTypedIntId(
StatsReport::kStatsReportTypeDataChannel, dc->id()));
StatsReport* report = reports_.ReplaceOrAddNew(id);
report->set_timestamp(stats_gathering_started_);
report->AddString(StatsReport::kStatsValueNameLabel, dc->label());
report->AddInt(StatsReport::kStatsValueNameDataChannelId, dc->id());
report->AddString(StatsReport::kStatsValueNameProtocol, dc->protocol());
report->AddString(StatsReport::kStatsValueNameState,
DataChannelInterface::DataStateString(dc->state()));
}
}
StatsReport* StatsCollector::GetReport(const StatsReport::StatsType& type,
const std::string& id,
StatsReport::Direction direction) {
RTC_DCHECK(pc_->session()->signaling_thread()->IsCurrent());
RTC_DCHECK(type == StatsReport::kStatsReportTypeSsrc ||
type == StatsReport::kStatsReportTypeRemoteSsrc);
return reports_.Find(StatsReport::NewIdWithDirection(type, id, direction));
}
void StatsCollector::UpdateStatsFromExistingLocalAudioTracks() {
RTC_DCHECK(pc_->session()->signaling_thread()->IsCurrent());
// Loop through the existing local audio tracks.
for (const auto& it : local_audio_tracks_) {
AudioTrackInterface* track = it.first;
uint32_t ssrc = it.second;
StatsReport* report =
GetReport(StatsReport::kStatsReportTypeSsrc,
rtc::ToString<uint32_t>(ssrc), StatsReport::kSend);
if (report == NULL) {
// This can happen if a local audio track is added to a stream on the
// fly and the report has not been set up yet. Do nothing in this case.
LOG(LS_ERROR) << "Stats report does not exist for ssrc " << ssrc;
continue;
}
// The same ssrc can be used by both local and remote audio tracks.
const StatsReport::Value* v =
report->FindValue(StatsReport::kStatsValueNameTrackId);
if (!v || v->string_val() != track->id())
continue;
report->set_timestamp(stats_gathering_started_);
UpdateReportFromAudioTrack(track, report);
}
}
void StatsCollector::UpdateReportFromAudioTrack(AudioTrackInterface* track,
StatsReport* report) {
RTC_DCHECK(pc_->session()->signaling_thread()->IsCurrent());
RTC_DCHECK(track != NULL);
int signal_level = 0;
if (!track->GetSignalLevel(&signal_level))
signal_level = -1;
rtc::scoped_refptr<AudioProcessorInterface> audio_processor(
track->GetAudioProcessor());
AudioProcessorInterface::AudioProcessorStats stats;
if (audio_processor.get())
audio_processor->GetStats(&stats);
SetAudioProcessingStats(report, signal_level, stats.typing_noise_detected,
stats.echo_return_loss, stats.echo_return_loss_enhancement,
stats.echo_delay_median_ms, stats.aec_quality_min,
stats.echo_delay_std_ms);
}
bool StatsCollector::GetTrackIdBySsrc(uint32_t ssrc,
std::string* track_id,
StatsReport::Direction direction) {
RTC_DCHECK(pc_->session()->signaling_thread()->IsCurrent());
if (direction == StatsReport::kSend) {
if (!pc_->session()->GetLocalTrackIdBySsrc(ssrc, track_id)) {
LOG(LS_WARNING) << "The SSRC " << ssrc
<< " is not associated with a sending track";
return false;
}
} else {
RTC_DCHECK(direction == StatsReport::kReceive);
if (!pc_->session()->GetRemoteTrackIdBySsrc(ssrc, track_id)) {
LOG(LS_WARNING) << "The SSRC " << ssrc
<< " is not associated with a receiving track";
return false;
}
}
return true;
}
void StatsCollector::UpdateTrackReports() {
RTC_DCHECK(pc_->session()->signaling_thread()->IsCurrent());
rtc::Thread::ScopedDisallowBlockingCalls no_blocking_calls;
for (const auto& entry : track_ids_) {
StatsReport* report = entry.second;
report->set_timestamp(stats_gathering_started_);
}
}
void StatsCollector::ClearUpdateStatsCacheForTest() {
stats_gathering_started_ = 0;
}
} // namespace webrtc