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db_test.go
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db_test.go
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// Copyright 2012 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"
"io"
"math/rand/v2"
"path/filepath"
"regexp"
"runtime"
"slices"
"strconv"
"strings"
"sync"
"sync/atomic"
"testing"
"time"
"github.com/cockroachdb/crlib/fifo"
"github.com/cockroachdb/datadriven"
"github.com/cockroachdb/errors"
"github.com/cockroachdb/pebble/internal/base"
"github.com/cockroachdb/pebble/internal/cache"
"github.com/cockroachdb/pebble/internal/testkeys"
"github.com/cockroachdb/pebble/internal/testutils"
"github.com/cockroachdb/pebble/objstorage/objstorageprovider"
"github.com/cockroachdb/pebble/sstable"
"github.com/cockroachdb/pebble/vfs"
"github.com/cockroachdb/pebble/vfs/errorfs"
"github.com/cockroachdb/pebble/wal"
"github.com/stretchr/testify/require"
)
// try repeatedly calls f, sleeping between calls with exponential back-off,
// until f returns a nil error or the total sleep time is greater than or equal
// to maxTotalSleep. It always calls f at least once.
func try(initialSleep, maxTotalSleep time.Duration, f func() error) error {
totalSleep := time.Duration(0)
for d := initialSleep; ; d *= 2 {
time.Sleep(d)
totalSleep += d
if err := f(); err == nil || totalSleep >= maxTotalSleep {
return err
}
}
}
func TestTry(t *testing.T) {
c := make(chan struct{})
go func() {
time.Sleep(1 * time.Millisecond)
close(c)
}()
attemptsMu := sync.Mutex{}
attempts := 0
err := try(100*time.Microsecond, 20*time.Second, func() error {
attemptsMu.Lock()
attempts++
attemptsMu.Unlock()
select {
default:
return errors.New("timed out")
case <-c:
return nil
}
})
require.NoError(t, err)
attemptsMu.Lock()
a := attempts
attemptsMu.Unlock()
if a == 0 {
t.Fatalf("attempts: got 0, want > 0")
}
}
func TestBasicReads(t *testing.T) {
testCases := []struct {
dirname string
wantMap map[string]string
}{
{
"db-stage-1",
map[string]string{
"aaa": "",
"bar": "",
"baz": "",
"foo": "",
"quux": "",
"zzz": "",
},
},
{
"db-stage-2",
map[string]string{
"aaa": "",
"bar": "",
"baz": "three",
"foo": "four",
"quux": "",
"zzz": "",
},
},
{
"db-stage-3",
map[string]string{
"aaa": "",
"bar": "",
"baz": "three",
"foo": "four",
"quux": "",
"zzz": "",
},
},
{
"db-stage-4",
map[string]string{
"aaa": "",
"bar": "",
"baz": "",
"foo": "five",
"quux": "six",
"zzz": "",
},
},
}
for _, tc := range testCases {
t.Run(tc.dirname, func(t *testing.T) {
fs := vfs.NewMem()
_, err := vfs.Clone(vfs.Default, fs, filepath.Join("testdata", tc.dirname), tc.dirname)
if err != nil {
t.Fatalf("%s: cloneFileSystem failed: %v", tc.dirname, err)
}
d, err := Open(tc.dirname, testingRandomized(t, &Options{
FS: fs,
}))
if err != nil {
t.Fatalf("%s: Open failed: %v", tc.dirname, err)
}
for key, want := range tc.wantMap {
got, closer, err := d.Get([]byte(key))
if err != nil && err != ErrNotFound {
t.Fatalf("%s: Get(%q) failed: %v", tc.dirname, key, err)
}
if string(got) != string(want) {
t.Fatalf("%s: Get(%q): got %q, want %q", tc.dirname, key, got, want)
}
if closer != nil {
closer.Close()
}
}
err = d.Close()
if err != nil {
t.Fatalf("%s: Close failed: %v", tc.dirname, err)
}
})
}
}
func TestBasicWrites(t *testing.T) {
d, err := Open("", testingRandomized(t, &Options{
FS: vfs.NewMem(),
}))
require.NoError(t, err)
names := []string{
"Alatar",
"Gandalf",
"Pallando",
"Radagast",
"Saruman",
"Joe",
}
wantMap := map[string]string{}
inBatch, batch, pending := false, &Batch{}, [][]string(nil)
set0 := func(k, v string) error {
return d.Set([]byte(k), []byte(v), nil)
}
del0 := func(k string) error {
return d.Delete([]byte(k), nil)
}
set1 := func(k, v string) error {
batch.Set([]byte(k), []byte(v), nil)
return nil
}
del1 := func(k string) error {
batch.Delete([]byte(k), nil)
return nil
}
set, del := set0, del0
testCases := []string{
"set Gandalf Grey",
"set Saruman White",
"set Radagast Brown",
"delete Saruman",
"set Gandalf White",
"batch",
" set Alatar AliceBlue",
"apply",
"delete Pallando",
"set Alatar AntiqueWhite",
"set Pallando PapayaWhip",
"batch",
"apply",
"set Pallando PaleVioletRed",
"batch",
" delete Alatar",
" set Gandalf GhostWhite",
" set Saruman Seashell",
" delete Saruman",
" set Saruman SeaGreen",
" set Radagast RosyBrown",
" delete Pallando",
"apply",
"delete Radagast",
"delete Radagast",
"delete Radagast",
"set Gandalf Goldenrod",
"set Pallando PeachPuff",
"batch",
" delete Joe",
" delete Saruman",
" delete Radagast",
" delete Pallando",
" delete Gandalf",
" delete Alatar",
"apply",
"set Joe Plumber",
}
for i, tc := range testCases {
s := strings.Split(strings.TrimSpace(tc), " ")
switch s[0] {
case "set":
if err := set(s[1], s[2]); err != nil {
t.Fatalf("#%d %s: %v", i, tc, err)
}
if inBatch {
pending = append(pending, s)
} else {
wantMap[s[1]] = s[2]
}
case "delete":
if err := del(s[1]); err != nil {
t.Fatalf("#%d %s: %v", i, tc, err)
}
if inBatch {
pending = append(pending, s)
} else {
delete(wantMap, s[1])
}
case "batch":
inBatch, batch, set, del = true, &Batch{}, set1, del1
case "apply":
if err := d.Apply(batch, nil); err != nil {
t.Fatalf("#%d %s: %v", i, tc, err)
}
for _, p := range pending {
switch p[0] {
case "set":
wantMap[p[1]] = p[2]
case "delete":
delete(wantMap, p[1])
}
}
inBatch, pending, set, del = false, nil, set0, del0
default:
t.Fatalf("#%d %s: bad test case: %q", i, tc, s)
}
fail := false
for _, name := range names {
g, closer, err := d.Get([]byte(name))
if err != nil && err != ErrNotFound {
t.Errorf("#%d %s: Get(%q): %v", i, tc, name, err)
fail = true
}
got, gOK := string(g), err == nil
want, wOK := wantMap[name]
if got != want || gOK != wOK {
t.Errorf("#%d %s: Get(%q): got %q, %t, want %q, %t",
i, tc, name, got, gOK, want, wOK)
fail = true
}
if closer != nil {
closer.Close()
}
}
if fail {
return
}
}
require.NoError(t, d.Close())
}
func TestRandomWrites(t *testing.T) {
d, err := Open("", testingRandomized(t, &Options{
FS: vfs.NewMem(),
MemTableSize: 8 * 1024,
}))
require.NoError(t, err)
keys := [64][]byte{}
wants := [64]int{}
for k := range keys {
keys[k] = []byte(strconv.Itoa(k))
wants[k] = -1
}
xxx := bytes.Repeat([]byte("x"), 512)
rng := rand.New(rand.NewPCG(0, 123))
const N = 1000
for i := 0; i < N; i++ {
k := rng.IntN(len(keys))
if rng.IntN(20) != 0 {
wants[k] = rng.IntN(len(xxx) + 1)
if err := d.Set(keys[k], xxx[:wants[k]], nil); err != nil {
t.Fatalf("i=%d: Set: %v", i, err)
}
} else {
wants[k] = -1
if err := d.Delete(keys[k], nil); err != nil {
t.Fatalf("i=%d: Delete: %v", i, err)
}
}
if i != N-1 || rng.IntN(50) != 0 {
continue
}
for k := range keys {
got := -1
if v, closer, err := d.Get(keys[k]); err != nil {
if err != ErrNotFound {
t.Fatalf("Get: %v", err)
}
} else {
got = len(v)
closer.Close()
}
if got != wants[k] {
t.Errorf("i=%d, k=%d: got %d, want %d", i, k, got, wants[k])
}
}
}
require.NoError(t, d.Close())
}
func TestLargeBatch(t *testing.T) {
d, err := Open("", testingRandomized(t, &Options{
FS: vfs.NewMem(),
MemTableSize: 1400,
MemTableStopWritesThreshold: 100,
}))
require.NoError(t, err)
verifyLSM := func(expected string) func() error {
return func() error {
d.mu.Lock()
s := d.mu.versions.currentVersion().String()
d.mu.Unlock()
if expected != s {
if testing.Verbose() {
fmt.Println(strings.TrimSpace(s))
}
return errors.Errorf("expected %s, but found %s", expected, s)
}
return nil
}
}
getLatestLog := func() wal.LogicalLog {
d.mu.Lock()
defer d.mu.Unlock()
logs := d.mu.log.manager.List()
return logs[len(logs)-1]
}
memTableCreationSeqNum := func() base.SeqNum {
d.mu.Lock()
defer d.mu.Unlock()
return d.mu.mem.mutable.logSeqNum
}
startLog := getLatestLog()
startLogStartSize, err := startLog.PhysicalSize()
require.NoError(t, err)
startSeqNum := d.mu.versions.logSeqNum.Load()
// Write a key with a value larger than the memtable size.
require.NoError(t, d.Set([]byte("a"), bytes.Repeat([]byte("a"), 512), nil))
// Verify that the large batch was written to the WAL that existed before it
// was committed. We verify that WAL rotation occurred, where the large batch
// was written to, and that the new WAL is empty.
endLog := getLatestLog()
if startLog.Num == endLog.Num {
t.Fatal("expected WAL rotation")
}
startLogEndSize, err := startLog.PhysicalSize()
require.NoError(t, err)
if startLogEndSize == startLogStartSize {
t.Fatalf("expected large batch to be written to %s.log, but file size unchanged at %d",
startLog.Num, startLogEndSize)
}
endLogSize, err := endLog.PhysicalSize()
require.NoError(t, err)
if endLogSize != 0 {
t.Fatalf("expected %s to be empty, but found %d", endLog, endLogSize)
}
if creationSeqNum := memTableCreationSeqNum(); creationSeqNum <= startSeqNum {
t.Fatalf("expected memTable.logSeqNum=%d > largeBatch.seqNum=%d", creationSeqNum, startSeqNum)
}
// Verify this results in one L0 table being created.
require.NoError(t, try(100*time.Microsecond, 20*time.Second,
verifyLSM("L0.0:\n 000005:[a#10,SET-a#10,SET]\n")))
require.NoError(t, d.Set([]byte("b"), bytes.Repeat([]byte("b"), 512), nil))
// Verify this results in a second L0 table being created.
require.NoError(t, try(100*time.Microsecond, 20*time.Second,
verifyLSM("L0.0:\n 000005:[a#10,SET-a#10,SET]\n 000007:[b#11,SET-b#11,SET]\n")))
// Allocate a bunch of batches to exhaust the batchPool. None of these
// batches should have a non-zero count.
for i := 0; i < 10; i++ {
b := d.NewBatch()
require.EqualValues(t, 0, b.Count())
}
require.NoError(t, d.Close())
}
func TestGetNoCache(t *testing.T) {
cache := NewCache(0)
defer cache.Unref()
d, err := Open("", testingRandomized(t, &Options{
Cache: cache,
FS: vfs.NewMem(),
}))
require.NoError(t, err)
require.NoError(t, d.Set([]byte("a"), []byte("aa"), nil))
require.NoError(t, d.Flush())
verifyGet(t, d, []byte("a"), []byte("aa"))
require.NoError(t, d.Close())
}
func TestGetMerge(t *testing.T) {
d, err := Open("", testingRandomized(t, &Options{
FS: vfs.NewMem(),
}))
require.NoError(t, err)
key := []byte("a")
verify := func(expected string) {
val, closer, err := d.Get(key)
require.NoError(t, err)
if expected != string(val) {
t.Fatalf("expected %s, but got %s", expected, val)
}
closer.Close()
}
const val = "1"
for i := 1; i <= 3; i++ {
require.NoError(t, d.Merge(key, []byte(val), nil))
expected := strings.Repeat(val, i)
verify(expected)
require.NoError(t, d.Flush())
verify(expected)
}
require.NoError(t, d.Close())
}
func TestMergeOrderSameAfterFlush(t *testing.T) {
// Ensure compaction iterator (used by flush) and user iterator process merge
// operands in the same order
d, err := Open("", testingRandomized(t, &Options{
FS: vfs.NewMem(),
}))
require.NoError(t, err)
key := []byte("a")
verify := func(expected string) {
iter, _ := d.NewIter(nil)
if !iter.SeekGE([]byte("a")) {
t.Fatal("expected one value, but got empty iterator")
}
if expected != string(iter.Value()) {
t.Fatalf("expected %s, but got %s", expected, string(iter.Value()))
}
if !iter.SeekLT([]byte("b")) {
t.Fatal("expected one value, but got empty iterator")
}
if expected != string(iter.Value()) {
t.Fatalf("expected %s, but got %s", expected, string(iter.Value()))
}
require.NoError(t, iter.Close())
}
require.NoError(t, d.Merge(key, []byte("0"), nil))
require.NoError(t, d.Merge(key, []byte("1"), nil))
verify("01")
require.NoError(t, d.Flush())
verify("01")
require.NoError(t, d.Close())
}
type closableMerger struct {
lastBuf []byte
closed bool
}
func (m *closableMerger) MergeNewer(value []byte) error {
m.lastBuf = append(m.lastBuf[:0], value...)
return nil
}
func (m *closableMerger) MergeOlder(value []byte) error {
m.lastBuf = append(m.lastBuf[:0], value...)
return nil
}
func (m *closableMerger) Finish(includesBase bool) ([]byte, io.Closer, error) {
return m.lastBuf, m, nil
}
func (m *closableMerger) Close() error {
m.closed = true
return nil
}
func TestMergerClosing(t *testing.T) {
m := &closableMerger{}
d, err := Open("", testingRandomized(t, &Options{
FS: vfs.NewMem(),
Merger: &Merger{
Merge: func(key, value []byte) (base.ValueMerger, error) {
return m, m.MergeNewer(value)
},
},
}))
require.NoError(t, err)
defer func() {
require.NoError(t, d.Close())
}()
err = d.Merge([]byte("a"), []byte("b"), nil)
require.NoError(t, err)
require.False(t, m.closed)
val, closer, err := d.Get([]byte("a"))
require.NoError(t, err)
require.Equal(t, []byte("b"), val)
require.NotNil(t, closer)
require.False(t, m.closed)
_ = closer.Close()
require.True(t, m.closed)
}
func TestLogData(t *testing.T) {
d, err := Open("", testingRandomized(t, &Options{
FS: vfs.NewMem(),
}))
require.NoError(t, err)
defer func() {
require.NoError(t, d.Close())
}()
require.NoError(t, d.LogData([]byte("foo"), Sync))
require.NoError(t, d.LogData([]byte("bar"), Sync))
// TODO(itsbilal): Confirm that we wrote some bytes to the WAL.
// For now, LogData proceeding ahead without a panic is good enough.
}
func TestSingleDeleteGet(t *testing.T) {
d, err := Open("", testingRandomized(t, &Options{
FS: vfs.NewMem(),
}))
require.NoError(t, err)
defer func() {
require.NoError(t, d.Close())
}()
key := []byte("key")
val := []byte("val")
require.NoError(t, d.Set(key, val, nil))
verifyGet(t, d, key, val)
key2 := []byte("key2")
val2 := []byte("val2")
require.NoError(t, d.Set(key2, val2, nil))
verifyGet(t, d, key2, val2)
require.NoError(t, d.SingleDelete(key2, nil))
verifyGetNotFound(t, d, key2)
}
func TestSingleDeleteFlush(t *testing.T) {
d, err := Open("", testingRandomized(t, &Options{
FS: vfs.NewMem(),
}))
require.NoError(t, err)
defer func() {
require.NoError(t, d.Close())
}()
key := []byte("key")
valFirst := []byte("first")
valSecond := []byte("second")
key2 := []byte("key2")
val2 := []byte("val2")
require.NoError(t, d.Set(key, valFirst, nil))
require.NoError(t, d.Set(key2, val2, nil))
require.NoError(t, d.Flush())
require.NoError(t, d.SingleDelete(key, nil))
require.NoError(t, d.Set(key, valSecond, nil))
require.NoError(t, d.Delete(key2, nil))
require.NoError(t, d.Set(key2, val2, nil))
require.NoError(t, d.Flush())
require.NoError(t, d.SingleDelete(key, nil))
require.NoError(t, d.Delete(key2, nil))
require.NoError(t, d.Flush())
verifyGetNotFound(t, d, key)
verifyGetNotFound(t, d, key2)
}
func TestUnremovableSingleDelete(t *testing.T) {
d, err := Open("", testingRandomized(t, &Options{
FS: vfs.NewMem(),
L0CompactionThreshold: 8,
}))
require.NoError(t, err)
defer func() {
require.NoError(t, d.Close())
}()
key := []byte("key")
valFirst := []byte("valFirst")
valSecond := []byte("valSecond")
require.NoError(t, d.Set(key, valFirst, nil))
ss := d.NewSnapshot()
defer ss.Close()
require.NoError(t, d.SingleDelete(key, nil))
require.NoError(t, d.Set(key, valSecond, nil))
require.NoError(t, d.Flush())
verifyGet(t, ss, key, valFirst)
verifyGet(t, d, key, valSecond)
require.NoError(t, d.SingleDelete(key, nil))
verifyGet(t, ss, key, valFirst)
verifyGetNotFound(t, d, key)
require.NoError(t, d.Flush())
verifyGet(t, ss, key, valFirst)
verifyGetNotFound(t, d, key)
}
func TestIterLeak(t *testing.T) {
for _, leak := range []bool{true, false} {
t.Run(fmt.Sprintf("leak=%t", leak), func(t *testing.T) {
for _, flush := range []bool{true, false} {
t.Run(fmt.Sprintf("flush=%t", flush), func(t *testing.T) {
d, err := Open("", testingRandomized(t, &Options{
FS: vfs.NewMem(),
}))
require.NoError(t, err)
require.NoError(t, d.Set([]byte("a"), []byte("a"), nil))
if flush {
require.NoError(t, d.Flush())
}
iter, _ := d.NewIter(nil)
iter.First()
if !leak {
require.NoError(t, iter.Close())
require.NoError(t, d.Close())
} else {
defer iter.Close()
if err := d.Close(); err == nil {
t.Fatalf("expected failure, but found success")
} else if !strings.HasPrefix(err.Error(), "leaked iterators:") {
t.Fatalf("expected leaked iterators, but found %+v", err)
} else {
t.Log(err.Error())
}
}
})
}
})
}
}
// Make sure that we detect an iter leak when only one DB closes
// while the second db still holds a reference to the FileCache.
func TestIterLeakSharedCache(t *testing.T) {
for _, leak := range []bool{true, false} {
t.Run(fmt.Sprintf("leak=%t", leak), func(t *testing.T) {
for _, flush := range []bool{true, false} {
t.Run(fmt.Sprintf("flush=%t", flush), func(t *testing.T) {
d1, err := Open("", &Options{
FS: vfs.NewMem(),
})
require.NoError(t, err)
d2, err := Open("", &Options{
FS: vfs.NewMem(),
})
require.NoError(t, err)
require.NoError(t, d1.Set([]byte("a"), []byte("a"), nil))
if flush {
require.NoError(t, d1.Flush())
}
require.NoError(t, d2.Set([]byte("a"), []byte("a"), nil))
if flush {
require.NoError(t, d2.Flush())
}
// Check if leak detection works with only one db closing.
{
iter1, _ := d1.NewIter(nil)
iter1.First()
if !leak {
require.NoError(t, iter1.Close())
require.NoError(t, d1.Close())
} else {
defer iter1.Close()
if err := d1.Close(); err == nil {
t.Fatalf("expected failure, but found success")
} else if !strings.HasPrefix(err.Error(), "leaked iterators:") {
t.Fatalf("expected leaked iterators, but found %+v", err)
} else {
t.Log(err.Error())
}
}
}
{
iter2, _ := d2.NewIter(nil)
iter2.First()
if !leak {
require.NoError(t, iter2.Close())
require.NoError(t, d2.Close())
} else {
defer iter2.Close()
if err := d2.Close(); err == nil {
t.Fatalf("expected failure, but found success")
} else if !strings.HasPrefix(err.Error(), "leaked iterators:") {
t.Fatalf("expected leaked iterators, but found %+v", err)
} else {
t.Log(err.Error())
}
}
}
})
}
})
}
}
func TestMemTableReservation(t *testing.T) {
opts := &Options{
Cache: NewCache(128 << 10 /* 128 KB */),
// We're going to be looking at and asserting the global memtable reservation
// amount below so we don't want to race with any triggered stats collections.
DisableTableStats: true,
MemTableSize: initialMemTableSize,
FS: vfs.NewMem(),
}
defer opts.Cache.Unref()
opts.testingRandomized(t)
opts.EnsureDefaults()
// Add a block to the cache. Note that the memtable size is larger than the
// cache size, so opening the DB should cause this block to be evicted.
tmpID := opts.Cache.NewID()
helloWorld := []byte("hello world")
value := cache.Alloc(len(helloWorld))
copy(value.Buf(), helloWorld)
opts.Cache.Set(tmpID, base.DiskFileNum(0), 0, value).Release()
d, err := Open("", opts)
require.NoError(t, err)
checkReserved := func(expected int64) {
t.Helper()
if reserved := d.memTableReserved.Load(); expected != reserved {
t.Fatalf("expected %d reserved, but found %d", expected, reserved)
}
}
checkReserved(int64(opts.MemTableSize))
if refs := d.mu.mem.queue[len(d.mu.mem.queue)-1].readerRefs.Load(); refs != 2 {
t.Fatalf("expected 2 refs, but found %d", refs)
}
// Verify the memtable reservation has caused our test block to be evicted.
if h := opts.Cache.Get(tmpID, base.DiskFileNum(0), 0); h.Valid() {
t.Fatalf("expected failure, but found success: %#v", h)
}
// Flush the memtable. The memtable reservation should double because old
// memtable will be recycled, saved for the next memtable allocation.
require.NoError(t, d.Flush())
checkReserved(int64(2 * opts.MemTableSize))
// Flush again. The memtable reservation should be unchanged because at most
// 1 memtable may be preserved for recycling.
// Flush in the presence of an active iterator. The iterator will hold a
// reference to a readState which will in turn hold a reader reference to the
// memtable.
iter, _ := d.NewIter(nil)
require.NoError(t, d.Flush())
// The flush moved the recycled memtable into position as an active mutable
// memtable. There are now two allocated memtables: 1 mutable and 1 pinned
// by the iterator's read state.
checkReserved(2 * int64(opts.MemTableSize))
// Flushing again should increase the reservation total to 3x: 1 active
// mutable, 1 for recycling, 1 pinned by iterator's read state.
require.NoError(t, d.Flush())
checkReserved(3 * int64(opts.MemTableSize))
// Closing the iterator will release the iterator's read state, and the old
// memtable will be moved into position as the next memtable to recycle.
// There was already a memtable ready to be recycled, so that memtable will
// be freed and the overall reservation total is reduced to 2x.
require.NoError(t, iter.Close())
checkReserved(2 * int64(opts.MemTableSize))
require.NoError(t, d.Close())
}
func TestMemTableReservationLeak(t *testing.T) {
d, err := Open("", &Options{FS: vfs.NewMem()})
require.NoError(t, err)
d.mu.Lock()
last := d.mu.mem.queue[len(d.mu.mem.queue)-1]
last.readerRef()
defer func() {
last.readerUnref(true)
}()
d.mu.Unlock()
if err := d.Close(); err == nil {
t.Fatalf("expected failure, but found success")
} else if !strings.HasPrefix(err.Error(), "leaked memtable reservation:") {
t.Fatalf("expected leaked memtable reservation, but found %+v", err)
} else {
t.Log(err.Error())
}
}
func TestCacheEvict(t *testing.T) {
cache := NewCache(10 << 20)
defer cache.Unref()
d, err := Open("", &Options{
Cache: cache,
FS: vfs.NewMem(),
})
require.NoError(t, err)
for i := 0; i < 1000; i++ {
key := []byte(fmt.Sprintf("%04d", i))
require.NoError(t, d.Set(key, key, nil))
}
require.NoError(t, d.Flush())
iter, _ := d.NewIter(nil)
for iter.First(); iter.Valid(); iter.Next() {
}
require.NoError(t, iter.Close())
if size := cache.Size(); size == 0 {
t.Fatalf("expected non-zero cache size")
}
for i := 0; i < 1000; i++ {
key := []byte(fmt.Sprintf("%04d", i))
require.NoError(t, d.Delete(key, nil))
}
require.NoError(t, d.Compact([]byte("0"), []byte("1"), false))
require.NoError(t, d.Close())
if size := cache.Size(); size != 0 {
t.Fatalf("expected empty cache, but found %d", size)
}
}
func TestFlushEmpty(t *testing.T) {
d, err := Open("", testingRandomized(t, &Options{
FS: vfs.NewMem(),
}))
require.NoError(t, err)
// Flushing an empty memtable should not fail.
require.NoError(t, d.Flush())
require.NoError(t, d.Close())
}
func TestRollManifest(t *testing.T) {
toPreserve := rand.Int32N(5) + 1
opts := &Options{
MaxManifestFileSize: 1,
L0CompactionThreshold: 10,
L0StopWritesThreshold: 1000,
FS: vfs.NewMem(),
NumPrevManifest: int(toPreserve),
}
opts.DisableAutomaticCompactions = true
opts.testingRandomized(t)
d, err := Open("", opts)
require.NoError(t, err)
manifestFileNumber := func() base.DiskFileNum {
d.mu.Lock()
defer d.mu.Unlock()
return d.mu.versions.manifestFileNum
}
sizeRolloverState := func() (int64, int64) {
d.mu.Lock()
defer d.mu.Unlock()
return d.mu.versions.rotationHelper.DebugInfo()
}
current := func() string {
desc, err := Peek(d.dirname, d.opts.FS)
require.NoError(t, err)
return desc.ManifestFilename
}
lastManifestNum := manifestFileNumber()
manifestNums := []base.DiskFileNum{lastManifestNum}
for i := 0; i < 5; i++ {
// MaxManifestFileSize is 1, but the rollover logic also counts edits
// since the last snapshot to decide on rollover, so do as many flushes as
// it demands.
lastSnapshotCount, editsSinceSnapshotCount := sizeRolloverState()
var expectedLastSnapshotCount, expectedEditsSinceSnapshotCount int64
switch i {
case 0:
// DB is empty.
expectedLastSnapshotCount, expectedEditsSinceSnapshotCount = 0, 0
case 1:
// First edit that caused rollover is not in the snapshot.
expectedLastSnapshotCount, expectedEditsSinceSnapshotCount = 0, 1
case 2:
// One flush is in the snapshot. One flush in the edit.
expectedLastSnapshotCount, expectedEditsSinceSnapshotCount = 1, 1
case 3:
// Two flushes in the snapshot. One flush in the edit. Will need to do
// two more flushes, the first of which will be in the next snapshot.
expectedLastSnapshotCount, expectedEditsSinceSnapshotCount = 2, 1
case 4:
// Four flushes in the snapshot. One flush in the edit. Will need to do
// four more flushes, three of which will be in the snapshot.
expectedLastSnapshotCount, expectedEditsSinceSnapshotCount = 4, 1
}
require.Equal(t, expectedLastSnapshotCount, lastSnapshotCount)
require.Equal(t, expectedEditsSinceSnapshotCount, editsSinceSnapshotCount)
// Number of flushes to do to trigger the rollover.
steps := int(lastSnapshotCount - editsSinceSnapshotCount + 1)