mirror of
https://github.com/ceph/ceph-csi.git
synced 2024-11-14 10:20:20 +00:00
ff3e84ad67
updating kubernetes to 1.28.0 in the main repo. Signed-off-by: Madhu Rajanna <madhupr007@gmail.com>
320 lines
10 KiB
Go
320 lines
10 KiB
Go
/*
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Copyright 2015 The Kubernetes Authors.
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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package trace
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import (
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"bytes"
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"context"
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"fmt"
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"math/rand"
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"sync"
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"time"
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"k8s.io/klog/v2"
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)
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var klogV = func(lvl klog.Level) bool {
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return klog.V(lvl).Enabled()
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}
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// Field is a key value pair that provides additional details about the trace.
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type Field struct {
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Key string
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Value interface{}
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}
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func (f Field) format() string {
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return fmt.Sprintf("%s:%v", f.Key, f.Value)
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}
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func writeFields(b *bytes.Buffer, l []Field) {
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for i, f := range l {
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b.WriteString(f.format())
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if i < len(l)-1 {
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b.WriteString(",")
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}
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}
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}
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func writeTraceItemSummary(b *bytes.Buffer, msg string, totalTime time.Duration, startTime time.Time, fields []Field) {
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b.WriteString(fmt.Sprintf("%q ", msg))
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if len(fields) > 0 {
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writeFields(b, fields)
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b.WriteString(" ")
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}
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b.WriteString(fmt.Sprintf("%vms (%v)", durationToMilliseconds(totalTime), startTime.Format("15:04:05.000")))
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}
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func durationToMilliseconds(timeDuration time.Duration) int64 {
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return timeDuration.Nanoseconds() / 1e6
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}
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type traceItem interface {
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// rLock must be called before invoking time or writeItem.
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rLock()
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// rUnlock must be called after processing the item is complete.
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rUnlock()
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// time returns when the trace was recorded as completed.
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time() time.Time
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// writeItem outputs the traceItem to the buffer. If stepThreshold is non-nil, only output the
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// traceItem if its the duration exceeds the stepThreshold.
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// Each line of output is prefixed by formatter to visually indent nested items.
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writeItem(b *bytes.Buffer, formatter string, startTime time.Time, stepThreshold *time.Duration)
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}
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type traceStep struct {
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stepTime time.Time
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msg string
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fields []Field
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}
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// rLock doesn't need to do anything because traceStep instances are immutable.
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func (s traceStep) rLock() {}
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func (s traceStep) rUnlock() {}
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func (s traceStep) time() time.Time {
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return s.stepTime
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}
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func (s traceStep) writeItem(b *bytes.Buffer, formatter string, startTime time.Time, stepThreshold *time.Duration) {
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stepDuration := s.stepTime.Sub(startTime)
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if stepThreshold == nil || *stepThreshold == 0 || stepDuration >= *stepThreshold || klogV(4) {
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b.WriteString(fmt.Sprintf("%s---", formatter))
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writeTraceItemSummary(b, s.msg, stepDuration, s.stepTime, s.fields)
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}
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}
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// Trace keeps track of a set of "steps" and allows us to log a specific
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// step if it took longer than its share of the total allowed time
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type Trace struct {
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// constant fields
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name string
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fields []Field
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startTime time.Time
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parentTrace *Trace
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// fields guarded by a lock
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lock sync.RWMutex
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threshold *time.Duration
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endTime *time.Time
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traceItems []traceItem
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}
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func (t *Trace) rLock() {
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t.lock.RLock()
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}
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func (t *Trace) rUnlock() {
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t.lock.RUnlock()
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}
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func (t *Trace) time() time.Time {
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if t.endTime != nil {
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return *t.endTime
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}
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return t.startTime // if the trace is incomplete, don't assume an end time
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}
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func (t *Trace) writeItem(b *bytes.Buffer, formatter string, startTime time.Time, stepThreshold *time.Duration) {
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if t.durationIsWithinThreshold() || klogV(4) {
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b.WriteString(fmt.Sprintf("%v[", formatter))
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writeTraceItemSummary(b, t.name, t.TotalTime(), t.startTime, t.fields)
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if st := t.calculateStepThreshold(); st != nil {
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stepThreshold = st
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}
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t.writeTraceSteps(b, formatter+" ", stepThreshold)
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b.WriteString("]")
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return
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}
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// If the trace should not be written, still check for nested traces that should be written
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for _, s := range t.traceItems {
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if nestedTrace, ok := s.(*Trace); ok {
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nestedTrace.writeItem(b, formatter, startTime, stepThreshold)
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}
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}
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}
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// New creates a Trace with the specified name. The name identifies the operation to be traced. The
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// Fields add key value pairs to provide additional details about the trace, such as operation inputs.
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func New(name string, fields ...Field) *Trace {
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return &Trace{name: name, startTime: time.Now(), fields: fields}
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}
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// Step adds a new step with a specific message. Call this at the end of an execution step to record
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// how long it took. The Fields add key value pairs to provide additional details about the trace
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// step.
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func (t *Trace) Step(msg string, fields ...Field) {
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t.lock.Lock()
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defer t.lock.Unlock()
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if t.traceItems == nil {
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// traces almost always have less than 6 steps, do this to avoid more than a single allocation
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t.traceItems = make([]traceItem, 0, 6)
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}
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t.traceItems = append(t.traceItems, traceStep{stepTime: time.Now(), msg: msg, fields: fields})
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}
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// Nest adds a nested trace with the given message and fields and returns it.
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// As a convenience, if the receiver is nil, returns a top level trace. This allows
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// one to call FromContext(ctx).Nest without having to check if the trace
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// in the context is nil.
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func (t *Trace) Nest(msg string, fields ...Field) *Trace {
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newTrace := New(msg, fields...)
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if t != nil {
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newTrace.parentTrace = t
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t.lock.Lock()
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t.traceItems = append(t.traceItems, newTrace)
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t.lock.Unlock()
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}
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return newTrace
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}
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// Log is used to dump all the steps in the Trace. It also logs the nested trace messages using indentation.
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// If the Trace is nested it is not immediately logged. Instead, it is logged when the trace it is nested within
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// is logged.
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func (t *Trace) Log() {
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endTime := time.Now()
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t.lock.Lock()
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t.endTime = &endTime
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t.lock.Unlock()
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// an explicit logging request should dump all the steps out at the higher level
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if t.parentTrace == nil { // We don't start logging until Log or LogIfLong is called on the root trace
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t.logTrace()
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}
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}
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// LogIfLong only logs the trace if the duration of the trace exceeds the threshold.
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// Only steps that took longer than their share or the given threshold are logged.
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// If klog is at verbosity level 4 or higher and the trace took longer than the threshold,
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// all substeps and subtraces are logged. Otherwise, only those which took longer than
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// their own threshold.
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// If the Trace is nested it is not immediately logged. Instead, it is logged when the trace it
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// is nested within is logged.
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func (t *Trace) LogIfLong(threshold time.Duration) {
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t.lock.Lock()
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t.threshold = &threshold
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t.lock.Unlock()
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t.Log()
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}
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// logTopLevelTraces finds all traces in a hierarchy of nested traces that should be logged but do not have any
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// parents that will be logged, due to threshold limits, and logs them as top level traces.
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func (t *Trace) logTrace() {
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t.lock.RLock()
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defer t.lock.RUnlock()
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if t.durationIsWithinThreshold() {
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var buffer bytes.Buffer
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traceNum := rand.Int31()
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totalTime := t.endTime.Sub(t.startTime)
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buffer.WriteString(fmt.Sprintf("Trace[%d]: %q ", traceNum, t.name))
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if len(t.fields) > 0 {
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writeFields(&buffer, t.fields)
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buffer.WriteString(" ")
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}
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// if any step took more than it's share of the total allowed time, it deserves a higher log level
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buffer.WriteString(fmt.Sprintf("(%v) (total time: %vms):", t.startTime.Format("02-Jan-2006 15:04:05.000"), totalTime.Milliseconds()))
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stepThreshold := t.calculateStepThreshold()
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t.writeTraceSteps(&buffer, fmt.Sprintf("\nTrace[%d]: ", traceNum), stepThreshold)
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buffer.WriteString(fmt.Sprintf("\nTrace[%d]: [%v] [%v] END\n", traceNum, t.endTime.Sub(t.startTime), totalTime))
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klog.Info(buffer.String())
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return
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}
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// If the trace should not be logged, still check if nested traces should be logged
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for _, s := range t.traceItems {
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if nestedTrace, ok := s.(*Trace); ok {
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nestedTrace.logTrace()
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}
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}
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}
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func (t *Trace) writeTraceSteps(b *bytes.Buffer, formatter string, stepThreshold *time.Duration) {
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lastStepTime := t.startTime
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for _, stepOrTrace := range t.traceItems {
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stepOrTrace.rLock()
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stepOrTrace.writeItem(b, formatter, lastStepTime, stepThreshold)
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lastStepTime = stepOrTrace.time()
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stepOrTrace.rUnlock()
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}
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}
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func (t *Trace) durationIsWithinThreshold() bool {
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if t.endTime == nil { // we don't assume incomplete traces meet the threshold
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return false
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}
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return t.threshold == nil || *t.threshold == 0 || t.endTime.Sub(t.startTime) >= *t.threshold
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}
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// TotalTime can be used to figure out how long it took since the Trace was created
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func (t *Trace) TotalTime() time.Duration {
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return time.Since(t.startTime)
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}
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// calculateStepThreshold returns a threshold for the individual steps of a trace, or nil if there is no threshold and
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// all steps should be written.
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func (t *Trace) calculateStepThreshold() *time.Duration {
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if t.threshold == nil {
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return nil
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}
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lenTrace := len(t.traceItems) + 1
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traceThreshold := *t.threshold
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for _, s := range t.traceItems {
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nestedTrace, ok := s.(*Trace)
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if ok {
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nestedTrace.lock.RLock()
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if nestedTrace.threshold != nil {
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traceThreshold = traceThreshold - *nestedTrace.threshold
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lenTrace--
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}
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nestedTrace.lock.RUnlock()
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}
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}
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// the limit threshold is used when the threshold(
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//remaining after subtracting that of the child trace) is getting very close to zero to prevent unnecessary logging
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limitThreshold := *t.threshold / 4
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if traceThreshold < limitThreshold {
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traceThreshold = limitThreshold
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lenTrace = len(t.traceItems) + 1
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}
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stepThreshold := traceThreshold / time.Duration(lenTrace)
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return &stepThreshold
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}
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// ContextTraceKey provides a common key for traces in context.Context values.
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type ContextTraceKey struct{}
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// FromContext returns the trace keyed by ContextTraceKey in the context values, if one
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// is present, or nil If there is no trace in the Context.
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// It is safe to call Nest() on the returned value even if it is nil because ((*Trace)nil).Nest returns a top level
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// trace.
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func FromContext(ctx context.Context) *Trace {
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if v, ok := ctx.Value(ContextTraceKey{}).(*Trace); ok {
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return v
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}
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return nil
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}
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// ContextWithTrace returns a context with trace included in the context values, keyed by ContextTraceKey.
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func ContextWithTrace(ctx context.Context, trace *Trace) context.Context {
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return context.WithValue(ctx, ContextTraceKey{}, trace)
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}
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