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stats_reporter.go
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/
stats_reporter.go
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/*
Copyright 2019 The Knative Authors
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package reconciler
import (
"context"
"fmt"
"time"
"github.com/knative/pkg/metrics"
"go.opencensus.io/stats"
"go.opencensus.io/stats/view"
"go.opencensus.io/tag"
)
type Measurement int
const (
// BrokerReadyCountN is the number of brokers that have become ready.
BrokerReadyCountN = "broker_ready_count"
// BrokerReadyLatencyN is the time it takes for a broker to become ready since the resource is created.
BrokerReadyLatencyN = "broker_ready_latency"
// TriggerReadyCountN is the number of triggers that have become ready.
TriggerReadyCountN = "trigger_ready_count"
// TriggerReadyLatencyN is the time it takes for a trigger to become ready since the resource is created.
TriggerReadyLatencyN = "trigger_ready_latency"
// ChannelReadyCountN is the number of channels that have become ready.
ChannelReadyCountN = "channel_ready_count"
// ChannelReadyLatencyN is the time it takes for a trigger to become ready since the resource is created.
ChannelReadyLatencyN = "channel_ready_latency"
// SubscriptionReadyCountN is the number of subscriptions that have become ready.
SubscriptionReadyCountN = "subscription_ready_count"
// SubscriptionReadyLatencyN is the time it takes for a subscription to become ready since the resource is created.
SubscriptionReadyLatencyN = "subscription_ready_latency"
// ContainerSourceReadyCountN is the number of container sources that have become ready.
ContainerSourceReadyCountN = "container_source_ready_count"
// ContainerSourceReadyLatencyN is the time it takes for a container source to become ready since the resource is created.
ContainerSourceReadyLatencyN = "container_source_ready_latency"
// CronJobSourceReadyCountN is the number of cron job sources that have become ready.
CronJobSourceReadyCountN = "cron_job_source_ready_count"
// CronJobSourceReadyLatencyN is the time it takes for a cron job source to become ready since the resource is created.
CronJobSourceReadyLatencyN = "cron_job_source_ready_latency"
// ApiServerSourceReadyCountN is the number of api server sources that have become ready.
ApiServerSourceReadyCountN = "api_server_source_ready_count"
// ApiServerSourceReadyLatencyN is the time it takes for an api server source to become ready since the resource is created.
ApiServerSourceReadyLatencyN = "api_server_source_ready_latency"
// InMemoryChannelReadyCountN is the number of in memory channels that have become ready.
InMemoryChannelReadyCountN = "inmemorychannel_ready_count"
// InMemoryChannelReadyLatencyN is the time it takes for an in memory channel to become ready since the resource is created.
InMemoryChannelReadyLatencyN = "inmemorychannel_ready_latency"
)
var (
KindToStatKeys = map[string]StatKey{
// Eventing
"Broker": {
ReadyLatencyKey: BrokerReadyLatencyN,
ReadyCountKey: BrokerReadyCountN,
},
"Trigger": {
ReadyLatencyKey: TriggerReadyLatencyN,
ReadyCountKey: TriggerReadyCountN,
},
// Messaging
"Channel": {
ReadyLatencyKey: ChannelReadyLatencyN,
ReadyCountKey: ChannelReadyCountN,
},
"InMemoryChannel": {
ReadyLatencyKey: InMemoryChannelReadyLatencyN,
ReadyCountKey: InMemoryChannelReadyCountN,
},
"Subscription": {
ReadyLatencyKey: SubscriptionReadyLatencyN,
ReadyCountKey: SubscriptionReadyCountN,
},
// Sources
"ContainerSource": {
ReadyLatencyKey: ContainerSourceReadyLatencyN,
ReadyCountKey: ContainerSourceReadyCountN,
},
"CronJobSource": {
ReadyLatencyKey: CronJobSourceReadyLatencyN,
ReadyCountKey: CronJobSourceReadyCountN,
},
"ApiServerSource": {
ReadyLatencyKey: ApiServerSourceReadyLatencyN,
ReadyCountKey: ApiServerSourceReadyCountN,
},
}
KindToMeasurements map[string]Measurements
reconcilerTagKey tag.Key
keyTagKey tag.Key
)
type Measurements struct {
ReadyLatencyStat *stats.Int64Measure
ReadyCountStat *stats.Int64Measure
}
type StatKey struct {
ReadyLatencyKey string
ReadyCountKey string
}
func init() {
var err error
// Create the tag keys that will be used to add tags to our measurements.
// Tag keys must conform to the restrictions described in
// go.opencensus.io/tag/validate.go. Currently those restrictions are:
// - length between 1 and 255 inclusive
// - characters are printable US-ASCII
reconcilerTagKey = mustNewTagKey("reconciler")
keyTagKey = mustNewTagKey("key")
KindToMeasurements = make(map[string]Measurements, len(KindToStatKeys))
for kind, keys := range KindToStatKeys {
readyLatencyStat := stats.Int64(
keys.ReadyLatencyKey,
fmt.Sprintf("Time it takes for a %s to become ready since created", kind),
stats.UnitMilliseconds)
readyCountStat := stats.Int64(
keys.ReadyCountKey,
fmt.Sprintf("Number of %s that became ready", kind),
stats.UnitDimensionless)
// Save the measurements for later marks.
KindToMeasurements[kind] = Measurements{
ReadyCountStat: readyCountStat,
ReadyLatencyStat: readyLatencyStat,
}
// Create views to see our measurements. This can return an error if
// a previously-registered view has the same name with a different value.
// View name defaults to the measure name if unspecified.
err = view.Register(
&view.View{
Description: readyLatencyStat.Description(),
Measure: readyLatencyStat,
Aggregation: view.LastValue(),
TagKeys: []tag.Key{reconcilerTagKey, keyTagKey},
},
&view.View{
Description: readyCountStat.Description(),
Measure: readyCountStat,
Aggregation: view.Count(),
TagKeys: []tag.Key{reconcilerTagKey, keyTagKey},
},
)
if err != nil {
panic(err)
}
}
}
// StatsReporter reports reconcilers' metrics.
type StatsReporter interface {
// ReportReady reports the time it took a resource to become Ready.
ReportReady(kind, namespace, service string, d time.Duration) error
}
// srKey is used to associate StatsReporters with contexts.
type srKey struct{}
// WithStatsReporter attaches the given StatsReporter to the provided context
// in the returned context.
func WithStatsReporter(ctx context.Context, sr StatsReporter) context.Context {
return context.WithValue(ctx, srKey{}, sr)
}
// GetStatsReporter attempts to look up the StatsReporter on a given context.
// It may return nil if none is found.
func GetStatsReporter(ctx context.Context) StatsReporter {
untyped := ctx.Value(srKey{})
if untyped == nil {
return nil
}
return untyped.(StatsReporter)
}
type reporter struct {
ctx context.Context
}
// NewStatsReporter creates a reporter for reconcilers' metrics
func NewStatsReporter(reconciler string) (StatsReporter, error) {
ctx, err := tag.New(
context.Background(),
tag.Insert(reconcilerTagKey, reconciler))
if err != nil {
return nil, err
}
return &reporter{ctx: ctx}, nil
}
// ReportServiceReady reports the time it took a service to become Ready
func (r *reporter) ReportReady(kind, namespace, service string, d time.Duration) error {
key := fmt.Sprintf("%s/%s", namespace, service)
v := int64(d / time.Millisecond)
ctx, err := tag.New(
r.ctx,
tag.Insert(keyTagKey, key))
if err != nil {
return err
}
m, ok := KindToMeasurements[kind]
if !ok {
return fmt.Errorf("unknown kind attempted to report ready, %q", kind)
}
metrics.Record(ctx, m.ReadyCountStat.M(1))
metrics.Record(ctx, m.ReadyLatencyStat.M(v))
return nil
}
func mustNewTagKey(s string) tag.Key {
tagKey, err := tag.NewKey(s)
if err != nil {
panic(err)
}
return tagKey
}