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mem_table_test.go
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mem_table_test.go
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// Copyright 2011 The LevelDB-Go and Pebble Authors. All rights reserved. Use
// of this source code is governed by a BSD-style license that can be found in
// the LICENSE file.
package pebble
import (
"bytes"
"context"
"fmt"
"math/rand/v2"
"strconv"
"strings"
"testing"
"time"
"unicode"
"github.com/cockroachdb/datadriven"
"github.com/cockroachdb/errors"
"github.com/cockroachdb/pebble/internal/arenaskl"
"github.com/cockroachdb/pebble/internal/base"
"github.com/cockroachdb/pebble/internal/itertest"
"github.com/cockroachdb/pebble/internal/rangekey"
"github.com/stretchr/testify/require"
"golang.org/x/sync/errgroup"
)
// get gets the value for the given key. It returns ErrNotFound if the DB does
// not contain the key.
func (m *memTable) get(key []byte) (value []byte, err error) {
it := m.skl.NewIter(nil, nil)
kv := it.SeekGE(key, base.SeekGEFlagsNone)
if kv == nil {
return nil, ErrNotFound
}
if !m.equal(key, kv.K.UserKey) {
return nil, ErrNotFound
}
switch kv.Kind() {
case InternalKeyKindDelete, InternalKeyKindSingleDelete, InternalKeyKindDeleteSized:
return nil, ErrNotFound
default:
return kv.InPlaceValue(), nil
}
}
// Set sets the value for the given key. It overwrites any previous value for
// that key; a DB is not a multi-map. NB: this might have unexpected
// interaction with prepare/apply. Caveat emptor!
func (m *memTable) set(key InternalKey, value []byte) error {
if key.Kind() == InternalKeyKindRangeDelete {
if err := m.rangeDelSkl.Add(key, value); err != nil {
return err
}
m.tombstones.invalidate(1)
return nil
}
if rangekey.IsRangeKey(key.Kind()) {
if err := m.rangeKeySkl.Add(key, value); err != nil {
return err
}
m.rangeKeys.invalidate(1)
return nil
}
return m.skl.Add(key, value)
}
// count returns the number of entries in a DB.
func (m *memTable) count() (n int) {
x := m.newIter(nil)
for kv := x.First(); kv != nil; kv = x.Next() {
n++
}
if x.Close() != nil {
return -1
}
return n
}
func ikey(s string) InternalKey {
return base.MakeInternalKey([]byte(s), 0, InternalKeyKindSet)
}
func TestMemTableBasic(t *testing.T) {
// Check the empty DB.
m := newMemTable(memTableOptions{})
if got, want := m.count(), 0; got != want {
t.Fatalf("0.count: got %v, want %v", got, want)
}
v, err := m.get([]byte("cherry"))
if string(v) != "" || err != ErrNotFound {
t.Fatalf("1.get: got (%q, %v), want (%q, %v)", v, err, "", ErrNotFound)
}
// Add some key/value pairs.
m.set(ikey("cherry"), []byte("red"))
m.set(ikey("peach"), []byte("yellow"))
m.set(ikey("grape"), []byte("red"))
m.set(ikey("grape"), []byte("green"))
m.set(ikey("plum"), []byte("purple"))
if got, want := m.count(), 4; got != want {
t.Fatalf("2.count: got %v, want %v", got, want)
}
// Get keys that are and aren't in the DB.
v, err = m.get([]byte("plum"))
if string(v) != "purple" || err != nil {
t.Fatalf("6.get: got (%q, %v), want (%q, %v)", v, err, "purple", error(nil))
}
v, err = m.get([]byte("lychee"))
if string(v) != "" || err != ErrNotFound {
t.Fatalf("7.get: got (%q, %v), want (%q, %v)", v, err, "", ErrNotFound)
}
// Check an iterator.
s, x := "", m.newIter(nil)
for kv := x.SeekGE([]byte("mango"), base.SeekGEFlagsNone); kv != nil; kv = x.Next() {
v, _, err := kv.Value(nil)
require.NoError(t, err)
s += fmt.Sprintf("%s/%s.", kv.K.UserKey, v)
}
if want := "peach/yellow.plum/purple."; s != want {
t.Fatalf("8.iter: got %q, want %q", s, want)
}
if err = x.Close(); err != nil {
t.Fatalf("9.close: %v", err)
}
// Check some more sets and deletes.
if err := m.set(ikey("apricot"), []byte("orange")); err != nil {
t.Fatalf("12.set: %v", err)
}
if got, want := m.count(), 5; got != want {
t.Fatalf("13.count: got %v, want %v", got, want)
}
}
func TestMemTableCount(t *testing.T) {
m := newMemTable(memTableOptions{})
for i := 0; i < 200; i++ {
if j := m.count(); j != i {
t.Fatalf("count: got %d, want %d", j, i)
}
m.set(InternalKey{UserKey: []byte{byte(i)}}, nil)
}
}
func TestMemTableEmpty(t *testing.T) {
m := newMemTable(memTableOptions{})
if !m.empty() {
t.Errorf("got !empty, want empty")
}
// Add one key/value pair with an empty key and empty value.
m.set(InternalKey{}, nil)
if m.empty() {
t.Errorf("got empty, want !empty")
}
}
func TestMemTable1000Entries(t *testing.T) {
// Initialize the DB.
const N = 1000
m0 := newMemTable(memTableOptions{})
for i := 0; i < N; i++ {
k := ikey(strconv.Itoa(i))
v := []byte(strings.Repeat("x", i))
m0.set(k, v)
}
// Check the DB count.
if got, want := m0.count(), 1000; got != want {
t.Fatalf("count: got %v, want %v", got, want)
}
// Check random-access lookup.
r := rand.New(rand.NewPCG(0, 0))
for i := 0; i < 3*N; i++ {
j := r.IntN(N)
k := []byte(strconv.Itoa(j))
v, err := m0.get(k)
require.NoError(t, err)
if len(v) != cap(v) {
t.Fatalf("get: j=%d, got len(v)=%d, cap(v)=%d", j, len(v), cap(v))
}
var c uint8
if len(v) != 0 {
c = v[0]
} else {
c = 'x'
}
if len(v) != j || c != 'x' {
t.Fatalf("get: j=%d, got len(v)=%d,c=%c, want %d,%c", j, len(v), c, j, 'x')
}
}
// Check that iterating through the middle of the DB looks OK.
// Keys are in lexicographic order, not numerical order.
// Multiples of 3 are not present.
wants := []string{
"499",
"5",
"50",
"500",
"501",
"502",
"503",
"504",
"505",
"506",
"507",
}
x := m0.newIter(nil)
kv := x.SeekGE([]byte(wants[0]), base.SeekGEFlagsNone)
for _, want := range wants {
if kv == nil {
t.Fatalf("iter: next failed, want=%q", want)
}
if got := string(kv.K.UserKey); got != want {
t.Fatalf("iter: got %q, want %q", got, want)
}
if k := kv.K.UserKey; len(k) != cap(k) {
t.Fatalf("iter: len(k)=%d, cap(k)=%d", len(k), cap(k))
}
v, _, err := kv.Value(nil)
require.NoError(t, err)
if len(v) != cap(v) {
t.Fatalf("iter: len(v)=%d, cap(v)=%d", len(v), cap(v))
}
x.Next()
}
if err := x.Close(); err != nil {
t.Fatalf("close: %v", err)
}
}
func TestMemTableIter(t *testing.T) {
var mem *memTable
for _, testdata := range []string{
"testdata/internal_iter_next", "testdata/internal_iter_bounds"} {
datadriven.RunTest(t, testdata, func(t *testing.T, d *datadriven.TestData) string {
switch d.Cmd {
case "define":
mem = newMemTable(memTableOptions{})
for _, key := range strings.Split(d.Input, "\n") {
j := strings.Index(key, ":")
if err := mem.set(base.ParseInternalKey(key[:j]), []byte(key[j+1:])); err != nil {
return err.Error()
}
}
return ""
case "iter":
var options IterOptions
for _, arg := range d.CmdArgs {
switch arg.Key {
case "lower":
if len(arg.Vals) != 1 {
return fmt.Sprintf(
"%s expects at most 1 value for lower", d.Cmd)
}
options.LowerBound = []byte(arg.Vals[0])
case "upper":
if len(arg.Vals) != 1 {
return fmt.Sprintf(
"%s expects at most 1 value for upper", d.Cmd)
}
options.UpperBound = []byte(arg.Vals[0])
default:
return fmt.Sprintf("unknown arg: %s", arg.Key)
}
}
iter := mem.newIter(&options)
defer iter.Close()
return itertest.RunInternalIterCmd(t, d, iter)
default:
return fmt.Sprintf("unknown command: %s", d.Cmd)
}
})
}
}
func TestMemTableDeleteRange(t *testing.T) {
var mem *memTable
var seqNum base.SeqNum
datadriven.RunTest(t, "testdata/delete_range", func(t *testing.T, td *datadriven.TestData) string {
switch td.Cmd {
case "clear":
mem = nil
seqNum = 0
return ""
case "define":
b := newBatch(nil)
if err := runBatchDefineCmd(td, b); err != nil {
return err.Error()
}
if mem == nil {
mem = newMemTable(memTableOptions{})
}
if err := mem.apply(b, seqNum); err != nil {
return err.Error()
}
seqNum += base.SeqNum(b.Count())
return ""
case "scan":
var buf bytes.Buffer
if td.HasArg("range-del") {
iter := mem.newRangeDelIter(nil)
defer iter.Close()
scanKeyspanIterator(&buf, iter)
} else {
iter := mem.newIter(nil)
defer iter.Close()
scanInternalIter(&buf, iter)
}
return buf.String()
default:
return fmt.Sprintf("unknown command: %s", td.Cmd)
}
})
}
func TestMemTableConcurrentDeleteRange(t *testing.T) {
// Concurrently write and read range tombstones. Workers add range
// tombstones, and then immediately retrieve them verifying that the
// tombstones they've added are all present.
m := newMemTable(memTableOptions{Options: &Options{MemTableSize: 64 << 20}})
const workers = 10
eg, _ := errgroup.WithContext(context.Background())
var seqNum base.AtomicSeqNum
seqNum.Store(1)
for i := 0; i < workers; i++ {
i := i
eg.Go(func() error {
start := ([]byte)(fmt.Sprintf("%03d", i))
end := ([]byte)(fmt.Sprintf("%03d", i+1))
for j := 0; j < 100; j++ {
b := newBatch(nil)
b.DeleteRange(start, end, nil)
n := seqNum.Add(1) - 1
require.NoError(t, m.apply(b, n))
b.Close()
var count int
it := m.newRangeDelIter(nil)
s, err := it.SeekGE(start)
for ; s != nil; s, err = it.Next() {
if m.cmp(s.Start, end) >= 0 {
break
}
count += len(s.Keys)
}
if err != nil {
return err
}
if j+1 != count {
return errors.Errorf("%d: expected %d tombstones, but found %d", i, j+1, count)
}
}
return nil
})
}
err := eg.Wait()
if err != nil {
t.Error(err)
}
}
func TestMemTableReserved(t *testing.T) {
m := newMemTable(memTableOptions{size: 5000})
// Increase to 2 references.
m.writerRef()
// The initial reservation accounts for the already allocated bytes from the
// arena.
require.Equal(t, m.reserved, m.skl.Arena().Size())
b := newBatch(nil)
b.Set([]byte("blueberry"), []byte("pie"), nil)
require.NotEqual(t, 0, int(b.memTableSize))
prevReserved := m.reserved
m.prepare(b)
require.Equal(t, int(m.reserved), int(b.memTableSize)+int(prevReserved))
}
func TestMemTable(t *testing.T) {
var m *memTable
var buf bytes.Buffer
batches := map[string]*Batch{}
summary := func() string {
return fmt.Sprintf("%d of %d bytes available",
m.availBytes(), m.totalBytes())
}
datadriven.RunTest(t, "testdata/mem_table", func(t *testing.T, td *datadriven.TestData) string {
buf.Reset()
switch td.Cmd {
case "new":
var o memTableOptions
td.MaybeScanArgs(t, "size", &o.size)
m = newMemTable(o)
return ""
case "prepare":
var name string
td.ScanArgs(t, "name", &name)
b := newBatch(nil)
if err := runBatchDefineCmd(td, b); err != nil {
return err.Error()
}
batches[name] = b
if err := m.prepare(b); err != nil {
return err.Error()
}
return summary()
case "apply":
var name string
var seqNum uint64
td.ScanArgs(t, "name", &name)
td.ScanArgs(t, "seq", &seqNum)
if err := m.apply(batches[name], base.SeqNum(seqNum)); err != nil {
return err.Error()
}
delete(batches, name)
return summary()
case "computePossibleOverlaps":
stopAfterFirst := td.HasArg("stop-after-first")
var keyRanges []bounded
for _, l := range strings.Split(td.Input, "\n") {
s := strings.FieldsFunc(l, func(r rune) bool { return unicode.IsSpace(r) || r == '-' })
keyRanges = append(keyRanges, KeyRange{Start: []byte(s[0]), End: []byte(s[1])})
}
m.computePossibleOverlaps(func(b bounded) shouldContinue {
fmt.Fprintf(&buf, "%s\n", b)
if stopAfterFirst {
return stopIteration
}
return continueIteration
}, keyRanges...)
return buf.String()
default:
return fmt.Sprintf("unrecognized command %q", td.Cmd)
}
})
}
func buildMemTable(b *testing.B) (*memTable, [][]byte) {
m := newMemTable(memTableOptions{})
var keys [][]byte
var ikey InternalKey
for i := 0; ; i++ {
key := []byte(fmt.Sprintf("%08d", i))
keys = append(keys, key)
ikey = base.MakeInternalKey(key, 0, InternalKeyKindSet)
if m.set(ikey, nil) == arenaskl.ErrArenaFull {
break
}
}
return m, keys
}
func BenchmarkMemTableIterSeekGE(b *testing.B) {
m, keys := buildMemTable(b)
iter := m.newIter(nil)
rng := rand.New(rand.NewPCG(0, uint64(time.Now().UnixNano())))
b.ResetTimer()
for i := 0; i < b.N; i++ {
iter.SeekGE(keys[rng.IntN(len(keys))], base.SeekGEFlagsNone)
}
}
func BenchmarkMemTableIterSeqSeekGEWithBounds(b *testing.B) {
m, keys := buildMemTable(b)
rng := rand.New(rand.NewPCG(0, uint64(17136275210000)))
// Set bounds to restrict iteration to the middle 50% of keys.
iter := m.newIter(&IterOptions{
LowerBound: keys[len(keys)/4],
UpperBound: keys[3*len(keys)/4],
})
b.ResetTimer()
for i := 0; i < b.N; i++ {
iter.SeekGE(keys[rng.IntN(len(keys))], base.SeekGEFlagsNone)
}
}
// BenchmarkMemTableIterSeekGESuccessiveWithBounds benchmarks a particular case
// where an upper bound excludes the majority of the memtable keys and the user
// seeks the iterator with successively increasing keys. This pattern is
// expected to be common in CockroachDB: eg, intent resolution with an upper
// bound at the end of the lock table span, or a MVCC iterator with an upper
// bound restricting constraining iteration to a single CockroachDB Range.
func BenchmarkMemTableIterSeekGESuccessiveWithBounds(b *testing.B) {
m, keys := buildMemTable(b)
iter := m.newIter(&IterOptions{
UpperBound: keys[1],
})
flags := base.SeekGEFlagsNone.EnableTrySeekUsingNext()
seekKeys := make([][]byte, 256)
for i := 1; i < len(seekKeys); i++ {
seekKeys[i] = append(append([]byte(nil), keys[0]...), byte(i-1))
}
b.ResetTimer()
iter.SeekGE(keys[0], base.SeekGEFlagsNone)
for i := 0; i < b.N-1; i++ {
iter.SeekGE(seekKeys[i%len(seekKeys)], flags)
}
}
func BenchmarkMemTableIterNext(b *testing.B) {
m, _ := buildMemTable(b)
iter := m.newIter(nil)
_ = iter.First()
b.ResetTimer()
for i := 0; i < b.N; i++ {
kv := iter.Next()
if kv == nil {
kv = iter.First()
}
_ = kv
}
}
func BenchmarkMemTableIterNextWithBounds(b *testing.B) {
m, keys := buildMemTable(b)
// Set bounds to restrict iteration to the middle 50% of keys.
opts := &IterOptions{
LowerBound: keys[len(keys)/4],
UpperBound: keys[3*len(keys)/4],
}
iter := m.newIter(opts)
_ = iter.SeekGE(opts.LowerBound, base.SeekGEFlagsNone)
b.ResetTimer()
for i := 0; i < b.N; i++ {
kv := iter.Next()
if kv == nil {
kv = iter.SeekGE(opts.LowerBound, base.SeekGEFlagsNone)
}
_ = kv
}
}
func BenchmarkMemTableIterPrev(b *testing.B) {
m, _ := buildMemTable(b)
iter := m.newIter(nil)
_ = iter.Last()
b.ResetTimer()
for i := 0; i < b.N; i++ {
kv := iter.Prev()
if kv == nil {
kv = iter.Last()
}
_ = kv
}
}
func BenchmarkMemTableIterPrevWithBounds(b *testing.B) {
m, keys := buildMemTable(b)
// Set bounds to restrict iteration to the middle 50% of keys.
opts := &IterOptions{
LowerBound: keys[len(keys)/4],
UpperBound: keys[3*len(keys)/4],
}
iter := m.newIter(opts)
_ = iter.SeekLT(opts.UpperBound, base.SeekLTFlagsNone)
b.ResetTimer()
for i := 0; i < b.N; i++ {
kv := iter.Prev()
if kv == nil {
kv = iter.SeekLT(opts.UpperBound, base.SeekLTFlagsNone)
}
_ = kv
}
}