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scope.go
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// Copyright (c) 2020 Uber Technologies, Inc.
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
package tally
import (
"io"
"sync"
"time"
)
const (
_defaultInitialSliceSize = 16
)
var (
// NoopScope is a scope that does nothing
NoopScope, _ = NewRootScope(ScopeOptions{Reporter: NullStatsReporter}, 0)
// DefaultSeparator is the default separator used to join nested scopes
DefaultSeparator = "."
globalNow = time.Now
defaultScopeBuckets = DurationBuckets{
0 * time.Millisecond,
10 * time.Millisecond,
25 * time.Millisecond,
50 * time.Millisecond,
75 * time.Millisecond,
100 * time.Millisecond,
200 * time.Millisecond,
300 * time.Millisecond,
400 * time.Millisecond,
500 * time.Millisecond,
600 * time.Millisecond,
800 * time.Millisecond,
1 * time.Second,
2 * time.Second,
5 * time.Second,
}
)
type scope struct {
separator string
prefix string
tags map[string]string
reporter StatsReporter
cachedReporter CachedStatsReporter
baseReporter BaseStatsReporter
defaultBuckets Buckets
sanitizer Sanitizer
registry *scopeRegistry
status scopeStatus
cm sync.RWMutex
gm sync.RWMutex
tm sync.RWMutex
hm sync.RWMutex
counters map[string]*counter
countersSlice []*counter
gauges map[string]*gauge
gaugesSlice []*gauge
histograms map[string]*histogram
histogramsSlice []*histogram
timers map[string]*timer
// nb: deliberately skipping timersSlice as we report timers immediately,
// no buffering is involved.
}
type scopeStatus struct {
sync.RWMutex
closed bool
quit chan struct{}
}
// ScopeOptions is a set of options to construct a scope.
type ScopeOptions struct {
Tags map[string]string
Prefix string
Reporter StatsReporter
CachedReporter CachedStatsReporter
Separator string
DefaultBuckets Buckets
SanitizeOptions *SanitizeOptions
}
// NewRootScope creates a new root Scope with a set of options and
// a reporting interval.
// Must provide either a StatsReporter or a CachedStatsReporter.
func NewRootScope(opts ScopeOptions, interval time.Duration) (Scope, io.Closer) {
s := newRootScope(opts, interval)
return s, s
}
// NewTestScope creates a new Scope without a stats reporter with the
// given prefix and adds the ability to take snapshots of metrics emitted
// to it.
func NewTestScope(
prefix string,
tags map[string]string,
) TestScope {
return newRootScope(ScopeOptions{Prefix: prefix, Tags: tags}, 0)
}
func newRootScope(opts ScopeOptions, interval time.Duration) *scope {
sanitizer := NewNoOpSanitizer()
if o := opts.SanitizeOptions; o != nil {
sanitizer = NewSanitizer(*o)
}
if opts.Tags == nil {
opts.Tags = make(map[string]string)
}
if opts.Separator == "" {
opts.Separator = DefaultSeparator
}
var baseReporter BaseStatsReporter
if opts.Reporter != nil {
baseReporter = opts.Reporter
} else if opts.CachedReporter != nil {
baseReporter = opts.CachedReporter
}
if opts.DefaultBuckets == nil || opts.DefaultBuckets.Len() < 1 {
opts.DefaultBuckets = defaultScopeBuckets
}
s := &scope{
separator: sanitizer.Name(opts.Separator),
prefix: sanitizer.Name(opts.Prefix),
reporter: opts.Reporter,
cachedReporter: opts.CachedReporter,
baseReporter: baseReporter,
defaultBuckets: opts.DefaultBuckets,
sanitizer: sanitizer,
status: scopeStatus{
closed: false,
quit: make(chan struct{}, 1),
},
counters: make(map[string]*counter),
countersSlice: make([]*counter, 0, _defaultInitialSliceSize),
gauges: make(map[string]*gauge),
gaugesSlice: make([]*gauge, 0, _defaultInitialSliceSize),
histograms: make(map[string]*histogram),
histogramsSlice: make([]*histogram, 0, _defaultInitialSliceSize),
timers: make(map[string]*timer),
}
// NB(r): Take a copy of the tags on creation
// so that it cannot be modified after set.
s.tags = s.copyAndSanitizeMap(opts.Tags)
// Register the root scope
s.registry = newScopeRegistry(s)
if interval > 0 {
go s.reportLoop(interval)
}
return s
}
// report dumps all aggregated stats into the reporter. Should be called automatically by the root scope periodically.
func (s *scope) report(r StatsReporter) {
s.cm.RLock()
for name, counter := range s.counters {
counter.report(s.fullyQualifiedName(name), s.tags, r)
}
s.cm.RUnlock()
s.gm.RLock()
for name, gauge := range s.gauges {
gauge.report(s.fullyQualifiedName(name), s.tags, r)
}
s.gm.RUnlock()
// we do nothing for timers here because timers report directly to ths StatsReporter without buffering
s.hm.RLock()
for name, histogram := range s.histograms {
histogram.report(s.fullyQualifiedName(name), s.tags, r)
}
s.hm.RUnlock()
}
func (s *scope) cachedReport() {
s.cm.RLock()
for _, counter := range s.countersSlice {
counter.cachedReport()
}
s.cm.RUnlock()
s.gm.RLock()
for _, gauge := range s.gaugesSlice {
gauge.cachedReport()
}
s.gm.RUnlock()
// we do nothing for timers here because timers report directly to ths StatsReporter without buffering
s.hm.RLock()
for _, histogram := range s.histogramsSlice {
histogram.cachedReport()
}
s.hm.RUnlock()
}
// reportLoop is used by the root scope for periodic reporting
func (s *scope) reportLoop(interval time.Duration) {
ticker := time.NewTicker(interval)
defer ticker.Stop()
for {
select {
case <-ticker.C:
s.reportLoopRun()
case <-s.status.quit:
return
}
}
}
func (s *scope) reportLoopRun() {
// Need to hold a status lock to ensure not to report
// and flush after a close
s.status.RLock()
defer s.status.RUnlock()
if s.status.closed {
return
}
s.reportRegistryWithLock()
}
// reports current registry with scope status lock held
func (s *scope) reportRegistryWithLock() {
if s.reporter != nil {
s.registry.Report(s.reporter)
s.reporter.Flush()
} else if s.cachedReporter != nil {
s.registry.CachedReport()
s.cachedReporter.Flush()
}
}
func (s *scope) Counter(name string) Counter {
name = s.sanitizer.Name(name)
if c, ok := s.counter(name); ok {
return c
}
s.cm.Lock()
defer s.cm.Unlock()
if c, ok := s.counters[name]; ok {
return c
}
var cachedCounter CachedCount
if s.cachedReporter != nil {
cachedCounter = s.cachedReporter.AllocateCounter(
s.fullyQualifiedName(name),
s.tags,
)
}
c := newCounter(cachedCounter)
s.counters[name] = c
s.countersSlice = append(s.countersSlice, c)
return c
}
func (s *scope) counter(sanitizedName string) (Counter, bool) {
s.cm.RLock()
defer s.cm.RUnlock()
c, ok := s.counters[sanitizedName]
return c, ok
}
func (s *scope) Gauge(name string) Gauge {
name = s.sanitizer.Name(name)
if g, ok := s.gauge(name); ok {
return g
}
s.gm.Lock()
defer s.gm.Unlock()
if g, ok := s.gauges[name]; ok {
return g
}
var cachedGauge CachedGauge
if s.cachedReporter != nil {
cachedGauge = s.cachedReporter.AllocateGauge(
s.fullyQualifiedName(name), s.tags,
)
}
g := newGauge(cachedGauge)
s.gauges[name] = g
s.gaugesSlice = append(s.gaugesSlice, g)
return g
}
func (s *scope) gauge(name string) (Gauge, bool) {
s.gm.RLock()
defer s.gm.RUnlock()
g, ok := s.gauges[name]
return g, ok
}
func (s *scope) Timer(name string) Timer {
name = s.sanitizer.Name(name)
if t, ok := s.timer(name); ok {
return t
}
s.tm.Lock()
defer s.tm.Unlock()
if t, ok := s.timers[name]; ok {
return t
}
var cachedTimer CachedTimer
if s.cachedReporter != nil {
cachedTimer = s.cachedReporter.AllocateTimer(
s.fullyQualifiedName(name), s.tags,
)
}
t := newTimer(
s.fullyQualifiedName(name), s.tags, s.reporter, cachedTimer,
)
s.timers[name] = t
return t
}
func (s *scope) timer(sanitizedName string) (Timer, bool) {
s.tm.RLock()
defer s.tm.RUnlock()
t, ok := s.timers[sanitizedName]
return t, ok
}
func (s *scope) Histogram(name string, b Buckets) Histogram {
name = s.sanitizer.Name(name)
if h, ok := s.histogram(name); ok {
return h
}
if b == nil {
b = s.defaultBuckets
}
s.hm.Lock()
defer s.hm.Unlock()
if h, ok := s.histograms[name]; ok {
return h
}
var cachedHistogram CachedHistogram
if s.cachedReporter != nil {
cachedHistogram = s.cachedReporter.AllocateHistogram(
s.fullyQualifiedName(name), s.tags, b,
)
}
h := newHistogram(
s.fullyQualifiedName(name), s.tags, s.reporter, b, cachedHistogram,
)
s.histograms[name] = h
s.histogramsSlice = append(s.histogramsSlice, h)
return h
}
func (s *scope) histogram(sanitizedName string) (Histogram, bool) {
s.hm.RLock()
defer s.hm.RUnlock()
h, ok := s.histograms[sanitizedName]
return h, ok
}
func (s *scope) Tagged(tags map[string]string) Scope {
tags = s.copyAndSanitizeMap(tags)
return s.subscope(s.prefix, tags)
}
func (s *scope) SubScope(prefix string) Scope {
prefix = s.sanitizer.Name(prefix)
return s.subscope(s.fullyQualifiedName(prefix), nil)
}
func (s *scope) subscope(prefix string, tags map[string]string) Scope {
return s.registry.Subscope(s, prefix, tags)
}
func (s *scope) Capabilities() Capabilities {
if s.baseReporter == nil {
return capabilitiesNone
}
return s.baseReporter.Capabilities()
}
func (s *scope) Snapshot() Snapshot {
snap := newSnapshot()
s.registry.ForEachScope(func(ss *scope) {
// NB(r): tags are immutable, no lock required to read.
tags := make(map[string]string, len(s.tags))
for k, v := range ss.tags {
tags[k] = v
}
ss.cm.RLock()
for key, c := range ss.counters {
name := ss.fullyQualifiedName(key)
id := KeyForPrefixedStringMap(name, tags)
snap.counters[id] = &counterSnapshot{
name: name,
tags: tags,
value: c.snapshot(),
}
}
ss.cm.RUnlock()
ss.gm.RLock()
for key, g := range ss.gauges {
name := ss.fullyQualifiedName(key)
id := KeyForPrefixedStringMap(name, tags)
snap.gauges[id] = &gaugeSnapshot{
name: name,
tags: tags,
value: g.snapshot(),
}
}
ss.gm.RUnlock()
ss.tm.RLock()
for key, t := range ss.timers {
name := ss.fullyQualifiedName(key)
id := KeyForPrefixedStringMap(name, tags)
snap.timers[id] = &timerSnapshot{
name: name,
tags: tags,
values: t.snapshot(),
}
}
ss.tm.RUnlock()
ss.hm.RLock()
for key, h := range ss.histograms {
name := ss.fullyQualifiedName(key)
id := KeyForPrefixedStringMap(name, tags)
snap.histograms[id] = &histogramSnapshot{
name: name,
tags: tags,
values: h.snapshotValues(),
durations: h.snapshotDurations(),
}
}
ss.hm.RUnlock()
})
return snap
}
func (s *scope) Close() error {
s.status.Lock()
defer s.status.Unlock()
// don't wait to close more than once (panic on double close of
// s.status.quit)
if s.status.closed {
return nil
}
s.status.closed = true
close(s.status.quit)
s.reportRegistryWithLock()
if closer, ok := s.baseReporter.(io.Closer); ok {
return closer.Close()
}
return nil
}
// NB(prateek): We assume concatenation of sanitized inputs is
// sanitized. If that stops being true, then we need to sanitize the
// output of this function.
func (s *scope) fullyQualifiedName(name string) string {
if len(s.prefix) == 0 {
return name
}
// NB: we don't need to sanitize the output of this function as we
// sanitize all the the inputs (prefix, separator, name); and the
// output we're creating is a concatenation of the sanitized inputs.
// If we change the concatenation to involve other inputs or characters,
// we'll need to sanitize them too.
return s.prefix + s.separator + name
}
func (s *scope) copyAndSanitizeMap(tags map[string]string) map[string]string {
result := make(map[string]string, len(tags))
for k, v := range tags {
k = s.sanitizer.Key(k)
v = s.sanitizer.Value(v)
result[k] = v
}
return result
}
// TestScope is a metrics collector that has no reporting, ensuring that
// all emitted values have a given prefix or set of tags
type TestScope interface {
Scope
// Snapshot returns a copy of all values since the last report execution,
// this is an expensive operation and should only be use for testing purposes
Snapshot() Snapshot
}
// Snapshot is a snapshot of values since last report execution
type Snapshot interface {
// Counters returns a snapshot of all counter summations since last report execution
Counters() map[string]CounterSnapshot
// Gauges returns a snapshot of gauge last values since last report execution
Gauges() map[string]GaugeSnapshot
// Timers returns a snapshot of timer values since last report execution
Timers() map[string]TimerSnapshot
// Histograms returns a snapshot of histogram samples since last report execution
Histograms() map[string]HistogramSnapshot
}
// CounterSnapshot is a snapshot of a counter
type CounterSnapshot interface {
// Name returns the name
Name() string
// Tags returns the tags
Tags() map[string]string
// Value returns the value
Value() int64
}
// GaugeSnapshot is a snapshot of a gauge
type GaugeSnapshot interface {
// Name returns the name
Name() string
// Tags returns the tags
Tags() map[string]string
// Value returns the value
Value() float64
}
// TimerSnapshot is a snapshot of a timer
type TimerSnapshot interface {
// Name returns the name
Name() string
// Tags returns the tags
Tags() map[string]string
// Values returns the values
Values() []time.Duration
}
// HistogramSnapshot is a snapshot of a histogram
type HistogramSnapshot interface {
// Name returns the name
Name() string
// Tags returns the tags
Tags() map[string]string
// Values returns the sample values by upper bound for a valueHistogram
Values() map[float64]int64
// Durations returns the sample values by upper bound for a durationHistogram
Durations() map[time.Duration]int64
}
// mergeRightTags merges 2 sets of tags with the tags from tagsRight overriding values from tagsLeft
func mergeRightTags(tagsLeft, tagsRight map[string]string) map[string]string {
if tagsLeft == nil && tagsRight == nil {
return nil
}
if len(tagsRight) == 0 {
return tagsLeft
}
if len(tagsLeft) == 0 {
return tagsRight
}
result := make(map[string]string, len(tagsLeft)+len(tagsRight))
for k, v := range tagsLeft {
result[k] = v
}
for k, v := range tagsRight {
result[k] = v
}
return result
}
type snapshot struct {
counters map[string]CounterSnapshot
gauges map[string]GaugeSnapshot
timers map[string]TimerSnapshot
histograms map[string]HistogramSnapshot
}
func newSnapshot() *snapshot {
return &snapshot{
counters: make(map[string]CounterSnapshot),
gauges: make(map[string]GaugeSnapshot),
timers: make(map[string]TimerSnapshot),
histograms: make(map[string]HistogramSnapshot),
}
}
func (s *snapshot) Counters() map[string]CounterSnapshot {
return s.counters
}
func (s *snapshot) Gauges() map[string]GaugeSnapshot {
return s.gauges
}
func (s *snapshot) Timers() map[string]TimerSnapshot {
return s.timers
}
func (s *snapshot) Histograms() map[string]HistogramSnapshot {
return s.histograms
}
type counterSnapshot struct {
name string
tags map[string]string
value int64
}
func (s *counterSnapshot) Name() string {
return s.name
}
func (s *counterSnapshot) Tags() map[string]string {
return s.tags
}
func (s *counterSnapshot) Value() int64 {
return s.value
}
type gaugeSnapshot struct {
name string
tags map[string]string
value float64
}
func (s *gaugeSnapshot) Name() string {
return s.name
}
func (s *gaugeSnapshot) Tags() map[string]string {
return s.tags
}
func (s *gaugeSnapshot) Value() float64 {
return s.value
}
type timerSnapshot struct {
name string
tags map[string]string
values []time.Duration
}
func (s *timerSnapshot) Name() string {
return s.name
}
func (s *timerSnapshot) Tags() map[string]string {
return s.tags
}
func (s *timerSnapshot) Values() []time.Duration {
return s.values
}
type histogramSnapshot struct {
name string
tags map[string]string
values map[float64]int64
durations map[time.Duration]int64
}
func (s *histogramSnapshot) Name() string {
return s.name
}
func (s *histogramSnapshot) Tags() map[string]string {
return s.tags
}
func (s *histogramSnapshot) Values() map[float64]int64 {
return s.values
}
func (s *histogramSnapshot) Durations() map[time.Duration]int64 {
return s.durations
}