package webrtc import ( "sync" "github.com/pion/webrtc/v3" "github.com/prometheus/client_golang/prometheus" "github.com/prometheus/client_golang/prometheus/promauto" "gitlab.com/demodesk/neko/server/pkg/types" ) type metrics struct { connectionState prometheus.Gauge connectionStateCount prometheus.Counter connectionCount prometheus.Counter iceCandidates map[string]struct{} iceCandidatesMu *sync.Mutex iceCandidatesCount prometheus.Counter videoIds map[string]prometheus.Gauge videoIdsMu *sync.Mutex receiverEstimatedMaximumBitrate prometheus.Gauge iceBytesSent prometheus.Gauge iceBytesReceived prometheus.Gauge sctpBytesSent prometheus.Gauge sctpBytesReceived prometheus.Gauge } type metricsCtx struct { mu sync.Mutex sessions map[string]metrics } func newMetrics() *metricsCtx { return &metricsCtx{ sessions: map[string]metrics{}, } } func (m *metricsCtx) getBySession(session types.Session) metrics { m.mu.Lock() defer m.mu.Unlock() met, ok := m.sessions[session.ID()] if ok { return met } met = metrics{ connectionState: promauto.NewGauge(prometheus.GaugeOpts{ Name: "connection_state", Namespace: "neko", Subsystem: "webrtc", Help: "Connection state of session.", ConstLabels: map[string]string{ "session_id": session.ID(), }, }), connectionStateCount: promauto.NewCounter(prometheus.CounterOpts{ Name: "connection_state_count", Namespace: "neko", Subsystem: "webrtc", Help: "Count of connection state changes for a session.", ConstLabels: map[string]string{ "session_id": session.ID(), }, }), connectionCount: promauto.NewCounter(prometheus.CounterOpts{ Name: "connection_count", Namespace: "neko", Subsystem: "webrtc", Help: "Connection count of a session.", ConstLabels: map[string]string{ "session_id": session.ID(), }, }), iceCandidates: map[string]struct{}{}, iceCandidatesMu: &sync.Mutex{}, iceCandidatesCount: promauto.NewCounter(prometheus.CounterOpts{ Name: "ice_candidates_count", Namespace: "neko", Subsystem: "webrtc", Help: "Count of ICE candidates sent by a remote client.", ConstLabels: map[string]string{ "session_id": session.ID(), }, }), videoIds: map[string]prometheus.Gauge{}, videoIdsMu: &sync.Mutex{}, receiverEstimatedMaximumBitrate: promauto.NewGauge(prometheus.GaugeOpts{ Name: "receiver_estimated_maximum_bitrate", Namespace: "neko", Subsystem: "webrtc", Help: "Receiver Estimated Maximum Bitrate from SCTP.", ConstLabels: map[string]string{ "session_id": session.ID(), }, }), iceBytesSent: promauto.NewGauge(prometheus.GaugeOpts{ Name: "bytes_sent", Namespace: "neko", Subsystem: "webrtc", Help: "Sent bytes to a session.", ConstLabels: map[string]string{ "session_id": session.ID(), "transport": "ice", }, }), iceBytesReceived: promauto.NewGauge(prometheus.GaugeOpts{ Name: "bytes_received", Namespace: "neko", Subsystem: "webrtc", Help: "Received bytes from a session.", ConstLabels: map[string]string{ "session_id": session.ID(), "transport": "ice", }, }), sctpBytesSent: promauto.NewGauge(prometheus.GaugeOpts{ Name: "bytes_sent", Namespace: "neko", Subsystem: "webrtc", Help: "Sent bytes to a session.", ConstLabels: map[string]string{ "session_id": session.ID(), "transport": "sctp", }, }), sctpBytesReceived: promauto.NewGauge(prometheus.GaugeOpts{ Name: "bytes_received", Namespace: "neko", Subsystem: "webrtc", Help: "Received bytes from a session.", ConstLabels: map[string]string{ "session_id": session.ID(), "transport": "sctp", }, }), } m.sessions[session.ID()] = met return met } func (m *metricsCtx) NewConnection(session types.Session) { met := m.getBySession(session) met.connectionCount.Add(1) } func (m *metricsCtx) NewICECandidate(session types.Session, id string) { met := m.getBySession(session) met.iceCandidatesMu.Lock() defer met.iceCandidatesMu.Unlock() if _, found := met.iceCandidates[id]; found { return } met.iceCandidates[id] = struct{}{} met.iceCandidatesCount.Add(1) } func (m *metricsCtx) SetState(session types.Session, state webrtc.PeerConnectionState) { met := m.getBySession(session) switch state { case webrtc.PeerConnectionStateNew: met.connectionState.Set(0) case webrtc.PeerConnectionStateConnecting: met.connectionState.Set(4) case webrtc.PeerConnectionStateConnected: met.connectionState.Set(5) case webrtc.PeerConnectionStateDisconnected: met.connectionState.Set(3) case webrtc.PeerConnectionStateFailed: met.connectionState.Set(2) case webrtc.PeerConnectionStateClosed: met.connectionState.Set(1) default: met.connectionState.Set(-1) } met.connectionStateCount.Add(1) } func (m *metricsCtx) SetVideoID(session types.Session, videoId string) { met := m.getBySession(session) met.videoIdsMu.Lock() defer met.videoIdsMu.Unlock() if _, found := met.videoIds[videoId]; !found { met.videoIds[videoId] = promauto.NewGauge(prometheus.GaugeOpts{ Name: "video_id", Namespace: "neko", Subsystem: "webrtc", Help: "Current Video ID of a session.", ConstLabels: map[string]string{ "session_id": session.ID(), "video_id": videoId, }, }) } for id, entry := range met.videoIds { if id == videoId { entry.Set(1) } else { entry.Set(0) } } } func (m *metricsCtx) SetReceiverEstimatedMaximumBitrate(session types.Session, bitrate float32) { met := m.getBySession(session) met.receiverEstimatedMaximumBitrate.Set(float64(bitrate)) } func (m *metricsCtx) SetIceTransportStats(session types.Session, data webrtc.TransportStats) { met := m.getBySession(session) met.iceBytesSent.Set(float64(data.BytesSent)) met.iceBytesReceived.Set(float64(data.BytesReceived)) } func (m *metricsCtx) SetSctpTransportStats(session types.Session, data webrtc.TransportStats) { met := m.getBySession(session) met.sctpBytesSent.Set(float64(data.BytesSent)) met.sctpBytesReceived.Set(float64(data.BytesReceived)) }