package p2p import ( "fmt" "reflect" "regexp" "sync" "github.com/go-kit/kit/metrics" "github.com/go-kit/kit/metrics/discard" "github.com/go-kit/kit/metrics/prometheus" stdprometheus "github.com/prometheus/client_golang/prometheus" ) const ( // MetricsSubsystem is a subsystem shared by all metrics exposed by this // package. MetricsSubsystem = "p2p" ) var ( // valueToLabelRegexp is used to find the golang package name and type name // so that the name can be turned into a prometheus label where the characters // in the label do not include prometheus special characters such as '*' and '.'. valueToLabelRegexp = regexp.MustCompile(`\*?(\w+)\.(.*)`) ) // Metrics contains metrics exposed by this package. type Metrics struct { // Number of peers. Peers metrics.Gauge // Number of bytes received from a given peer. PeerReceiveBytesTotal metrics.Counter // Number of bytes sent to a given peer. PeerSendBytesTotal metrics.Counter // Pending bytes to be sent to a given peer. PeerPendingSendBytes metrics.Gauge // RouterPeerQueueRecv defines the time taken to read off of a peer's queue // before sending on the connection. RouterPeerQueueRecv metrics.Histogram // RouterPeerQueueSend defines the time taken to send on a peer's queue which // will later be read and sent on the connection (see RouterPeerQueueRecv). RouterPeerQueueSend metrics.Histogram // RouterChannelQueueSend defines the time taken to send on a p2p channel's // queue which will later be consued by the corresponding reactor/service. RouterChannelQueueSend metrics.Histogram // PeerQueueDroppedMsgs defines the number of messages dropped from a peer's // queue for a specific flow (i.e. Channel). PeerQueueDroppedMsgs metrics.Counter // PeerQueueMsgSize defines the average size of messages sent over a peer's // queue for a specific flow (i.e. Channel). PeerQueueMsgSize metrics.Gauge mtx *sync.RWMutex messageLabelNames map[reflect.Type]string } // PrometheusMetrics returns Metrics build using Prometheus client library. // Optionally, labels can be provided along with their values ("foo", // "fooValue"). // // nolint: lll func PrometheusMetrics(namespace string, labelsAndValues ...string) *Metrics { labels := []string{} for i := 0; i < len(labelsAndValues); i += 2 { labels = append(labels, labelsAndValues[i]) } return &Metrics{ Peers: prometheus.NewGaugeFrom(stdprometheus.GaugeOpts{ Namespace: namespace, Subsystem: MetricsSubsystem, Name: "peers", Help: "Number of peers.", }, labels).With(labelsAndValues...), PeerReceiveBytesTotal: prometheus.NewCounterFrom(stdprometheus.CounterOpts{ Namespace: namespace, Subsystem: MetricsSubsystem, Name: "peer_receive_bytes_total", Help: "Number of bytes received from a given peer.", }, append(labels, "peer_id", "chID", "message_type")).With(labelsAndValues...), PeerSendBytesTotal: prometheus.NewCounterFrom(stdprometheus.CounterOpts{ Namespace: namespace, Subsystem: MetricsSubsystem, Name: "peer_send_bytes_total", Help: "Number of bytes sent to a given peer.", }, append(labels, "peer_id", "chID", "message_type")).With(labelsAndValues...), PeerPendingSendBytes: prometheus.NewGaugeFrom(stdprometheus.GaugeOpts{ Namespace: namespace, Subsystem: MetricsSubsystem, Name: "peer_pending_send_bytes", Help: "Number of pending bytes to be sent to a given peer.", }, append(labels, "peer_id")).With(labelsAndValues...), RouterPeerQueueRecv: prometheus.NewHistogramFrom(stdprometheus.HistogramOpts{ Namespace: namespace, Subsystem: MetricsSubsystem, Name: "router_peer_queue_recv", Help: "The time taken to read off of a peer's queue before sending on the connection.", }, labels).With(labelsAndValues...), RouterPeerQueueSend: prometheus.NewHistogramFrom(stdprometheus.HistogramOpts{ Namespace: namespace, Subsystem: MetricsSubsystem, Name: "router_peer_queue_send", Help: "The time taken to send on a peer's queue which will later be read and sent on the connection (see RouterPeerQueueRecv).", }, labels).With(labelsAndValues...), RouterChannelQueueSend: prometheus.NewHistogramFrom(stdprometheus.HistogramOpts{ Namespace: namespace, Subsystem: MetricsSubsystem, Name: "router_channel_queue_send", Help: "The time taken to send on a p2p channel's queue which will later be consued by the corresponding reactor/service.", }, labels).With(labelsAndValues...), PeerQueueDroppedMsgs: prometheus.NewCounterFrom(stdprometheus.CounterOpts{ Namespace: namespace, Subsystem: MetricsSubsystem, Name: "router_channel_queue_dropped_msgs", Help: "The number of messages dropped from a peer's queue for a specific p2p Channel.", }, append(labels, "ch_id")).With(labelsAndValues...), PeerQueueMsgSize: prometheus.NewGaugeFrom(stdprometheus.GaugeOpts{ Namespace: namespace, Subsystem: MetricsSubsystem, Name: "router_channel_queue_msg_size", Help: "The size of messages sent over a peer's queue for a specific p2p Channel.", }, append(labels, "ch_id")).With(labelsAndValues...), mtx: &sync.RWMutex{}, messageLabelNames: map[reflect.Type]string{}, } } // NopMetrics returns no-op Metrics. func NopMetrics() *Metrics { return &Metrics{ Peers: discard.NewGauge(), PeerReceiveBytesTotal: discard.NewCounter(), PeerSendBytesTotal: discard.NewCounter(), PeerPendingSendBytes: discard.NewGauge(), RouterPeerQueueRecv: discard.NewHistogram(), RouterPeerQueueSend: discard.NewHistogram(), RouterChannelQueueSend: discard.NewHistogram(), PeerQueueDroppedMsgs: discard.NewCounter(), PeerQueueMsgSize: discard.NewGauge(), mtx: &sync.RWMutex{}, messageLabelNames: map[reflect.Type]string{}, } } // ValueToMetricLabel is a method that is used to produce a prometheus label value of the golang // type that is passed in. // This method uses a map on the Metrics struct so that each label name only needs // to be produced once to prevent expensive string operations. func (m *Metrics) ValueToMetricLabel(i interface{}) string { t := reflect.TypeOf(i) m.mtx.RLock() if s, ok := m.messageLabelNames[t]; ok { m.mtx.RUnlock() return s } m.mtx.RUnlock() s := t.String() ss := valueToLabelRegexp.FindStringSubmatch(s) l := fmt.Sprintf("%s_%s", ss[1], ss[2]) m.mtx.Lock() defer m.mtx.Unlock() m.messageLabelNames[t] = l return l }