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jaegerproto_to_traces.go
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jaegerproto_to_traces.go
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// Copyright The OpenTelemetry Authors
// SPDX-License-Identifier: Apache-2.0
package jaeger // import "github.com/open-telemetry/opentelemetry-collector-contrib/pkg/translator/jaeger"
import (
"encoding/base64"
"encoding/binary"
"fmt"
"hash/fnv"
"reflect"
"strconv"
"strings"
"github.com/jaegertracing/jaeger/model"
"go.opentelemetry.io/collector/pdata/pcommon"
"go.opentelemetry.io/collector/pdata/ptrace"
conventions "go.opentelemetry.io/collector/semconv/v1.9.0"
"github.com/open-telemetry/opentelemetry-collector-contrib/internal/coreinternal/idutils"
"github.com/open-telemetry/opentelemetry-collector-contrib/internal/coreinternal/occonventions"
"github.com/open-telemetry/opentelemetry-collector-contrib/internal/coreinternal/tracetranslator"
)
var blankJaegerProtoSpan = new(model.Span)
// ProtoToTraces converts multiple Jaeger proto batches to internal traces
func ProtoToTraces(batches []*model.Batch) (ptrace.Traces, error) {
traceData := ptrace.NewTraces()
if len(batches) == 0 {
return traceData, nil
}
batches = regroup(batches)
rss := traceData.ResourceSpans()
rss.EnsureCapacity(len(batches))
for _, batch := range batches {
if batch.GetProcess() == nil && len(batch.GetSpans()) == 0 {
continue
}
protoBatchToResourceSpans(*batch, rss.AppendEmpty())
}
return traceData, nil
}
func regroup(batches []*model.Batch) []*model.Batch {
// Re-group batches
// This is needed as there might be a Process within Batch and Span at the same
// time, with the span one taking precedence.
// As we only have it at one level in OpenTelemetry, ResourceSpans, we split
// each batch into potentially multiple other batches, with the sum of their
// processes as the key to a map.
// Step 1) iterate over the batches
// Step 2) for each batch, calculate the batch's process checksum and store
// it on a map, with the checksum as the key and the process as the value
// Step 3) iterate the spans for a batch: if a given span has its own process,
// calculate the checksum for the process and store it on the same map
// Step 4) each entry on the map becomes a ResourceSpan
registry := map[uint64]*model.Batch{}
for _, batch := range batches {
bb := batchForProcess(registry, batch.Process)
for _, span := range batch.Spans {
if span.Process == nil {
bb.Spans = append(bb.Spans, span)
} else {
b := batchForProcess(registry, span.Process)
b.Spans = append(b.Spans, span)
}
}
}
result := make([]*model.Batch, 0, len(registry))
for _, v := range registry {
result = append(result, v)
}
return result
}
func batchForProcess(registry map[uint64]*model.Batch, p *model.Process) *model.Batch {
sum := checksum(p)
batch := registry[sum]
if batch == nil {
batch = &model.Batch{
Process: p,
}
registry[sum] = batch
}
return batch
}
func checksum(process *model.Process) uint64 {
// this will get all the keys and values, plus service name, into this buffer
// this is potentially dangerous, as a batch/span with a big enough processes
// might cause the collector to allocate this extra big information
// for this reason, we hash it as an integer and return it, instead of keeping
// all the hashes for all the processes for all batches in memory
fnvHash := fnv.New64a()
if process != nil {
// this effectively means that all spans from batches with nil processes
// will be grouped together
// this should only ever happen in unit tests
// this implementation never returns an error according to the Hash interface
_ = process.Hash(fnvHash)
}
out := make([]byte, 0, 16)
out = fnvHash.Sum(out)
return binary.BigEndian.Uint64(out)
}
func protoBatchToResourceSpans(batch model.Batch, dest ptrace.ResourceSpans) {
jSpans := batch.GetSpans()
jProcessToInternalResource(batch.GetProcess(), dest.Resource())
if len(jSpans) == 0 {
return
}
jSpansToInternal(jSpans, dest.ScopeSpans())
}
func jProcessToInternalResource(process *model.Process, dest pcommon.Resource) {
if process == nil || process.ServiceName == tracetranslator.ResourceNoServiceName {
return
}
serviceName := process.ServiceName
tags := process.Tags
if serviceName == "" && tags == nil {
return
}
attrs := dest.Attributes()
if serviceName != "" {
attrs.EnsureCapacity(len(tags) + 1)
attrs.PutStr(conventions.AttributeServiceName, serviceName)
} else {
attrs.EnsureCapacity(len(tags))
}
jTagsToInternalAttributes(tags, attrs)
// Handle special keys translations.
translateHostnameAttr(attrs)
translateJaegerVersionAttr(attrs)
}
// translateHostnameAttr translates "hostname" atttribute
func translateHostnameAttr(attrs pcommon.Map) {
hostname, hostnameFound := attrs.Get("hostname")
_, convHostNameFound := attrs.Get(conventions.AttributeHostName)
if hostnameFound && !convHostNameFound {
hostname.CopyTo(attrs.PutEmpty(conventions.AttributeHostName))
attrs.Remove("hostname")
}
}
// translateHostnameAttr translates "jaeger.version" atttribute
func translateJaegerVersionAttr(attrs pcommon.Map) {
jaegerVersion, jaegerVersionFound := attrs.Get("jaeger.version")
_, exporterVersionFound := attrs.Get(occonventions.AttributeExporterVersion)
if jaegerVersionFound && !exporterVersionFound {
attrs.PutStr(occonventions.AttributeExporterVersion, "Jaeger-"+jaegerVersion.Str())
attrs.Remove("jaeger.version")
}
}
type scope struct {
name, version string
}
func jSpansToInternal(spans []*model.Span, dest ptrace.ScopeSpansSlice) {
spansByLibrary := make(map[scope]ptrace.SpanSlice)
for _, span := range spans {
if span == nil || reflect.DeepEqual(span, blankJaegerProtoSpan) {
continue
}
il := getScope(span)
sps, found := spansByLibrary[il]
if !found {
ss := dest.AppendEmpty()
ss.Scope().SetName(il.name)
ss.Scope().SetVersion(il.version)
sps = ss.Spans()
spansByLibrary[il] = sps
}
jSpanToInternal(span, sps.AppendEmpty())
}
}
func jSpanToInternal(span *model.Span, dest ptrace.Span) {
dest.SetTraceID(idutils.UInt64ToTraceID(span.TraceID.High, span.TraceID.Low))
dest.SetSpanID(idutils.UInt64ToSpanID(uint64(span.SpanID)))
dest.SetName(span.OperationName)
dest.SetStartTimestamp(pcommon.NewTimestampFromTime(span.StartTime))
dest.SetEndTimestamp(pcommon.NewTimestampFromTime(span.StartTime.Add(span.Duration)))
parentSpanID := span.ParentSpanID()
if parentSpanID != model.SpanID(0) {
dest.SetParentSpanID(idutils.UInt64ToSpanID(uint64(parentSpanID)))
}
attrs := dest.Attributes()
attrs.EnsureCapacity(len(span.Tags))
jTagsToInternalAttributes(span.Tags, attrs)
if spanKindAttr, ok := attrs.Get(tracetranslator.TagSpanKind); ok {
dest.SetKind(jSpanKindToInternal(spanKindAttr.Str()))
attrs.Remove(tracetranslator.TagSpanKind)
}
setInternalSpanStatus(attrs, dest)
dest.TraceState().FromRaw(getTraceStateFromAttrs(attrs))
// drop the attributes slice if all of them were replaced during translation
if attrs.Len() == 0 {
attrs.Clear()
}
jLogsToSpanEvents(span.Logs, dest.Events())
jReferencesToSpanLinks(span.References, parentSpanID, dest.Links())
}
func jTagsToInternalAttributes(tags []model.KeyValue, dest pcommon.Map) {
for _, tag := range tags {
switch tag.GetVType() {
case model.ValueType_STRING:
dest.PutStr(tag.Key, tag.GetVStr())
case model.ValueType_BOOL:
dest.PutBool(tag.Key, tag.GetVBool())
case model.ValueType_INT64:
dest.PutInt(tag.Key, tag.GetVInt64())
case model.ValueType_FLOAT64:
dest.PutDouble(tag.Key, tag.GetVFloat64())
case model.ValueType_BINARY:
dest.PutStr(tag.Key, base64.StdEncoding.EncodeToString(tag.GetVBinary()))
default:
dest.PutStr(tag.Key, fmt.Sprintf("<Unknown Jaeger TagType %q>", tag.GetVType()))
}
}
}
func setInternalSpanStatus(attrs pcommon.Map, span ptrace.Span) {
dest := span.Status()
statusCode := ptrace.StatusCodeUnset
statusMessage := ""
statusExists := false
if errorVal, ok := attrs.Get(tracetranslator.TagError); ok && errorVal.Type() == pcommon.ValueTypeBool {
if errorVal.Bool() {
statusCode = ptrace.StatusCodeError
attrs.Remove(tracetranslator.TagError)
statusExists = true
if desc, ok := extractStatusDescFromAttr(attrs); ok {
statusMessage = desc
} else if descAttr, ok := attrs.Get(tracetranslator.TagHTTPStatusMsg); ok {
statusMessage = descAttr.Str()
}
}
}
if codeAttr, ok := attrs.Get(conventions.OtelStatusCode); ok {
if !statusExists {
// The error tag is the ultimate truth for a Jaeger spans' error
// status. Only parse the otel.status_code tag if the error tag is
// not set to true.
statusExists = true
switch strings.ToUpper(codeAttr.Str()) {
case statusOk:
statusCode = ptrace.StatusCodeOk
case statusError:
statusCode = ptrace.StatusCodeError
}
if desc, ok := extractStatusDescFromAttr(attrs); ok {
statusMessage = desc
}
}
// Regardless of error tag value, remove the otel.status_code tag. The
// otel.status_message tag will have already been removed if
// statusExists is true.
attrs.Remove(conventions.OtelStatusCode)
} else if httpCodeAttr, ok := attrs.Get(conventions.AttributeHTTPStatusCode); !statusExists && ok {
// Fallback to introspecting if this span represents a failed HTTP
// request or response, but again, only do so if the `error` tag was
// not set to true and no explicit status was sent.
if code, err := getStatusCodeFromHTTPStatusAttr(httpCodeAttr, span.Kind()); err == nil {
if code != ptrace.StatusCodeUnset {
statusExists = true
statusCode = code
}
if msgAttr, ok := attrs.Get(tracetranslator.TagHTTPStatusMsg); ok {
statusMessage = msgAttr.Str()
}
}
}
if statusExists {
dest.SetCode(statusCode)
dest.SetMessage(statusMessage)
}
}
// extractStatusDescFromAttr returns the OTel status description from attrs
// along with true if it is set. Otherwise, an empty string and false are
// returned. The OTel status description attribute is deleted from attrs in
// the process.
func extractStatusDescFromAttr(attrs pcommon.Map) (string, bool) {
if msgAttr, ok := attrs.Get(conventions.OtelStatusDescription); ok {
msg := msgAttr.Str()
attrs.Remove(conventions.OtelStatusDescription)
return msg, true
}
return "", false
}
// codeFromAttr returns the integer code value from attrVal. An error is
// returned if the code is not represented by an integer or string value in
// the attrVal or the value is outside the bounds of an int representation.
func codeFromAttr(attrVal pcommon.Value) (int64, error) {
var val int64
switch attrVal.Type() {
case pcommon.ValueTypeInt:
val = attrVal.Int()
case pcommon.ValueTypeStr:
var err error
val, err = strconv.ParseInt(attrVal.Str(), 10, 0)
if err != nil {
return 0, err
}
default:
return 0, fmt.Errorf("%w: %s", errType, attrVal.Type().String())
}
return val, nil
}
func getStatusCodeFromHTTPStatusAttr(attrVal pcommon.Value, kind ptrace.SpanKind) (ptrace.StatusCode, error) {
statusCode, err := codeFromAttr(attrVal)
if err != nil {
return ptrace.StatusCodeUnset, err
}
// For HTTP status codes in the 4xx range span status MUST be left unset
// in case of SpanKind.SERVER and MUST be set to Error in case of SpanKind.CLIENT.
// For HTTP status codes in the 5xx range, as well as any other code the client
// failed to interpret, span status MUST be set to Error.
if statusCode >= 400 && statusCode < 500 {
switch kind {
case ptrace.SpanKindClient:
return ptrace.StatusCodeError, nil
case ptrace.SpanKindServer:
return ptrace.StatusCodeUnset, nil
}
}
return tracetranslator.StatusCodeFromHTTP(statusCode), nil
}
func jSpanKindToInternal(spanKind string) ptrace.SpanKind {
switch spanKind {
case "client":
return ptrace.SpanKindClient
case "server":
return ptrace.SpanKindServer
case "producer":
return ptrace.SpanKindProducer
case "consumer":
return ptrace.SpanKindConsumer
case "internal":
return ptrace.SpanKindInternal
}
return ptrace.SpanKindUnspecified
}
func jLogsToSpanEvents(logs []model.Log, dest ptrace.SpanEventSlice) {
if len(logs) == 0 {
return
}
dest.EnsureCapacity(len(logs))
for i, log := range logs {
var event ptrace.SpanEvent
if dest.Len() > i {
event = dest.At(i)
} else {
event = dest.AppendEmpty()
}
event.SetTimestamp(pcommon.NewTimestampFromTime(log.Timestamp))
if len(log.Fields) == 0 {
continue
}
attrs := event.Attributes()
attrs.EnsureCapacity(len(log.Fields))
jTagsToInternalAttributes(log.Fields, attrs)
if name, ok := attrs.Get(eventNameAttr); ok {
event.SetName(name.Str())
attrs.Remove(eventNameAttr)
}
}
}
// jReferencesToSpanLinks sets internal span links based on jaeger span references skipping excludeParentID
func jReferencesToSpanLinks(refs []model.SpanRef, excludeParentID model.SpanID, dest ptrace.SpanLinkSlice) {
if len(refs) == 0 || len(refs) == 1 && refs[0].SpanID == excludeParentID && refs[0].RefType == model.ChildOf {
return
}
dest.EnsureCapacity(len(refs))
for _, ref := range refs {
if ref.SpanID == excludeParentID && ref.RefType == model.ChildOf {
continue
}
link := dest.AppendEmpty()
link.SetTraceID(idutils.UInt64ToTraceID(ref.TraceID.High, ref.TraceID.Low))
link.SetSpanID(idutils.UInt64ToSpanID(uint64(ref.SpanID)))
link.Attributes().PutStr(conventions.AttributeOpentracingRefType, jRefTypeToAttribute(ref.RefType))
}
}
func getTraceStateFromAttrs(attrs pcommon.Map) string {
traceState := ""
// TODO Bring this inline with solution for jaegertracing/jaeger-client-java #702 once available
if attr, ok := attrs.Get(tracetranslator.TagW3CTraceState); ok {
traceState = attr.Str()
attrs.Remove(tracetranslator.TagW3CTraceState)
}
return traceState
}
func getScope(span *model.Span) scope {
il := scope{}
if libraryName, ok := getAndDeleteTag(span, conventions.OtelLibraryName); ok {
il.name = libraryName
if libraryVersion, ok := getAndDeleteTag(span, conventions.OtelLibraryVersion); ok {
il.version = libraryVersion
}
}
return il
}
func getAndDeleteTag(span *model.Span, key string) (string, bool) {
for i := range span.Tags {
if span.Tags[i].Key == key {
value := span.Tags[i].GetVStr()
span.Tags = append(span.Tags[:i], span.Tags[i+1:]...)
return value, true
}
}
return "", false
}
func jRefTypeToAttribute(ref model.SpanRefType) string {
if ref == model.ChildOf {
return conventions.AttributeOpentracingRefTypeChildOf
}
return conventions.AttributeOpentracingRefTypeFollowsFrom
}