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lsm_view.go
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lsm_view.go
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// Copyright 2024 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 (
"context"
"fmt"
"slices"
"strings"
"github.com/cockroachdb/pebble/internal/base"
"github.com/cockroachdb/pebble/internal/humanize"
"github.com/cockroachdb/pebble/internal/lsmview"
"github.com/cockroachdb/pebble/objstorage"
)
// LSMViewURL returns an URL which shows a diagram of the LSM.
func (d *DB) LSMViewURL() string {
v := func() *version {
d.mu.Lock()
defer d.mu.Unlock()
v := d.mu.versions.currentVersion()
v.Ref()
return v
}()
defer v.Unref()
b := lsmViewBuilder{
cmp: d.opts.Comparer.Compare,
fmtKey: d.opts.Comparer.FormatKey,
}
if b.fmtKey == nil {
b.fmtKey = DefaultComparer.FormatKey
}
b.InitLevels(v)
b.PopulateKeys()
data := b.Build(d.objProvider, d.newIters)
url, err := lsmview.GenerateURL(data)
if err != nil {
return fmt.Sprintf("error: %s", err)
}
return url.String()
}
type lsmViewBuilder struct {
cmp base.Compare
fmtKey base.FormatKey
levelNames []string
levels [][]*fileMetadata
// The keys that appear as Smallest/Largest, sorted and formatted.
sortedKeys []string
// keys[k] is the position of key k in the sortedKeys list.
keys map[string]int
// scanTables is set during Build. If we don't have too many tables, we will
// create iterators and show some of the keys.
scanTables bool
}
// InitLevels gets the metadata for the tables in the LSM and populates
// levelNames and levels.
func (b *lsmViewBuilder) InitLevels(v *version) {
var levelNames []string
var levels [][]*fileMetadata
for sublevel := len(v.L0SublevelFiles) - 1; sublevel >= 0; sublevel-- {
var files []*fileMetadata
v.L0SublevelFiles[sublevel].Each(func(f *fileMetadata) {
files = append(files, f)
})
levelNames = append(levelNames, fmt.Sprintf("L0.%d", sublevel))
levels = append(levels, files)
}
if len(levels) == 0 {
levelNames = append(levelNames, "L0")
levels = append(levels, nil)
}
for level := 1; level < len(v.Levels); level++ {
var files []*fileMetadata
v.Levels[level].Slice().Each(func(f *fileMetadata) {
files = append(files, f)
})
levelNames = append(levelNames, fmt.Sprintf("L%d", level))
levels = append(levels, files)
}
b.levelNames = levelNames
b.levels = levels
}
// PopulateKeys initializes the sortedKeys and keys fields.
func (b *lsmViewBuilder) PopulateKeys() {
// keys[k] will hold the position of k into sortedKeys.
keys := make(map[string]int)
for _, l := range b.levels {
for _, f := range l {
keys[string(f.Smallest.UserKey)] = -1
keys[string(f.Largest.UserKey)] = -1
}
}
sortedKeys := make([]string, 0, len(keys))
for s := range keys {
sortedKeys = append(sortedKeys, s)
}
slices.SortFunc(sortedKeys, func(k1, k2 string) int {
return b.cmp([]byte(k1), []byte(k2))
})
sortedKeys = slices.CompactFunc(sortedKeys, func(k1, k2 string) bool {
return b.cmp([]byte(k1), []byte(k2)) == 0
})
for i, k := range sortedKeys {
keys[k] = i
}
for i := range sortedKeys {
sortedKeys[i] = fmt.Sprintf("%v", b.fmtKey([]byte(sortedKeys[i])))
}
b.sortedKeys = sortedKeys
b.keys = keys
}
func (b *lsmViewBuilder) Build(
objProvider objstorage.Provider, newIters tableNewIters,
) lsmview.Data {
n := 0
for _, l := range b.levels {
n += len(l)
}
const scanTablesThreshold = 100
b.scanTables = n <= scanTablesThreshold
var data lsmview.Data
data.Keys = b.sortedKeys
data.Levels = make([]lsmview.Level, len(b.levels))
for i, files := range b.levels {
l := &data.Levels[i]
l.Name = b.levelNames[i]
l.Tables = make([]lsmview.Table, len(files))
for j, f := range files {
t := &l.Tables[j]
if !f.Virtual {
t.Label = fmt.Sprintf("%d", f.FileNum)
} else {
t.Label = fmt.Sprintf("%d (%d)", f.FileNum, f.FileBacking.DiskFileNum)
}
t.Size = f.Size
t.SmallestKey = b.keys[string(f.Smallest.UserKey)]
t.LargestKey = b.keys[string(f.Largest.UserKey)]
t.Details = b.tableDetails(f, objProvider, newIters)
}
}
return data
}
func (b *lsmViewBuilder) tableDetails(
m *fileMetadata, objProvider objstorage.Provider, newIters tableNewIters,
) []string {
res := make([]string, 0, 10)
outf := func(format string, args ...any) {
res = append(res, fmt.Sprintf(format, args...))
}
outf("%s: %s - %s", m.FileNum, m.Smallest.Pretty(b.fmtKey), m.Largest.Pretty(b.fmtKey))
outf("size: %s", humanize.Bytes.Uint64(m.Size))
if m.Virtual {
meta, err := objProvider.Lookup(base.FileTypeTable, m.FileBacking.DiskFileNum)
var backingInfo string
switch {
case err != nil:
backingInfo = fmt.Sprintf(" (error looking up object: %v)", err)
case meta.IsShared():
backingInfo = "shared; "
case meta.IsExternal():
backingInfo = "external; "
}
outf("virtual; backed by %s (%ssize: %s)", m.FileBacking.DiskFileNum, backingInfo, humanize.Bytes.Uint64(m.FileBacking.Size))
}
outf("seqnums: %d - %d", m.SmallestSeqNum, m.LargestSeqNum)
if m.SyntheticPrefixAndSuffix.HasPrefix() {
// Note: we are abusing the key formatter by passing just the prefix.
outf("synthetic prefix: %s", b.fmtKey(m.SyntheticPrefixAndSuffix.Prefix()))
}
if m.SyntheticPrefixAndSuffix.HasSuffix() {
// Note: we are abusing the key formatter by passing just the suffix.
outf("synthetic suffix: %s", b.fmtKey(m.SyntheticPrefixAndSuffix.Suffix()))
}
var iters iterSet
if b.scanTables {
var err error
iters, err = newIters(context.Background(), m, nil /* opts */, internalIterOpts{}, iterPointKeys|iterRangeDeletions|iterRangeKeys)
if err != nil {
outf("error opening table: %v", err)
} else {
defer iters.CloseAll()
}
}
const maxPoints = 14
const maxRangeDels = 10
const maxRangeKeys = 10
if m.HasPointKeys {
outf("points: %s - %s", m.SmallestPointKey.Pretty(b.fmtKey), m.LargestPointKey.Pretty(b.fmtKey))
if b.scanTables {
n := 0
if it := iters.point; it != nil {
for kv := it.First(); kv != nil; kv = it.Next() {
if n == maxPoints {
outf(" ...")
break
}
outf(" %s", kv.K.Pretty(b.fmtKey))
n++
}
if err := it.Error(); err != nil {
outf(" error scanning points: %v", err)
}
}
if n == 0 {
outf(" no points")
}
n = 0
if it := iters.rangeDeletion; it != nil {
span, err := it.First()
for ; span != nil; span, err = it.Next() {
if n == maxRangeDels {
outf(" ...")
break
}
seqNums := make([]string, len(span.Keys))
for i, k := range span.Keys {
seqNums[i] = fmt.Sprintf("#%d", k.SeqNum())
}
outf(" [%s - %s): %s", b.fmtKey(span.Start), b.fmtKey(span.End), strings.Join(seqNums, ","))
n++
}
if err != nil {
outf("error scanning range dels: %v", err)
}
}
if n == 0 {
outf(" no range dels")
}
}
}
if m.HasRangeKeys {
outf("range keys: %s - %s", m.SmallestRangeKey.Pretty(b.fmtKey), m.LargestRangeKey.Pretty(b.fmtKey))
n := 0
if it := iters.rangeKey; it != nil {
span, err := it.First()
for ; span != nil; span, err = it.Next() {
if n == maxRangeKeys {
outf(" ...")
break
}
keys := make([]string, len(span.Keys))
for i, k := range span.Keys {
keys[i] = k.String()
}
outf(" [%s, %s): {%s}", b.fmtKey(span.Start), b.fmtKey(span.End), strings.Join(keys, " "))
n++
}
if err != nil {
outf("error scanning range keys: %v", err)
}
}
if n == 0 {
outf(" no range keys")
}
}
return res
}