mirror of
https://source.quilibrium.com/quilibrium/ceremonyclient.git
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433 lines
10 KiB
Go
433 lines
10 KiB
Go
// Copyright 2023 The LevelDB-Go and Pebble Authors. All rights reserved. Use
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// of this source code is governed by a BSD-style license that can be found in
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// the LICENSE file.
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package keyspan
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import (
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"fmt"
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"go/token"
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"io"
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"reflect"
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"strconv"
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"strings"
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"testing"
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"github.com/cockroachdb/datadriven"
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"github.com/cockroachdb/errors"
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"github.com/cockroachdb/pebble/internal/dsl"
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)
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// This file contains testing facilities for Spans and FragmentIterators. It's
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// defined here so that it may be used by the keyspan package to test its
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// various FragmentIterator implementations.
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//
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// TODO(jackson): Move keyspan.{Span,Key,FragmentIterator} into internal/base,
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// and then move the testing facilities to an independent package, eg
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// internal/itertest.
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// probe defines an interface for probes that may inspect or mutate internal
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// span iterator behavior.
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type probe interface {
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// probe inspects, and possibly manipulates, iterator operations' results.
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probe(*probeContext)
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}
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func parseProbes(probeDSLs ...string) []probe {
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probes := make([]probe, len(probeDSLs))
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var err error
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for i := range probeDSLs {
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probes[i], err = probeParser.Parse(probeDSLs[i])
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if err != nil {
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panic(err)
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}
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}
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return probes
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}
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func attachProbes(iter FragmentIterator, pctx probeContext, probes ...probe) FragmentIterator {
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if pctx.log == nil {
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pctx.log = io.Discard
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}
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for i := range probes {
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iter = &probeIterator{
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iter: iter,
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probe: probes[i],
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probeCtx: pctx,
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}
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}
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return iter
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}
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// probeContext provides the context within which a probe is run. It includes
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// information about the iterator operation in progress.
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type probeContext struct {
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op
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log io.Writer
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}
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type op struct {
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Kind OpKind
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SeekKey []byte
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Span *Span
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Err error
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}
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// ErrInjected is an error artificially injected for testing.
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var ErrInjected = &errorProbe{name: "ErrInjected", err: errors.New("injected error")}
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var probeParser = func() *dsl.Parser[probe] {
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valuerParser := dsl.NewParser[valuer]()
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valuerParser.DefineConstant("StartKey", func() valuer { return startKey{} })
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valuerParser.DefineFunc("Bytes",
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func(p *dsl.Parser[valuer], s *dsl.Scanner) valuer {
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v := bytesConstant{bytes: []byte(s.ConsumeString())}
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s.Consume(token.RPAREN)
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return v
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})
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predicateParser := dsl.NewPredicateParser[*probeContext]()
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predicateParser.DefineFunc("Equal",
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func(p *dsl.Parser[dsl.Predicate[*probeContext]], s *dsl.Scanner) dsl.Predicate[*probeContext] {
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eq := equal{
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valuerParser.ParseFromPos(s, s.Scan()),
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valuerParser.ParseFromPos(s, s.Scan()),
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}
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s.Consume(token.RPAREN)
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return eq
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})
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for i, name := range opNames {
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opKind := OpKind(i)
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predicateParser.DefineConstant(name, func() dsl.Predicate[*probeContext] {
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// An OpKind implements dsl.Predicate[*probeContext].
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return opKind
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})
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}
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probeParser := dsl.NewParser[probe]()
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probeParser.DefineConstant("ErrInjected", func() probe { return ErrInjected })
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probeParser.DefineConstant("noop", func() probe { return noop{} })
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probeParser.DefineFunc("If",
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func(p *dsl.Parser[probe], s *dsl.Scanner) probe {
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probe := ifProbe{
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predicateParser.ParseFromPos(s, s.Scan()),
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probeParser.ParseFromPos(s, s.Scan()),
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probeParser.ParseFromPos(s, s.Scan()),
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}
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s.Consume(token.RPAREN)
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return probe
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})
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probeParser.DefineFunc("Return",
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func(p *dsl.Parser[probe], s *dsl.Scanner) (ret probe) {
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switch tok := s.Scan(); tok.Kind {
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case token.STRING:
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str, err := strconv.Unquote(tok.Lit)
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if err != nil {
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panic(err)
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}
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span := ParseSpan(str)
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ret = returnSpan{s: &span}
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case token.IDENT:
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switch tok.Lit {
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case "nil":
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ret = returnSpan{s: nil}
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default:
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panic(errors.Newf("unrecognized return value %q", tok.Lit))
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}
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}
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s.Consume(token.RPAREN)
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return ret
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})
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probeParser.DefineFunc("Log",
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func(p *dsl.Parser[probe], s *dsl.Scanner) (ret probe) {
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ret = loggingProbe{prefix: s.ConsumeString()}
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s.Consume(token.RPAREN)
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return ret
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})
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return probeParser
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}()
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// probe implementations
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type errorProbe struct {
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name string
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err error
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}
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func (p *errorProbe) String() string { return p.name }
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func (p *errorProbe) Error() error { return p.err }
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func (p *errorProbe) probe(pctx *probeContext) {
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pctx.op.Err = p.err
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pctx.op.Span = nil
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}
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// ifProbe is a conditional probe. If its predicate evaluates to true, it probes
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// using its Then probe. If its predicate evalutes to false, it probes using its
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// Else probe.
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type ifProbe struct {
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Predicate dsl.Predicate[*probeContext]
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Then probe
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Else probe
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}
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func (p ifProbe) String() string { return fmt.Sprintf("(If %s %s %s)", p.Predicate, p.Then, p.Else) }
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func (p ifProbe) probe(pctx *probeContext) {
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if p.Predicate.Evaluate(pctx) {
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p.Then.probe(pctx)
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} else {
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p.Else.probe(pctx)
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}
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}
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type returnSpan struct {
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s *Span
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}
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func (p returnSpan) String() string {
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if p.s == nil {
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return "(Return nil)"
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}
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return fmt.Sprintf("(Return %q)", p.s.String())
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}
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func (p returnSpan) probe(pctx *probeContext) {
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pctx.op.Span = p.s
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pctx.op.Err = nil
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}
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type noop struct{}
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func (noop) String() string { return "Noop" }
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func (noop) probe(pctx *probeContext) {}
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type loggingProbe struct {
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prefix string
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}
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func (lp loggingProbe) String() string { return fmt.Sprintf("(Log %q)", lp.prefix) }
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func (lp loggingProbe) probe(pctx *probeContext) {
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opStr := strings.TrimPrefix(pctx.op.Kind.String(), "Op")
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fmt.Fprintf(pctx.log, "%s%s(", lp.prefix, opStr)
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if pctx.op.SeekKey != nil {
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fmt.Fprintf(pctx.log, "%q", pctx.op.SeekKey)
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}
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fmt.Fprint(pctx.log, ") = ")
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if pctx.op.Span == nil {
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fmt.Fprint(pctx.log, "nil")
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if pctx.op.Err != nil {
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fmt.Fprintf(pctx.log, " <err=%q>", pctx.op.Err)
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}
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} else {
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fmt.Fprint(pctx.log, pctx.op.Span.String())
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}
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fmt.Fprintln(pctx.log)
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}
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// dsl.Predicate[*probeContext] implementations.
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type equal struct {
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a, b valuer
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}
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func (e equal) String() string { return fmt.Sprintf("(Equal %s %s)", e.a, e.b) }
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func (e equal) Evaluate(pctx *probeContext) bool {
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return reflect.DeepEqual(e.a.value(pctx), e.b.value(pctx))
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}
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// OpKind indicates the type of iterator operation being performed.
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type OpKind int8
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const (
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OpSeekGE OpKind = iota
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OpSeekLT
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OpFirst
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OpLast
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OpNext
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OpPrev
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OpClose
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numOpKinds
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)
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func (o OpKind) String() string { return opNames[o] }
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func (o OpKind) Evaluate(pctx *probeContext) bool { return pctx.op.Kind == o }
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var opNames = [numOpKinds]string{
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OpSeekGE: "OpSeekGE",
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OpSeekLT: "OpSeekLT",
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OpFirst: "OpFirst",
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OpLast: "OpLast",
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OpNext: "OpNext",
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OpPrev: "OpPrev",
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OpClose: "OpClose",
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}
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// valuer implementations
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type valuer interface {
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fmt.Stringer
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value(pctx *probeContext) any
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}
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type bytesConstant struct {
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bytes []byte
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}
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func (b bytesConstant) String() string { return fmt.Sprintf("%q", string(b.bytes)) }
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func (b bytesConstant) value(pctx *probeContext) any { return b.bytes }
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type startKey struct{}
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func (s startKey) String() string { return "StartKey" }
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func (s startKey) value(pctx *probeContext) any {
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if pctx.op.Span == nil {
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return nil
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}
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return pctx.op.Span.Start
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}
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type probeIterator struct {
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iter FragmentIterator
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err error
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probe probe
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probeCtx probeContext
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}
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// Assert that probeIterator implements the fragment iterator interface.
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var _ FragmentIterator = (*probeIterator)(nil)
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func (p *probeIterator) handleOp(preProbeOp op) *Span {
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p.probeCtx.op = preProbeOp
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if preProbeOp.Span == nil && p.iter != nil {
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p.probeCtx.op.Err = p.iter.Error()
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}
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p.probe.probe(&p.probeCtx)
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p.err = p.probeCtx.op.Err
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return p.probeCtx.op.Span
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}
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func (p *probeIterator) SeekGE(key []byte) *Span {
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op := op{
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Kind: OpSeekGE,
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SeekKey: key,
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}
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if p.iter != nil {
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op.Span = p.iter.SeekGE(key)
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}
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return p.handleOp(op)
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}
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func (p *probeIterator) SeekLT(key []byte) *Span {
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op := op{
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Kind: OpSeekLT,
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SeekKey: key,
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}
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if p.iter != nil {
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op.Span = p.iter.SeekLT(key)
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}
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return p.handleOp(op)
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}
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func (p *probeIterator) First() *Span {
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op := op{Kind: OpFirst}
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if p.iter != nil {
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op.Span = p.iter.First()
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}
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return p.handleOp(op)
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}
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func (p *probeIterator) Last() *Span {
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op := op{Kind: OpLast}
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if p.iter != nil {
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op.Span = p.iter.Last()
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}
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return p.handleOp(op)
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}
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func (p *probeIterator) Next() *Span {
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op := op{Kind: OpNext}
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if p.iter != nil {
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op.Span = p.iter.Next()
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}
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return p.handleOp(op)
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}
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func (p *probeIterator) Prev() *Span {
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op := op{Kind: OpPrev}
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if p.iter != nil {
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op.Span = p.iter.Prev()
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}
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return p.handleOp(op)
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}
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func (p *probeIterator) Error() error {
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return p.err
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}
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func (p *probeIterator) Close() error {
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op := op{Kind: OpClose}
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if p.iter != nil {
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op.Err = p.iter.Close()
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}
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p.probeCtx.op = op
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p.probe.probe(&p.probeCtx)
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p.err = p.probeCtx.op.Err
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return p.err
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}
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// runIterCmd evaluates a datadriven command controlling an internal
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// keyspan.FragmentIterator, writing the results of the iterator operations to
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// the provided writer.
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func runIterCmd(t *testing.T, td *datadriven.TestData, iter FragmentIterator, w io.Writer) {
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lines := strings.Split(strings.TrimSpace(td.Input), "\n")
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for i, line := range lines {
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if i > 0 {
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fmt.Fprintln(w)
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}
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line = strings.TrimSpace(line)
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i := strings.IndexByte(line, '#')
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iterCmd := line
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if i > 0 {
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iterCmd = string(line[:i])
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}
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runIterOp(w, iter, iterCmd)
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}
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}
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var iterDelim = map[rune]bool{',': true, ' ': true, '(': true, ')': true, '"': true}
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func runIterOp(w io.Writer, it FragmentIterator, op string) {
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fields := strings.FieldsFunc(op, func(r rune) bool { return iterDelim[r] })
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var s *Span
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switch strings.ToLower(fields[0]) {
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case "first":
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s = it.First()
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case "last":
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s = it.Last()
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case "seekge", "seek-ge":
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if len(fields) == 1 {
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panic(fmt.Sprintf("unable to parse iter op %q", op))
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}
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s = it.SeekGE([]byte(fields[1]))
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case "seeklt", "seek-lt":
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if len(fields) == 1 {
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panic(fmt.Sprintf("unable to parse iter op %q", op))
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}
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s = it.SeekLT([]byte(fields[1]))
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case "next":
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s = it.Next()
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case "prev":
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s = it.Prev()
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default:
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panic(fmt.Sprintf("unrecognized iter op %q", fields[0]))
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}
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if s == nil {
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fmt.Fprint(w, "<nil>")
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if err := it.Error(); err != nil {
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fmt.Fprintf(w, " err=<%s>", it.Error())
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}
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return
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}
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fmt.Fprint(w, s)
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}
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