vendor: udpate leveldb upstream (#19284)

This commit is contained in:
gary rong 2019-03-18 16:28:47 +08:00 committed by Péter Szilágyi
parent acebccc3bf
commit def1b0d7e1
6 changed files with 362 additions and 55 deletions

@ -47,15 +47,24 @@ type session struct {
o *cachedOptions
icmp *iComparer
tops *tOps
fileRef map[int64]int
manifest *journal.Writer
manifestWriter storage.Writer
manifestFd storage.FileDesc
stCompPtrs []internalKey // compaction pointers; need external synchronization
stVersion *version // current version
vmu sync.Mutex
stCompPtrs []internalKey // compaction pointers; need external synchronization
stVersion *version // current version
ntVersionId int64 // next version id to assign
refCh chan *vTask
relCh chan *vTask
deltaCh chan *vDelta
abandon chan int64
closeC chan struct{}
closeW sync.WaitGroup
vmu sync.Mutex
// Testing fields
fileRefCh chan chan map[int64]int // channel used to pass current reference stat
}
// Creates new initialized session instance.
@ -68,13 +77,21 @@ func newSession(stor storage.Storage, o *opt.Options) (s *session, err error) {
return
}
s = &session{
stor: newIStorage(stor),
storLock: storLock,
fileRef: make(map[int64]int),
stor: newIStorage(stor),
storLock: storLock,
refCh: make(chan *vTask),
relCh: make(chan *vTask),
deltaCh: make(chan *vDelta),
abandon: make(chan int64),
fileRefCh: make(chan chan map[int64]int),
closeC: make(chan struct{}),
}
s.setOptions(o)
s.tops = newTableOps(s)
s.setVersion(newVersion(s))
s.closeW.Add(1)
go s.refLoop()
s.setVersion(nil, newVersion(s))
s.log("log@legend F·NumFile S·FileSize N·Entry C·BadEntry B·BadBlock Ke·KeyError D·DroppedEntry L·Level Q·SeqNum T·TimeElapsed")
return
}
@ -90,7 +107,11 @@ func (s *session) close() {
}
s.manifest = nil
s.manifestWriter = nil
s.setVersion(&version{s: s, closing: true})
s.setVersion(nil, &version{s: s, closing: true, id: s.ntVersionId})
// Close all background goroutines
close(s.closeC)
s.closeW.Wait()
}
// Release session lock.
@ -180,7 +201,7 @@ func (s *session) recover() (err error) {
}
s.manifestFd = fd
s.setVersion(staging.finish(false))
s.setVersion(rec, staging.finish(false))
s.setNextFileNum(rec.nextFileNum)
s.recordCommited(rec)
return nil
@ -194,6 +215,14 @@ func (s *session) commit(r *sessionRecord, trivial bool) (err error) {
// spawn new version based on current version
nv := v.spawn(r, trivial)
// abandon useless version id to prevent blocking version processing loop.
defer func() {
if err != nil {
s.abandon <- nv.id
s.logf("commit@abandon useless vid D%d", nv.id)
}
}()
if s.manifest == nil {
// manifest journal writer not yet created, create one
err = s.newManifest(r, nv)
@ -203,7 +232,7 @@ func (s *session) commit(r *sessionRecord, trivial bool) (err error) {
// finally, apply new version if no error rise
if err == nil {
s.setVersion(nv)
s.setVersion(r, nv)
}
return

@ -181,10 +181,14 @@ func (c *compaction) expand() {
t0, t1 := c.levels[0], c.levels[1]
imin, imax := t0.getRange(c.s.icmp)
// We expand t0 here just incase ukey hop across tables.
t0 = vt0.getOverlaps(t0, c.s.icmp, imin.ukey(), imax.ukey(), c.sourceLevel == 0)
if len(t0) != len(c.levels[0]) {
imin, imax = t0.getRange(c.s.icmp)
// For non-zero levels, the ukey can't hop across tables at all.
if c.sourceLevel == 0 {
// We expand t0 here just incase ukey hop across tables.
t0 = vt0.getOverlaps(t0, c.s.icmp, imin.ukey(), imax.ukey(), c.sourceLevel == 0)
if len(t0) != len(c.levels[0]) {
imin, imax = t0.getRange(c.s.icmp)
}
}
t1 = vt1.getOverlaps(t1, c.s.icmp, imin.ukey(), imax.ukey(), false)
// Get entire range covered by compaction.

@ -9,6 +9,7 @@ package leveldb
import (
"fmt"
"sync/atomic"
"time"
"github.com/syndtr/goleveldb/leveldb/journal"
"github.com/syndtr/goleveldb/leveldb/storage"
@ -39,19 +40,213 @@ func (s *session) newTemp() storage.FileDesc {
return storage.FileDesc{Type: storage.TypeTemp, Num: num}
}
func (s *session) addFileRef(fd storage.FileDesc, ref int) int {
ref += s.fileRef[fd.Num]
if ref > 0 {
s.fileRef[fd.Num] = ref
} else if ref == 0 {
delete(s.fileRef, fd.Num)
} else {
panic(fmt.Sprintf("negative ref: %v", fd))
}
return ref
// Session state.
const (
// maxCachedNumber represents the maximum number of version tasks
// that can be cached in the ref loop.
maxCachedNumber = 256
// maxCachedTime represents the maximum time for ref loop to cache
// a version task.
maxCachedTime = 5 * time.Minute
)
// vDelta indicates the change information between the next version
// and the currently specified version
type vDelta struct {
vid int64
added []int64
deleted []int64
}
// Session state.
// vTask defines a version task for either reference or release.
type vTask struct {
vid int64
files []tFiles
created time.Time
}
func (s *session) refLoop() {
var (
fileRef = make(map[int64]int) // Table file reference counter
ref = make(map[int64]*vTask) // Current referencing version store
deltas = make(map[int64]*vDelta)
referenced = make(map[int64]struct{})
released = make(map[int64]*vDelta) // Released version that waiting for processing
abandoned = make(map[int64]struct{}) // Abandoned version id
next, last int64
)
// addFileRef adds file reference counter with specified file number and
// reference value
addFileRef := func(fnum int64, ref int) int {
ref += fileRef[fnum]
if ref > 0 {
fileRef[fnum] = ref
} else if ref == 0 {
delete(fileRef, fnum)
} else {
panic(fmt.Sprintf("negative ref: %v", fnum))
}
return ref
}
// skipAbandoned skips useless abandoned version id.
skipAbandoned := func() bool {
if _, exist := abandoned[next]; exist {
delete(abandoned, next)
return true
}
return false
}
// applyDelta applies version change to current file reference.
applyDelta := func(d *vDelta) {
for _, t := range d.added {
addFileRef(t, 1)
}
for _, t := range d.deleted {
if addFileRef(t, -1) == 0 {
s.tops.remove(storage.FileDesc{Type: storage.TypeTable, Num: t})
}
}
}
timer := time.NewTimer(0)
<-timer.C // discard the initial tick
defer timer.Stop()
// processTasks processes version tasks in strict order.
//
// If we want to use delta to reduce the cost of file references and dereferences,
// we must strictly follow the id of the version, otherwise some files that are
// being referenced will be deleted.
//
// In addition, some db operations (such as iterators) may cause a version to be
// referenced for a long time. In order to prevent such operations from blocking
// the entire processing queue, we will properly convert some of the version tasks
// into full file references and releases.
processTasks := func() {
timer.Reset(maxCachedTime)
// Make sure we don't cache too many version tasks.
for {
// Skip any abandoned version number to prevent blocking processing.
if skipAbandoned() {
next += 1
continue
}
// Don't bother the version that has been released.
if _, exist := released[next]; exist {
break
}
// Ensure the specified version has been referenced.
if _, exist := ref[next]; !exist {
break
}
if last-next < maxCachedNumber && time.Since(ref[next].created) < maxCachedTime {
break
}
// Convert version task into full file references and releases mode.
// Reference version(i+1) first and wait version(i) to release.
// FileRef(i+1) = FileRef(i) + Delta(i)
for _, tt := range ref[next].files {
for _, t := range tt {
addFileRef(t.fd.Num, 1)
}
}
// Note, if some compactions take a long time, even more than 5 minutes,
// we may miss the corresponding delta information here.
// Fortunately it will not affect the correctness of the file reference,
// and we can apply the delta once we receive it.
if d := deltas[next]; d != nil {
applyDelta(d)
}
referenced[next] = struct{}{}
delete(ref, next)
delete(deltas, next)
next += 1
}
// Use delta information to process all released versions.
for {
if skipAbandoned() {
next += 1
continue
}
if d, exist := released[next]; exist {
if d != nil {
applyDelta(d)
}
delete(released, next)
next += 1
continue
}
return
}
}
for {
processTasks()
select {
case t := <-s.refCh:
if _, exist := ref[t.vid]; exist {
panic("duplicate reference request")
}
ref[t.vid] = t
if t.vid > last {
last = t.vid
}
case d := <-s.deltaCh:
if _, exist := ref[d.vid]; !exist {
if _, exist2 := referenced[d.vid]; !exist2 {
panic("invalid release request")
}
// The reference opt is already expired, apply
// delta here.
applyDelta(d)
continue
}
deltas[d.vid] = d
case t := <-s.relCh:
if _, exist := referenced[t.vid]; exist {
for _, tt := range t.files {
for _, t := range tt {
if addFileRef(t.fd.Num, -1) == 0 {
s.tops.remove(t.fd)
}
}
}
delete(referenced, t.vid)
continue
}
if _, exist := ref[t.vid]; !exist {
panic("invalid release request")
}
released[t.vid] = deltas[t.vid]
delete(deltas, t.vid)
delete(ref, t.vid)
case id := <-s.abandon:
if id >= next {
abandoned[id] = struct{}{}
}
case <-timer.C:
case r := <-s.fileRefCh:
ref := make(map[int64]int)
for f, c := range fileRef {
ref[f] = c
}
r <- ref
case <-s.closeC:
s.closeW.Done()
return
}
}
}
// Get current version. This will incr version ref, must call
// version.release (exactly once) after use.
@ -69,13 +264,30 @@ func (s *session) tLen(level int) int {
}
// Set current version to v.
func (s *session) setVersion(v *version) {
func (s *session) setVersion(r *sessionRecord, v *version) {
s.vmu.Lock()
defer s.vmu.Unlock()
// Hold by session. It is important to call this first before releasing
// current version, otherwise the still used files might get released.
v.incref()
if s.stVersion != nil {
if r != nil {
var (
added = make([]int64, 0, len(r.addedTables))
deleted = make([]int64, 0, len(r.deletedTables))
)
for _, t := range r.addedTables {
added = append(added, t.num)
}
for _, t := range r.deletedTables {
deleted = append(deleted, t.num)
}
select {
case s.deltaCh <- &vDelta{vid: s.stVersion.id, added: added, deleted: deleted}:
case <-v.s.closeC:
s.log("reference loop already exist")
}
}
// Release current version.
s.stVersion.releaseNB()
}

@ -7,6 +7,7 @@
package leveldb
import (
"bytes"
"fmt"
"sort"
"sync/atomic"
@ -158,6 +159,22 @@ func (tf tFiles) searchNumLess(num int64) int {
})
}
// Searches smallest index of tables whose its smallest
// key is after the given key.
func (tf tFiles) searchMinUkey(icmp *iComparer, umin []byte) int {
return sort.Search(len(tf), func(i int) bool {
return icmp.ucmp.Compare(tf[i].imin.ukey(), umin) > 0
})
}
// Searches smallest index of tables whose its largest
// key is after the given key.
func (tf tFiles) searchMaxUkey(icmp *iComparer, umax []byte) int {
return sort.Search(len(tf), func(i int) bool {
return icmp.ucmp.Compare(tf[i].imax.ukey(), umax) > 0
})
}
// Returns true if given key range overlaps with one or more
// tables key range. If unsorted is true then binary search will not be used.
func (tf tFiles) overlaps(icmp *iComparer, umin, umax []byte, unsorted bool) bool {
@ -189,6 +206,50 @@ func (tf tFiles) overlaps(icmp *iComparer, umin, umax []byte, unsorted bool) boo
// expanded.
// The dst content will be overwritten.
func (tf tFiles) getOverlaps(dst tFiles, icmp *iComparer, umin, umax []byte, overlapped bool) tFiles {
// Short circuit if tf is empty
if len(tf) == 0 {
return nil
}
// For non-zero levels, there is no ukey hop across at all.
// And what's more, the files in these levels are strictly sorted,
// so use binary search instead of heavy traverse.
if !overlapped {
var begin, end int
// Determine the begin index of the overlapped file
if umin != nil {
index := tf.searchMinUkey(icmp, umin)
if index == 0 {
begin = 0
} else if bytes.Compare(tf[index-1].imax.ukey(), umin) >= 0 {
// The min ukey overlaps with the index-1 file, expand it.
begin = index - 1
} else {
begin = index
}
}
// Determine the end index of the overlapped file
if umax != nil {
index := tf.searchMaxUkey(icmp, umax)
if index == len(tf) {
end = len(tf)
} else if bytes.Compare(tf[index].imin.ukey(), umax) <= 0 {
// The max ukey overlaps with the index file, expand it.
end = index + 1
} else {
end = index
}
} else {
end = len(tf)
}
// Ensure the overlapped file indexes are valid.
if begin >= end {
return nil
}
dst = make([]*tFile, end-begin)
copy(dst, tf[begin:end])
return dst
}
dst = dst[:0]
for i := 0; i < len(tf); {
t := tf[i]
@ -201,11 +262,9 @@ func (tf tFiles) getOverlaps(dst tFiles, icmp *iComparer, umin, umax []byte, ove
} else if umax != nil && icmp.uCompare(t.imax.ukey(), umax) > 0 {
umax = t.imax.ukey()
// Restart search if it is overlapped.
if overlapped {
dst = dst[:0]
i = 0
continue
}
dst = dst[:0]
i = 0
continue
}
dst = append(dst, t)
@ -424,15 +483,15 @@ func (t *tOps) newIterator(f *tFile, slice *util.Range, ro *opt.ReadOptions) ite
// Removes table from persistent storage. It waits until
// no one use the the table.
func (t *tOps) remove(f *tFile) {
t.cache.Delete(0, uint64(f.fd.Num), func() {
if err := t.s.stor.Remove(f.fd); err != nil {
t.s.logf("table@remove removing @%d %q", f.fd.Num, err)
func (t *tOps) remove(fd storage.FileDesc) {
t.cache.Delete(0, uint64(fd.Num), func() {
if err := t.s.stor.Remove(fd); err != nil {
t.s.logf("table@remove removing @%d %q", fd.Num, err)
} else {
t.s.logf("table@remove removed @%d", f.fd.Num)
t.s.logf("table@remove removed @%d", fd.Num)
}
if t.evictRemoved && t.bcache != nil {
t.bcache.EvictNS(uint64(f.fd.Num))
t.bcache.EvictNS(uint64(fd.Num))
}
})
}

@ -9,6 +9,7 @@ package leveldb
import (
"fmt"
"sync/atomic"
"time"
"unsafe"
"github.com/syndtr/goleveldb/leveldb/iterator"
@ -22,7 +23,8 @@ type tSet struct {
}
type version struct {
s *session
id int64 // unique monotonous increasing version id
s *session
levels []tFiles
@ -39,8 +41,11 @@ type version struct {
released bool
}
// newVersion creates a new version with an unique monotonous increasing id.
func newVersion(s *session) *version {
return &version{s: s}
id := atomic.AddInt64(&s.ntVersionId, 1)
nv := &version{s: s, id: id - 1}
return nv
}
func (v *version) incref() {
@ -50,11 +55,11 @@ func (v *version) incref() {
v.ref++
if v.ref == 1 {
// Incr file ref.
for _, tt := range v.levels {
for _, t := range tt {
v.s.addFileRef(t.fd, 1)
}
select {
case v.s.refCh <- &vTask{vid: v.id, files: v.levels, created: time.Now()}:
// We can use v.levels directly here since it is immutable.
case <-v.s.closeC:
v.s.log("reference loop already exist")
}
}
}
@ -66,13 +71,11 @@ func (v *version) releaseNB() {
} else if v.ref < 0 {
panic("negative version ref")
}
for _, tt := range v.levels {
for _, t := range tt {
if v.s.addFileRef(t.fd, -1) == 0 {
v.s.tops.remove(t)
}
}
select {
case v.s.relCh <- &vTask{vid: v.id, files: v.levels, created: time.Now()}:
// We can use v.levels directly here since it is immutable.
case <-v.s.closeC:
v.s.log("reference loop already exist")
}
v.released = true

6
vendor/vendor.json vendored

@ -478,10 +478,10 @@
"revisionTime": "2017-07-05T02:17:15Z"
},
{
"checksumSHA1": "4vxle8JfbPDO0ndiBUjMmRXGBQM=",
"checksumSHA1": "4NTmfUj7H5J59M2wCnp3/8FWt1I=",
"path": "github.com/syndtr/goleveldb/leveldb",
"revision": "3a907f965fc16db5f7787e18d4434bbe46d47f6e",
"revisionTime": "2019-03-04T06:08:05Z"
"revision": "c3a204f8e96543bb0cc090385c001078f184fc46",
"revisionTime": "2019-03-18T03:00:20Z"
},
{
"checksumSHA1": "mPNraL2edpk/2FYq26rSXfMHbJg=",