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memory_segment.go
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memory_segment.go
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package mandodb
import (
"encoding/json"
"fmt"
"math"
"os"
"path"
"sort"
"sync"
"sync/atomic"
"github.com/chenjiandongx/mandodb/pkg/sortedlist"
)
type memorySegment struct {
once sync.Once
segment sync.Map
indexMap *memoryIndexMap
labelVs *labelValueSet
outdated map[string]sortedlist.List
outdatedMut sync.Mutex
minTs int64
maxTs int64
seriesCount int64
dataPointsCount int64
}
func newMemorySegment() Segment {
return &memorySegment{
indexMap: newMemoryIndexMap(),
labelVs: newLabelValueSet(),
outdated: make(map[string]sortedlist.List),
minTs: math.MaxInt64,
maxTs: math.MinInt64,
}
}
func (ms *memorySegment) getOrCreateSeries(row *Row) *memorySeries {
v, ok := ms.segment.Load(row.ID())
if ok {
return v.(*memorySeries)
}
atomic.AddInt64(&ms.seriesCount, 1)
newSeries := newSeries(row)
ms.segment.Store(row.ID(), newSeries)
return newSeries
}
func (ms *memorySegment) MinTs() int64 {
return atomic.LoadInt64(&ms.minTs)
}
func (ms *memorySegment) MaxTs() int64 {
return atomic.LoadInt64(&ms.maxTs)
}
func (ms *memorySegment) Frozen() bool {
if globalOpts.onlyMemoryMode {
return false
}
return ms.MaxTs()-ms.MinTs() > int64(globalOpts.segmentDuration.Seconds())
}
func (ms *memorySegment) Type() SegmentType {
return MemorySegmentType
}
func (ms *memorySegment) Close() error {
if ms.dataPointsCount == 0 || globalOpts.onlyMemoryMode {
return nil
}
return writeToDisk(ms)
}
func (ms *memorySegment) Cleanup() error {
return nil
}
func (ms *memorySegment) Load() Segment {
return ms
}
func (ms *memorySegment) InsertRows(rows []*Row) {
for _, row := range rows {
ms.labelVs.Set(metricName, row.Metric)
for _, label := range row.Labels {
ms.labelVs.Set(label.Name, label.Value)
}
row.Labels = row.Labels.AddMetricName(row.Metric)
row.Labels.Sorted()
series := ms.getOrCreateSeries(row)
dp := series.Append(&row.Point)
if dp != nil {
ms.outdatedMut.Lock()
if _, ok := ms.outdated[row.ID()]; !ok {
ms.outdated[row.ID()] = sortedlist.NewTree()
}
ms.outdated[row.ID()].Add(row.Point.Ts, row.Point)
ms.outdatedMut.Unlock()
}
if atomic.LoadInt64(&ms.minTs) >= row.Point.Ts {
atomic.StoreInt64(&ms.minTs, row.Point.Ts)
}
if atomic.LoadInt64(&ms.maxTs) <= row.Point.Ts {
atomic.StoreInt64(&ms.maxTs, row.Point.Ts)
}
atomic.AddInt64(&ms.dataPointsCount, 1)
ms.indexMap.UpdateIndex(row.ID(), row.Labels)
}
}
func (ms *memorySegment) QueryLabelValues(label string) []string {
return ms.labelVs.Get(label)
}
func (ms *memorySegment) QuerySeries(lms LabelMatcherSet) ([]LabelSet, error) {
matchSids := ms.indexMap.MatchSids(ms.labelVs, lms)
ret := make([]LabelSet, 0)
for _, sid := range matchSids {
b, _ := ms.segment.Load(sid)
series := b.(*memorySeries)
ret = append(ret, series.labels)
}
return ret, nil
}
func (ms *memorySegment) QueryRange(lms LabelMatcherSet, start, end int64) ([]MetricRet, error) {
matchSids := ms.indexMap.MatchSids(ms.labelVs, lms)
ret := make([]MetricRet, 0, len(matchSids))
for _, sid := range matchSids {
b, _ := ms.segment.Load(sid)
series := b.(*memorySeries)
points := series.Get(start, end)
ms.outdatedMut.Lock()
v, ok := ms.outdated[sid]
if ok {
iter := v.Range(start, end)
for iter.Next() {
points = append(points, iter.Value().(Point))
}
}
ms.outdatedMut.Unlock()
ret = append(ret, MetricRet{
Labels: series.labels,
Points: points,
})
}
return ret, nil
}
func (ms *memorySegment) Marshal() ([]byte, []byte, error) {
sids := make(map[string]uint32)
startOffset := 0
size := 0
dataBuf := make([]byte, 0)
// TOC 占位符 用于后面标记 dataBytes / metaBytes 长度
dataBuf = append(dataBuf, make([]byte, uint64Size*2)...)
meta := Metadata{MinTs: ms.minTs, MaxTs: ms.maxTs}
// key: sid
// value: series entity
ms.segment.Range(func(key, value interface{}) bool {
sid := key.(string)
sids[sid] = uint32(size)
size++
series := value.(*memorySeries)
meta.sidRelatedLabels = append(meta.sidRelatedLabels, series.labels)
ms.outdatedMut.Lock()
v, ok := ms.outdated[sid]
ms.outdatedMut.Unlock()
var dataBytes []byte
if ok {
dataBytes = ByteCompress(series.MergeOutdatedList(v).Bytes())
} else {
dataBytes = ByteCompress(series.Bytes())
}
dataBuf = append(dataBuf, dataBytes...)
endOffset := startOffset + len(dataBytes)
meta.Series = append(meta.Series, metaSeries{
Sid: key.(string),
StartOffset: uint64(startOffset),
EndOffset: uint64(endOffset),
})
startOffset = endOffset
return true
})
labelIdx := make([]seriesWithLabel, 0)
// key: Label.MarshalName()
// value: sids...
ms.indexMap.Range(func(key string, value *memorySidSet) {
l := make([]uint32, 0)
for _, s := range value.List() {
l = append(l, sids[s])
}
sort.Slice(l, func(i, j int) bool {
return l[i] < l[j]
})
labelIdx = append(labelIdx, seriesWithLabel{Name: key, Sids: l})
})
meta.Labels = labelIdx
metaBytes, err := MarshalMeta(meta)
if err != nil {
return nil, nil, err
}
metalen := len(metaBytes)
desc := &Desc{
SeriesCount: ms.seriesCount,
DataPointsCount: ms.dataPointsCount,
MaxTs: ms.maxTs,
MinTs: ms.minTs,
}
descBytes, _ := json.MarshalIndent(desc, "", " ")
dataLen := len(dataBuf) - (uint64Size * 2)
dataBuf = append(dataBuf, metaBytes...)
// TOC 写入
encf := newEncbuf()
encf.MarshalUint64(uint64(dataLen))
dataLenBs := encf.Bytes()
copy(dataBuf[:uint64Size], dataLenBs[:uint64Size])
encf.Reset()
encf.MarshalUint64(uint64(metalen))
metaLenBs := encf.Bytes()
copy(dataBuf[uint64Size:uint64Size*2], metaLenBs[:uint64Size])
return dataBuf, descBytes, nil
}
func mkdir(d string) {
if _, err := os.Stat(d); !os.IsNotExist(err) {
return
}
if err := os.MkdirAll(d, os.ModePerm); err != nil {
panic(fmt.Sprintf("BUG: failed to create dir: %s", d))
}
}
func writeToDisk(segment *memorySegment) error {
dataBytes, descBytes, err := segment.Marshal()
if err != nil {
return fmt.Errorf("failed to marshal segment: %s", err.Error())
}
writeFile := func(f string, data []byte) error {
if isFileExist(f) {
return fmt.Errorf("%s file is already exists", f)
}
fd, err := os.OpenFile(f, os.O_CREATE|os.O_WRONLY, os.ModePerm)
if err != nil {
return err
}
defer fd.Close()
_, err = fd.Write(data)
return err
}
dn := dirname(segment.MinTs(), segment.MaxTs())
mkdir(dn)
if err := writeFile(path.Join(dn, "data"), dataBytes); err != nil {
return err
}
// 这里的 meta.json 只是描述了一些简单的信息 并非全局定义的 MetaData
if err := writeFile(path.Join(dn, "meta.json"), descBytes); err != nil {
return err
}
return nil
}