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segment.go
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segment.go
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package freecache
import (
"errors"
"sync/atomic"
"unsafe"
)
const HASH_ENTRY_SIZE = 16
const ENTRY_HDR_SIZE = 24
var ErrLargeKey = errors.New("The key is larger than 65535")
var ErrLargeEntry = errors.New("The entry size is larger than 1/1024 of cache size")
var ErrNotFound = errors.New("Entry not found")
// entry pointer struct points to an entry in ring buffer
type entryPtr struct {
offset int64 // entry offset in ring buffer
hash16 uint16 // entries are ordered by hash16 in a slot.
keyLen uint16 // used to compare a key
reserved uint32
}
// entry header struct in ring buffer, followed by key and value.
type entryHdr struct {
accessTime uint32
expireAt uint32
keyLen uint16
hash16 uint16
valLen uint32
valCap uint32
deleted bool
slotId uint8
reserved uint16
}
// a segment contains 256 slots, a slot is an array of entry pointers ordered by hash16 value
// the entry can be looked up by hash value of the key.
type segment struct {
rb RingBuf // ring buffer that stores data
segId int
_ uint32
missCount int64
hitCount int64
entryCount int64
totalCount int64 // number of entries in ring buffer, including deleted entries.
totalTime int64 // used to calculate least recent used entry.
timer Timer // Timer giving current time
totalEvacuate int64 // used for debug
totalExpired int64 // used for debug
overwrites int64 // used for debug
touched int64 // used for debug
vacuumLen int64 // up to vacuumLen, new data can be written without overwriting old data.
slotLens [256]int32 // The actual length for every slot.
slotCap int32 // max number of entry pointers a slot can hold.
slotsData []entryPtr // shared by all 256 slots
}
func newSegment(bufSize int, segId int, timer Timer) (seg segment) {
seg.rb = NewRingBuf(bufSize, 0)
seg.segId = segId
seg.timer = timer
seg.vacuumLen = int64(bufSize)
seg.slotCap = 1
seg.slotsData = make([]entryPtr, 256*seg.slotCap)
return
}
func (seg *segment) set(key, value []byte, hashVal uint64, expireSeconds int) (err error) {
if len(key) > 65535 {
return ErrLargeKey
}
maxKeyValLen := len(seg.rb.data)/4 - ENTRY_HDR_SIZE
if len(key)+len(value) > maxKeyValLen {
// Do not accept large entry.
return ErrLargeEntry
}
now := seg.timer.Now()
expireAt := uint32(0)
if expireSeconds > 0 {
expireAt = now + uint32(expireSeconds)
}
slotId := uint8(hashVal >> 8)
hash16 := uint16(hashVal >> 16)
var hdrBuf [ENTRY_HDR_SIZE]byte
hdr := (*entryHdr)(unsafe.Pointer(&hdrBuf[0]))
slot := seg.getSlot(slotId)
idx, match := seg.lookup(slot, hash16, key)
if match {
matchedPtr := &slot[idx]
seg.rb.ReadAt(hdrBuf[:], matchedPtr.offset)
hdr.slotId = slotId
hdr.hash16 = hash16
hdr.keyLen = uint16(len(key))
originAccessTime := hdr.accessTime
hdr.accessTime = now
hdr.expireAt = expireAt
hdr.valLen = uint32(len(value))
if hdr.valCap >= hdr.valLen {
//in place overwrite
atomic.AddInt64(&seg.totalTime, int64(hdr.accessTime)-int64(originAccessTime))
seg.rb.WriteAt(hdrBuf[:], matchedPtr.offset)
seg.rb.WriteAt(value, matchedPtr.offset+ENTRY_HDR_SIZE+int64(hdr.keyLen))
atomic.AddInt64(&seg.overwrites, 1)
return
}
// avoid unnecessary memory copy.
seg.delEntryPtr(slotId, slot, idx)
match = false
// increase capacity and limit entry len.
for hdr.valCap < hdr.valLen {
hdr.valCap *= 2
}
if hdr.valCap > uint32(maxKeyValLen-len(key)) {
hdr.valCap = uint32(maxKeyValLen - len(key))
}
} else {
hdr.slotId = slotId
hdr.hash16 = hash16
hdr.keyLen = uint16(len(key))
hdr.accessTime = now
hdr.expireAt = expireAt
hdr.valLen = uint32(len(value))
hdr.valCap = uint32(len(value))
if hdr.valCap == 0 { // avoid infinite loop when increasing capacity.
hdr.valCap = 1
}
}
entryLen := ENTRY_HDR_SIZE + int64(len(key)) + int64(hdr.valCap)
slotModified := seg.evacuate(entryLen, slotId, now)
if slotModified {
// the slot has been modified during evacuation, we need to looked up for the 'idx' again.
// otherwise there would be index out of bound error.
slot = seg.getSlot(slotId)
idx, match = seg.lookup(slot, hash16, key)
// assert(match == false)
}
newOff := seg.rb.End()
seg.insertEntryPtr(slotId, hash16, newOff, idx, hdr.keyLen)
seg.rb.Write(hdrBuf[:])
seg.rb.Write(key)
seg.rb.Write(value)
seg.rb.Skip(int64(hdr.valCap - hdr.valLen))
atomic.AddInt64(&seg.totalTime, int64(now))
atomic.AddInt64(&seg.totalCount, 1)
seg.vacuumLen -= entryLen
return
}
func (seg *segment) touch(key []byte, hashVal uint64, expireSeconds int) (err error) {
if len(key) > 65535 {
return ErrLargeKey
}
slotId := uint8(hashVal >> 8)
hash16 := uint16(hashVal >> 16)
slot := seg.getSlot(slotId)
idx, match := seg.lookup(slot, hash16, key)
if !match {
err = ErrNotFound
return
}
matchedPtr := &slot[idx]
var hdrBuf [ENTRY_HDR_SIZE]byte
seg.rb.ReadAt(hdrBuf[:], matchedPtr.offset)
hdr := (*entryHdr)(unsafe.Pointer(&hdrBuf[0]))
now := seg.timer.Now()
if hdr.expireAt != 0 && hdr.expireAt <= now {
seg.delEntryPtr(slotId, slot, idx)
atomic.AddInt64(&seg.totalExpired, 1)
err = ErrNotFound
atomic.AddInt64(&seg.missCount, 1)
return
}
expireAt := uint32(0)
if expireSeconds > 0 {
expireAt = now + uint32(expireSeconds)
}
originAccessTime := hdr.accessTime
hdr.accessTime = now
hdr.expireAt = expireAt
//in place overwrite
atomic.AddInt64(&seg.totalTime, int64(hdr.accessTime)-int64(originAccessTime))
seg.rb.WriteAt(hdrBuf[:], matchedPtr.offset)
atomic.AddInt64(&seg.touched, 1)
return
}
func (seg *segment) evacuate(entryLen int64, slotId uint8, now uint32) (slotModified bool) {
var oldHdrBuf [ENTRY_HDR_SIZE]byte
consecutiveEvacuate := 0
for seg.vacuumLen < entryLen {
oldOff := seg.rb.End() + seg.vacuumLen - seg.rb.Size()
seg.rb.ReadAt(oldHdrBuf[:], oldOff)
oldHdr := (*entryHdr)(unsafe.Pointer(&oldHdrBuf[0]))
oldEntryLen := ENTRY_HDR_SIZE + int64(oldHdr.keyLen) + int64(oldHdr.valCap)
if oldHdr.deleted {
consecutiveEvacuate = 0
atomic.AddInt64(&seg.totalTime, -int64(oldHdr.accessTime))
atomic.AddInt64(&seg.totalCount, -1)
seg.vacuumLen += oldEntryLen
continue
}
expired := oldHdr.expireAt != 0 && oldHdr.expireAt < now
leastRecentUsed := int64(oldHdr.accessTime)*atomic.LoadInt64(&seg.totalCount) <= atomic.LoadInt64(&seg.totalTime)
if expired || leastRecentUsed || consecutiveEvacuate > 5 {
seg.delEntryPtrByOffset(oldHdr.slotId, oldHdr.hash16, oldOff)
if oldHdr.slotId == slotId {
slotModified = true
}
consecutiveEvacuate = 0
atomic.AddInt64(&seg.totalTime, -int64(oldHdr.accessTime))
atomic.AddInt64(&seg.totalCount, -1)
seg.vacuumLen += oldEntryLen
if expired {
atomic.AddInt64(&seg.totalExpired, 1)
} else {
atomic.AddInt64(&seg.totalEvacuate, 1)
}
} else {
// evacuate an old entry that has been accessed recently for better cache hit rate.
newOff := seg.rb.Evacuate(oldOff, int(oldEntryLen))
seg.updateEntryPtr(oldHdr.slotId, oldHdr.hash16, oldOff, newOff)
consecutiveEvacuate++
atomic.AddInt64(&seg.totalEvacuate, 1)
}
}
return
}
func (seg *segment) get(key, buf []byte, hashVal uint64, peek bool) (value []byte, expireAt uint32, err error) {
slotId := uint8(hashVal >> 8)
hash16 := uint16(hashVal >> 16)
slot := seg.getSlot(slotId)
idx, match := seg.lookup(slot, hash16, key)
if !match {
err = ErrNotFound
if !peek {
atomic.AddInt64(&seg.missCount, 1)
}
return
}
ptr := &slot[idx]
var hdrBuf [ENTRY_HDR_SIZE]byte
seg.rb.ReadAt(hdrBuf[:], ptr.offset)
hdr := (*entryHdr)(unsafe.Pointer(&hdrBuf[0]))
if !peek {
now := seg.timer.Now()
expireAt = hdr.expireAt
if hdr.expireAt != 0 && hdr.expireAt <= now {
seg.delEntryPtr(slotId, slot, idx)
atomic.AddInt64(&seg.totalExpired, 1)
err = ErrNotFound
atomic.AddInt64(&seg.missCount, 1)
return
}
atomic.AddInt64(&seg.totalTime, int64(now-hdr.accessTime))
hdr.accessTime = now
seg.rb.WriteAt(hdrBuf[:], ptr.offset)
}
if cap(buf) >= int(hdr.valLen) {
value = buf[:hdr.valLen]
} else {
value = make([]byte, hdr.valLen)
}
seg.rb.ReadAt(value, ptr.offset+ENTRY_HDR_SIZE+int64(hdr.keyLen))
if !peek {
atomic.AddInt64(&seg.hitCount, 1)
}
return
}
func (seg *segment) del(key []byte, hashVal uint64) (affected bool) {
slotId := uint8(hashVal >> 8)
hash16 := uint16(hashVal >> 16)
slot := seg.getSlot(slotId)
idx, match := seg.lookup(slot, hash16, key)
if !match {
return false
}
seg.delEntryPtr(slotId, slot, idx)
return true
}
func (seg *segment) ttl(key []byte, hashVal uint64) (timeLeft uint32, err error) {
slotId := uint8(hashVal >> 8)
hash16 := uint16(hashVal >> 16)
slot := seg.getSlot(slotId)
idx, match := seg.lookup(slot, hash16, key)
if !match {
err = ErrNotFound
return
}
ptr := &slot[idx]
now := seg.timer.Now()
var hdrBuf [ENTRY_HDR_SIZE]byte
seg.rb.ReadAt(hdrBuf[:], ptr.offset)
hdr := (*entryHdr)(unsafe.Pointer(&hdrBuf[0]))
if hdr.expireAt == 0 {
timeLeft = 0
return
} else if hdr.expireAt != 0 && hdr.expireAt >= now {
timeLeft = hdr.expireAt - now
return
}
err = ErrNotFound
return
}
func (seg *segment) expand() {
newSlotData := make([]entryPtr, seg.slotCap*2*256)
for i := 0; i < 256; i++ {
off := int32(i) * seg.slotCap
copy(newSlotData[off*2:], seg.slotsData[off:off+seg.slotLens[i]])
}
seg.slotCap *= 2
seg.slotsData = newSlotData
}
func (seg *segment) updateEntryPtr(slotId uint8, hash16 uint16, oldOff, newOff int64) {
slot := seg.getSlot(slotId)
idx, match := seg.lookupByOff(slot, hash16, oldOff)
if !match {
return
}
ptr := &slot[idx]
ptr.offset = newOff
}
func (seg *segment) insertEntryPtr(slotId uint8, hash16 uint16, offset int64, idx int, keyLen uint16) {
if seg.slotLens[slotId] == seg.slotCap {
seg.expand()
}
seg.slotLens[slotId]++
atomic.AddInt64(&seg.entryCount, 1)
slot := seg.getSlot(slotId)
copy(slot[idx+1:], slot[idx:])
slot[idx].offset = offset
slot[idx].hash16 = hash16
slot[idx].keyLen = keyLen
}
func (seg *segment) delEntryPtrByOffset(slotId uint8, hash16 uint16, offset int64) {
slot := seg.getSlot(slotId)
idx, match := seg.lookupByOff(slot, hash16, offset)
if !match {
return
}
seg.delEntryPtr(slotId, slot, idx)
}
func (seg *segment) delEntryPtr(slotId uint8, slot []entryPtr, idx int) {
offset := slot[idx].offset
var entryHdrBuf [ENTRY_HDR_SIZE]byte
seg.rb.ReadAt(entryHdrBuf[:], offset)
entryHdr := (*entryHdr)(unsafe.Pointer(&entryHdrBuf[0]))
entryHdr.deleted = true
seg.rb.WriteAt(entryHdrBuf[:], offset)
copy(slot[idx:], slot[idx+1:])
seg.slotLens[slotId]--
atomic.AddInt64(&seg.entryCount, -1)
}
func entryPtrIdx(slot []entryPtr, hash16 uint16) (idx int) {
high := len(slot)
for idx < high {
mid := (idx + high) >> 1
oldEntry := &slot[mid]
if oldEntry.hash16 < hash16 {
idx = mid + 1
} else {
high = mid
}
}
return
}
func (seg *segment) lookup(slot []entryPtr, hash16 uint16, key []byte) (idx int, match bool) {
idx = entryPtrIdx(slot, hash16)
for idx < len(slot) {
ptr := &slot[idx]
if ptr.hash16 != hash16 {
break
}
match = int(ptr.keyLen) == len(key) && seg.rb.EqualAt(key, ptr.offset+ENTRY_HDR_SIZE)
if match {
return
}
idx++
}
return
}
func (seg *segment) lookupByOff(slot []entryPtr, hash16 uint16, offset int64) (idx int, match bool) {
idx = entryPtrIdx(slot, hash16)
for idx < len(slot) {
ptr := &slot[idx]
if ptr.hash16 != hash16 {
break
}
match = ptr.offset == offset
if match {
return
}
idx++
}
return
}
func (seg *segment) resetStatistics() {
atomic.StoreInt64(&seg.totalEvacuate, 0)
atomic.StoreInt64(&seg.totalExpired, 0)
atomic.StoreInt64(&seg.overwrites, 0)
atomic.StoreInt64(&seg.hitCount, 0)
atomic.StoreInt64(&seg.missCount, 0)
}
func (seg *segment) clear() {
bufSize := len(seg.rb.data)
seg.rb = NewRingBuf(bufSize, 0)
seg.vacuumLen = int64(bufSize)
seg.slotCap = 1
seg.slotsData = make([]entryPtr, 256*seg.slotCap)
for i := 0; i < len(seg.slotLens); i++ {
seg.slotLens[i] = 0
}
atomic.StoreInt64(&seg.hitCount, 0)
atomic.StoreInt64(&seg.missCount, 0)
atomic.StoreInt64(&seg.entryCount, 0)
atomic.StoreInt64(&seg.totalCount, 0)
atomic.StoreInt64(&seg.totalTime, 0)
atomic.StoreInt64(&seg.totalEvacuate, 0)
atomic.StoreInt64(&seg.totalExpired, 0)
atomic.StoreInt64(&seg.overwrites, 0)
}
func (seg *segment) getSlot(slotId uint8) []entryPtr {
slotOff := int32(slotId) * seg.slotCap
return seg.slotsData[slotOff : slotOff+seg.slotLens[slotId] : slotOff+seg.slotCap]
}