internal/lsp/debug/rpc.go - tools - Git at Google

 // Copyright 2019 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 package debug

 import (
 	"context"
 	"fmt"
 	"html/template"
 	"log"
 	"net/http"
 	"sort"

 	tlm "golang.org/x/tools/internal/lsp/telemetry"
 	"golang.org/x/tools/internal/telemetry"
 	"golang.org/x/tools/internal/telemetry/metric"
 )

 var rpcTmpl = template.Must(template.Must(BaseTemplate.Clone()).Parse(`
 {{define "title"}}RPC Information{{end}}
 {{define "body"}}
 	<H2>Inbound</H2>
 	{{template "rpcSection" .Inbound}}
 	<H2>Outbound</H2>
 	{{template "rpcSection" .Outbound}}
 {{end}}
 {{define "rpcSection"}}
 	{{range .}}<P>
 		<b>{{.Method}}</b> {{.Started}} <a href="/trace/{{.Method}}">traces</a> ({{.InProgress}} in progress)
 		<br>
 		<i>Latency</i> {{with .Latency}}{{.Mean}} ({{.Min}}<{{.Max}}){{end}}
 		<i>By bucket</i> 0s {{range .Latency.Values}}<b>{{.Count}}</b> {{.Limit}} {{end}}
 		<br>
 		<i>Received</i> {{with .Received}}{{.Mean}} ({{.Min}}<{{.Max}}){{end}}
 		<i>Sent</i> {{with .Sent}}{{.Mean}} ({{.Min}}<{{.Max}}){{end}}
 		<br>
 		<i>Result codes</i> {{range .Codes}}{{.Key}}={{.Count}} {{end}}
 		</P>
 	{{end}}
 {{end}}
 `))

 type rpcs struct {
 	Inbound  []*rpcStats
 	Outbound []*rpcStats
 }

 type rpcStats struct {
 	Method     string
 	Started    int64
 	Completed  int64
 	InProgress int64
 	Latency    rpcTimeHistogram
 	Received   rpcBytesHistogram
 	Sent       rpcBytesHistogram
 	Codes      []*rpcCodeBucket
 }

 type rpcTimeHistogram struct {
 	Sum    timeUnits
 	Count  int64
 	Mean   timeUnits
 	Min    timeUnits
 	Max    timeUnits
 	Values []rpcTimeBucket
 }

 type rpcTimeBucket struct {
 	Limit timeUnits
 	Count int64
 }

 type rpcBytesHistogram struct {
 	Sum    byteUnits
 	Count  int64
 	Mean   byteUnits
 	Min    byteUnits
 	Max    byteUnits
 	Values []rpcBytesBucket
 }

 type rpcBytesBucket struct {
 	Limit byteUnits
 	Count int64
 }

 type rpcCodeBucket struct {
 	Key   string
 	Count int64
 }

 func (r *rpcs) StartSpan(ctx context.Context, span *telemetry.Span)  {}
 func (r *rpcs) FinishSpan(ctx context.Context, span *telemetry.Span) {}
 func (r *rpcs) Log(ctx context.Context, event telemetry.Event)       {}
 func (r *rpcs) Flush()                                               {}

 func (r *rpcs) Metric(ctx context.Context, data telemetry.MetricData) {
 	for i, group := range data.Groups() {
 		set := &r.Inbound
 		if group.Get(tlm.RPCDirection) == tlm.Outbound {
 			set = &r.Outbound
 		}
 		method, ok := group.Get(tlm.Method).(string)
 		if !ok {
 			log.Printf("Not a method... %v", group)
 			continue
 		}
 		index := sort.Search(len(*set), func(i int) bool {
 			return (*set)[i].Method >= method
 		})
 		if index >= len(*set) || (*set)[index].Method != method {
 			old := *set
 			*set = make([]*rpcStats, len(old)+1)
 			copy(*set, old[:index])
 			copy((*set)[index+1:], old[index:])
 			(*set)[index] = &rpcStats{Method: method}
 		}
 		stats := (*set)[index]
 		switch data.Handle() {
 		case started:
 			stats.Started = data.(*metric.Int64Data).Rows[i]
 		case completed:
 			status, ok := group.Get(tlm.StatusCode).(string)
 			if !ok {
 				log.Printf("Not status... %v", group)
 				continue
 			}
 			var b *rpcCodeBucket
 			for c, entry := range stats.Codes {
 				if entry.Key == status {
 					b = stats.Codes[c]
 					break
 				}
 			}
 			if b == nil {
 				b = &rpcCodeBucket{Key: status}
 				stats.Codes = append(stats.Codes, b)
 				sort.Slice(stats.Codes, func(i int, j int) bool {
 					return stats.Codes[i].Key < stats.Codes[j].Key
 				})
 			}
 			b.Count = data.(*metric.Int64Data).Rows[i]
 		case latency:
 			data := data.(*metric.HistogramFloat64Data)
 			row := data.Rows[i]
 			stats.Latency.Count = row.Count
 			stats.Latency.Sum = timeUnits(row.Sum)
 			stats.Latency.Min = timeUnits(row.Min)
 			stats.Latency.Max = timeUnits(row.Max)
 			stats.Latency.Mean = timeUnits(row.Sum) / timeUnits(row.Count)
 			stats.Latency.Values = make([]rpcTimeBucket, len(data.Info.Buckets))
 			last := int64(0)
 			for i, b := range data.Info.Buckets {
 				stats.Latency.Values[i].Limit = timeUnits(b)
 				stats.Latency.Values[i].Count = row.Values[i] - last
 				last = row.Values[i]
 			}
 		case sentBytes:
 			data := data.(*metric.HistogramInt64Data)
 			row := data.Rows[i]
 			stats.Sent.Count = row.Count
 			stats.Sent.Sum = byteUnits(row.Sum)
 			stats.Sent.Min = byteUnits(row.Min)
 			stats.Sent.Max = byteUnits(row.Max)
 			stats.Sent.Mean = byteUnits(row.Sum) / byteUnits(row.Count)
 		case receivedBytes:
 			data := data.(*metric.HistogramInt64Data)
 			row := data.Rows[i]
 			stats.Received.Count = row.Count
 			stats.Received.Sum = byteUnits(row.Sum)
 			stats.Sent.Min = byteUnits(row.Min)
 			stats.Sent.Max = byteUnits(row.Max)
 			stats.Received.Mean = byteUnits(row.Sum) / byteUnits(row.Count)
 		}
 	}

 	for _, set := range [][]*rpcStats{r.Inbound, r.Outbound} {
 		for _, stats := range set {
 			stats.Completed = 0
 			for _, b := range stats.Codes {
 				stats.Completed += b.Count
 			}
 			stats.InProgress = stats.Started - stats.Completed
 		}
 	}
 }

 func (r *rpcs) getData(req *http.Request) interface{} {
 	return r
 }

 func units(v float64, suffixes []string) string {
 	s := ""
 	for _, s = range suffixes {
 		n := v / 1000
 		if n < 1 {
 			break
 		}
 		v = n
 	}
 	return fmt.Sprintf("%.2f%s", v, s)
 }

 type timeUnits float64

 func (v timeUnits) String() string {
 	v = v * 1000 * 1000
 	return units(float64(v), []string{"ns", "μs", "ms", "s"})
 }

 type byteUnits float64

 func (v byteUnits) String() string {
 	return units(float64(v), []string{"B", "KB", "MB", "GB", "TB"})
 }
	// Copyright 2019 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	package debug

	import (
	"context"
	"fmt"
	"html/template"
	"log"
	"net/http"
	"sort"

	tlm "golang.org/x/tools/internal/lsp/telemetry"
	"golang.org/x/tools/internal/telemetry"
	"golang.org/x/tools/internal/telemetry/metric"
	)

	var rpcTmpl = template.Must(template.Must(BaseTemplate.Clone()).Parse(`
	{{define "title"}}RPC Information{{end}}
	{{define "body"}}
	<H2>Inbound</H2>
	{{template "rpcSection" .Inbound}}
	<H2>Outbound</H2>
	{{template "rpcSection" .Outbound}}
	{{end}}
	{{define "rpcSection"}}
	{{range .}}<P>
	<b>{{.Method}}</b> {{.Started}} <a href="/trace/{{.Method}}">traces</a> ({{.InProgress}} in progress)
	<br>
	<i>Latency</i> {{with .Latency}}{{.Mean}} ({{.Min}}<{{.Max}}){{end}}
	<i>By bucket</i> 0s {{range .Latency.Values}}<b>{{.Count}}</b> {{.Limit}} {{end}}
	<br>
	<i>Received</i> {{with .Received}}{{.Mean}} ({{.Min}}<{{.Max}}){{end}}
	<i>Sent</i> {{with .Sent}}{{.Mean}} ({{.Min}}<{{.Max}}){{end}}
	<br>
	<i>Result codes</i> {{range .Codes}}{{.Key}}={{.Count}} {{end}}
	</P>
	{{end}}
	{{end}}
	`))

	type rpcs struct {
	Inbound []*rpcStats
	Outbound []*rpcStats
	}

	type rpcStats struct {
	Method string
	Started int64
	Completed int64
	InProgress int64
	Latency rpcTimeHistogram
	Received rpcBytesHistogram
	Sent rpcBytesHistogram
	Codes []*rpcCodeBucket
	}

	type rpcTimeHistogram struct {
	Sum timeUnits
	Count int64
	Mean timeUnits
	Min timeUnits
	Max timeUnits
	Values []rpcTimeBucket
	}

	type rpcTimeBucket struct {
	Limit timeUnits
	Count int64
	}

	type rpcBytesHistogram struct {
	Sum byteUnits
	Count int64
	Mean byteUnits
	Min byteUnits
	Max byteUnits
	Values []rpcBytesBucket
	}

	type rpcBytesBucket struct {
	Limit byteUnits
	Count int64
	}

	type rpcCodeBucket struct {
	Key string
	Count int64
	}

	func (r rpcs) StartSpan(ctx context.Context, span telemetry.Span) {}
	func (r rpcs) FinishSpan(ctx context.Context, span telemetry.Span) {}
	func (r *rpcs) Log(ctx context.Context, event telemetry.Event) {}
	func (r *rpcs) Flush() {}

	func (r *rpcs) Metric(ctx context.Context, data telemetry.MetricData) {
	for i, group := range data.Groups() {
	set := &r.Inbound
	if group.Get(tlm.RPCDirection) == tlm.Outbound {
	set = &r.Outbound
	}
	method, ok := group.Get(tlm.Method).(string)
	if !ok {
	log.Printf("Not a method... %v", group)
	continue
	}
	index := sort.Search(len(*set), func(i int) bool {
	return (*set)[i].Method >= method
	})
	if index >= len(set) \|\| (set)[index].Method != method {
	old := *set
	set = make([]rpcStats, len(old)+1)
	copy(*set, old[:index])
	copy((*set)[index+1:], old[index:])
	(*set)[index] = &rpcStats{Method: method}
	}
	stats := (*set)[index]
	switch data.Handle() {
	case started:
	stats.Started = data.(*metric.Int64Data).Rows[i]
	case completed:
	status, ok := group.Get(tlm.StatusCode).(string)
	if !ok {
	log.Printf("Not status... %v", group)
	continue
	}
	var b *rpcCodeBucket
	for c, entry := range stats.Codes {
	if entry.Key == status {
	b = stats.Codes[c]
	break
	}
	}
	if b == nil {
	b = &rpcCodeBucket{Key: status}
	stats.Codes = append(stats.Codes, b)
	sort.Slice(stats.Codes, func(i int, j int) bool {
	return stats.Codes[i].Key < stats.Codes[j].Key
	})
	}
	b.Count = data.(*metric.Int64Data).Rows[i]
	case latency:
	data := data.(*metric.HistogramFloat64Data)
	row := data.Rows[i]
	stats.Latency.Count = row.Count
	stats.Latency.Sum = timeUnits(row.Sum)
	stats.Latency.Min = timeUnits(row.Min)
	stats.Latency.Max = timeUnits(row.Max)
	stats.Latency.Mean = timeUnits(row.Sum) / timeUnits(row.Count)
	stats.Latency.Values = make([]rpcTimeBucket, len(data.Info.Buckets))
	last := int64(0)
	for i, b := range data.Info.Buckets {
	stats.Latency.Values[i].Limit = timeUnits(b)
	stats.Latency.Values[i].Count = row.Values[i] - last
	last = row.Values[i]
	}
	case sentBytes:
	data := data.(*metric.HistogramInt64Data)
	row := data.Rows[i]
	stats.Sent.Count = row.Count
	stats.Sent.Sum = byteUnits(row.Sum)
	stats.Sent.Min = byteUnits(row.Min)
	stats.Sent.Max = byteUnits(row.Max)
	stats.Sent.Mean = byteUnits(row.Sum) / byteUnits(row.Count)
	case receivedBytes:
	data := data.(*metric.HistogramInt64Data)
	row := data.Rows[i]
	stats.Received.Count = row.Count
	stats.Received.Sum = byteUnits(row.Sum)
	stats.Sent.Min = byteUnits(row.Min)
	stats.Sent.Max = byteUnits(row.Max)
	stats.Received.Mean = byteUnits(row.Sum) / byteUnits(row.Count)
	}
	}

	for _, set := range [][]*rpcStats{r.Inbound, r.Outbound} {
	for _, stats := range set {
	stats.Completed = 0
	for _, b := range stats.Codes {
	stats.Completed += b.Count
	}
	stats.InProgress = stats.Started - stats.Completed
	}
	}
	}

	func (r rpcs) getData(req http.Request) interface{} {
	return r
	}

	func units(v float64, suffixes []string) string {
	s := ""
	for _, s = range suffixes {
	n := v / 1000
	if n < 1 {
	break
	}
	v = n
	}
	return fmt.Sprintf("%.2f%s", v, s)
	}

	type timeUnits float64

	func (v timeUnits) String() string {
	v = v * 1000 * 1000
	return units(float64(v), []string{"ns", "μs", "ms", "s"})
	}

	type byteUnits float64

	func (v byteUnits) String() string {
	return units(float64(v), []string{"B", "KB", "MB", "GB", "TB"})
	}