status-go/vendor/github.com/pion/webrtc/v3/stats.go

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// SPDX-FileCopyrightText: 2023 The Pion community <https://pion.ly>
// SPDX-License-Identifier: MIT
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package webrtc
import (
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"encoding/json"
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"fmt"
"sync"
"time"
"github.com/pion/ice/v2"
)
// A Stats object contains a set of statistics copies out of a monitored component
// of the WebRTC stack at a specific time.
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type Stats interface {
statsMarker()
}
// UnmarshalStatsJSON unmarshals a Stats object from JSON
func UnmarshalStatsJSON(b []byte) (Stats, error) {
type typeJSON struct {
Type StatsType `json:"type"`
}
typeHolder := typeJSON{}
err := json.Unmarshal(b, &typeHolder)
if err != nil {
return nil, fmt.Errorf("unmarshal json type: %w", err)
}
switch typeHolder.Type {
case StatsTypeCodec:
return unmarshalCodecStats(b)
case StatsTypeInboundRTP:
return unmarshalInboundRTPStreamStats(b)
case StatsTypeOutboundRTP:
return unmarshalOutboundRTPStreamStats(b)
case StatsTypeRemoteInboundRTP:
return unmarshalRemoteInboundRTPStreamStats(b)
case StatsTypeRemoteOutboundRTP:
return unmarshalRemoteOutboundRTPStreamStats(b)
case StatsTypeCSRC:
return unmarshalCSRCStats(b)
case StatsTypeMediaSource:
return unmarshalMediaSourceStats(b)
case StatsTypeMediaPlayout:
return unmarshalMediaPlayoutStats(b)
case StatsTypePeerConnection:
return unmarshalPeerConnectionStats(b)
case StatsTypeDataChannel:
return unmarshalDataChannelStats(b)
case StatsTypeStream:
return unmarshalStreamStats(b)
case StatsTypeTrack:
return unmarshalTrackStats(b)
case StatsTypeSender:
return unmarshalSenderStats(b)
case StatsTypeReceiver:
return unmarshalReceiverStats(b)
case StatsTypeTransport:
return unmarshalTransportStats(b)
case StatsTypeCandidatePair:
return unmarshalICECandidatePairStats(b)
case StatsTypeLocalCandidate, StatsTypeRemoteCandidate:
return unmarshalICECandidateStats(b)
case StatsTypeCertificate:
return unmarshalCertificateStats(b)
case StatsTypeSCTPTransport:
return unmarshalSCTPTransportStats(b)
default:
return nil, fmt.Errorf("type: %w", ErrUnknownType)
}
}
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// StatsType indicates the type of the object that a Stats object represents.
type StatsType string
const (
// StatsTypeCodec is used by CodecStats.
StatsTypeCodec StatsType = "codec"
// StatsTypeInboundRTP is used by InboundRTPStreamStats.
StatsTypeInboundRTP StatsType = "inbound-rtp"
// StatsTypeOutboundRTP is used by OutboundRTPStreamStats.
StatsTypeOutboundRTP StatsType = "outbound-rtp"
// StatsTypeRemoteInboundRTP is used by RemoteInboundRTPStreamStats.
StatsTypeRemoteInboundRTP StatsType = "remote-inbound-rtp"
// StatsTypeRemoteOutboundRTP is used by RemoteOutboundRTPStreamStats.
StatsTypeRemoteOutboundRTP StatsType = "remote-outbound-rtp"
// StatsTypeCSRC is used by RTPContributingSourceStats.
StatsTypeCSRC StatsType = "csrc"
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// StatsTypeMediaSource is used by AudioSourceStats or VideoSourceStats depending on kind.
StatsTypeMediaSource = "media-source"
// StatsTypeMediaPlayout is used by AudioPlayoutStats.
StatsTypeMediaPlayout StatsType = "media-playout"
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// StatsTypePeerConnection used by PeerConnectionStats.
StatsTypePeerConnection StatsType = "peer-connection"
// StatsTypeDataChannel is used by DataChannelStats.
StatsTypeDataChannel StatsType = "data-channel"
// StatsTypeStream is used by MediaStreamStats.
StatsTypeStream StatsType = "stream"
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// StatsTypeTrack is used by SenderVideoTrackAttachmentStats and SenderAudioTrackAttachmentStats depending on kind.
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StatsTypeTrack StatsType = "track"
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// StatsTypeSender is used by the AudioSenderStats or VideoSenderStats depending on kind.
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StatsTypeSender StatsType = "sender"
// StatsTypeReceiver is used by the AudioReceiverStats or VideoReceiverStats depending on kind.
StatsTypeReceiver StatsType = "receiver"
// StatsTypeTransport is used by TransportStats.
StatsTypeTransport StatsType = "transport"
// StatsTypeCandidatePair is used by ICECandidatePairStats.
StatsTypeCandidatePair StatsType = "candidate-pair"
// StatsTypeLocalCandidate is used by ICECandidateStats for the local candidate.
StatsTypeLocalCandidate StatsType = "local-candidate"
// StatsTypeRemoteCandidate is used by ICECandidateStats for the remote candidate.
StatsTypeRemoteCandidate StatsType = "remote-candidate"
// StatsTypeCertificate is used by CertificateStats.
StatsTypeCertificate StatsType = "certificate"
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// StatsTypeSCTPTransport is used by SCTPTransportStats
StatsTypeSCTPTransport StatsType = "sctp-transport"
)
// MediaKind indicates the kind of media (audio or video)
type MediaKind string
const (
// MediaKindAudio indicates this is audio stats
MediaKindAudio MediaKind = "audio"
// MediaKindVideo indicates this is video stats
MediaKindVideo MediaKind = "video"
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)
// StatsTimestamp is a timestamp represented by the floating point number of
// milliseconds since the epoch.
type StatsTimestamp float64
// Time returns the time.Time represented by this timestamp.
func (s StatsTimestamp) Time() time.Time {
millis := float64(s)
nanos := int64(millis * float64(time.Millisecond))
return time.Unix(0, nanos).UTC()
}
func statsTimestampFrom(t time.Time) StatsTimestamp {
return StatsTimestamp(t.UnixNano() / int64(time.Millisecond))
}
func statsTimestampNow() StatsTimestamp {
return statsTimestampFrom(time.Now())
}
// StatsReport collects Stats objects indexed by their ID.
type StatsReport map[string]Stats
type statsReportCollector struct {
collectingGroup sync.WaitGroup
report StatsReport
mux sync.Mutex
}
func newStatsReportCollector() *statsReportCollector {
return &statsReportCollector{report: make(StatsReport)}
}
func (src *statsReportCollector) Collecting() {
src.collectingGroup.Add(1)
}
func (src *statsReportCollector) Collect(id string, stats Stats) {
src.mux.Lock()
defer src.mux.Unlock()
src.report[id] = stats
src.collectingGroup.Done()
}
func (src *statsReportCollector) Done() {
src.collectingGroup.Done()
}
func (src *statsReportCollector) Ready() StatsReport {
src.collectingGroup.Wait()
src.mux.Lock()
defer src.mux.Unlock()
return src.report
}
// CodecType specifies whether a CodecStats objects represents a media format
// that is being encoded or decoded
type CodecType string
const (
// CodecTypeEncode means the attached CodecStats represents a media format that
// is being encoded, or that the implementation is prepared to encode.
CodecTypeEncode CodecType = "encode"
// CodecTypeDecode means the attached CodecStats represents a media format
// that the implementation is prepared to decode.
CodecTypeDecode CodecType = "decode"
)
// CodecStats contains statistics for a codec that is currently being used by RTP streams
// being sent or received by this PeerConnection object.
type CodecStats struct {
// Timestamp is the timestamp associated with this object.
Timestamp StatsTimestamp `json:"timestamp"`
// Type is the object's StatsType
Type StatsType `json:"type"`
// ID is a unique id that is associated with the component inspected to produce
// this Stats object. Two Stats objects will have the same ID if they were produced
// by inspecting the same underlying object.
ID string `json:"id"`
// PayloadType as used in RTP encoding or decoding
PayloadType PayloadType `json:"payloadType"`
// CodecType of this CodecStats
CodecType CodecType `json:"codecType"`
// TransportID is the unique identifier of the transport on which this codec is
// being used, which can be used to look up the corresponding TransportStats object.
TransportID string `json:"transportId"`
// MimeType is the codec MIME media type/subtype. e.g., video/vp8 or equivalent.
MimeType string `json:"mimeType"`
// ClockRate represents the media sampling rate.
ClockRate uint32 `json:"clockRate"`
// Channels is 2 for stereo, missing for most other cases.
Channels uint8 `json:"channels"`
// SDPFmtpLine is the a=fmtp line in the SDP corresponding to the codec,
// i.e., after the colon following the PT.
SDPFmtpLine string `json:"sdpFmtpLine"`
// Implementation identifies the implementation used. This is useful for diagnosing
// interoperability issues.
Implementation string `json:"implementation"`
}
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func (s CodecStats) statsMarker() {}
func unmarshalCodecStats(b []byte) (CodecStats, error) {
var codecStats CodecStats
err := json.Unmarshal(b, &codecStats)
if err != nil {
return CodecStats{}, fmt.Errorf("unmarshal codec stats: %w", err)
}
return codecStats, nil
}
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// InboundRTPStreamStats contains statistics for an inbound RTP stream that is
// currently received with this PeerConnection object.
type InboundRTPStreamStats struct {
// Timestamp is the timestamp associated with this object.
Timestamp StatsTimestamp `json:"timestamp"`
// Type is the object's StatsType
Type StatsType `json:"type"`
// ID is a unique id that is associated with the component inspected to produce
// this Stats object. Two Stats objects will have the same ID if they were produced
// by inspecting the same underlying object.
ID string `json:"id"`
// SSRC is the 32-bit unsigned integer value used to identify the source of the
// stream of RTP packets that this stats object concerns.
SSRC SSRC `json:"ssrc"`
// Kind is either "audio" or "video"
Kind string `json:"kind"`
// It is a unique identifier that is associated to the object that was inspected
// to produce the TransportStats associated with this RTP stream.
TransportID string `json:"transportId"`
// CodecID is a unique identifier that is associated to the object that was inspected
// to produce the CodecStats associated with this RTP stream.
CodecID string `json:"codecId"`
// FIRCount counts the total number of Full Intra Request (FIR) packets received
// by the sender. This metric is only valid for video and is sent by receiver.
FIRCount uint32 `json:"firCount"`
// PLICount counts the total number of Picture Loss Indication (PLI) packets
// received by the sender. This metric is only valid for video and is sent by receiver.
PLICount uint32 `json:"pliCount"`
// NACKCount counts the total number of Negative ACKnowledgement (NACK) packets
// received by the sender and is sent by receiver.
NACKCount uint32 `json:"nackCount"`
// SLICount counts the total number of Slice Loss Indication (SLI) packets received
// by the sender. This metric is only valid for video and is sent by receiver.
SLICount uint32 `json:"sliCount"`
// QPSum is the sum of the QP values of frames passed. The count of frames is
// in FramesDecoded for inbound stream stats, and in FramesEncoded for outbound stream stats.
QPSum uint64 `json:"qpSum"`
// PacketsReceived is the total number of RTP packets received for this SSRC.
PacketsReceived uint32 `json:"packetsReceived"`
// PacketsLost is the total number of RTP packets lost for this SSRC. Note that
// because of how this is estimated, it can be negative if more packets are received than sent.
PacketsLost int32 `json:"packetsLost"`
// Jitter is the packet jitter measured in seconds for this SSRC
Jitter float64 `json:"jitter"`
// PacketsDiscarded is the cumulative number of RTP packets discarded by the jitter
// buffer due to late or early-arrival, i.e., these packets are not played out.
// RTP packets discarded due to packet duplication are not reported in this metric.
PacketsDiscarded uint32 `json:"packetsDiscarded"`
// PacketsRepaired is the cumulative number of lost RTP packets repaired after applying
// an error-resilience mechanism. It is measured for the primary source RTP packets
// and only counted for RTP packets that have no further chance of repair.
PacketsRepaired uint32 `json:"packetsRepaired"`
// BurstPacketsLost is the cumulative number of RTP packets lost during loss bursts.
BurstPacketsLost uint32 `json:"burstPacketsLost"`
// BurstPacketsDiscarded is the cumulative number of RTP packets discarded during discard bursts.
BurstPacketsDiscarded uint32 `json:"burstPacketsDiscarded"`
// BurstLossCount is the cumulative number of bursts of lost RTP packets.
BurstLossCount uint32 `json:"burstLossCount"`
// BurstDiscardCount is the cumulative number of bursts of discarded RTP packets.
BurstDiscardCount uint32 `json:"burstDiscardCount"`
// BurstLossRate is the fraction of RTP packets lost during bursts to the
// total number of RTP packets expected in the bursts.
BurstLossRate float64 `json:"burstLossRate"`
// BurstDiscardRate is the fraction of RTP packets discarded during bursts to
// the total number of RTP packets expected in bursts.
BurstDiscardRate float64 `json:"burstDiscardRate"`
// GapLossRate is the fraction of RTP packets lost during the gap periods.
GapLossRate float64 `json:"gapLossRate"`
// GapDiscardRate is the fraction of RTP packets discarded during the gap periods.
GapDiscardRate float64 `json:"gapDiscardRate"`
// TrackID is the identifier of the stats object representing the receiving track,
// a ReceiverAudioTrackAttachmentStats or ReceiverVideoTrackAttachmentStats.
TrackID string `json:"trackId"`
// ReceiverID is the stats ID used to look up the AudioReceiverStats or VideoReceiverStats
// object receiving this stream.
ReceiverID string `json:"receiverId"`
// RemoteID is used for looking up the remote RemoteOutboundRTPStreamStats object
// for the same SSRC.
RemoteID string `json:"remoteId"`
// FramesDecoded represents the total number of frames correctly decoded for this SSRC,
// i.e., frames that would be displayed if no frames are dropped. Only valid for video.
FramesDecoded uint32 `json:"framesDecoded"`
// LastPacketReceivedTimestamp represents the timestamp at which the last packet was
// received for this SSRC. This differs from Timestamp, which represents the time
// at which the statistics were generated by the local endpoint.
LastPacketReceivedTimestamp StatsTimestamp `json:"lastPacketReceivedTimestamp"`
// AverageRTCPInterval is the average RTCP interval between two consecutive compound RTCP packets.
// This is calculated by the sending endpoint when sending compound RTCP reports.
// Compound packets must contain at least a RTCP RR or SR packet and an SDES packet
// with the CNAME item.
AverageRTCPInterval float64 `json:"averageRtcpInterval"`
// FECPacketsReceived is the total number of RTP FEC packets received for this SSRC.
// This counter can also be incremented when receiving FEC packets in-band with media packets (e.g., with Opus).
FECPacketsReceived uint32 `json:"fecPacketsReceived"`
// BytesReceived is the total number of bytes received for this SSRC.
BytesReceived uint64 `json:"bytesReceived"`
// PacketsFailedDecryption is the cumulative number of RTP packets that failed
// to be decrypted. These packets are not counted by PacketsDiscarded.
PacketsFailedDecryption uint32 `json:"packetsFailedDecryption"`
// PacketsDuplicated is the cumulative number of packets discarded because they
// are duplicated. Duplicate packets are not counted in PacketsDiscarded.
//
// Duplicated packets have the same RTP sequence number and content as a previously
// received packet. If multiple duplicates of a packet are received, all of them are counted.
// An improved estimate of lost packets can be calculated by adding PacketsDuplicated to PacketsLost.
PacketsDuplicated uint32 `json:"packetsDuplicated"`
// PerDSCPPacketsReceived is the total number of packets received for this SSRC,
// per Differentiated Services code point (DSCP) [RFC2474]. DSCPs are identified
// as decimal integers in string form. Note that due to network remapping and bleaching,
// these numbers are not expected to match the numbers seen on sending. Not all
// OSes make this information available.
PerDSCPPacketsReceived map[string]uint32 `json:"perDscpPacketsReceived"`
}
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func (s InboundRTPStreamStats) statsMarker() {}
func unmarshalInboundRTPStreamStats(b []byte) (InboundRTPStreamStats, error) {
var inboundRTPStreamStats InboundRTPStreamStats
err := json.Unmarshal(b, &inboundRTPStreamStats)
if err != nil {
return InboundRTPStreamStats{}, fmt.Errorf("unmarshal inbound rtp stream stats: %w", err)
}
return inboundRTPStreamStats, nil
}
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// QualityLimitationReason lists the reason for limiting the resolution and/or framerate.
// Only valid for video.
type QualityLimitationReason string
const (
// QualityLimitationReasonNone means the resolution and/or framerate is not limited.
QualityLimitationReasonNone QualityLimitationReason = "none"
// QualityLimitationReasonCPU means the resolution and/or framerate is primarily limited due to CPU load.
QualityLimitationReasonCPU QualityLimitationReason = "cpu"
// QualityLimitationReasonBandwidth means the resolution and/or framerate is primarily limited due to congestion cues during bandwidth estimation. Typical, congestion control algorithms use inter-arrival time, round-trip time, packet or other congestion cues to perform bandwidth estimation.
QualityLimitationReasonBandwidth QualityLimitationReason = "bandwidth"
// QualityLimitationReasonOther means the resolution and/or framerate is primarily limited for a reason other than the above.
QualityLimitationReasonOther QualityLimitationReason = "other"
)
// OutboundRTPStreamStats contains statistics for an outbound RTP stream that is
// currently sent with this PeerConnection object.
type OutboundRTPStreamStats struct {
// Timestamp is the timestamp associated with this object.
Timestamp StatsTimestamp `json:"timestamp"`
// Type is the object's StatsType
Type StatsType `json:"type"`
// ID is a unique id that is associated with the component inspected to produce
// this Stats object. Two Stats objects will have the same ID if they were produced
// by inspecting the same underlying object.
ID string `json:"id"`
// SSRC is the 32-bit unsigned integer value used to identify the source of the
// stream of RTP packets that this stats object concerns.
SSRC SSRC `json:"ssrc"`
// Kind is either "audio" or "video"
Kind string `json:"kind"`
// It is a unique identifier that is associated to the object that was inspected
// to produce the TransportStats associated with this RTP stream.
TransportID string `json:"transportId"`
// CodecID is a unique identifier that is associated to the object that was inspected
// to produce the CodecStats associated with this RTP stream.
CodecID string `json:"codecId"`
// FIRCount counts the total number of Full Intra Request (FIR) packets received
// by the sender. This metric is only valid for video and is sent by receiver.
FIRCount uint32 `json:"firCount"`
// PLICount counts the total number of Picture Loss Indication (PLI) packets
// received by the sender. This metric is only valid for video and is sent by receiver.
PLICount uint32 `json:"pliCount"`
// NACKCount counts the total number of Negative ACKnowledgement (NACK) packets
// received by the sender and is sent by receiver.
NACKCount uint32 `json:"nackCount"`
// SLICount counts the total number of Slice Loss Indication (SLI) packets received
// by the sender. This metric is only valid for video and is sent by receiver.
SLICount uint32 `json:"sliCount"`
// QPSum is the sum of the QP values of frames passed. The count of frames is
// in FramesDecoded for inbound stream stats, and in FramesEncoded for outbound stream stats.
QPSum uint64 `json:"qpSum"`
// PacketsSent is the total number of RTP packets sent for this SSRC.
PacketsSent uint32 `json:"packetsSent"`
// PacketsDiscardedOnSend is the total number of RTP packets for this SSRC that
// have been discarded due to socket errors, i.e. a socket error occurred when handing
// the packets to the socket. This might happen due to various reasons, including
// full buffer or no available memory.
PacketsDiscardedOnSend uint32 `json:"packetsDiscardedOnSend"`
// FECPacketsSent is the total number of RTP FEC packets sent for this SSRC.
// This counter can also be incremented when sending FEC packets in-band with
// media packets (e.g., with Opus).
FECPacketsSent uint32 `json:"fecPacketsSent"`
// BytesSent is the total number of bytes sent for this SSRC.
BytesSent uint64 `json:"bytesSent"`
// BytesDiscardedOnSend is the total number of bytes for this SSRC that have
// been discarded due to socket errors, i.e. a socket error occurred when handing
// the packets containing the bytes to the socket. This might happen due to various
// reasons, including full buffer or no available memory.
BytesDiscardedOnSend uint64 `json:"bytesDiscardedOnSend"`
// TrackID is the identifier of the stats object representing the current track
// attachment to the sender of this stream, a SenderAudioTrackAttachmentStats
// or SenderVideoTrackAttachmentStats.
TrackID string `json:"trackId"`
// SenderID is the stats ID used to look up the AudioSenderStats or VideoSenderStats
// object sending this stream.
SenderID string `json:"senderId"`
// RemoteID is used for looking up the remote RemoteInboundRTPStreamStats object
// for the same SSRC.
RemoteID string `json:"remoteId"`
// LastPacketSentTimestamp represents the timestamp at which the last packet was
// sent for this SSRC. This differs from timestamp, which represents the time at
// which the statistics were generated by the local endpoint.
LastPacketSentTimestamp StatsTimestamp `json:"lastPacketSentTimestamp"`
// TargetBitrate is the current target bitrate configured for this particular SSRC
// and is the Transport Independent Application Specific (TIAS) bitrate [RFC3890].
// Typically, the target bitrate is a configuration parameter provided to the codec's
// encoder and does not count the size of the IP or other transport layers like TCP or UDP.
// It is measured in bits per second and the bitrate is calculated over a 1 second window.
TargetBitrate float64 `json:"targetBitrate"`
// FramesEncoded represents the total number of frames successfully encoded for this RTP media stream.
// Only valid for video.
FramesEncoded uint32 `json:"framesEncoded"`
// TotalEncodeTime is the total number of seconds that has been spent encoding the
// framesEncoded frames of this stream. The average encode time can be calculated by
// dividing this value with FramesEncoded. The time it takes to encode one frame is the
// time passed between feeding the encoder a frame and the encoder returning encoded data
// for that frame. This does not include any additional time it may take to packetize the resulting data.
TotalEncodeTime float64 `json:"totalEncodeTime"`
// AverageRTCPInterval is the average RTCP interval between two consecutive compound RTCP
// packets. This is calculated by the sending endpoint when sending compound RTCP reports.
// Compound packets must contain at least a RTCP RR or SR packet and an SDES packet with the CNAME item.
AverageRTCPInterval float64 `json:"averageRtcpInterval"`
// QualityLimitationReason is the current reason for limiting the resolution and/or framerate,
// or "none" if not limited. Only valid for video.
QualityLimitationReason QualityLimitationReason `json:"qualityLimitationReason"`
// QualityLimitationDurations is record of the total time, in seconds, that this
// stream has spent in each quality limitation state. The record includes a mapping
// for all QualityLimitationReason types, including "none". Only valid for video.
QualityLimitationDurations map[string]float64 `json:"qualityLimitationDurations"`
// PerDSCPPacketsSent is the total number of packets sent for this SSRC, per DSCP.
// DSCPs are identified as decimal integers in string form.
PerDSCPPacketsSent map[string]uint32 `json:"perDscpPacketsSent"`
}
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func (s OutboundRTPStreamStats) statsMarker() {}
func unmarshalOutboundRTPStreamStats(b []byte) (OutboundRTPStreamStats, error) {
var outboundRTPStreamStats OutboundRTPStreamStats
err := json.Unmarshal(b, &outboundRTPStreamStats)
if err != nil {
return OutboundRTPStreamStats{}, fmt.Errorf("unmarshal outbound rtp stream stats: %w", err)
}
return outboundRTPStreamStats, nil
}
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// RemoteInboundRTPStreamStats contains statistics for the remote endpoint's inbound
// RTP stream corresponding to an outbound stream that is currently sent with this
// PeerConnection object. It is measured at the remote endpoint and reported in an RTCP
// Receiver Report (RR) or RTCP Extended Report (XR).
type RemoteInboundRTPStreamStats struct {
// Timestamp is the timestamp associated with this object.
Timestamp StatsTimestamp `json:"timestamp"`
// Type is the object's StatsType
Type StatsType `json:"type"`
// ID is a unique id that is associated with the component inspected to produce
// this Stats object. Two Stats objects will have the same ID if they were produced
// by inspecting the same underlying object.
ID string `json:"id"`
// SSRC is the 32-bit unsigned integer value used to identify the source of the
// stream of RTP packets that this stats object concerns.
SSRC SSRC `json:"ssrc"`
// Kind is either "audio" or "video"
Kind string `json:"kind"`
// It is a unique identifier that is associated to the object that was inspected
// to produce the TransportStats associated with this RTP stream.
TransportID string `json:"transportId"`
// CodecID is a unique identifier that is associated to the object that was inspected
// to produce the CodecStats associated with this RTP stream.
CodecID string `json:"codecId"`
// FIRCount counts the total number of Full Intra Request (FIR) packets received
// by the sender. This metric is only valid for video and is sent by receiver.
FIRCount uint32 `json:"firCount"`
// PLICount counts the total number of Picture Loss Indication (PLI) packets
// received by the sender. This metric is only valid for video and is sent by receiver.
PLICount uint32 `json:"pliCount"`
// NACKCount counts the total number of Negative ACKnowledgement (NACK) packets
// received by the sender and is sent by receiver.
NACKCount uint32 `json:"nackCount"`
// SLICount counts the total number of Slice Loss Indication (SLI) packets received
// by the sender. This metric is only valid for video and is sent by receiver.
SLICount uint32 `json:"sliCount"`
// QPSum is the sum of the QP values of frames passed. The count of frames is
// in FramesDecoded for inbound stream stats, and in FramesEncoded for outbound stream stats.
QPSum uint64 `json:"qpSum"`
// PacketsReceived is the total number of RTP packets received for this SSRC.
PacketsReceived uint32 `json:"packetsReceived"`
// PacketsLost is the total number of RTP packets lost for this SSRC. Note that
// because of how this is estimated, it can be negative if more packets are received than sent.
PacketsLost int32 `json:"packetsLost"`
// Jitter is the packet jitter measured in seconds for this SSRC
Jitter float64 `json:"jitter"`
// PacketsDiscarded is the cumulative number of RTP packets discarded by the jitter
// buffer due to late or early-arrival, i.e., these packets are not played out.
// RTP packets discarded due to packet duplication are not reported in this metric.
PacketsDiscarded uint32 `json:"packetsDiscarded"`
// PacketsRepaired is the cumulative number of lost RTP packets repaired after applying
// an error-resilience mechanism. It is measured for the primary source RTP packets
// and only counted for RTP packets that have no further chance of repair.
PacketsRepaired uint32 `json:"packetsRepaired"`
// BurstPacketsLost is the cumulative number of RTP packets lost during loss bursts.
BurstPacketsLost uint32 `json:"burstPacketsLost"`
// BurstPacketsDiscarded is the cumulative number of RTP packets discarded during discard bursts.
BurstPacketsDiscarded uint32 `json:"burstPacketsDiscarded"`
// BurstLossCount is the cumulative number of bursts of lost RTP packets.
BurstLossCount uint32 `json:"burstLossCount"`
// BurstDiscardCount is the cumulative number of bursts of discarded RTP packets.
BurstDiscardCount uint32 `json:"burstDiscardCount"`
// BurstLossRate is the fraction of RTP packets lost during bursts to the
// total number of RTP packets expected in the bursts.
BurstLossRate float64 `json:"burstLossRate"`
// BurstDiscardRate is the fraction of RTP packets discarded during bursts to
// the total number of RTP packets expected in bursts.
BurstDiscardRate float64 `json:"burstDiscardRate"`
// GapLossRate is the fraction of RTP packets lost during the gap periods.
GapLossRate float64 `json:"gapLossRate"`
// GapDiscardRate is the fraction of RTP packets discarded during the gap periods.
GapDiscardRate float64 `json:"gapDiscardRate"`
// LocalID is used for looking up the local OutboundRTPStreamStats object for the same SSRC.
LocalID string `json:"localId"`
// RoundTripTime is the estimated round trip time for this SSRC based on the
// RTCP timestamps in the RTCP Receiver Report (RR) and measured in seconds.
RoundTripTime float64 `json:"roundTripTime"`
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// FractionLost is the fraction packet loss reported for this SSRC.
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FractionLost float64 `json:"fractionLost"`
}
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func (s RemoteInboundRTPStreamStats) statsMarker() {}
func unmarshalRemoteInboundRTPStreamStats(b []byte) (RemoteInboundRTPStreamStats, error) {
var remoteInboundRTPStreamStats RemoteInboundRTPStreamStats
err := json.Unmarshal(b, &remoteInboundRTPStreamStats)
if err != nil {
return RemoteInboundRTPStreamStats{}, fmt.Errorf("unmarshal remote inbound rtp stream stats: %w", err)
}
return remoteInboundRTPStreamStats, nil
}
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// RemoteOutboundRTPStreamStats contains statistics for the remote endpoint's outbound
// RTP stream corresponding to an inbound stream that is currently received with this
// PeerConnection object. It is measured at the remote endpoint and reported in an
// RTCP Sender Report (SR).
type RemoteOutboundRTPStreamStats struct {
// Timestamp is the timestamp associated with this object.
Timestamp StatsTimestamp `json:"timestamp"`
// Type is the object's StatsType
Type StatsType `json:"type"`
// ID is a unique id that is associated with the component inspected to produce
// this Stats object. Two Stats objects will have the same ID if they were produced
// by inspecting the same underlying object.
ID string `json:"id"`
// SSRC is the 32-bit unsigned integer value used to identify the source of the
// stream of RTP packets that this stats object concerns.
SSRC SSRC `json:"ssrc"`
// Kind is either "audio" or "video"
Kind string `json:"kind"`
// It is a unique identifier that is associated to the object that was inspected
// to produce the TransportStats associated with this RTP stream.
TransportID string `json:"transportId"`
// CodecID is a unique identifier that is associated to the object that was inspected
// to produce the CodecStats associated with this RTP stream.
CodecID string `json:"codecId"`
// FIRCount counts the total number of Full Intra Request (FIR) packets received
// by the sender. This metric is only valid for video and is sent by receiver.
FIRCount uint32 `json:"firCount"`
// PLICount counts the total number of Picture Loss Indication (PLI) packets
// received by the sender. This metric is only valid for video and is sent by receiver.
PLICount uint32 `json:"pliCount"`
// NACKCount counts the total number of Negative ACKnowledgement (NACK) packets
// received by the sender and is sent by receiver.
NACKCount uint32 `json:"nackCount"`
// SLICount counts the total number of Slice Loss Indication (SLI) packets received
// by the sender. This metric is only valid for video and is sent by receiver.
SLICount uint32 `json:"sliCount"`
// QPSum is the sum of the QP values of frames passed. The count of frames is
// in FramesDecoded for inbound stream stats, and in FramesEncoded for outbound stream stats.
QPSum uint64 `json:"qpSum"`
// PacketsSent is the total number of RTP packets sent for this SSRC.
PacketsSent uint32 `json:"packetsSent"`
// PacketsDiscardedOnSend is the total number of RTP packets for this SSRC that
// have been discarded due to socket errors, i.e. a socket error occurred when handing
// the packets to the socket. This might happen due to various reasons, including
// full buffer or no available memory.
PacketsDiscardedOnSend uint32 `json:"packetsDiscardedOnSend"`
// FECPacketsSent is the total number of RTP FEC packets sent for this SSRC.
// This counter can also be incremented when sending FEC packets in-band with
// media packets (e.g., with Opus).
FECPacketsSent uint32 `json:"fecPacketsSent"`
// BytesSent is the total number of bytes sent for this SSRC.
BytesSent uint64 `json:"bytesSent"`
// BytesDiscardedOnSend is the total number of bytes for this SSRC that have
// been discarded due to socket errors, i.e. a socket error occurred when handing
// the packets containing the bytes to the socket. This might happen due to various
// reasons, including full buffer or no available memory.
BytesDiscardedOnSend uint64 `json:"bytesDiscardedOnSend"`
// LocalID is used for looking up the local InboundRTPStreamStats object for the same SSRC.
LocalID string `json:"localId"`
// RemoteTimestamp represents the remote timestamp at which these statistics were
// sent by the remote endpoint. This differs from timestamp, which represents the
// time at which the statistics were generated or received by the local endpoint.
// The RemoteTimestamp, if present, is derived from the NTP timestamp in an RTCP
// Sender Report (SR) packet, which reflects the remote endpoint's clock.
// That clock may not be synchronized with the local clock.
RemoteTimestamp StatsTimestamp `json:"remoteTimestamp"`
}
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func (s RemoteOutboundRTPStreamStats) statsMarker() {}
func unmarshalRemoteOutboundRTPStreamStats(b []byte) (RemoteOutboundRTPStreamStats, error) {
var remoteOutboundRTPStreamStats RemoteOutboundRTPStreamStats
err := json.Unmarshal(b, &remoteOutboundRTPStreamStats)
if err != nil {
return RemoteOutboundRTPStreamStats{}, fmt.Errorf("unmarshal remote outbound rtp stream stats: %w", err)
}
return remoteOutboundRTPStreamStats, nil
}
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// RTPContributingSourceStats contains statistics for a contributing source (CSRC) that contributed
// to an inbound RTP stream.
type RTPContributingSourceStats struct {
// Timestamp is the timestamp associated with this object.
Timestamp StatsTimestamp `json:"timestamp"`
// Type is the object's StatsType
Type StatsType `json:"type"`
// ID is a unique id that is associated with the component inspected to produce
// this Stats object. Two Stats objects will have the same ID if they were produced
// by inspecting the same underlying object.
ID string `json:"id"`
// ContributorSSRC is the SSRC identifier of the contributing source represented
// by this stats object. It is a 32-bit unsigned integer that appears in the CSRC
// list of any packets the relevant source contributed to.
ContributorSSRC SSRC `json:"contributorSsrc"`
// InboundRTPStreamID is the ID of the InboundRTPStreamStats object representing
// the inbound RTP stream that this contributing source is contributing to.
InboundRTPStreamID string `json:"inboundRtpStreamId"`
// PacketsContributedTo is the total number of RTP packets that this contributing
// source contributed to. This value is incremented each time a packet is counted
// by InboundRTPStreamStats.packetsReceived, and the packet's CSRC list contains
// the SSRC identifier of this contributing source, ContributorSSRC.
PacketsContributedTo uint32 `json:"packetsContributedTo"`
// AudioLevel is present if the last received RTP packet that this source contributed
// to contained an [RFC6465] mixer-to-client audio level header extension. The value
// of audioLevel is between 0..1 (linear), where 1.0 represents 0 dBov, 0 represents
// silence, and 0.5 represents approximately 6 dBSPL change in the sound pressure level from 0 dBov.
AudioLevel float64 `json:"audioLevel"`
}
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func (s RTPContributingSourceStats) statsMarker() {}
func unmarshalCSRCStats(b []byte) (RTPContributingSourceStats, error) {
var csrcStats RTPContributingSourceStats
err := json.Unmarshal(b, &csrcStats)
if err != nil {
return RTPContributingSourceStats{}, fmt.Errorf("unmarshal csrc stats: %w", err)
}
return csrcStats, nil
}
// AudioSourceStats represents an audio track that is attached to one or more senders.
type AudioSourceStats struct {
// Timestamp is the timestamp associated with this object.
Timestamp StatsTimestamp `json:"timestamp"`
// Type is the object's StatsType
Type StatsType `json:"type"`
// ID is a unique id that is associated with the component inspected to produce
// this Stats object. Two Stats objects will have the same ID if they were produced
// by inspecting the same underlying object.
ID string `json:"id"`
// TrackIdentifier represents the id property of the track.
TrackIdentifier string `json:"trackIdentifier"`
// Kind is "audio"
Kind string `json:"kind"`
// AudioLevel represents the output audio level of the track.
//
// The value is a value between 0..1 (linear), where 1.0 represents 0 dBov,
// 0 represents silence, and 0.5 represents approximately 6 dBSPL change in
// the sound pressure level from 0 dBov.
//
// If the track is sourced from an Receiver, does no audio processing, has a
// constant level, and has a volume setting of 1.0, the audio level is expected
// to be the same as the audio level of the source SSRC, while if the volume setting
// is 0.5, the AudioLevel is expected to be half that value.
AudioLevel float64 `json:"audioLevel"`
// TotalAudioEnergy is the total energy of all the audio samples sent/received
// for this object, calculated by duration * Math.pow(energy/maxEnergy, 2) for
// each audio sample seen.
TotalAudioEnergy float64 `json:"totalAudioEnergy"`
// TotalSamplesDuration represents the total duration in seconds of all samples
// that have sent or received (and thus counted by TotalSamplesSent or TotalSamplesReceived).
// Can be used with TotalAudioEnergy to compute an average audio level over different intervals.
TotalSamplesDuration float64 `json:"totalSamplesDuration"`
// EchoReturnLoss is only present while the sender is sending a track sourced from
// a microphone where echo cancellation is applied. Calculated in decibels.
EchoReturnLoss float64 `json:"echoReturnLoss"`
// EchoReturnLossEnhancement is only present while the sender is sending a track
// sourced from a microphone where echo cancellation is applied. Calculated in decibels.
EchoReturnLossEnhancement float64 `json:"echoReturnLossEnhancement"`
// DroppedSamplesDuration represents the total duration, in seconds, of samples produced by the device that got
// dropped before reaching the media source. Only applicable if this media source is backed by an audio capture device.
DroppedSamplesDuration float64 `json:"droppedSamplesDuration"`
// DroppedSamplesEvents is the number of dropped samples events. This counter increases every time a sample is
// dropped after a non-dropped sample. That is, multiple consecutive dropped samples will increase
// droppedSamplesDuration multiple times but is a single dropped samples event.
DroppedSamplesEvents uint64 `json:"droppedSamplesEvents"`
// TotalCaptureDelay is the total delay, in seconds, for each audio sample between the time the sample was emitted
// by the capture device and the sample reaching the source. This can be used together with totalSamplesCaptured to
// calculate the average capture delay per sample. Only applicable if the audio source represents an audio capture device.
TotalCaptureDelay float64 `json:"totalCaptureDelay"`
// TotalSamplesCaptured is the total number of captured samples reaching the audio source, i.e. that were not dropped
// by the capture pipeline. The frequency of the media source is not necessarily the same as the frequency of encoders
// later in the pipeline. Only applicable if the audio source represents an audio capture device.
TotalSamplesCaptured uint64 `json:"totalSamplesCaptured"`
}
func (s AudioSourceStats) statsMarker() {}
// VideoSourceStats represents a video track that is attached to one or more senders.
type VideoSourceStats struct {
// Timestamp is the timestamp associated with this object.
Timestamp StatsTimestamp `json:"timestamp"`
// Type is the object's StatsType
Type StatsType `json:"type"`
// ID is a unique id that is associated with the component inspected to produce
// this Stats object. Two Stats objects will have the same ID if they were produced
// by inspecting the same underlying object.
ID string `json:"id"`
// TrackIdentifier represents the id property of the track.
TrackIdentifier string `json:"trackIdentifier"`
// Kind is "video"
Kind string `json:"kind"`
// Width is width of the last frame originating from this source in pixels.
Width uint32 `json:"width"`
// Height is height of the last frame originating from this source in pixels.
Height uint32 `json:"height"`
// Frames is the total number of frames originating from this source.
Frames uint32 `json:"frames"`
// FramesPerSecond is the number of frames originating from this source, measured during the last second.
FramesPerSecond float64 `json:"framesPerSecond"`
}
func (s VideoSourceStats) statsMarker() {}
func unmarshalMediaSourceStats(b []byte) (Stats, error) {
type kindJSON struct {
Kind string `json:"kind"`
}
kindHolder := kindJSON{}
err := json.Unmarshal(b, &kindHolder)
if err != nil {
return nil, fmt.Errorf("unmarshal json kind: %w", err)
}
switch MediaKind(kindHolder.Kind) {
case MediaKindAudio:
var mediaSourceStats AudioSourceStats
err := json.Unmarshal(b, &mediaSourceStats)
if err != nil {
return nil, fmt.Errorf("unmarshal audio source stats: %w", err)
}
return mediaSourceStats, nil
case MediaKindVideo:
var mediaSourceStats VideoSourceStats
err := json.Unmarshal(b, &mediaSourceStats)
if err != nil {
return nil, fmt.Errorf("unmarshal video source stats: %w", err)
}
return mediaSourceStats, nil
default:
return nil, fmt.Errorf("kind: %w", ErrUnknownType)
}
}
// AudioPlayoutStats represents one playout path - if the same playout stats object is referenced by multiple
// RTCInboundRtpStreamStats this is an indication that audio mixing is happening in which case sample counters in this
// stats object refer to the samples after mixing. Only applicable if the playout path represents an audio device.
type AudioPlayoutStats struct {
// Timestamp is the timestamp associated with this object.
Timestamp StatsTimestamp `json:"timestamp"`
// Type is the object's StatsType
Type StatsType `json:"type"`
// ID is a unique id that is associated with the component inspected to produce
// this Stats object. Two Stats objects will have the same ID if they were produced
// by inspecting the same underlying object.
ID string `json:"id"`
// Kind is "audio"
Kind string `json:"kind"`
// SynthesizedSamplesDuration is measured in seconds and is incremented each time an audio sample is synthesized by
// this playout path. This metric can be used together with totalSamplesDuration to calculate the percentage of played
// out media being synthesized. If the playout path is unable to produce audio samples on time for device playout,
// samples are synthesized to be playout out instead. Synthesization typically only happens if the pipeline is
// underperforming. Samples synthesized by the RTCInboundRtpStreamStats are not counted for here, but in
// InboundRtpStreamStats.concealedSamples.
SynthesizedSamplesDuration float64 `json:"synthesizedSamplesDuration"`
// SynthesizedSamplesEvents is the number of synthesized samples events. This counter increases every time a sample
// is synthesized after a non-synthesized sample. That is, multiple consecutive synthesized samples will increase
// synthesizedSamplesDuration multiple times but is a single synthesization samples event.
SynthesizedSamplesEvents uint64 `json:"synthesizedSamplesEvents"`
// TotalSamplesDuration represents the total duration in seconds of all samples
// that have sent or received (and thus counted by TotalSamplesSent or TotalSamplesReceived).
// Can be used with TotalAudioEnergy to compute an average audio level over different intervals.
TotalSamplesDuration float64 `json:"totalSamplesDuration"`
// When audio samples are pulled by the playout device, this counter is incremented with the estimated delay of the
// playout path for that audio sample. The playout delay includes the delay from being emitted to the actual time of
// playout on the device. This metric can be used together with totalSamplesCount to calculate the average
// playout delay per sample.
TotalPlayoutDelay float64 `json:"totalPlayoutDelay"`
// When audio samples are pulled by the playout device, this counter is incremented with the number of samples
// emitted for playout.
TotalSamplesCount uint64 `json:"totalSamplesCount"`
}
func (s AudioPlayoutStats) statsMarker() {}
func unmarshalMediaPlayoutStats(b []byte) (Stats, error) {
var audioPlayoutStats AudioPlayoutStats
err := json.Unmarshal(b, &audioPlayoutStats)
if err != nil {
return nil, fmt.Errorf("unmarshal audio playout stats: %w", err)
}
return audioPlayoutStats, nil
}
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// PeerConnectionStats contains statistics related to the PeerConnection object.
type PeerConnectionStats struct {
// Timestamp is the timestamp associated with this object.
Timestamp StatsTimestamp `json:"timestamp"`
// Type is the object's StatsType
Type StatsType `json:"type"`
// ID is a unique id that is associated with the component inspected to produce
// this Stats object. Two Stats objects will have the same ID if they were produced
// by inspecting the same underlying object.
ID string `json:"id"`
// DataChannelsOpened represents the number of unique DataChannels that have
// entered the "open" state during their lifetime.
DataChannelsOpened uint32 `json:"dataChannelsOpened"`
// DataChannelsClosed represents the number of unique DataChannels that have
// left the "open" state during their lifetime (due to being closed by either
// end or the underlying transport being closed). DataChannels that transition
// from "connecting" to "closing" or "closed" without ever being "open"
// are not counted in this number.
DataChannelsClosed uint32 `json:"dataChannelsClosed"`
// DataChannelsRequested Represents the number of unique DataChannels returned
// from a successful createDataChannel() call on the PeerConnection. If the
// underlying data transport is not established, these may be in the "connecting" state.
DataChannelsRequested uint32 `json:"dataChannelsRequested"`
// DataChannelsAccepted represents the number of unique DataChannels signaled
// in a "datachannel" event on the PeerConnection.
DataChannelsAccepted uint32 `json:"dataChannelsAccepted"`
}
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func (s PeerConnectionStats) statsMarker() {}
func unmarshalPeerConnectionStats(b []byte) (PeerConnectionStats, error) {
var pcStats PeerConnectionStats
err := json.Unmarshal(b, &pcStats)
if err != nil {
return PeerConnectionStats{}, fmt.Errorf("unmarshal pc stats: %w", err)
}
return pcStats, nil
}
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// DataChannelStats contains statistics related to each DataChannel ID.
type DataChannelStats struct {
// Timestamp is the timestamp associated with this object.
Timestamp StatsTimestamp `json:"timestamp"`
// Type is the object's StatsType
Type StatsType `json:"type"`
// ID is a unique id that is associated with the component inspected to produce
// this Stats object. Two Stats objects will have the same ID if they were produced
// by inspecting the same underlying object.
ID string `json:"id"`
// Label is the "label" value of the DataChannel object.
Label string `json:"label"`
// Protocol is the "protocol" value of the DataChannel object.
Protocol string `json:"protocol"`
// DataChannelIdentifier is the "id" attribute of the DataChannel object.
DataChannelIdentifier int32 `json:"dataChannelIdentifier"`
// TransportID the ID of the TransportStats object for transport used to carry this datachannel.
TransportID string `json:"transportId"`
// State is the "readyState" value of the DataChannel object.
State DataChannelState `json:"state"`
// MessagesSent represents the total number of API "message" events sent.
MessagesSent uint32 `json:"messagesSent"`
// BytesSent represents the total number of payload bytes sent on this
// datachannel not including headers or padding.
BytesSent uint64 `json:"bytesSent"`
// MessagesReceived represents the total number of API "message" events received.
MessagesReceived uint32 `json:"messagesReceived"`
// BytesReceived represents the total number of bytes received on this
// datachannel not including headers or padding.
BytesReceived uint64 `json:"bytesReceived"`
}
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func (s DataChannelStats) statsMarker() {}
func unmarshalDataChannelStats(b []byte) (DataChannelStats, error) {
var dataChannelStats DataChannelStats
err := json.Unmarshal(b, &dataChannelStats)
if err != nil {
return DataChannelStats{}, fmt.Errorf("unmarshal data channel stats: %w", err)
}
return dataChannelStats, nil
}
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// MediaStreamStats contains statistics related to a specific MediaStream.
type MediaStreamStats struct {
// Timestamp is the timestamp associated with this object.
Timestamp StatsTimestamp `json:"timestamp"`
// Type is the object's StatsType
Type StatsType `json:"type"`
// ID is a unique id that is associated with the component inspected to produce
// this Stats object. Two Stats objects will have the same ID if they were produced
// by inspecting the same underlying object.
ID string `json:"id"`
// StreamIdentifier is the "id" property of the MediaStream
StreamIdentifier string `json:"streamIdentifier"`
// TrackIDs is a list of the identifiers of the stats object representing the
// stream's tracks, either ReceiverAudioTrackAttachmentStats or ReceiverVideoTrackAttachmentStats.
TrackIDs []string `json:"trackIds"`
}
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func (s MediaStreamStats) statsMarker() {}
func unmarshalStreamStats(b []byte) (MediaStreamStats, error) {
var streamStats MediaStreamStats
err := json.Unmarshal(b, &streamStats)
if err != nil {
return MediaStreamStats{}, fmt.Errorf("unmarshal stream stats: %w", err)
}
return streamStats, nil
}
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// AudioSenderStats represents the stats about one audio sender of a PeerConnection
// object for which one calls GetStats.
//
// It appears in the stats as soon as the RTPSender is added by either AddTrack
// or AddTransceiver, or by media negotiation.
type AudioSenderStats struct {
// Timestamp is the timestamp associated with this object.
Timestamp StatsTimestamp `json:"timestamp"`
// Type is the object's StatsType
Type StatsType `json:"type"`
// ID is a unique id that is associated with the component inspected to produce
// this Stats object. Two Stats objects will have the same ID if they were produced
// by inspecting the same underlying object.
ID string `json:"id"`
// TrackIdentifier represents the id property of the track.
TrackIdentifier string `json:"trackIdentifier"`
// RemoteSource is true if the source is remote, for instance if it is sourced
// from another host via a PeerConnection. False otherwise. Only applicable for 'track' stats.
RemoteSource bool `json:"remoteSource"`
// Ended reflects the "ended" state of the track.
Ended bool `json:"ended"`
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// Kind is "audio"
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Kind string `json:"kind"`
// AudioLevel represents the output audio level of the track.
//
// The value is a value between 0..1 (linear), where 1.0 represents 0 dBov,
// 0 represents silence, and 0.5 represents approximately 6 dBSPL change in
// the sound pressure level from 0 dBov.
//
// If the track is sourced from an Receiver, does no audio processing, has a
// constant level, and has a volume setting of 1.0, the audio level is expected
// to be the same as the audio level of the source SSRC, while if the volume setting
// is 0.5, the AudioLevel is expected to be half that value.
//
// For outgoing audio tracks, the AudioLevel is the level of the audio being sent.
AudioLevel float64 `json:"audioLevel"`
// TotalAudioEnergy is the total energy of all the audio samples sent/received
// for this object, calculated by duration * Math.pow(energy/maxEnergy, 2) for
// each audio sample seen.
TotalAudioEnergy float64 `json:"totalAudioEnergy"`
// VoiceActivityFlag represents whether the last RTP packet sent or played out
// by this track contained voice activity or not based on the presence of the
// V bit in the extension header, as defined in [RFC6464].
//
// This value indicates the voice activity in the latest RTP packet played out
// from a given SSRC, and is defined in RTPSynchronizationSource.voiceActivityFlag.
VoiceActivityFlag bool `json:"voiceActivityFlag"`
// TotalSamplesDuration represents the total duration in seconds of all samples
// that have sent or received (and thus counted by TotalSamplesSent or TotalSamplesReceived).
// Can be used with TotalAudioEnergy to compute an average audio level over different intervals.
TotalSamplesDuration float64 `json:"totalSamplesDuration"`
// EchoReturnLoss is only present while the sender is sending a track sourced from
// a microphone where echo cancellation is applied. Calculated in decibels.
EchoReturnLoss float64 `json:"echoReturnLoss"`
// EchoReturnLossEnhancement is only present while the sender is sending a track
// sourced from a microphone where echo cancellation is applied. Calculated in decibels.
EchoReturnLossEnhancement float64 `json:"echoReturnLossEnhancement"`
// TotalSamplesSent is the total number of samples that have been sent by this sender.
TotalSamplesSent uint64 `json:"totalSamplesSent"`
}
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func (s AudioSenderStats) statsMarker() {}
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// SenderAudioTrackAttachmentStats object represents the stats about one attachment
// of an audio MediaStreamTrack to the PeerConnection object for which one calls GetStats.
//
// It appears in the stats as soon as it is attached (via AddTrack, via AddTransceiver,
// via ReplaceTrack on an RTPSender object).
//
// If an audio track is attached twice (via AddTransceiver or ReplaceTrack), there
// will be two SenderAudioTrackAttachmentStats objects, one for each attachment.
// They will have the same "TrackIdentifier" attribute, but different "ID" attributes.
//
// If the track is detached from the PeerConnection (via removeTrack or via replaceTrack),
// it continues to appear, but with the "ObjectDeleted" member set to true.
type SenderAudioTrackAttachmentStats AudioSenderStats
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func (s SenderAudioTrackAttachmentStats) statsMarker() {}
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// VideoSenderStats represents the stats about one video sender of a PeerConnection
// object for which one calls GetStats.
//
// It appears in the stats as soon as the sender is added by either AddTrack or
// AddTransceiver, or by media negotiation.
type VideoSenderStats struct {
// Timestamp is the timestamp associated with this object.
Timestamp StatsTimestamp `json:"timestamp"`
// Type is the object's StatsType
Type StatsType `json:"type"`
// ID is a unique id that is associated with the component inspected to produce
// this Stats object. Two Stats objects will have the same ID if they were produced
// by inspecting the same underlying object.
ID string `json:"id"`
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// Kind is "video"
Kind string `json:"kind"`
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// FramesCaptured represents the total number of frames captured, before encoding,
// for this RTPSender (or for this MediaStreamTrack, if type is "track"). For example,
// if type is "sender" and this sender's track represents a camera, then this is the
// number of frames produced by the camera for this track while being sent by this sender,
// combined with the number of frames produced by all tracks previously attached to this
// sender while being sent by this sender. Framerates can vary due to hardware limitations
// or environmental factors such as lighting conditions.
FramesCaptured uint32 `json:"framesCaptured"`
// FramesSent represents the total number of frames sent by this RTPSender
// (or for this MediaStreamTrack, if type is "track").
FramesSent uint32 `json:"framesSent"`
// HugeFramesSent represents the total number of huge frames sent by this RTPSender
// (or for this MediaStreamTrack, if type is "track"). Huge frames, by definition,
// are frames that have an encoded size at least 2.5 times the average size of the frames.
// The average size of the frames is defined as the target bitrate per second divided
// by the target fps at the time the frame was encoded. These are usually complex
// to encode frames with a lot of changes in the picture. This can be used to estimate,
// e.g slide changes in the streamed presentation. If a huge frame is also a key frame,
// then both counters HugeFramesSent and KeyFramesSent are incremented.
HugeFramesSent uint32 `json:"hugeFramesSent"`
// KeyFramesSent represents the total number of key frames sent by this RTPSender
// (or for this MediaStreamTrack, if type is "track"), such as Infra-frames in
// VP8 [RFC6386] or I-frames in H.264 [RFC6184]. This is a subset of FramesSent.
// FramesSent - KeyFramesSent gives you the number of delta frames sent.
KeyFramesSent uint32 `json:"keyFramesSent"`
}
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func (s VideoSenderStats) statsMarker() {}
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// SenderVideoTrackAttachmentStats represents the stats about one attachment of a
// video MediaStreamTrack to the PeerConnection object for which one calls GetStats.
//
// It appears in the stats as soon as it is attached (via AddTrack, via AddTransceiver,
// via ReplaceTrack on an RTPSender object).
//
// If a video track is attached twice (via AddTransceiver or ReplaceTrack), there
// will be two SenderVideoTrackAttachmentStats objects, one for each attachment.
// They will have the same "TrackIdentifier" attribute, but different "ID" attributes.
//
// If the track is detached from the PeerConnection (via RemoveTrack or via ReplaceTrack),
// it continues to appear, but with the "ObjectDeleted" member set to true.
type SenderVideoTrackAttachmentStats VideoSenderStats
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func (s SenderVideoTrackAttachmentStats) statsMarker() {}
func unmarshalSenderStats(b []byte) (Stats, error) {
type kindJSON struct {
Kind string `json:"kind"`
}
kindHolder := kindJSON{}
err := json.Unmarshal(b, &kindHolder)
if err != nil {
return nil, fmt.Errorf("unmarshal json kind: %w", err)
}
switch MediaKind(kindHolder.Kind) {
case MediaKindAudio:
var senderStats AudioSenderStats
err := json.Unmarshal(b, &senderStats)
if err != nil {
return nil, fmt.Errorf("unmarshal audio sender stats: %w", err)
}
return senderStats, nil
case MediaKindVideo:
var senderStats VideoSenderStats
err := json.Unmarshal(b, &senderStats)
if err != nil {
return nil, fmt.Errorf("unmarshal video sender stats: %w", err)
}
return senderStats, nil
default:
return nil, fmt.Errorf("kind: %w", ErrUnknownType)
}
}
func unmarshalTrackStats(b []byte) (Stats, error) {
type kindJSON struct {
Kind string `json:"kind"`
}
kindHolder := kindJSON{}
err := json.Unmarshal(b, &kindHolder)
if err != nil {
return nil, fmt.Errorf("unmarshal json kind: %w", err)
}
switch MediaKind(kindHolder.Kind) {
case MediaKindAudio:
var trackStats SenderAudioTrackAttachmentStats
err := json.Unmarshal(b, &trackStats)
if err != nil {
return nil, fmt.Errorf("unmarshal audio track stats: %w", err)
}
return trackStats, nil
case MediaKindVideo:
var trackStats SenderVideoTrackAttachmentStats
err := json.Unmarshal(b, &trackStats)
if err != nil {
return nil, fmt.Errorf("unmarshal video track stats: %w", err)
}
return trackStats, nil
default:
return nil, fmt.Errorf("kind: %w", ErrUnknownType)
}
}
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// AudioReceiverStats contains audio metrics related to a specific receiver.
type AudioReceiverStats struct {
// Timestamp is the timestamp associated with this object.
Timestamp StatsTimestamp `json:"timestamp"`
// Type is the object's StatsType
Type StatsType `json:"type"`
// ID is a unique id that is associated with the component inspected to produce
// this Stats object. Two Stats objects will have the same ID if they were produced
// by inspecting the same underlying object.
ID string `json:"id"`
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// Kind is "audio"
Kind string `json:"kind"`
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// AudioLevel represents the output audio level of the track.
//
// The value is a value between 0..1 (linear), where 1.0 represents 0 dBov,
// 0 represents silence, and 0.5 represents approximately 6 dBSPL change in
// the sound pressure level from 0 dBov.
//
// If the track is sourced from an Receiver, does no audio processing, has a
// constant level, and has a volume setting of 1.0, the audio level is expected
// to be the same as the audio level of the source SSRC, while if the volume setting
// is 0.5, the AudioLevel is expected to be half that value.
//
// For outgoing audio tracks, the AudioLevel is the level of the audio being sent.
AudioLevel float64 `json:"audioLevel"`
// TotalAudioEnergy is the total energy of all the audio samples sent/received
// for this object, calculated by duration * Math.pow(energy/maxEnergy, 2) for
// each audio sample seen.
TotalAudioEnergy float64 `json:"totalAudioEnergy"`
// VoiceActivityFlag represents whether the last RTP packet sent or played out
// by this track contained voice activity or not based on the presence of the
// V bit in the extension header, as defined in [RFC6464].
//
// This value indicates the voice activity in the latest RTP packet played out
// from a given SSRC, and is defined in RTPSynchronizationSource.voiceActivityFlag.
VoiceActivityFlag bool `json:"voiceActivityFlag"`
// TotalSamplesDuration represents the total duration in seconds of all samples
// that have sent or received (and thus counted by TotalSamplesSent or TotalSamplesReceived).
// Can be used with TotalAudioEnergy to compute an average audio level over different intervals.
TotalSamplesDuration float64 `json:"totalSamplesDuration"`
// EstimatedPlayoutTimestamp is the estimated playout time of this receiver's
// track. The playout time is the NTP timestamp of the last playable sample that
// has a known timestamp (from an RTCP SR packet mapping RTP timestamps to NTP
// timestamps), extrapolated with the time elapsed since it was ready to be played out.
// This is the "current time" of the track in NTP clock time of the sender and
// can be present even if there is no audio currently playing.
//
// This can be useful for estimating how much audio and video is out of
// sync for two tracks from the same source:
// AudioTrackStats.EstimatedPlayoutTimestamp - VideoTrackStats.EstimatedPlayoutTimestamp
EstimatedPlayoutTimestamp StatsTimestamp `json:"estimatedPlayoutTimestamp"`
// JitterBufferDelay is the sum of the time, in seconds, each sample takes from
// the time it is received and to the time it exits the jitter buffer.
// This increases upon samples exiting, having completed their time in the buffer
// (incrementing JitterBufferEmittedCount). The average jitter buffer delay can
// be calculated by dividing the JitterBufferDelay with the JitterBufferEmittedCount.
JitterBufferDelay float64 `json:"jitterBufferDelay"`
// JitterBufferEmittedCount is the total number of samples that have come out
// of the jitter buffer (increasing JitterBufferDelay).
JitterBufferEmittedCount uint64 `json:"jitterBufferEmittedCount"`
// TotalSamplesReceived is the total number of samples that have been received
// by this receiver. This includes ConcealedSamples.
TotalSamplesReceived uint64 `json:"totalSamplesReceived"`
// ConcealedSamples is the total number of samples that are concealed samples.
// A concealed sample is a sample that is based on data that was synthesized
// to conceal packet loss and does not represent incoming data.
ConcealedSamples uint64 `json:"concealedSamples"`
// ConcealmentEvents is the number of concealment events. This counter increases
// every time a concealed sample is synthesized after a non-concealed sample.
// That is, multiple consecutive concealed samples will increase the concealedSamples
// count multiple times but is a single concealment event.
ConcealmentEvents uint64 `json:"concealmentEvents"`
}
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func (s AudioReceiverStats) statsMarker() {}
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// VideoReceiverStats contains video metrics related to a specific receiver.
type VideoReceiverStats struct {
// Timestamp is the timestamp associated with this object.
Timestamp StatsTimestamp `json:"timestamp"`
// Type is the object's StatsType
Type StatsType `json:"type"`
// ID is a unique id that is associated with the component inspected to produce
// this Stats object. Two Stats objects will have the same ID if they were produced
// by inspecting the same underlying object.
ID string `json:"id"`
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// Kind is "video"
Kind string `json:"kind"`
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// FrameWidth represents the width of the last processed frame for this track.
// Before the first frame is processed this attribute is missing.
FrameWidth uint32 `json:"frameWidth"`
// FrameHeight represents the height of the last processed frame for this track.
// Before the first frame is processed this attribute is missing.
FrameHeight uint32 `json:"frameHeight"`
// FramesPerSecond represents the nominal FPS value before the degradation preference
// is applied. It is the number of complete frames in the last second. For sending
// tracks it is the current captured FPS and for the receiving tracks it is the
// current decoding framerate.
FramesPerSecond float64 `json:"framesPerSecond"`
// EstimatedPlayoutTimestamp is the estimated playout time of this receiver's
// track. The playout time is the NTP timestamp of the last playable sample that
// has a known timestamp (from an RTCP SR packet mapping RTP timestamps to NTP
// timestamps), extrapolated with the time elapsed since it was ready to be played out.
// This is the "current time" of the track in NTP clock time of the sender and
// can be present even if there is no audio currently playing.
//
// This can be useful for estimating how much audio and video is out of
// sync for two tracks from the same source:
// AudioTrackStats.EstimatedPlayoutTimestamp - VideoTrackStats.EstimatedPlayoutTimestamp
EstimatedPlayoutTimestamp StatsTimestamp `json:"estimatedPlayoutTimestamp"`
// JitterBufferDelay is the sum of the time, in seconds, each sample takes from
// the time it is received and to the time it exits the jitter buffer.
// This increases upon samples exiting, having completed their time in the buffer
// (incrementing JitterBufferEmittedCount). The average jitter buffer delay can
// be calculated by dividing the JitterBufferDelay with the JitterBufferEmittedCount.
JitterBufferDelay float64 `json:"jitterBufferDelay"`
// JitterBufferEmittedCount is the total number of samples that have come out
// of the jitter buffer (increasing JitterBufferDelay).
JitterBufferEmittedCount uint64 `json:"jitterBufferEmittedCount"`
// FramesReceived Represents the total number of complete frames received for
// this receiver. This metric is incremented when the complete frame is received.
FramesReceived uint32 `json:"framesReceived"`
// KeyFramesReceived represents the total number of complete key frames received
// for this MediaStreamTrack, such as Infra-frames in VP8 [RFC6386] or I-frames
// in H.264 [RFC6184]. This is a subset of framesReceived. `framesReceived - keyFramesReceived`
// gives you the number of delta frames received. This metric is incremented when
// the complete key frame is received. It is not incremented if a partial key
// frames is received and sent for decoding, i.e., the frame could not be recovered
// via retransmission or FEC.
KeyFramesReceived uint32 `json:"keyFramesReceived"`
// FramesDecoded represents the total number of frames correctly decoded for this
// SSRC, i.e., frames that would be displayed if no frames are dropped.
FramesDecoded uint32 `json:"framesDecoded"`
// FramesDropped is the total number of frames dropped predecode or dropped
// because the frame missed its display deadline for this receiver's track.
FramesDropped uint32 `json:"framesDropped"`
// The cumulative number of partial frames lost. This metric is incremented when
// the frame is sent to the decoder. If the partial frame is received and recovered
// via retransmission or FEC before decoding, the FramesReceived counter is incremented.
PartialFramesLost uint32 `json:"partialFramesLost"`
// FullFramesLost is the cumulative number of full frames lost.
FullFramesLost uint32 `json:"fullFramesLost"`
}
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func (s VideoReceiverStats) statsMarker() {}
func unmarshalReceiverStats(b []byte) (Stats, error) {
type kindJSON struct {
Kind string `json:"kind"`
}
kindHolder := kindJSON{}
err := json.Unmarshal(b, &kindHolder)
if err != nil {
return nil, fmt.Errorf("unmarshal json kind: %w", err)
}
switch MediaKind(kindHolder.Kind) {
case MediaKindAudio:
var receiverStats AudioReceiverStats
err := json.Unmarshal(b, &receiverStats)
if err != nil {
return nil, fmt.Errorf("unmarshal audio receiver stats: %w", err)
}
return receiverStats, nil
case MediaKindVideo:
var receiverStats VideoReceiverStats
err := json.Unmarshal(b, &receiverStats)
if err != nil {
return nil, fmt.Errorf("unmarshal video receiver stats: %w", err)
}
return receiverStats, nil
default:
return nil, fmt.Errorf("kind: %w", ErrUnknownType)
}
}
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// TransportStats contains transport statistics related to the PeerConnection object.
type TransportStats struct {
// Timestamp is the timestamp associated with this object.
Timestamp StatsTimestamp `json:"timestamp"`
// Type is the object's StatsType
Type StatsType `json:"type"`
// ID is a unique id that is associated with the component inspected to produce
// this Stats object. Two Stats objects will have the same ID if they were produced
// by inspecting the same underlying object.
ID string `json:"id"`
// PacketsSent represents the total number of packets sent over this transport.
PacketsSent uint32 `json:"packetsSent"`
// PacketsReceived represents the total number of packets received on this transport.
PacketsReceived uint32 `json:"packetsReceived"`
// BytesSent represents the total number of payload bytes sent on this PeerConnection
// not including headers or padding.
BytesSent uint64 `json:"bytesSent"`
// BytesReceived represents the total number of bytes received on this PeerConnection
// not including headers or padding.
BytesReceived uint64 `json:"bytesReceived"`
// RTCPTransportStatsID is the ID of the transport that gives stats for the RTCP
// component If RTP and RTCP are not multiplexed and this record has only
// the RTP component stats.
RTCPTransportStatsID string `json:"rtcpTransportStatsId"`
// ICERole is set to the current value of the "role" attribute of the underlying
// DTLSTransport's "transport".
ICERole ICERole `json:"iceRole"`
// DTLSState is set to the current value of the "state" attribute of the underlying DTLSTransport.
DTLSState DTLSTransportState `json:"dtlsState"`
// SelectedCandidatePairID is a unique identifier that is associated to the object
// that was inspected to produce the ICECandidatePairStats associated with this transport.
SelectedCandidatePairID string `json:"selectedCandidatePairId"`
// LocalCertificateID is the ID of the CertificateStats for the local certificate.
// Present only if DTLS is negotiated.
LocalCertificateID string `json:"localCertificateId"`
// LocalCertificateID is the ID of the CertificateStats for the remote certificate.
// Present only if DTLS is negotiated.
RemoteCertificateID string `json:"remoteCertificateId"`
// DTLSCipher is the descriptive name of the cipher suite used for the DTLS transport,
// as defined in the "Description" column of the IANA cipher suite registry.
DTLSCipher string `json:"dtlsCipher"`
// SRTPCipher is the descriptive name of the protection profile used for the SRTP
// transport, as defined in the "Profile" column of the IANA DTLS-SRTP protection
// profile registry.
SRTPCipher string `json:"srtpCipher"`
}
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func (s TransportStats) statsMarker() {}
func unmarshalTransportStats(b []byte) (TransportStats, error) {
var transportStats TransportStats
err := json.Unmarshal(b, &transportStats)
if err != nil {
return TransportStats{}, fmt.Errorf("unmarshal transport stats: %w", err)
}
return transportStats, nil
}
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// StatsICECandidatePairState is the state of an ICE candidate pair used in the
// ICECandidatePairStats object.
type StatsICECandidatePairState string
func toStatsICECandidatePairState(state ice.CandidatePairState) (StatsICECandidatePairState, error) {
switch state {
case ice.CandidatePairStateWaiting:
return StatsICECandidatePairStateWaiting, nil
case ice.CandidatePairStateInProgress:
return StatsICECandidatePairStateInProgress, nil
case ice.CandidatePairStateFailed:
return StatsICECandidatePairStateFailed, nil
case ice.CandidatePairStateSucceeded:
return StatsICECandidatePairStateSucceeded, nil
default:
// NOTE: this should never happen[tm]
err := fmt.Errorf("%w: %s", errStatsICECandidateStateInvalid, state.String())
return StatsICECandidatePairState("Unknown"), err
}
}
const (
// StatsICECandidatePairStateFrozen means a check for this pair hasn't been
// performed, and it can't yet be performed until some other check succeeds,
// allowing this pair to unfreeze and move into the Waiting state.
StatsICECandidatePairStateFrozen StatsICECandidatePairState = "frozen"
// StatsICECandidatePairStateWaiting means a check has not been performed for
// this pair, and can be performed as soon as it is the highest-priority Waiting
// pair on the check list.
StatsICECandidatePairStateWaiting StatsICECandidatePairState = "waiting"
// StatsICECandidatePairStateInProgress means a check has been sent for this pair,
// but the transaction is in progress.
StatsICECandidatePairStateInProgress StatsICECandidatePairState = "in-progress"
// StatsICECandidatePairStateFailed means a check for this pair was already done
// and failed, either never producing any response or producing an unrecoverable
// failure response.
StatsICECandidatePairStateFailed StatsICECandidatePairState = "failed"
// StatsICECandidatePairStateSucceeded means a check for this pair was already
// done and produced a successful result.
StatsICECandidatePairStateSucceeded StatsICECandidatePairState = "succeeded"
)
// ICECandidatePairStats contains ICE candidate pair statistics related
// to the ICETransport objects.
type ICECandidatePairStats struct {
// Timestamp is the timestamp associated with this object.
Timestamp StatsTimestamp `json:"timestamp"`
// Type is the object's StatsType
Type StatsType `json:"type"`
// ID is a unique id that is associated with the component inspected to produce
// this Stats object. Two Stats objects will have the same ID if they were produced
// by inspecting the same underlying object.
ID string `json:"id"`
// TransportID is a unique identifier that is associated to the object that
// was inspected to produce the TransportStats associated with this candidate pair.
TransportID string `json:"transportId"`
// LocalCandidateID is a unique identifier that is associated to the object
// that was inspected to produce the ICECandidateStats for the local candidate
// associated with this candidate pair.
LocalCandidateID string `json:"localCandidateId"`
// RemoteCandidateID is a unique identifier that is associated to the object
// that was inspected to produce the ICECandidateStats for the remote candidate
// associated with this candidate pair.
RemoteCandidateID string `json:"remoteCandidateId"`
// State represents the state of the checklist for the local and remote
// candidates in a pair.
State StatsICECandidatePairState `json:"state"`
// Nominated is true when this valid pair that should be used for media
// if it is the highest-priority one amongst those whose nominated flag is set
Nominated bool `json:"nominated"`
// PacketsSent represents the total number of packets sent on this candidate pair.
PacketsSent uint32 `json:"packetsSent"`
// PacketsReceived represents the total number of packets received on this candidate pair.
PacketsReceived uint32 `json:"packetsReceived"`
// BytesSent represents the total number of payload bytes sent on this candidate pair
// not including headers or padding.
BytesSent uint64 `json:"bytesSent"`
// BytesReceived represents the total number of payload bytes received on this candidate pair
// not including headers or padding.
BytesReceived uint64 `json:"bytesReceived"`
// LastPacketSentTimestamp represents the timestamp at which the last packet was
// sent on this particular candidate pair, excluding STUN packets.
LastPacketSentTimestamp StatsTimestamp `json:"lastPacketSentTimestamp"`
// LastPacketReceivedTimestamp represents the timestamp at which the last packet
// was received on this particular candidate pair, excluding STUN packets.
LastPacketReceivedTimestamp StatsTimestamp `json:"lastPacketReceivedTimestamp"`
// FirstRequestTimestamp represents the timestamp at which the first STUN request
// was sent on this particular candidate pair.
FirstRequestTimestamp StatsTimestamp `json:"firstRequestTimestamp"`
// LastRequestTimestamp represents the timestamp at which the last STUN request
// was sent on this particular candidate pair. The average interval between two
// consecutive connectivity checks sent can be calculated with
// (LastRequestTimestamp - FirstRequestTimestamp) / RequestsSent.
LastRequestTimestamp StatsTimestamp `json:"lastRequestTimestamp"`
// LastResponseTimestamp represents the timestamp at which the last STUN response
// was received on this particular candidate pair.
LastResponseTimestamp StatsTimestamp `json:"lastResponseTimestamp"`
// TotalRoundTripTime represents the sum of all round trip time measurements
// in seconds since the beginning of the session, based on STUN connectivity
// check responses (ResponsesReceived), including those that reply to requests
// that are sent in order to verify consent. The average round trip time can
// be computed from TotalRoundTripTime by dividing it by ResponsesReceived.
TotalRoundTripTime float64 `json:"totalRoundTripTime"`
// CurrentRoundTripTime represents the latest round trip time measured in seconds,
// computed from both STUN connectivity checks, including those that are sent
// for consent verification.
CurrentRoundTripTime float64 `json:"currentRoundTripTime"`
// AvailableOutgoingBitrate is calculated by the underlying congestion control
// by combining the available bitrate for all the outgoing RTP streams using
// this candidate pair. The bitrate measurement does not count the size of the
// IP or other transport layers like TCP or UDP. It is similar to the TIAS defined
// in RFC 3890, i.e., it is measured in bits per second and the bitrate is calculated
// over a 1 second window.
AvailableOutgoingBitrate float64 `json:"availableOutgoingBitrate"`
// AvailableIncomingBitrate is calculated by the underlying congestion control
// by combining the available bitrate for all the incoming RTP streams using
// this candidate pair. The bitrate measurement does not count the size of the
// IP or other transport layers like TCP or UDP. It is similar to the TIAS defined
// in RFC 3890, i.e., it is measured in bits per second and the bitrate is
// calculated over a 1 second window.
AvailableIncomingBitrate float64 `json:"availableIncomingBitrate"`
// CircuitBreakerTriggerCount represents the number of times the circuit breaker
// is triggered for this particular 5-tuple, ceasing transmission.
CircuitBreakerTriggerCount uint32 `json:"circuitBreakerTriggerCount"`
// RequestsReceived represents the total number of connectivity check requests
// received (including retransmissions). It is impossible for the receiver to
// tell whether the request was sent in order to check connectivity or check
// consent, so all connectivity checks requests are counted here.
RequestsReceived uint64 `json:"requestsReceived"`
// RequestsSent represents the total number of connectivity check requests
// sent (not including retransmissions).
RequestsSent uint64 `json:"requestsSent"`
// ResponsesReceived represents the total number of connectivity check responses received.
ResponsesReceived uint64 `json:"responsesReceived"`
// ResponsesSent represents the total number of connectivity check responses sent.
// Since we cannot distinguish connectivity check requests and consent requests,
// all responses are counted.
ResponsesSent uint64 `json:"responsesSent"`
// RetransmissionsReceived represents the total number of connectivity check
// request retransmissions received.
RetransmissionsReceived uint64 `json:"retransmissionsReceived"`
// RetransmissionsSent represents the total number of connectivity check
// request retransmissions sent.
RetransmissionsSent uint64 `json:"retransmissionsSent"`
// ConsentRequestsSent represents the total number of consent requests sent.
ConsentRequestsSent uint64 `json:"consentRequestsSent"`
// ConsentExpiredTimestamp represents the timestamp at which the latest valid
// STUN binding response expired.
ConsentExpiredTimestamp StatsTimestamp `json:"consentExpiredTimestamp"`
}
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func (s ICECandidatePairStats) statsMarker() {}
func unmarshalICECandidatePairStats(b []byte) (ICECandidatePairStats, error) {
var iceCandidatePairStats ICECandidatePairStats
err := json.Unmarshal(b, &iceCandidatePairStats)
if err != nil {
return ICECandidatePairStats{}, fmt.Errorf("unmarshal ice candidate pair stats: %w", err)
}
return iceCandidatePairStats, nil
}
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// ICECandidateStats contains ICE candidate statistics related to the ICETransport objects.
type ICECandidateStats struct {
// Timestamp is the timestamp associated with this object.
Timestamp StatsTimestamp `json:"timestamp"`
// Type is the object's StatsType
Type StatsType `json:"type"`
// ID is a unique id that is associated with the component inspected to produce
// this Stats object. Two Stats objects will have the same ID if they were produced
// by inspecting the same underlying object.
ID string `json:"id"`
// TransportID is a unique identifier that is associated to the object that
// was inspected to produce the TransportStats associated with this candidate.
TransportID string `json:"transportId"`
// NetworkType represents the type of network interface used by the base of a
// local candidate (the address the ICE agent sends from). Only present for
// local candidates; it's not possible to know what type of network interface
// a remote candidate is using.
//
// Note:
// This stat only tells you about the network interface used by the first "hop";
// it's possible that a connection will be bottlenecked by another type of network.
// For example, when using Wi-Fi tethering, the networkType of the relevant candidate
// would be "wifi", even when the next hop is over a cellular connection.
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//
// DEPRECATED. Although it may still work in some browsers, the networkType property was deprecated for
// preserving privacy.
NetworkType NetworkType `json:"networkType,omitempty"`
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// IP is the IP address of the candidate, allowing for IPv4 addresses and
// IPv6 addresses, but fully qualified domain names (FQDNs) are not allowed.
IP string `json:"ip"`
// Port is the port number of the candidate.
Port int32 `json:"port"`
// Protocol is one of udp and tcp.
Protocol string `json:"protocol"`
// CandidateType is the "Type" field of the ICECandidate.
CandidateType ICECandidateType `json:"candidateType"`
// Priority is the "Priority" field of the ICECandidate.
Priority int32 `json:"priority"`
// URL is the URL of the TURN or STUN server indicated in the that translated
// this IP address. It is the URL address surfaced in an PeerConnectionICEEvent.
URL string `json:"url"`
// RelayProtocol is the protocol used by the endpoint to communicate with the
// TURN server. This is only present for local candidates. Valid values for
// the TURN URL protocol is one of udp, tcp, or tls.
RelayProtocol string `json:"relayProtocol"`
// Deleted is true if the candidate has been deleted/freed. For host candidates,
// this means that any network resources (typically a socket) associated with the
// candidate have been released. For TURN candidates, this means the TURN allocation
// is no longer active.
//
// Only defined for local candidates. For remote candidates, this property is not applicable.
Deleted bool `json:"deleted"`
}
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func (s ICECandidateStats) statsMarker() {}
func unmarshalICECandidateStats(b []byte) (ICECandidateStats, error) {
var iceCandidateStats ICECandidateStats
err := json.Unmarshal(b, &iceCandidateStats)
if err != nil {
return ICECandidateStats{}, fmt.Errorf("unmarshal ice candidate stats: %w", err)
}
return iceCandidateStats, nil
}
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// CertificateStats contains information about a certificate used by an ICETransport.
type CertificateStats struct {
// Timestamp is the timestamp associated with this object.
Timestamp StatsTimestamp `json:"timestamp"`
// Type is the object's StatsType
Type StatsType `json:"type"`
// ID is a unique id that is associated with the component inspected to produce
// this Stats object. Two Stats objects will have the same ID if they were produced
// by inspecting the same underlying object.
ID string `json:"id"`
// Fingerprint is the fingerprint of the certificate.
Fingerprint string `json:"fingerprint"`
// FingerprintAlgorithm is the hash function used to compute the certificate fingerprint. For instance, "sha-256".
FingerprintAlgorithm string `json:"fingerprintAlgorithm"`
// Base64Certificate is the DER-encoded base-64 representation of the certificate.
Base64Certificate string `json:"base64Certificate"`
// IssuerCertificateID refers to the stats object that contains the next certificate
// in the certificate chain. If the current certificate is at the end of the chain
// (i.e. a self-signed certificate), this will not be set.
IssuerCertificateID string `json:"issuerCertificateId"`
}
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func (s CertificateStats) statsMarker() {}
func unmarshalCertificateStats(b []byte) (CertificateStats, error) {
var certificateStats CertificateStats
err := json.Unmarshal(b, &certificateStats)
if err != nil {
return CertificateStats{}, fmt.Errorf("unmarshal certificate stats: %w", err)
}
return certificateStats, nil
}
// SCTPTransportStats contains information about a certificate used by an SCTPTransport.
type SCTPTransportStats struct {
// Timestamp is the timestamp associated with this object.
Timestamp StatsTimestamp `json:"timestamp"`
// Type is the object's StatsType
Type StatsType `json:"type"`
// ID is a unique id that is associated with the component inspected to produce
// this Stats object. Two Stats objects will have the same ID if they were produced
// by inspecting the same underlying object.
ID string `json:"id"`
// TransportID is the identifier of the object that was inspected to produce the
// RTCTransportStats for the DTLSTransport and ICETransport supporting the SCTP transport.
TransportID string `json:"transportId"`
// SmoothedRoundTripTime is the latest smoothed round-trip time value, corresponding to spinfo_srtt defined in [RFC6458]
// but converted to seconds. If there has been no round-trip time measurements yet, this value is undefined.
SmoothedRoundTripTime float64 `json:"smoothedRoundTripTime"`
// CongestionWindow is the latest congestion window, corresponding to spinfo_cwnd defined in [RFC6458].
CongestionWindow uint32 `json:"congestionWindow"`
// ReceiverWindow is the latest receiver window, corresponding to sstat_rwnd defined in [RFC6458].
ReceiverWindow uint32 `json:"receiverWindow"`
// MTU is the latest maximum transmission unit, corresponding to spinfo_mtu defined in [RFC6458].
MTU uint32 `json:"mtu"`
// UNACKData is the number of unacknowledged DATA chunks, corresponding to sstat_unackdata defined in [RFC6458].
UNACKData uint32 `json:"unackData"`
// BytesSent represents the total number of bytes sent on this SCTPTransport
BytesSent uint64 `json:"bytesSent"`
// BytesReceived represents the total number of bytes received on this SCTPTransport
BytesReceived uint64 `json:"bytesReceived"`
}
func (s SCTPTransportStats) statsMarker() {}
func unmarshalSCTPTransportStats(b []byte) (SCTPTransportStats, error) {
var sctpTransportStats SCTPTransportStats
if err := json.Unmarshal(b, &sctpTransportStats); err != nil {
return SCTPTransportStats{}, fmt.Errorf("unmarshal sctp transport stats: %w", err)
}
return sctpTransportStats, nil
}