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kratos/pkg/net/trace/jaeger/span_context.go

369 lines
10 KiB

package jaeger
import (
"errors"
"fmt"
"strconv"
"strings"
"sync"
"go.uber.org/atomic"
)
const (
flagSampled = 1
flagDebug = 2
flagFirehose = 8
)
var (
errEmptyTracerStateString = errors.New("Cannot convert empty string to tracer state")
errMalformedTracerStateString = errors.New("String does not match tracer state format")
emptyContext = SpanContext{}
)
// TraceID represents unique 128bit identifier of a trace
type TraceID struct {
High, Low uint64
}
// SpanID represents unique 64bit identifier of a span
type SpanID uint64
// SpanContext represents propagated span identity and state
type SpanContext struct {
// traceID represents globally unique ID of the trace.
// Usually generated as a random number.
traceID TraceID
// spanID represents span ID that must be unique within its trace,
// but does not have to be globally unique.
spanID SpanID
// parentID refers to the ID of the parent span.
// Should be 0 if the current span is a root span.
parentID SpanID
// Distributed Context baggage. The is a snapshot in time.
baggage map[string]string
// debugID can be set to some correlation ID when the context is being
// extracted from a TextMap carrier.
//
// See JaegerDebugHeader in constants.go
debugID string
// samplingState is shared across all spans
samplingState *samplingState
// remote indicates that span context represents a remote parent
remote bool
}
type samplingState struct {
// Span context's state flags that are propagated across processes. Only lower 8 bits are used.
// We use an int32 instead of byte to be able to use CAS operations.
stateFlags atomic.Int32
// When state is not final, sampling will be retried on other span write operations,
// like SetOperationName / SetTag, and the spans will remain writable.
final atomic.Bool
// localRootSpan stores the SpanID of the first span created in this process for a given trace.
localRootSpan SpanID
// extendedState allows samplers to keep intermediate state.
// The keys and values in this map are completely opaque: interface{} -> interface{}.
extendedState sync.Map
}
func (s *samplingState) isLocalRootSpan(id SpanID) bool {
return id == s.localRootSpan
}
func (s *samplingState) setFlag(newFlag int32) {
swapped := false
for !swapped {
old := s.stateFlags.Load()
swapped = s.stateFlags.CAS(old, old|newFlag)
}
}
func (s *samplingState) unsetFlag(newFlag int32) {
swapped := false
for !swapped {
old := s.stateFlags.Load()
swapped = s.stateFlags.CAS(old, old&^newFlag)
}
}
func (s *samplingState) setSampled() {
s.setFlag(flagSampled)
}
func (s *samplingState) unsetSampled() {
s.unsetFlag(flagSampled)
}
func (s *samplingState) setDebugAndSampled() {
s.setFlag(flagDebug | flagSampled)
}
func (s *samplingState) setFirehose() {
s.setFlag(flagFirehose)
}
func (s *samplingState) setFlags(flags byte) {
s.stateFlags.Store(int32(flags))
}
func (s *samplingState) setFinal() {
s.final.Store(true)
}
func (s *samplingState) flags() byte {
return byte(s.stateFlags.Load())
}
func (s *samplingState) isSampled() bool {
return s.stateFlags.Load()&flagSampled == flagSampled
}
func (s *samplingState) isDebug() bool {
return s.stateFlags.Load()&flagDebug == flagDebug
}
func (s *samplingState) isFirehose() bool {
return s.stateFlags.Load()&flagFirehose == flagFirehose
}
func (s *samplingState) isFinal() bool {
return s.final.Load()
}
func (s *samplingState) extendedStateForKey(key interface{}, initValue func() interface{}) interface{} {
if value, ok := s.extendedState.Load(key); ok {
return value
}
value := initValue()
value, _ = s.extendedState.LoadOrStore(key, value)
return value
}
// ForeachBaggageItem implements ForeachBaggageItem() of opentracing.SpanContext
func (c SpanContext) ForeachBaggageItem(handler func(k, v string) bool) {
for k, v := range c.baggage {
if !handler(k, v) {
break
}
}
}
// IsSampled returns whether this trace was chosen for permanent storage
// by the sampling mechanism of the tracer.
func (c SpanContext) IsSampled() bool {
return c.samplingState.isSampled()
}
// IsDebug indicates whether sampling was explicitly requested by the service.
func (c SpanContext) IsDebug() bool {
return c.samplingState.isDebug()
}
// IsSamplingFinalized indicates whether the sampling decision has been finalized.
func (c SpanContext) IsSamplingFinalized() bool {
return c.samplingState.isFinal()
}
// IsFirehose indicates whether the firehose flag was set
func (c SpanContext) IsFirehose() bool {
return c.samplingState.isFirehose()
}
// ExtendedSamplingState returns the custom state object for a given key. If the value for this key does not exist,
// it is initialized via initValue function. This state can be used by samplers (e.g. x.PrioritySampler).
func (c SpanContext) ExtendedSamplingState(key interface{}, initValue func() interface{}) interface{} {
return c.samplingState.extendedStateForKey(key, initValue)
}
// IsValid indicates whether this context actually represents a valid trace.
func (c SpanContext) IsValid() bool {
return c.traceID.IsValid() && c.spanID != 0
}
// SetFirehose enables firehose mode for this trace.
func (c SpanContext) SetFirehose() {
c.samplingState.setFirehose()
}
func (c SpanContext) String() string {
if c.traceID.High == 0 {
return fmt.Sprintf("%016x:%016x:%016x:%x", c.traceID.Low, uint64(c.spanID), uint64(c.parentID), c.samplingState.stateFlags.Load())
}
return fmt.Sprintf("%016x%016x:%016x:%016x:%x", c.traceID.High, c.traceID.Low, uint64(c.spanID), uint64(c.parentID), c.samplingState.stateFlags.Load())
}
// ContextFromString reconstructs the Context encoded in a string
func ContextFromString(value string) (SpanContext, error) {
var context SpanContext
if value == "" {
return emptyContext, errEmptyTracerStateString
}
parts := strings.Split(value, ":")
if len(parts) != 4 {
return emptyContext, errMalformedTracerStateString
}
var err error
if context.traceID, err = TraceIDFromString(parts[0]); err != nil {
return emptyContext, err
}
if context.spanID, err = SpanIDFromString(parts[1]); err != nil {
return emptyContext, err
}
if context.parentID, err = SpanIDFromString(parts[2]); err != nil {
return emptyContext, err
}
flags, err := strconv.ParseUint(parts[3], 10, 8)
if err != nil {
return emptyContext, err
}
context.samplingState = &samplingState{}
context.samplingState.setFlags(byte(flags))
return context, nil
}
// TraceID returns the trace ID of this span context
func (c SpanContext) TraceID() TraceID {
return c.traceID
}
// SpanID returns the span ID of this span context
func (c SpanContext) SpanID() SpanID {
return c.spanID
}
// ParentID returns the parent span ID of this span context
func (c SpanContext) ParentID() SpanID {
return c.parentID
}
// Flags returns the bitmap containing such bits as 'sampled' and 'debug'.
func (c SpanContext) Flags() byte {
return c.samplingState.flags()
}
// NewSpanContext creates a new instance of SpanContext
func NewSpanContext(traceID TraceID, spanID, parentID SpanID, sampled bool, baggage map[string]string) SpanContext {
samplingState := &samplingState{}
if sampled {
samplingState.setSampled()
}
return SpanContext{
traceID: traceID,
spanID: spanID,
parentID: parentID,
samplingState: samplingState,
baggage: baggage}
}
// CopyFrom copies data from ctx into this context, including span identity and baggage.
// TODO This is only used by interop.go. Remove once TChannel Go supports OpenTracing.
func (c *SpanContext) CopyFrom(ctx *SpanContext) {
c.traceID = ctx.traceID
c.spanID = ctx.spanID
c.parentID = ctx.parentID
c.samplingState = ctx.samplingState
if l := len(ctx.baggage); l > 0 {
c.baggage = make(map[string]string, l)
for k, v := range ctx.baggage {
c.baggage[k] = v
}
} else {
c.baggage = nil
}
}
// WithBaggageItem creates a new context with an extra baggage item.
func (c SpanContext) WithBaggageItem(key, value string) SpanContext {
var newBaggage map[string]string
if c.baggage == nil {
newBaggage = map[string]string{key: value}
} else {
newBaggage = make(map[string]string, len(c.baggage)+1)
for k, v := range c.baggage {
newBaggage[k] = v
}
newBaggage[key] = value
}
// Use positional parameters so the compiler will help catch new fields.
return SpanContext{c.traceID, c.spanID, c.parentID, newBaggage, "", c.samplingState, c.remote}
}
// isDebugIDContainerOnly returns true when the instance of the context is only
// used to return the debug/correlation ID from extract() method. This happens
// in the situation when "jaeger-debug-id" header is passed in the carrier to
// the extract() method, but the request otherwise has no span context in it.
// Previously this would've returned opentracing.ErrSpanContextNotFound from the
// extract method, but now it returns a dummy context with only debugID filled in.
//
// See JaegerDebugHeader in constants.go
// See TextMapPropagator#Extract
func (c *SpanContext) isDebugIDContainerOnly() bool {
return !c.traceID.IsValid() && c.debugID != ""
}
// ------- TraceID -------
func (t TraceID) String() string {
if t.High == 0 {
return fmt.Sprintf("%x", t.Low)
}
return fmt.Sprintf("%x%016x", t.High, t.Low)
}
// TraceIDFromString creates a TraceID from a hexadecimal string
func TraceIDFromString(s string) (TraceID, error) {
var hi, lo uint64
var err error
if len(s) > 32 {
return TraceID{}, fmt.Errorf("TraceID cannot be longer than 32 hex characters: %s", s)
} else if len(s) > 16 {
hiLen := len(s) - 16
if hi, err = strconv.ParseUint(s[0:hiLen], 16, 64); err != nil {
return TraceID{}, err
}
if lo, err = strconv.ParseUint(s[hiLen:], 16, 64); err != nil {
return TraceID{}, err
}
} else {
if lo, err = strconv.ParseUint(s, 16, 64); err != nil {
return TraceID{}, err
}
}
return TraceID{High: hi, Low: lo}, nil
}
// IsValid checks if the trace ID is valid, i.e. not zero.
func (t TraceID) IsValid() bool {
return t.High != 0 || t.Low != 0
}
// ------- SpanID -------
func (s SpanID) String() string {
return fmt.Sprintf("%x", uint64(s))
}
// SpanIDFromString creates a SpanID from a hexadecimal string
func SpanIDFromString(s string) (SpanID, error) {
if len(s) > 16 {
return SpanID(0), fmt.Errorf("SpanID cannot be longer than 16 hex characters: %s", s)
}
id, err := strconv.ParseUint(s, 16, 64)
if err != nil {
return SpanID(0), err
}
return SpanID(id), nil
}