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// Copyright 2014 Prometheus Team
// 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.
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// Copyright (c) 2013, Prometheus Team
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// All rights reserved.
//
// Use of this source code is governed by a BSD-style license that can be found
// in the LICENSE file.
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package prometheus
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import (
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"bytes"
"encoding/binary"
"errors"
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"fmt"
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"hash/fnv"
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"io"
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"net/http"
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"sort"
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"sync"
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dto "github.com/prometheus/client_model/go"
"code.google.com/p/goprotobuf/proto"
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"github.com/prometheus/client_golang/_vendor/goautoneg"
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"github.com/prometheus/client_golang/text"
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)
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var (
defRegistry = newRegistry ( )
errAlreadyReg = errors . New ( "duplicate metrics collector registration attempted" )
)
// Constants relevant to the HTTP interface.
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const (
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// APIVersion is the version of the format of the exported data. This
// will match this library's version, which subscribes to the Semantic
// Versioning scheme.
APIVersion = "0.0.4"
// DelimitedTelemetryContentType is the content type set on telemetry
// data responses in delimited protobuf format.
DelimitedTelemetryContentType = ` application/vnd.google.protobuf; proto="io.prometheus.client.MetricFamily"; encoding="delimited" `
// TextTelemetryContentType is the content type set on telemetry data
// responses in text format.
TextTelemetryContentType = ` text/plain; version= ` + APIVersion
// ProtoTextTelemetryContentType is the content type set on telemetry
// data responses in protobuf text format. (Only used for debugging.)
ProtoTextTelemetryContentType = ` application/vnd.google.protobuf; proto="io.prometheus.client.MetricFamily"; encoding="text" `
// ProtoCompactTextTelemetryContentType is the content type set on
// telemetry data responses in protobuf compact text format. (Only used
// for debugging.)
ProtoCompactTextTelemetryContentType = ` application/vnd.google.protobuf; proto="io.prometheus.client.MetricFamily"; encoding="compact-text" `
// Constants for object pools.
numBufs = 4
numMetricFamilies = 1000
numMetrics = 10000
// Capacity for the channel to collect metrics and descriptors.
capMetricChan = 1000
capDescChan = 10
contentTypeHeader = "Content-Type"
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)
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// Handler returns the HTTP handler for the global Prometheus registry. It is
// already instrumented with InstrumentHandler (using "prometheus" as handler
// name). Usually the handler is used to handle the "/metrics" endpoint.
func Handler ( ) http . Handler {
return InstrumentHandler ( "prometheus" , defRegistry )
}
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// UninstrumentedHandler works in the same way as Handler, but the returned HTTP
// handler is not instrumented. This is useful if no instrumentation is desired
// (for whatever reason) or if the instrumentation has to happen with a
// different handler name (or with a different instrumentation approach
// altogether). See the InstrumentHandler example.
func UninstrumentedHandler ( ) http . Handler {
return defRegistry
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}
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// Register registers a new Collector to be included in metrics collection. It
// returns an error if the descriptors provided by the Collector are invalid or
// if they - in combination with descriptors of already registered Collectors -
// do not fulfill the consistency and uniqueness criteria described in the Desc
// documentation. If the registration is successful, the registered Collector
// is returned.
//
// Do not register the same Collector multiple times concurrently. (Registering
// the same Collector twice would result in an error anyway, but on top of that,
// it is not safe to do so concurrently.)
func Register ( m Collector ) ( Collector , error ) {
return defRegistry . Register ( m )
}
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// MustRegister works like Register but panics where Register would have
// returned an error.
func MustRegister ( m Collector ) Collector {
m , err := Register ( m )
if err != nil {
panic ( err )
}
return m
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}
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// RegisterOrGet works like Register but does not return an error if a Collector
// is registered that equals a previously registered Collector. (Two Collectors
// are considered equal if their Describe method yields the same set of
// descriptors.) Instead, the previously registered Collector is returned (which
// is helpful if the new and previously registered Collectors are equal but not
// identical, i.e. not pointers to the same object).
//
// As for Register, it is still not safe to call RegisterOrGet with the same
// Collector multiple times concurrently.
func RegisterOrGet ( m Collector ) ( Collector , error ) {
return defRegistry . RegisterOrGet ( m )
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}
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// MustRegisterOrGet works like Register but panics where RegisterOrGet would
// have returned an error.
func MustRegisterOrGet ( m Collector ) Collector {
existing , err := RegisterOrGet ( m )
if err != nil {
panic ( err )
}
return existing
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}
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// Unregister unregisters the Collector that equals the Collector passed in as
// an argument. (Two Collectors are considered equal if their Describe method
// yields the same set of descriptors.) The function returns whether a Collector
// was unregistered.
func Unregister ( c Collector ) bool {
return defRegistry . Unregister ( c )
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}
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// SetMetricFamilyInjectionHook sets a function that is called whenever metrics
// are collected. The hook function must be set before metrics collection begins
// (i.e. call SetMetricFamilyInjectionHook before setting the HTTP handler.) The
// MetricFamily protobufs returned by the hook function are added to the
// delivered metrics. Each returned MetricFamily must have a unique name (also
// taking into account the MetricFamilies created in the regular way).
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//
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// This is a way to directly inject MetricFamily protobufs managed and owned by
// the caller. The caller has full responsibility. No sanity checks are
// performed on the returned protobufs (besides the name checks described
// above). The function must be callable at any time and concurrently.
func SetMetricFamilyInjectionHook ( hook func ( ) [ ] * dto . MetricFamily ) {
defRegistry . metricFamilyInjectionHook = hook
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}
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// PanicOnCollectError sets the behavior whether a panic is caused upon an error
// while metrics are collected and served to the http endpoint. By default, an
// internal server error (status code 500) is served with an error message.
func PanicOnCollectError ( b bool ) {
defRegistry . panicOnCollectError = b
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}
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// EnableCollectChecks enables (or disables) additional consistency checks
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// during metrics collection. These additional checks are not enabled by default
// because they inflict a performance penalty and the errors they check for can
// only happen if the used Metric and Collector types have internal programming
// errors. It can be helpful to enable these checks while working with custom
// Collectors or Metrics whose correctness is not well established yet.
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func EnableCollectChecks ( b bool ) {
defRegistry . collectChecksEnabled = b
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}
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// encoder is a function that writes a dto.MetricFamily to an io.Writer in a
// certain encoding. It returns the number of bytes written and any error
// encountered. Note that ext.WriteDelimited and text.MetricFamilyToText are
// encoders.
type encoder func ( io . Writer , * dto . MetricFamily ) ( int , error )
type registry struct {
mtx sync . RWMutex
collectorsByID map [ uint64 ] Collector // ID is a hash of the descIDs.
descIDs map [ uint64 ] struct { }
dimHashesByName map [ string ] uint64
bufPool chan * bytes . Buffer
metricFamilyPool chan * dto . MetricFamily
metricPool chan * dto . Metric
metricFamilyInjectionHook func ( ) [ ] * dto . MetricFamily
panicOnCollectError , collectChecksEnabled bool
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}
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func ( r * registry ) Register ( c Collector ) ( Collector , error ) {
descChan := make ( chan * Desc , capDescChan )
go func ( ) {
c . Describe ( descChan )
close ( descChan )
} ( )
newDescIDs := map [ uint64 ] struct { } { }
newDimHashesByName := map [ string ] uint64 { }
collectorIDHash := fnv . New64a ( )
buf := make ( [ ] byte , 8 )
var duplicateDescErr error
r . mtx . Lock ( )
defer r . mtx . Unlock ( )
// Coduct various tests...
for desc := range descChan {
// Is the descriptor valid at all?
if desc . err != nil {
return c , fmt . Errorf ( "descriptor %s is invalid: %s" , desc , desc . err )
}
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// Is the descID unique?
// (In other words: Is the fqName + constLabel combination unique?)
if _ , exists := r . descIDs [ desc . id ] ; exists {
duplicateDescErr = fmt . Errorf ( "descriptor %s already exists with the same fully-qualified name and const label values" , desc )
}
// If it is not a duplicate desc in this collector, add it to
// the hash. (We allow duplicate descs within the same
// collector, but their existence must be a no-op.)
if _ , exists := newDescIDs [ desc . id ] ; ! exists {
newDescIDs [ desc . id ] = struct { } { }
binary . BigEndian . PutUint64 ( buf , desc . id )
collectorIDHash . Write ( buf )
}
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// Are all the label names and the help string consistent with
// previous descriptors of the same name?
// First check existing descriptors...
if dimHash , exists := r . dimHashesByName [ desc . fqName ] ; exists {
if dimHash != desc . dimHash {
return nil , fmt . Errorf ( "a previously registered descriptor with the same fully-qualified name as %s has different label names or a different help string" , desc )
}
} else {
// ...then check the new descriptors already seen.
if dimHash , exists := newDimHashesByName [ desc . fqName ] ; exists {
if dimHash != desc . dimHash {
return nil , fmt . Errorf ( "descriptors reported by collector have inconsistent label names or help strings for the same fully-qualified name, offender is %s" , desc )
}
} else {
newDimHashesByName [ desc . fqName ] = desc . dimHash
}
}
}
// Did anything happen at all?
if len ( newDescIDs ) == 0 {
return nil , errors . New ( "collector has no descriptors" )
}
collectorID := collectorIDHash . Sum64 ( )
if existing , exists := r . collectorsByID [ collectorID ] ; exists {
return existing , errAlreadyReg
}
// If the collectorID is new, but at least one of the descs existed
// before, we are in trouble.
if duplicateDescErr != nil {
return nil , duplicateDescErr
}
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// Only after all tests have passed, actually register.
r . collectorsByID [ collectorID ] = c
for hash := range newDescIDs {
r . descIDs [ hash ] = struct { } { }
}
for name , dimHash := range newDimHashesByName {
r . dimHashesByName [ name ] = dimHash
}
return c , nil
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}
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func ( r * registry ) RegisterOrGet ( m Collector ) ( Collector , error ) {
existing , err := r . Register ( m )
if err != nil && err != errAlreadyReg {
return nil , err
}
return existing , nil
}
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func ( r * registry ) Unregister ( c Collector ) bool {
descChan := make ( chan * Desc , capDescChan )
go func ( ) {
c . Describe ( descChan )
close ( descChan )
} ( )
descIDs := map [ uint64 ] struct { } { }
collectorIDHash := fnv . New64a ( )
buf := make ( [ ] byte , 8 )
for desc := range descChan {
if _ , exists := descIDs [ desc . id ] ; ! exists {
binary . BigEndian . PutUint64 ( buf , desc . id )
collectorIDHash . Write ( buf )
descIDs [ desc . id ] = struct { } { }
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}
}
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collectorID := collectorIDHash . Sum64 ( )
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r . mtx . RLock ( )
if _ , exists := r . collectorsByID [ collectorID ] ; ! exists {
r . mtx . RUnlock ( )
return false
}
r . mtx . RUnlock ( )
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r . mtx . Lock ( )
defer r . mtx . Unlock ( )
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delete ( r . collectorsByID , collectorID )
for id := range descIDs {
delete ( r . descIDs , id )
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}
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// dimHashesByName is left untouched as those must be consistent
// throughout the lifetime of a program.
return true
}
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func ( r * registry ) ServeHTTP ( w http . ResponseWriter , req * http . Request ) {
enc , contentType := chooseEncoder ( req )
buf := r . getBuf ( )
defer r . giveBuf ( buf )
header := w . Header ( )
if _ , err := r . writePB ( buf , enc ) ; err != nil {
if r . panicOnCollectError {
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panic ( err )
}
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http . Error ( w , "An error has occurred:\n\n" + err . Error ( ) , http . StatusInternalServerError )
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return
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}
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header . Set ( contentTypeHeader , contentType )
w . Write ( buf . Bytes ( ) )
}
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func ( r * registry ) writePB ( w io . Writer , writeEncoded encoder ) ( int , error ) {
metricFamiliesByName := make ( map [ string ] * dto . MetricFamily , len ( r . dimHashesByName ) )
var metricHashes map [ uint64 ] struct { }
if r . collectChecksEnabled {
metricHashes = make ( map [ uint64 ] struct { } )
}
metricChan := make ( chan Metric , capMetricChan )
wg := sync . WaitGroup { }
// Scatter.
// (Collectors could be complex and slow, so we call them all at once.)
r . mtx . RLock ( )
wg . Add ( len ( r . collectorsByID ) )
go func ( ) {
wg . Wait ( )
close ( metricChan )
} ( )
for _ , collector := range r . collectorsByID {
go func ( collector Collector ) {
defer wg . Done ( )
collector . Collect ( metricChan )
} ( collector )
}
r . mtx . RUnlock ( )
// Gather.
for metric := range metricChan {
// This could be done concurrently, too, but it required locking
// of metricFamiliesByName (and of metricHashes if checks are
// enabled). Most likely not worth it.
desc := metric . Desc ( )
metricFamily , ok := metricFamiliesByName [ desc . fqName ]
if ! ok {
metricFamily = r . getMetricFamily ( )
defer r . giveMetricFamily ( metricFamily )
metricFamily . Name = proto . String ( desc . fqName )
metricFamily . Help = proto . String ( desc . help )
metricFamiliesByName [ desc . fqName ] = metricFamily
}
dtoMetric := r . getMetric ( )
defer r . giveMetric ( dtoMetric )
metric . Write ( dtoMetric )
switch {
case metricFamily . Type != nil :
// Type already set. We are good.
case dtoMetric . Gauge != nil :
metricFamily . Type = dto . MetricType_GAUGE . Enum ( )
case dtoMetric . Counter != nil :
metricFamily . Type = dto . MetricType_COUNTER . Enum ( )
case dtoMetric . Summary != nil :
metricFamily . Type = dto . MetricType_SUMMARY . Enum ( )
case dtoMetric . Untyped != nil :
metricFamily . Type = dto . MetricType_UNTYPED . Enum ( )
default :
return 0 , fmt . Errorf ( "empty metric collected: %s" , dtoMetric )
}
if r . collectChecksEnabled {
if err := r . checkConsistency ( metricFamily , dtoMetric , desc , metricHashes ) ; err != nil {
return 0 , err
}
}
metricFamily . Metric = append ( metricFamily . Metric , dtoMetric )
}
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if r . metricFamilyInjectionHook != nil {
for _ , mf := range r . metricFamilyInjectionHook ( ) {
if _ , exists := metricFamiliesByName [ mf . GetName ( ) ] ; exists {
return 0 , fmt . Errorf ( "metric family with duplicate name injected: %s" , mf )
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}
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metricFamiliesByName [ mf . GetName ( ) ] = mf
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}
}
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// Now that MetricFamilies are all set, sort their Metrics
// lexicographically by their label values.
for _ , mf := range metricFamiliesByName {
sort . Sort ( metricSorter ( mf . Metric ) )
}
// Write out MetricFamilies sorted by their name.
names := make ( [ ] string , 0 , len ( metricFamiliesByName ) )
for name := range metricFamiliesByName {
names = append ( names , name )
}
sort . Strings ( names )
var written int
for _ , name := range names {
w , err := writeEncoded ( w , metricFamiliesByName [ name ] )
written += w
if err != nil {
return written , err
}
}
return written , nil
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}
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func ( r * registry ) checkConsistency ( metricFamily * dto . MetricFamily , dtoMetric * dto . Metric , desc * Desc , metricHashes map [ uint64 ] struct { } ) error {
// Type consistency with metric family.
if metricFamily . GetType ( ) == dto . MetricType_GAUGE && dtoMetric . Gauge == nil ||
metricFamily . GetType ( ) == dto . MetricType_COUNTER && dtoMetric . Counter == nil ||
metricFamily . GetType ( ) == dto . MetricType_SUMMARY && dtoMetric . Summary == nil ||
metricFamily . GetType ( ) == dto . MetricType_UNTYPED && dtoMetric . Untyped == nil {
return fmt . Errorf (
"collected metric %q is not a %s" ,
dtoMetric , metricFamily . Type ,
)
}
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// Desc consistency with metric family.
if metricFamily . GetHelp ( ) != desc . help {
return fmt . Errorf (
"collected metric %q has help %q but should have %q" ,
dtoMetric , desc . help , metricFamily . GetHelp ( ) ,
)
}
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// Is the desc consistent with the content of the metric?
lpsFromDesc := make ( [ ] * dto . LabelPair , 0 , len ( dtoMetric . Label ) )
lpsFromDesc = append ( lpsFromDesc , desc . constLabelPairs ... )
for _ , l := range desc . variableLabels {
lpsFromDesc = append ( lpsFromDesc , & dto . LabelPair {
Name : proto . String ( l ) ,
} )
}
if len ( lpsFromDesc ) != len ( dtoMetric . Label ) {
return fmt . Errorf (
"labels in collected metric %q are inconsistent with descriptor %s" ,
dtoMetric , desc ,
)
}
sort . Sort ( LabelPairSorter ( lpsFromDesc ) )
for i , lpFromDesc := range lpsFromDesc {
lpFromMetric := dtoMetric . Label [ i ]
if lpFromDesc . GetName ( ) != lpFromMetric . GetName ( ) ||
lpFromDesc . Value != nil && lpFromDesc . GetValue ( ) != lpFromMetric . GetValue ( ) {
return fmt . Errorf (
"labels in collected metric %q are inconsistent with descriptor %s" ,
dtoMetric , desc ,
)
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}
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}
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// Is the metric unique (i.e. no other metric with the same name and the same label values)?
h := fnv . New64a ( )
var buf bytes . Buffer
buf . WriteString ( desc . fqName )
h . Write ( buf . Bytes ( ) )
for _ , lp := range dtoMetric . Label {
buf . Reset ( )
buf . WriteString ( lp . GetValue ( ) )
h . Write ( buf . Bytes ( ) )
}
metricHash := h . Sum64 ( )
if _ , exists := metricHashes [ metricHash ] ; exists {
return fmt . Errorf (
"collected metric %q was collected before with the same name and label values" ,
dtoMetric ,
)
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}
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metricHashes [ metricHash ] = struct { } { }
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r . mtx . RLock ( ) // Remaining checks need the read lock.
defer r . mtx . RUnlock ( )
// Is the desc registered?
if _ , exist := r . descIDs [ desc . id ] ; ! exist {
return fmt . Errorf ( "collected metric %q with unregistered descriptor %s" , dtoMetric , desc )
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}
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return nil
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}
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func ( r * registry ) getBuf ( ) * bytes . Buffer {
select {
case buf := <- r . bufPool :
return buf
default :
return & bytes . Buffer { }
}
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}
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func ( r * registry ) giveBuf ( buf * bytes . Buffer ) {
buf . Reset ( )
select {
case r . bufPool <- buf :
default :
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}
}
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func ( r * registry ) getMetricFamily ( ) * dto . MetricFamily {
select {
case mf := <- r . metricFamilyPool :
return mf
default :
return & dto . MetricFamily { }
}
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}
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func ( r * registry ) giveMetricFamily ( mf * dto . MetricFamily ) {
mf . Reset ( )
select {
case r . metricFamilyPool <- mf :
default :
}
}
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func ( r * registry ) getMetric ( ) * dto . Metric {
select {
case m := <- r . metricPool :
return m
default :
return & dto . Metric { }
}
}
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func ( r * registry ) giveMetric ( m * dto . Metric ) {
m . Reset ( )
select {
case r . metricPool <- m :
default :
}
}
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func newRegistry ( ) * registry {
return & registry {
collectorsByID : map [ uint64 ] Collector { } ,
descIDs : map [ uint64 ] struct { } { } ,
dimHashesByName : map [ string ] uint64 { } ,
bufPool : make ( chan * bytes . Buffer , numBufs ) ,
metricFamilyPool : make ( chan * dto . MetricFamily , numMetricFamilies ) ,
metricPool : make ( chan * dto . Metric , numMetrics ) ,
}
}
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func chooseEncoder ( req * http . Request ) ( encoder , string ) {
accepts := goautoneg . ParseAccept ( req . Header . Get ( "Accept" ) )
for _ , accept := range accepts {
switch {
case accept . Type == "application" &&
accept . SubType == "vnd.google.protobuf" &&
accept . Params [ "proto" ] == "io.prometheus.client.MetricFamily" :
switch accept . Params [ "encoding" ] {
case "delimited" :
return text . WriteProtoDelimited , DelimitedTelemetryContentType
case "text" :
return text . WriteProtoText , ProtoTextTelemetryContentType
case "compact-text" :
return text . WriteProtoCompactText , ProtoCompactTextTelemetryContentType
default :
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continue
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}
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case accept . Type == "text" &&
accept . SubType == "plain" &&
( accept . Params [ "version" ] == "0.0.4" || accept . Params [ "version" ] == "" ) :
return text . MetricFamilyToText , TextTelemetryContentType
default :
continue
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}
}
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return text . MetricFamilyToText , TextTelemetryContentType
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}
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type metricSorter [ ] * dto . Metric
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func ( s metricSorter ) Len ( ) int {
return len ( s )
}
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func ( s metricSorter ) Swap ( i , j int ) {
s [ i ] , s [ j ] = s [ j ] , s [ i ]
}
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func ( s metricSorter ) Less ( i , j int ) bool {
for n , lp := range s [ i ] . Label {
vi := lp . GetValue ( )
vj := s [ j ] . Label [ n ] . GetValue ( )
if vi != vj {
return vi < vj
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}
}
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return true
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}