mirror of
https://source.quilibrium.com/quilibrium/ceremonyclient.git
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177 lines
5.2 KiB
Go
177 lines
5.2 KiB
Go
// Package metrics provides metrics collection and reporting interfaces for libp2p.
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package metrics
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import (
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"time"
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"github.com/libp2p/go-flow-metrics"
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"github.com/libp2p/go-libp2p/core/peer"
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"github.com/libp2p/go-libp2p/core/protocol"
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)
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// BandwidthCounter tracks incoming and outgoing data transferred by the local peer.
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// Metrics are available for total bandwidth across all peers / protocols, as well
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// as segmented by remote peer ID and protocol ID.
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type BandwidthCounter struct {
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totalIn flow.Meter
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totalOut flow.Meter
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protocolIn flow.MeterRegistry
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protocolOut flow.MeterRegistry
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peerIn flow.MeterRegistry
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peerOut flow.MeterRegistry
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}
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// NewBandwidthCounter creates a new BandwidthCounter.
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func NewBandwidthCounter() *BandwidthCounter {
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return new(BandwidthCounter)
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}
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// LogSentMessage records the size of an outgoing message
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// without associating the bandwidth to a specific peer or protocol.
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func (bwc *BandwidthCounter) LogSentMessage(size int64) {
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bwc.totalOut.Mark(uint64(size))
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}
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// LogRecvMessage records the size of an incoming message
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// without associating the bandwidth to a specific peer or protocol.
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func (bwc *BandwidthCounter) LogRecvMessage(size int64) {
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bwc.totalIn.Mark(uint64(size))
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}
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// LogSentMessageStream records the size of an outgoing message over a single logical stream.
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// Bandwidth is associated with the given protocol.ID and peer.ID.
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func (bwc *BandwidthCounter) LogSentMessageStream(size int64, proto protocol.ID, p peer.ID) {
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bwc.protocolOut.Get(string(proto)).Mark(uint64(size))
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bwc.peerOut.Get(string(p)).Mark(uint64(size))
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}
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// LogRecvMessageStream records the size of an incoming message over a single logical stream.
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// Bandwidth is associated with the given protocol.ID and peer.ID.
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func (bwc *BandwidthCounter) LogRecvMessageStream(size int64, proto protocol.ID, p peer.ID) {
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bwc.protocolIn.Get(string(proto)).Mark(uint64(size))
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bwc.peerIn.Get(string(p)).Mark(uint64(size))
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}
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// GetBandwidthForPeer returns a Stats struct with bandwidth metrics associated with the given peer.ID.
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// The metrics returned include all traffic sent / received for the peer, regardless of protocol.
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func (bwc *BandwidthCounter) GetBandwidthForPeer(p peer.ID) (out Stats) {
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inSnap := bwc.peerIn.Get(string(p)).Snapshot()
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outSnap := bwc.peerOut.Get(string(p)).Snapshot()
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return Stats{
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TotalIn: int64(inSnap.Total),
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TotalOut: int64(outSnap.Total),
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RateIn: inSnap.Rate,
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RateOut: outSnap.Rate,
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}
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}
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// GetBandwidthForProtocol returns a Stats struct with bandwidth metrics associated with the given protocol.ID.
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// The metrics returned include all traffic sent / received for the protocol, regardless of which peers were
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// involved.
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func (bwc *BandwidthCounter) GetBandwidthForProtocol(proto protocol.ID) (out Stats) {
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inSnap := bwc.protocolIn.Get(string(proto)).Snapshot()
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outSnap := bwc.protocolOut.Get(string(proto)).Snapshot()
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return Stats{
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TotalIn: int64(inSnap.Total),
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TotalOut: int64(outSnap.Total),
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RateIn: inSnap.Rate,
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RateOut: outSnap.Rate,
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}
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}
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// GetBandwidthTotals returns a Stats struct with bandwidth metrics for all data sent / received by the
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// local peer, regardless of protocol or remote peer IDs.
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func (bwc *BandwidthCounter) GetBandwidthTotals() (out Stats) {
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inSnap := bwc.totalIn.Snapshot()
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outSnap := bwc.totalOut.Snapshot()
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return Stats{
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TotalIn: int64(inSnap.Total),
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TotalOut: int64(outSnap.Total),
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RateIn: inSnap.Rate,
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RateOut: outSnap.Rate,
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}
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}
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// GetBandwidthByPeer returns a map of all remembered peers and the bandwidth
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// metrics with respect to each. This method may be very expensive.
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func (bwc *BandwidthCounter) GetBandwidthByPeer() map[peer.ID]Stats {
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peers := make(map[peer.ID]Stats)
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bwc.peerIn.ForEach(func(p string, meter *flow.Meter) {
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id := peer.ID(p)
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snap := meter.Snapshot()
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stat := peers[id]
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stat.TotalIn = int64(snap.Total)
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stat.RateIn = snap.Rate
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peers[id] = stat
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})
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bwc.peerOut.ForEach(func(p string, meter *flow.Meter) {
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id := peer.ID(p)
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snap := meter.Snapshot()
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stat := peers[id]
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stat.TotalOut = int64(snap.Total)
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stat.RateOut = snap.Rate
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peers[id] = stat
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})
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return peers
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}
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// GetBandwidthByProtocol returns a map of all remembered protocols and
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// the bandwidth metrics with respect to each. This method may be moderately
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// expensive.
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func (bwc *BandwidthCounter) GetBandwidthByProtocol() map[protocol.ID]Stats {
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protocols := make(map[protocol.ID]Stats)
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bwc.protocolIn.ForEach(func(p string, meter *flow.Meter) {
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id := protocol.ID(p)
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snap := meter.Snapshot()
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stat := protocols[id]
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stat.TotalIn = int64(snap.Total)
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stat.RateIn = snap.Rate
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protocols[id] = stat
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})
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bwc.protocolOut.ForEach(func(p string, meter *flow.Meter) {
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id := protocol.ID(p)
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snap := meter.Snapshot()
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stat := protocols[id]
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stat.TotalOut = int64(snap.Total)
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stat.RateOut = snap.Rate
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protocols[id] = stat
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})
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return protocols
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}
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// Reset clears all stats.
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func (bwc *BandwidthCounter) Reset() {
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bwc.totalIn.Reset()
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bwc.totalOut.Reset()
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bwc.protocolIn.Clear()
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bwc.protocolOut.Clear()
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bwc.peerIn.Clear()
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bwc.peerOut.Clear()
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}
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// TrimIdle trims all timers idle since the given time.
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func (bwc *BandwidthCounter) TrimIdle(since time.Time) {
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bwc.peerIn.TrimIdle(since)
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bwc.peerOut.TrimIdle(since)
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bwc.protocolIn.TrimIdle(since)
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bwc.protocolOut.TrimIdle(since)
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}
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