package diagnose import ( "context" "fmt" "io" "time" "go.opentelemetry.io/otel/attribute" "go.opentelemetry.io/otel/codes" sdktrace "go.opentelemetry.io/otel/sdk/trace" "go.opentelemetry.io/otel/trace" ) const ( warningEventName = "warning" skippedEventName = "skipped" actionKey = "actionKey" spotCheckOkEventName = "spot-check-ok" spotCheckWarnEventName = "spot-check-warn" spotCheckErrorEventName = "spot-check-error" spotCheckSkippedEventName = "spot-check-skipped" adviceEventName = "advice" errorMessageKey = attribute.Key("error.message") nameKey = attribute.Key("name") messageKey = attribute.Key("message") adviceKey = attribute.Key("advice") ) var ( MainSection = trace.WithAttributes(attribute.Key("diagnose").String("main-section")) ) var diagnoseSession = struct{}{} var noopTracer = trace.NewNoopTracerProvider().Tracer("vault-diagnose") type testFunction func(context.Context) error type Session struct { tc *TelemetryCollector tracer trace.Tracer tp *sdktrace.TracerProvider skip map[string]bool } // New initializes a Diagnose tracing session. In particular this wires a TelemetryCollector, which // synchronously receives and tracks OpenTelemetry spans in order to provide a tree structure of results // when the outermost span ends. func New(w io.Writer) *Session { tc := NewTelemetryCollector(w) //so, _ := stdout.NewExporter(stdout.WithPrettyPrint()) tp := sdktrace.NewTracerProvider( sdktrace.WithSampler(sdktrace.AlwaysSample()), //sdktrace.WithSpanProcessor(sdktrace.NewSimpleSpanProcessor(so)), sdktrace.WithSpanProcessor(tc), ) tracer := tp.Tracer("vault-diagnose") sess := &Session{ tp: tp, tc: tc, tracer: tracer, skip: make(map[string]bool), } return sess } func (s *Session) SetSkipList(ls []string) { for _, e := range ls { s.skip[e] = true } } // IsSkipped returns true if skipName is present in the skip list. Can be used in combination with Skip to mark a // span skipped and conditionally skip some logic. func (s *Session) IsSkipped(skipName string) bool { return s.skip[skipName] } // Context returns a new context with a defined diagnose session func Context(ctx context.Context, sess *Session) context.Context { return context.WithValue(ctx, diagnoseSession, sess) } // CurrentSession retrieves the active diagnose session from the context, or nil if none. func CurrentSession(ctx context.Context) *Session { sessionCtxVal := ctx.Value(diagnoseSession) if sessionCtxVal != nil { return sessionCtxVal.(*Session) } return nil } // Finalize ends the Diagnose session, returning the root of the result tree. This will be empty until // the outermost span ends. func (s *Session) Finalize(ctx context.Context) *Result { s.tp.ForceFlush(ctx) return s.tc.RootResult } // StartSpan starts a "diagnose" span, which is really just an OpenTelemetry Tracing span. func StartSpan(ctx context.Context, spanName string, options ...trace.SpanOption) (context.Context, trace.Span) { session := CurrentSession(ctx) if session != nil { return session.tracer.Start(ctx, spanName, options...) } else { return noopTracer.Start(ctx, spanName, options...) } } // Success sets the span to Successful (overriding any previous status) and sets the message to the input. func Success(ctx context.Context, message string) { span := trace.SpanFromContext(ctx) span.SetStatus(codes.Ok, message) } // Fail records a failure in the current span func Fail(ctx context.Context, message string) { span := trace.SpanFromContext(ctx) span.SetStatus(codes.Error, message) } // Error records an error in the current span (but unlike Fail, doesn't set the overall span status to Error) func Error(ctx context.Context, err error, options ...trace.EventOption) error { span := trace.SpanFromContext(ctx) span.RecordError(err, options...) return err } // Skipped marks the current span skipped func Skipped(ctx context.Context, message string) { span := trace.SpanFromContext(ctx) span.AddEvent(skippedEventName) span.SetStatus(codes.Error, message) } // Warn records a warning on the current span func Warn(ctx context.Context, msg string) { span := trace.SpanFromContext(ctx) span.AddEvent(warningEventName, trace.WithAttributes(messageKey.String(msg))) } // SpotOk adds an Ok result without adding a new Span. This should be used for instantaneous checks with no // possible sub-spans func SpotOk(ctx context.Context, checkName, message string, options ...trace.EventOption) { addSpotCheckResult(ctx, spotCheckOkEventName, checkName, message, options...) } // SpotWarn adds a Warning result without adding a new Span. This should be used for instantaneous checks with no // possible sub-spans func SpotWarn(ctx context.Context, checkName, message string, options ...trace.EventOption) { addSpotCheckResult(ctx, spotCheckWarnEventName, checkName, message, options...) } // SpotError adds an Error result without adding a new Span. This should be used for instantaneous checks with no // possible sub-spans func SpotError(ctx context.Context, checkName string, err error, options ...trace.EventOption) error { var message string if err != nil { message = err.Error() } addSpotCheckResult(ctx, spotCheckErrorEventName, checkName, message, options...) return err } // SpotSkipped adds a Skipped result without adding a new Span. func SpotSkipped(ctx context.Context, checkName, message string, options ...trace.EventOption) { addSpotCheckResult(ctx, spotCheckSkippedEventName, checkName, message, options...) } // Advice builds an EventOption containing advice message. Use to add to spot results. func Advice(message string) trace.EventOption { return trace.WithAttributes(adviceKey.String(message)) } // Advise adds advice to the current diagnose span func Advise(ctx context.Context, message string) { span := trace.SpanFromContext(ctx) span.AddEvent(adviceEventName, Advice(message)) } func addSpotCheckResult(ctx context.Context, eventName, checkName, message string, options ...trace.EventOption) { span := trace.SpanFromContext(ctx) attrs := append(options, trace.WithAttributes(nameKey.String(checkName))) if message != "" { attrs = append(attrs, trace.WithAttributes(messageKey.String(message))) } span.AddEvent(eventName, attrs...) } func SpotCheck(ctx context.Context, checkName string, f func() error) error { err := f() if err != nil { SpotError(ctx, checkName, err) return err } else { SpotOk(ctx, checkName, "") } return nil } // Test creates a new named span, and executes the provided function within it. If the function returns an error, // the span is considered to have failed. func Test(ctx context.Context, spanName string, function testFunction, options ...trace.SpanOption) error { ctx, span := StartSpan(ctx, spanName, options...) defer span.End() err := function(ctx) if err != nil { span.SetStatus(codes.Error, err.Error()) } return err } // WithTimeout wraps a context consuming function, and when called, returns an error if the sub-function does not // complete within the timeout, e.g. // // diagnose.Test(ctx, "my-span", diagnose.WithTimeout(5 * time.Second, myTestFunc)) func WithTimeout(d time.Duration, f testFunction) testFunction { return func(ctx context.Context) error { rch := make(chan error) t := time.NewTimer(d) defer t.Stop() go func() { rch <- f(ctx) }() select { case <-t.C: return fmt.Errorf("timed out after %s", d.String()) case err := <-rch: return err } } } // Skippable wraps a Test function with logic that will not run the test if the skipName // was in the session's skip list func Skippable(skipName string, f testFunction) testFunction { return func(ctx context.Context) error { session := CurrentSession(ctx) if session != nil { if !session.IsSkipped(skipName) { return f(ctx) } else { Skipped(ctx, "skipped as requested") } } return nil } }