seaweedfs/weed/filer2/filechunks.go
2018-05-27 23:59:49 -07:00

253 lines
6.4 KiB
Go

package filer2
import (
"math"
"sort"
"github.com/chrislusf/seaweedfs/weed/pb/filer_pb"
)
func TotalSize(chunks []*filer_pb.FileChunk) (size uint64) {
for _, c := range chunks {
t := uint64(c.Offset + int64(c.Size))
if size < t {
size = t
}
}
return
}
func CompactFileChunks(chunks []*filer_pb.FileChunk) (compacted, garbage []*filer_pb.FileChunk) {
visibles := nonOverlappingVisibleIntervals(chunks)
fileIds := make(map[string]bool)
for _, interval := range visibles {
fileIds[interval.fileId] = true
}
for _, chunk := range chunks {
if found := fileIds[chunk.FileId]; found {
compacted = append(compacted, chunk)
} else {
garbage = append(garbage, chunk)
}
}
return
}
func FindUnusedFileChunks(oldChunks, newChunks []*filer_pb.FileChunk) (unused []*filer_pb.FileChunk) {
fileIds := make(map[string]bool)
for _, interval := range newChunks {
fileIds[interval.FileId] = true
}
for _, chunk := range oldChunks {
if found := fileIds[chunk.FileId]; !found {
unused = append(unused, chunk)
}
}
return
}
type ChunkView struct {
FileId string
Offset int64
Size uint64
LogicOffset int64
}
func ReadFromChunks(chunks []*filer_pb.FileChunk, offset int64, size int) (views []*ChunkView) {
visibles := nonOverlappingVisibleIntervals(chunks)
stop := offset + int64(size)
for _, chunk := range visibles {
if chunk.start <= offset && offset < chunk.stop && offset < stop {
views = append(views, &ChunkView{
FileId: chunk.fileId,
Offset: offset - chunk.start, // offset is the data starting location in this file id
Size: uint64(min(chunk.stop, stop) - offset),
LogicOffset: offset,
})
offset = min(chunk.stop, stop)
}
}
return views
}
func logPrintf(name string, visibles []*visibleInterval) {
/*
log.Printf("%s len %d", name, len(visibles))
for _, v := range visibles {
log.Printf("%s: => %+v", name, v)
}
*/
}
func nonOverlappingVisibleIntervals(chunks []*filer_pb.FileChunk) (visibles []*visibleInterval) {
sort.Slice(chunks, func(i, j int) bool {
if chunks[i].Offset < chunks[j].Offset {
return true
}
if chunks[i].Offset == chunks[j].Offset {
return chunks[i].Mtime < chunks[j].Mtime
}
return false
})
if len(chunks) == 0 {
return
}
var parallelIntervals, intervals []*visibleInterval
var minStopInterval, upToDateInterval *visibleInterval
watermarkStart := chunks[0].Offset
for _, chunk := range chunks {
// log.Printf("checking chunk: [%d,%d)", chunk.Offset, chunk.Offset+int64(chunk.Size))
logPrintf("parallelIntervals", parallelIntervals)
for len(parallelIntervals) > 0 && watermarkStart < chunk.Offset {
logPrintf("parallelIntervals loop 1", parallelIntervals)
logPrintf("parallelIntervals loop 1 intervals", intervals)
minStopInterval, upToDateInterval = findMinStopInterval(parallelIntervals)
nextStop := min(minStopInterval.stop, chunk.Offset)
intervals = append(intervals, newVisibleInterval(
max(watermarkStart, minStopInterval.start),
nextStop,
upToDateInterval.fileId,
upToDateInterval.modifiedTime,
))
watermarkStart = nextStop
logPrintf("parallelIntervals loop intervals =>", intervals)
// remove processed intervals, possibly multiple
var remaining []*visibleInterval
for _, interval := range parallelIntervals {
if interval.stop != watermarkStart {
remaining = append(remaining, interval)
}
}
parallelIntervals = remaining
logPrintf("parallelIntervals loop 2", parallelIntervals)
logPrintf("parallelIntervals loop 2 intervals", intervals)
}
parallelIntervals = append(parallelIntervals, newVisibleInterval(
chunk.Offset,
chunk.Offset+int64(chunk.Size),
chunk.FileId,
chunk.Mtime,
))
}
logPrintf("parallelIntervals loop 3", parallelIntervals)
logPrintf("parallelIntervals loop 3 intervals", intervals)
for len(parallelIntervals) > 0 {
minStopInterval, upToDateInterval = findMinStopInterval(parallelIntervals)
intervals = append(intervals, newVisibleInterval(
max(watermarkStart, minStopInterval.start),
minStopInterval.stop,
upToDateInterval.fileId,
upToDateInterval.modifiedTime,
))
watermarkStart = minStopInterval.stop
// remove processed intervals, possibly multiple
var remaining []*visibleInterval
for _, interval := range parallelIntervals {
if interval.stop != watermarkStart {
remaining = append(remaining, interval)
}
}
parallelIntervals = remaining
}
logPrintf("parallelIntervals loop 4", parallelIntervals)
logPrintf("intervals", intervals)
// merge connected intervals, now the intervals are non-intersecting
var lastIntervalIndex int
var prevIntervalIndex int
for i, interval := range intervals {
if i == 0 {
prevIntervalIndex = i
lastIntervalIndex = i
continue
}
if intervals[i-1].fileId != interval.fileId ||
intervals[i-1].stop < intervals[i].start {
visibles = append(visibles, newVisibleInterval(
intervals[prevIntervalIndex].start,
intervals[i-1].stop,
intervals[prevIntervalIndex].fileId,
intervals[prevIntervalIndex].modifiedTime,
))
prevIntervalIndex = i
}
lastIntervalIndex = i
logPrintf("intervals loop 1 visibles", visibles)
}
visibles = append(visibles, newVisibleInterval(
intervals[prevIntervalIndex].start,
intervals[lastIntervalIndex].stop,
intervals[prevIntervalIndex].fileId,
intervals[prevIntervalIndex].modifiedTime,
))
logPrintf("visibles", visibles)
return
}
func findMinStopInterval(intervals []*visibleInterval) (minStopInterval, upToDateInterval *visibleInterval) {
var latestMtime int64
latestIntervalIndex := 0
minStop := int64(math.MaxInt64)
minIntervalIndex := 0
for i, interval := range intervals {
if minStop > interval.stop {
minIntervalIndex = i
minStop = interval.stop
}
if latestMtime < interval.modifiedTime {
latestMtime = interval.modifiedTime
latestIntervalIndex = i
}
}
minStopInterval = intervals[minIntervalIndex]
upToDateInterval = intervals[latestIntervalIndex]
return
}
// find non-overlapping visible intervals
// visible interval map to one file chunk
type visibleInterval struct {
start int64
stop int64
modifiedTime int64
fileId string
}
func newVisibleInterval(start, stop int64, fileId string, modifiedTime int64) *visibleInterval {
return &visibleInterval{start: start, stop: stop, fileId: fileId, modifiedTime: modifiedTime}
}
func min(x, y int64) int64 {
if x <= y {
return x
}
return y
}
func max(x, y int64) int64 {
if x > y {
return x
}
return y
}