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package instana
import (
"context"
"fmt"
instana "github.com/instana/go-sensor"
sensor "github.com/instana/go-sensor"
"github.com/opentracing/opentracing-go"
"github.com/opentracing/opentracing-go/log"
"go.unistack.org/micro/v3/metadata"
"go.unistack.org/micro/v3/tracer"
rutil "go.unistack.org/micro/v3/util/reflect"
)
var _ tracer.Tracer = (*Tracer)(nil)
type Tracer struct {
opts tracer.Options
sensor sensor.Tracer
}
func (t *Tracer) Name() string {
return t.opts.Name
}
func (t *Tracer) Flush(ctx context.Context) error {
sensor.ShutdownSensor()
return nil
}
func (t *Tracer) Init(opts ...tracer.Option) error {
for _, o := range opts {
o(&t.opts)
}
sensorOptions := sensor.DefaultOptions()
if v, ok := t.opts.Context.Value(tracerOptionsKey{}).(*sensor.Options); ok && v != nil {
sensorOptions = v
}
if sensorOptions.Service == "" {
sensorOptions.Service = "micro"
}
var recorder instana.SpanRecorder
recorder = &sensor.Recorder{}
if v, ok := t.opts.Context.Value(recorderKey{}).(sensor.SpanRecorder); ok && v != nil {
recorder = v
}
t.sensor = sensor.NewSensorWithTracer(sensor.NewTracerWithEverything(sensorOptions, recorder))
sensor.StartMetrics(sensorOptions)
return nil
}
type idStringer struct {
s string
}
func (s idStringer) String() string {
return s.s
}
type spanContext interface {
TraceID() idStringer
SpanID() idStringer
}
func (t *Tracer) Start(ctx context.Context, name string, opts ...tracer.SpanOption) (context.Context, tracer.Span) {
options := tracer.NewSpanOptions(opts...)
var span opentracing.Span
switch options.Kind {
case tracer.SpanKindInternal, tracer.SpanKindUnspecified:
ctx, span = t.startSpanFromContext(ctx, name)
case tracer.SpanKindClient, tracer.SpanKindProducer:
ctx, span = t.startSpanFromOutgoingContext(ctx, name)
case tracer.SpanKindServer, tracer.SpanKindConsumer:
ctx, span = t.startSpanFromIncomingContext(ctx, name)
}
sp := &otSpan{topts: t.opts, span: span, opts: options, sensor: t.sensor, status: tracer.SpanStatusOK}
spctx := span.Context()
if v, ok := spctx.(spanContext); ok {
sp.traceID = v.TraceID().String()
sp.spanID = v.SpanID().String()
} else {
if val, err := rutil.StructFieldByName(spctx, "TraceID"); err == nil {
sp.traceID = fmt.Sprintf("%v", val)
}
if val, err := rutil.StructFieldByName(spctx, "SpanID"); err == nil {
sp.spanID = fmt.Sprintf("%v", val)
}
}
return ctx, sp
}
type otSpan struct {
span opentracing.Span
spanID string
traceID string
sensor sensor.Tracer
topts tracer.Options
opts tracer.SpanOptions
status tracer.SpanStatus
statusMsg string
}
func (os *otSpan) TraceID() string {
return os.traceID
}
func (os *otSpan) SpanID() string {
return os.spanID
}
func (os *otSpan) SetStatus(st tracer.SpanStatus, msg string) {
switch st {
case tracer.SpanStatusError:
os.span.SetTag("error", true)
}
os.status = st
os.statusMsg = msg
}
func (os *otSpan) Status() (tracer.SpanStatus, string) {
return os.status, os.statusMsg
}
func (os *otSpan) Tracer() tracer.Tracer {
return &Tracer{sensor: os.sensor, opts: os.topts}
}
func (os *otSpan) AddLogs(kv ...interface{}) {
os.span.LogKV(kv...)
}
func (os *otSpan) Finish(opts ...tracer.SpanOption) {
if len(os.opts.Labels)%2 != 0 {
os.opts.Labels = os.opts.Labels[:len(os.opts.Labels)-1]
}
os.opts.Labels = tracer.UniqLabels(os.opts.Labels)
for idx := 0; idx < len(os.opts.Labels); idx += 2 {
switch os.opts.Labels[idx] {
case "err":
os.status = tracer.SpanStatusError
os.statusMsg = fmt.Sprintf("%v", os.opts.Labels[idx+1])
case "error":
continue
case "X-Request-Id", "x-request-id":
os.span.SetTag("x-request-id", os.opts.Labels[idx+1])
case "rpc.call", "rpc.call_type", "rpc.flavor", "rpc.service", "rpc.method",
"sdk.database", "db.statement", "db.args", "db.query", "db.method",
"messaging.destination.name", "messaging.source.name", "messaging.operation":
os.span.SetTag(fmt.Sprintf("%v", os.opts.Labels[idx]), os.opts.Labels[idx+1])
default:
os.span.LogKV(os.opts.Labels[idx], os.opts.Labels[idx+1])
}
}
if os.status == tracer.SpanStatusError {
os.span.SetTag("error", true)
os.span.LogKV("error", os.statusMsg)
}
os.span.SetTag("span.kind", os.opts.Kind)
os.span.Finish()
}
func (os *otSpan) AddEvent(name string, opts ...tracer.EventOption) {
os.span.LogFields(log.Event(name))
}
func (os *otSpan) Context() context.Context {
return opentracing.ContextWithSpan(context.Background(), os.span)
}
func (os *otSpan) SetName(name string) {
os.span = os.span.SetOperationName(name)
}
func (os *otSpan) SetLabels(labels ...interface{}) {
os.opts.Labels = labels
}
func (os *otSpan) Kind() tracer.SpanKind {
return os.opts.Kind
}
func (os *otSpan) AddLabels(labels ...interface{}) {
os.opts.Labels = append(os.opts.Labels, labels...)
}
func NewTracer(opts ...tracer.Option) *Tracer {
options := tracer.NewOptions(opts...)
return &Tracer{opts: options}
}
func spanFromContext(ctx context.Context) (opentracing.Span, bool) {
return sensor.SpanFromContext(ctx)
}
func (t *Tracer) startSpanFromAny(ctx context.Context, name string, opts ...opentracing.StartSpanOption) (context.Context, opentracing.Span) {
if tracerSpan, ok := tracer.SpanFromContext(ctx); ok && tracerSpan != nil {
return t.startSpanFromContext(ctx, name, opts...)
}
if otSpan := opentracing.SpanFromContext(ctx); otSpan != nil {
return t.startSpanFromContext(ctx, name, opts...)
}
if md, ok := metadata.FromIncomingContext(ctx); ok && md != nil {
return t.startSpanFromIncomingContext(ctx, name, opts...)
}
if md, ok := metadata.FromOutgoingContext(ctx); ok && md != nil {
return t.startSpanFromOutgoingContext(ctx, name, opts...)
}
return t.startSpanFromContext(ctx, name, opts...)
}
func (t *Tracer) startSpanFromContext(ctx context.Context, name string, opts ...opentracing.StartSpanOption) (context.Context, opentracing.Span) {
if parentSpan := opentracing.SpanFromContext(ctx); parentSpan != nil {
opts = append(opts, opentracing.ChildOf(parentSpan.Context()))
}
md := metadata.New(1)
sp := t.sensor.StartSpan(name, opts...)
if err := sp.Tracer().Inject(sp.Context(), opentracing.TextMap, opentracing.TextMapCarrier(md)); err != nil {
return nil, nil
}
ctx = opentracing.ContextWithSpan(ctx, sp)
return ctx, sp
}
func (t *Tracer) startSpanFromOutgoingContext(ctx context.Context, name string, opts ...opentracing.StartSpanOption) (context.Context, opentracing.Span) {
var parentCtx opentracing.SpanContext
md, ok := metadata.FromOutgoingContext(ctx)
if ok && md != nil {
if spanCtx, err := t.sensor.Extract(opentracing.TextMap, opentracing.TextMapCarrier(md)); err == nil && ok {
parentCtx = spanCtx
}
}
if parentCtx != nil {
opts = append(opts, opentracing.ChildOf(parentCtx))
}
nmd := metadata.Copy(md)
sp := t.sensor.StartSpan(name, opts...)
if err := sp.Tracer().Inject(sp.Context(), opentracing.TextMap, opentracing.TextMapCarrier(nmd)); err != nil {
return nil, nil
}
ctx = metadata.NewOutgoingContext(opentracing.ContextWithSpan(ctx, sp), nmd)
return ctx, sp
}
func (t *Tracer) startSpanFromIncomingContext(ctx context.Context, name string, opts ...opentracing.StartSpanOption) (context.Context, opentracing.Span) {
var parentCtx opentracing.SpanContext
md, ok := metadata.FromIncomingContext(ctx)
if ok && md != nil {
if spanCtx, err := t.sensor.Extract(opentracing.TextMap, opentracing.TextMapCarrier(md)); err == nil {
parentCtx = spanCtx
}
}
if parentCtx != nil {
opts = append(opts, opentracing.ChildOf(parentCtx))
}
nmd := metadata.Copy(md)
sp := t.sensor.StartSpan(name, opts...)
// fmt.Printf("StartSpan %#+v\n", sp)
if err := sp.Tracer().Inject(sp.Context(), opentracing.TextMap, opentracing.TextMapCarrier(nmd)); err != nil {
return nil, nil
}
ctx = metadata.NewIncomingContext(opentracing.ContextWithSpan(ctx, sp), nmd)
return ctx, sp
}