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zipkin_thrift_span.go
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/
zipkin_thrift_span.go
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// Copyright (c) 2017 Uber Technologies, Inc.
//
// 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.
package jaeger
import (
"encoding/binary"
"fmt"
"time"
"github.com/opentracing/opentracing-go/ext"
"github.com/uber/jaeger-client-go/internal/spanlog"
z "github.com/uber/jaeger-client-go/thrift-gen/zipkincore"
"github.com/uber/jaeger-client-go/utils"
)
const (
// Zipkin UI does not work well with non-string tag values
allowPackedNumbers = false
)
var specialTagHandlers = map[string]func(*zipkinSpan, interface{}){
string(ext.SpanKind): setSpanKind,
string(ext.PeerHostIPv4): setPeerIPv4,
string(ext.PeerPort): setPeerPort,
string(ext.PeerService): setPeerService,
TracerIPTagKey: removeTag,
}
// BuildZipkinThrift builds thrift span based on internal span.
func BuildZipkinThrift(s *Span) *z.Span {
span := &zipkinSpan{Span: s}
span.handleSpecialTags()
parentID := int64(span.context.parentID)
var ptrParentID *int64
if parentID != 0 {
ptrParentID = &parentID
}
traceIDHigh := int64(span.context.traceID.High)
var ptrTraceIDHigh *int64
if traceIDHigh != 0 {
ptrTraceIDHigh = &traceIDHigh
}
timestamp := utils.TimeToMicrosecondsSinceEpochInt64(span.startTime)
duration := span.duration.Nanoseconds() / int64(time.Microsecond)
endpoint := &z.Endpoint{
ServiceName: span.tracer.serviceName,
Ipv4: int32(span.tracer.hostIPv4)}
thriftSpan := &z.Span{
TraceID: int64(span.context.traceID.Low),
TraceIDHigh: ptrTraceIDHigh,
ID: int64(span.context.spanID),
ParentID: ptrParentID,
Name: span.operationName,
Timestamp: ×tamp,
Duration: &duration,
Debug: span.context.IsDebug(),
Annotations: buildAnnotations(span, endpoint),
BinaryAnnotations: buildBinaryAnnotations(span, endpoint)}
return thriftSpan
}
func buildAnnotations(span *zipkinSpan, endpoint *z.Endpoint) []*z.Annotation {
// automatically adding 2 Zipkin CoreAnnotations
annotations := make([]*z.Annotation, 0, 2+len(span.logs))
var startLabel, endLabel string
if span.spanKind == string(ext.SpanKindRPCClientEnum) {
startLabel, endLabel = z.CLIENT_SEND, z.CLIENT_RECV
} else if span.spanKind == string(ext.SpanKindRPCServerEnum) {
startLabel, endLabel = z.SERVER_RECV, z.SERVER_SEND
}
if !span.startTime.IsZero() && startLabel != "" {
start := &z.Annotation{
Timestamp: utils.TimeToMicrosecondsSinceEpochInt64(span.startTime),
Value: startLabel,
Host: endpoint}
annotations = append(annotations, start)
if span.duration != 0 {
endTs := span.startTime.Add(span.duration)
end := &z.Annotation{
Timestamp: utils.TimeToMicrosecondsSinceEpochInt64(endTs),
Value: endLabel,
Host: endpoint}
annotations = append(annotations, end)
}
}
for _, log := range span.logs {
anno := &z.Annotation{
Timestamp: utils.TimeToMicrosecondsSinceEpochInt64(log.Timestamp),
Host: endpoint}
if content, err := spanlog.MaterializeWithJSON(log.Fields); err == nil {
anno.Value = truncateString(string(content), span.tracer.options.maxTagValueLength)
} else {
anno.Value = err.Error()
}
annotations = append(annotations, anno)
}
return annotations
}
func buildBinaryAnnotations(span *zipkinSpan, endpoint *z.Endpoint) []*z.BinaryAnnotation {
// automatically adding local component or server/client address tag, and client version
annotations := make([]*z.BinaryAnnotation, 0, 2+len(span.tags))
if span.peerDefined() && span.isRPC() {
peer := z.Endpoint{
Ipv4: span.peer.Ipv4,
Port: span.peer.Port,
ServiceName: span.peer.ServiceName}
label := z.CLIENT_ADDR
if span.isRPCClient() {
label = z.SERVER_ADDR
}
anno := &z.BinaryAnnotation{
Key: label,
Value: []byte{1},
AnnotationType: z.AnnotationType_BOOL,
Host: &peer}
annotations = append(annotations, anno)
}
if !span.isRPC() {
componentName := endpoint.ServiceName
for _, tag := range span.tags {
if tag.key == string(ext.Component) {
componentName = stringify(tag.value)
break
}
}
local := &z.BinaryAnnotation{
Key: z.LOCAL_COMPONENT,
Value: []byte(componentName),
AnnotationType: z.AnnotationType_STRING,
Host: endpoint}
annotations = append(annotations, local)
}
for _, tag := range span.tags {
// "Special tags" are already handled by this point, we'd be double reporting the
// tags if we don't skip here
if _, ok := specialTagHandlers[tag.key]; ok {
continue
}
if anno := buildBinaryAnnotation(tag.key, tag.value, span.tracer.options.maxTagValueLength, nil); anno != nil {
annotations = append(annotations, anno)
}
}
return annotations
}
func buildBinaryAnnotation(key string, val interface{}, maxTagValueLength int, endpoint *z.Endpoint) *z.BinaryAnnotation {
bann := &z.BinaryAnnotation{Key: key, Host: endpoint}
if value, ok := val.(string); ok {
bann.Value = []byte(truncateString(value, maxTagValueLength))
bann.AnnotationType = z.AnnotationType_STRING
} else if value, ok := val.([]byte); ok {
if len(value) > maxTagValueLength {
value = value[:maxTagValueLength]
}
bann.Value = value
bann.AnnotationType = z.AnnotationType_BYTES
} else if value, ok := val.(int32); ok && allowPackedNumbers {
bann.Value = int32ToBytes(value)
bann.AnnotationType = z.AnnotationType_I32
} else if value, ok := val.(int64); ok && allowPackedNumbers {
bann.Value = int64ToBytes(value)
bann.AnnotationType = z.AnnotationType_I64
} else if value, ok := val.(int); ok && allowPackedNumbers {
bann.Value = int64ToBytes(int64(value))
bann.AnnotationType = z.AnnotationType_I64
} else if value, ok := val.(bool); ok {
bann.Value = []byte{boolToByte(value)}
bann.AnnotationType = z.AnnotationType_BOOL
} else {
value := stringify(val)
bann.Value = []byte(truncateString(value, maxTagValueLength))
bann.AnnotationType = z.AnnotationType_STRING
}
return bann
}
func stringify(value interface{}) string {
if s, ok := value.(string); ok {
return s
}
return fmt.Sprintf("%+v", value)
}
func truncateString(value string, maxLength int) string {
// we ignore the problem of utf8 runes possibly being sliced in the middle,
// as it is rather expensive to iterate through each tag just to find rune
// boundaries.
if len(value) > maxLength {
return value[:maxLength]
}
return value
}
func boolToByte(b bool) byte {
if b {
return 1
}
return 0
}
// int32ToBytes converts int32 to bytes.
func int32ToBytes(i int32) []byte {
buf := make([]byte, 4)
binary.BigEndian.PutUint32(buf, uint32(i))
return buf
}
// int64ToBytes converts int64 to bytes.
func int64ToBytes(i int64) []byte {
buf := make([]byte, 8)
binary.BigEndian.PutUint64(buf, uint64(i))
return buf
}
type zipkinSpan struct {
*Span
// peer points to the peer service participating in this span,
// e.g. the Client if this span is a server span,
// or Server if this span is a client span
peer struct {
Ipv4 int32
Port int16
ServiceName string
}
// used to distinguish local vs. RPC Server vs. RPC Client spans
spanKind string
}
func (s *zipkinSpan) handleSpecialTags() {
s.Lock()
defer s.Unlock()
if s.firstInProcess {
// append the process tags
s.tags = append(s.tags, s.tracer.tags...)
}
filteredTags := make([]Tag, 0, len(s.tags))
for _, tag := range s.tags {
if handler, ok := specialTagHandlers[tag.key]; ok {
handler(s, tag.value)
} else {
filteredTags = append(filteredTags, tag)
}
}
s.tags = filteredTags
}
func setSpanKind(s *zipkinSpan, value interface{}) {
if val, ok := value.(string); ok {
s.spanKind = val
return
}
if val, ok := value.(ext.SpanKindEnum); ok {
s.spanKind = string(val)
}
}
func setPeerIPv4(s *zipkinSpan, value interface{}) {
if val, ok := value.(string); ok {
if ip, err := utils.ParseIPToUint32(val); err == nil {
s.peer.Ipv4 = int32(ip)
return
}
}
if val, ok := value.(uint32); ok {
s.peer.Ipv4 = int32(val)
return
}
if val, ok := value.(int32); ok {
s.peer.Ipv4 = val
}
}
func setPeerPort(s *zipkinSpan, value interface{}) {
if val, ok := value.(string); ok {
if port, err := utils.ParsePort(val); err == nil {
s.peer.Port = int16(port)
return
}
}
if val, ok := value.(uint16); ok {
s.peer.Port = int16(val)
return
}
if val, ok := value.(int); ok {
s.peer.Port = int16(val)
}
}
func setPeerService(s *zipkinSpan, value interface{}) {
if val, ok := value.(string); ok {
s.peer.ServiceName = val
}
}
func removeTag(s *zipkinSpan, value interface{}) {}
func (s *zipkinSpan) peerDefined() bool {
return s.peer.ServiceName != "" || s.peer.Ipv4 != 0 || s.peer.Port != 0
}
func (s *zipkinSpan) isRPC() bool {
s.RLock()
defer s.RUnlock()
return s.spanKind == string(ext.SpanKindRPCClientEnum) || s.spanKind == string(ext.SpanKindRPCServerEnum)
}
func (s *zipkinSpan) isRPCClient() bool {
s.RLock()
defer s.RUnlock()
return s.spanKind == string(ext.SpanKindRPCClientEnum)
}