cloudflared-mirror/origin/metrics.go

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package origin
import (
"sync"
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"time"
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"github.com/cloudflare/cloudflared/h2mux"
"github.com/prometheus/client_golang/prometheus"
)
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type muxerMetrics struct {
rtt *prometheus.GaugeVec
rttMin *prometheus.GaugeVec
rttMax *prometheus.GaugeVec
receiveWindowAve *prometheus.GaugeVec
sendWindowAve *prometheus.GaugeVec
receiveWindowMin *prometheus.GaugeVec
receiveWindowMax *prometheus.GaugeVec
sendWindowMin *prometheus.GaugeVec
sendWindowMax *prometheus.GaugeVec
inBoundRateCurr *prometheus.GaugeVec
inBoundRateMin *prometheus.GaugeVec
inBoundRateMax *prometheus.GaugeVec
outBoundRateCurr *prometheus.GaugeVec
outBoundRateMin *prometheus.GaugeVec
outBoundRateMax *prometheus.GaugeVec
}
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type TunnelMetrics struct {
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haConnections prometheus.Gauge
totalRequests prometheus.Counter
requestsPerTunnel *prometheus.CounterVec
// concurrentRequestsLock is a mutex for concurrentRequests and maxConcurrentRequests
concurrentRequestsLock sync.Mutex
concurrentRequestsPerTunnel *prometheus.GaugeVec
// concurrentRequests records count of concurrent requests for each tunnel
concurrentRequests map[string]uint64
maxConcurrentRequestsPerTunnel *prometheus.GaugeVec
// concurrentRequests records max count of concurrent requests for each tunnel
maxConcurrentRequests map[string]uint64
timerRetries prometheus.Gauge
responseByCode *prometheus.CounterVec
responseCodePerTunnel *prometheus.CounterVec
serverLocations *prometheus.GaugeVec
// locationLock is a mutex for oldServerLocations
locationLock sync.Mutex
// oldServerLocations stores the last server the tunnel was connected to
oldServerLocations map[string]string
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muxerMetrics *muxerMetrics
}
func newMuxerMetrics() *muxerMetrics {
rtt := prometheus.NewGaugeVec(
prometheus.GaugeOpts{
Name: "rtt",
Help: "Round-trip time in millisecond",
},
[]string{"connection_id"},
)
prometheus.MustRegister(rtt)
rttMin := prometheus.NewGaugeVec(
prometheus.GaugeOpts{
Name: "rtt_min",
Help: "Shortest round-trip time in millisecond",
},
[]string{"connection_id"},
)
prometheus.MustRegister(rttMin)
rttMax := prometheus.NewGaugeVec(
prometheus.GaugeOpts{
Name: "rtt_max",
Help: "Longest round-trip time in millisecond",
},
[]string{"connection_id"},
)
prometheus.MustRegister(rttMax)
receiveWindowAve := prometheus.NewGaugeVec(
prometheus.GaugeOpts{
Name: "receive_window_ave",
Help: "Average receive window size in bytes",
},
[]string{"connection_id"},
)
prometheus.MustRegister(receiveWindowAve)
sendWindowAve := prometheus.NewGaugeVec(
prometheus.GaugeOpts{
Name: "send_window_ave",
Help: "Average send window size in bytes",
},
[]string{"connection_id"},
)
prometheus.MustRegister(sendWindowAve)
receiveWindowMin := prometheus.NewGaugeVec(
prometheus.GaugeOpts{
Name: "receive_window_min",
Help: "Smallest receive window size in bytes",
},
[]string{"connection_id"},
)
prometheus.MustRegister(receiveWindowMin)
receiveWindowMax := prometheus.NewGaugeVec(
prometheus.GaugeOpts{
Name: "receive_window_max",
Help: "Largest receive window size in bytes",
},
[]string{"connection_id"},
)
prometheus.MustRegister(receiveWindowMax)
sendWindowMin := prometheus.NewGaugeVec(
prometheus.GaugeOpts{
Name: "send_window_min",
Help: "Smallest send window size in bytes",
},
[]string{"connection_id"},
)
prometheus.MustRegister(sendWindowMin)
sendWindowMax := prometheus.NewGaugeVec(
prometheus.GaugeOpts{
Name: "send_window_max",
Help: "Largest send window size in bytes",
},
[]string{"connection_id"},
)
prometheus.MustRegister(sendWindowMax)
inBoundRateCurr := prometheus.NewGaugeVec(
prometheus.GaugeOpts{
Name: "inbound_bytes_per_sec_curr",
Help: "Current inbounding bytes per second, 0 if there is no incoming connection",
},
[]string{"connection_id"},
)
prometheus.MustRegister(inBoundRateCurr)
inBoundRateMin := prometheus.NewGaugeVec(
prometheus.GaugeOpts{
Name: "inbound_bytes_per_sec_min",
Help: "Minimum non-zero inbounding bytes per second",
},
[]string{"connection_id"},
)
prometheus.MustRegister(inBoundRateMin)
inBoundRateMax := prometheus.NewGaugeVec(
prometheus.GaugeOpts{
Name: "inbound_bytes_per_sec_max",
Help: "Maximum inbounding bytes per second",
},
[]string{"connection_id"},
)
prometheus.MustRegister(inBoundRateMax)
outBoundRateCurr := prometheus.NewGaugeVec(
prometheus.GaugeOpts{
Name: "outbound_bytes_per_sec_curr",
Help: "Current outbounding bytes per second, 0 if there is no outgoing traffic",
},
[]string{"connection_id"},
)
prometheus.MustRegister(outBoundRateCurr)
outBoundRateMin := prometheus.NewGaugeVec(
prometheus.GaugeOpts{
Name: "outbound_bytes_per_sec_min",
Help: "Minimum non-zero outbounding bytes per second",
},
[]string{"connection_id"},
)
prometheus.MustRegister(outBoundRateMin)
outBoundRateMax := prometheus.NewGaugeVec(
prometheus.GaugeOpts{
Name: "outbound_bytes_per_sec_max",
Help: "Maximum outbounding bytes per second",
},
[]string{"connection_id"},
)
prometheus.MustRegister(outBoundRateMax)
return &muxerMetrics{
rtt: rtt,
rttMin: rttMin,
rttMax: rttMax,
receiveWindowAve: receiveWindowAve,
sendWindowAve: sendWindowAve,
receiveWindowMin: receiveWindowMin,
receiveWindowMax: receiveWindowMax,
sendWindowMin: sendWindowMin,
sendWindowMax: sendWindowMax,
inBoundRateCurr: inBoundRateCurr,
inBoundRateMin: inBoundRateMin,
inBoundRateMax: inBoundRateMax,
outBoundRateCurr: outBoundRateCurr,
outBoundRateMin: outBoundRateMin,
outBoundRateMax: outBoundRateMax,
}
}
func (m *muxerMetrics) update(connectionID string, metrics *h2mux.MuxerMetrics) {
m.rtt.WithLabelValues(connectionID).Set(convertRTTMilliSec(metrics.RTT))
m.rttMin.WithLabelValues(connectionID).Set(convertRTTMilliSec(metrics.RTTMin))
m.rttMax.WithLabelValues(connectionID).Set(convertRTTMilliSec(metrics.RTTMax))
m.receiveWindowAve.WithLabelValues(connectionID).Set(metrics.ReceiveWindowAve)
m.sendWindowAve.WithLabelValues(connectionID).Set(metrics.SendWindowAve)
m.receiveWindowMin.WithLabelValues(connectionID).Set(float64(metrics.ReceiveWindowMin))
m.receiveWindowMax.WithLabelValues(connectionID).Set(float64(metrics.ReceiveWindowMax))
m.sendWindowMin.WithLabelValues(connectionID).Set(float64(metrics.SendWindowMin))
m.sendWindowMax.WithLabelValues(connectionID).Set(float64(metrics.SendWindowMax))
m.inBoundRateCurr.WithLabelValues(connectionID).Set(float64(metrics.InBoundRateCurr))
m.inBoundRateMin.WithLabelValues(connectionID).Set(float64(metrics.InBoundRateMin))
m.inBoundRateMax.WithLabelValues(connectionID).Set(float64(metrics.InBoundRateMax))
m.outBoundRateCurr.WithLabelValues(connectionID).Set(float64(metrics.OutBoundRateCurr))
m.outBoundRateMin.WithLabelValues(connectionID).Set(float64(metrics.OutBoundRateMin))
m.outBoundRateMax.WithLabelValues(connectionID).Set(float64(metrics.OutBoundRateMax))
}
func convertRTTMilliSec(t time.Duration) float64 {
return float64(t / time.Millisecond)
}
// Metrics that can be collected without asking the edge
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func NewTunnelMetrics() *TunnelMetrics {
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haConnections := prometheus.NewGauge(
prometheus.GaugeOpts{
Name: "ha_connections",
Help: "Number of active ha connections",
})
prometheus.MustRegister(haConnections)
totalRequests := prometheus.NewCounter(
prometheus.CounterOpts{
Name: "total_requests",
Help: "Amount of requests proxied through all the tunnels",
})
prometheus.MustRegister(totalRequests)
requestsPerTunnel := prometheus.NewCounterVec(
prometheus.CounterOpts{
Name: "requests_per_tunnel",
Help: "Amount of requests proxied through each tunnel",
},
[]string{"connection_id"},
)
prometheus.MustRegister(requestsPerTunnel)
concurrentRequestsPerTunnel := prometheus.NewGaugeVec(
prometheus.GaugeOpts{
Name: "concurrent_requests_per_tunnel",
Help: "Concurrent requests proxied through each tunnel",
},
[]string{"connection_id"},
)
prometheus.MustRegister(concurrentRequestsPerTunnel)
maxConcurrentRequestsPerTunnel := prometheus.NewGaugeVec(
prometheus.GaugeOpts{
Name: "max_concurrent_requests_per_tunnel",
Help: "Largest number of concurrent requests proxied through each tunnel so far",
},
[]string{"connection_id"},
)
prometheus.MustRegister(maxConcurrentRequestsPerTunnel)
timerRetries := prometheus.NewGauge(
prometheus.GaugeOpts{
Name: "timer_retries",
Help: "Unacknowledged heart beats count",
})
prometheus.MustRegister(timerRetries)
responseByCode := prometheus.NewCounterVec(
prometheus.CounterOpts{
Name: "response_by_code",
Help: "Count of responses by HTTP status code",
},
[]string{"status_code"},
)
prometheus.MustRegister(responseByCode)
responseCodePerTunnel := prometheus.NewCounterVec(
prometheus.CounterOpts{
Name: "response_code_per_tunnel",
Help: "Count of responses by HTTP status code fore each tunnel",
},
[]string{"connection_id", "status_code"},
)
prometheus.MustRegister(responseCodePerTunnel)
serverLocations := prometheus.NewGaugeVec(
prometheus.GaugeOpts{
Name: "server_locations",
Help: "Where each tunnel is connected to. 1 means current location, 0 means previous locations.",
},
[]string{"connection_id", "location"},
)
prometheus.MustRegister(serverLocations)
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return &TunnelMetrics{
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haConnections: haConnections,
totalRequests: totalRequests,
requestsPerTunnel: requestsPerTunnel,
concurrentRequestsPerTunnel: concurrentRequestsPerTunnel,
concurrentRequests: make(map[string]uint64),
maxConcurrentRequestsPerTunnel: maxConcurrentRequestsPerTunnel,
maxConcurrentRequests: make(map[string]uint64),
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timerRetries: timerRetries,
responseByCode: responseByCode,
responseCodePerTunnel: responseCodePerTunnel,
serverLocations: serverLocations,
oldServerLocations: make(map[string]string),
muxerMetrics: newMuxerMetrics(),
}
}
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func (t *TunnelMetrics) incrementHaConnections() {
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t.haConnections.Inc()
}
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func (t *TunnelMetrics) decrementHaConnections() {
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t.haConnections.Dec()
}
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func (t *TunnelMetrics) updateMuxerMetrics(connectionID string, metrics *h2mux.MuxerMetrics) {
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t.muxerMetrics.update(connectionID, metrics)
}
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func (t *TunnelMetrics) incrementRequests(connectionID string) {
t.concurrentRequestsLock.Lock()
var concurrentRequests uint64
var ok bool
if concurrentRequests, ok = t.concurrentRequests[connectionID]; ok {
t.concurrentRequests[connectionID] += 1
concurrentRequests++
} else {
t.concurrentRequests[connectionID] = 1
concurrentRequests = 1
}
if maxConcurrentRequests, ok := t.maxConcurrentRequests[connectionID]; (ok && maxConcurrentRequests < concurrentRequests) || !ok {
t.maxConcurrentRequests[connectionID] = concurrentRequests
t.maxConcurrentRequestsPerTunnel.WithLabelValues(connectionID).Set(float64(concurrentRequests))
}
t.concurrentRequestsLock.Unlock()
t.totalRequests.Inc()
t.requestsPerTunnel.WithLabelValues(connectionID).Inc()
t.concurrentRequestsPerTunnel.WithLabelValues(connectionID).Inc()
}
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func (t *TunnelMetrics) decrementConcurrentRequests(connectionID string) {
t.concurrentRequestsLock.Lock()
if _, ok := t.concurrentRequests[connectionID]; ok {
t.concurrentRequests[connectionID] -= 1
} else {
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logger.Error("Concurrent requests per tunnel metrics went wrong; you can't decrement concurrent requests count without increment it first.")
}
t.concurrentRequestsLock.Unlock()
t.concurrentRequestsPerTunnel.WithLabelValues(connectionID).Dec()
}
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func (t *TunnelMetrics) incrementResponses(connectionID, code string) {
t.responseByCode.WithLabelValues(code).Inc()
t.responseCodePerTunnel.WithLabelValues(connectionID, code).Inc()
}
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func (t *TunnelMetrics) registerServerLocation(connectionID, loc string) {
t.locationLock.Lock()
defer t.locationLock.Unlock()
if oldLoc, ok := t.oldServerLocations[connectionID]; ok && oldLoc == loc {
return
} else if ok {
t.serverLocations.WithLabelValues(connectionID, oldLoc).Dec()
}
t.serverLocations.WithLabelValues(connectionID, loc).Inc()
t.oldServerLocations[connectionID] = loc
}