milvus/internal/master/timesync.go
quicksilver a6690dbc99 Fix syntax error: Bad fd number
Signed-off-by: quicksilver <zhifeng.zhang@zilliz.com>
2021-01-11 15:25:19 +08:00

231 lines
5.6 KiB
Go

package master
import (
"context"
"log"
"math"
"sync/atomic"
"github.com/zilliztech/milvus-distributed/internal/errors"
ms "github.com/zilliztech/milvus-distributed/internal/msgstream"
)
type (
TimeTickBarrier interface {
GetTimeTick() (Timestamp, error)
Start() error
Close()
}
softTimeTickBarrier struct {
peer2LastTt map[UniqueID]Timestamp
minTtInterval Timestamp
lastTt int64
outTt chan Timestamp
ttStream ms.MsgStream
ctx context.Context
cancel context.CancelFunc
}
hardTimeTickBarrier struct {
peer2Tt map[UniqueID]Timestamp
outTt chan Timestamp
ttStream ms.MsgStream
ctx context.Context
cancel context.CancelFunc
}
)
func (ttBarrier *softTimeTickBarrier) GetTimeTick() (Timestamp, error) {
select {
case <-ttBarrier.ctx.Done():
return 0, errors.Errorf("[GetTimeTick] closed.")
case ts, ok := <-ttBarrier.outTt:
if !ok {
return 0, errors.Errorf("[GetTimeTick] closed.")
}
num := len(ttBarrier.outTt)
for i := 0; i < num; i++ {
ts, ok = <-ttBarrier.outTt
if !ok {
return 0, errors.Errorf("[GetTimeTick] closed.")
}
}
atomic.StoreInt64(&(ttBarrier.lastTt), int64(ts))
return ts, ttBarrier.ctx.Err()
}
}
func (ttBarrier *softTimeTickBarrier) Start() error {
go func() {
for {
select {
case <-ttBarrier.ctx.Done():
log.Printf("[TtBarrierStart] %s\n", ttBarrier.ctx.Err())
return
case ttmsgs := <-ttBarrier.ttStream.Chan():
if len(ttmsgs.Msgs) > 0 {
for _, timetickmsg := range ttmsgs.Msgs {
ttmsg := timetickmsg.(*ms.TimeTickMsg)
oldT, ok := ttBarrier.peer2LastTt[ttmsg.PeerID]
// log.Printf("[softTimeTickBarrier] peer(%d)=%d\n", ttmsg.PeerID, ttmsg.Timestamp)
if !ok {
log.Printf("[softTimeTickBarrier] Warning: peerID %d not exist\n", ttmsg.PeerID)
continue
}
if ttmsg.Timestamp > oldT {
ttBarrier.peer2LastTt[ttmsg.PeerID] = ttmsg.Timestamp
// get a legal Timestamp
ts := ttBarrier.minTimestamp()
lastTt := atomic.LoadInt64(&(ttBarrier.lastTt))
if lastTt != 0 && ttBarrier.minTtInterval > ts-Timestamp(lastTt) {
continue
}
ttBarrier.outTt <- ts
}
}
}
}
}
}()
return nil
}
func newSoftTimeTickBarrier(ctx context.Context,
ttStream *ms.MsgStream,
peerIds []UniqueID,
minTtInterval Timestamp) *softTimeTickBarrier {
if len(peerIds) <= 0 {
log.Printf("[newSoftTimeTickBarrier] Error: peerIds is empty!\n")
return nil
}
sttbarrier := softTimeTickBarrier{}
sttbarrier.minTtInterval = minTtInterval
sttbarrier.ttStream = *ttStream
sttbarrier.outTt = make(chan Timestamp, 1024)
sttbarrier.ctx, sttbarrier.cancel = context.WithCancel(ctx)
sttbarrier.peer2LastTt = make(map[UniqueID]Timestamp)
for _, id := range peerIds {
sttbarrier.peer2LastTt[id] = Timestamp(0)
}
if len(peerIds) != len(sttbarrier.peer2LastTt) {
log.Printf("[newSoftTimeTickBarrier] Warning: there are duplicate peerIds!\n")
}
return &sttbarrier
}
func (ttBarrier *softTimeTickBarrier) Close() {
ttBarrier.cancel()
}
func (ttBarrier *softTimeTickBarrier) minTimestamp() Timestamp {
tempMin := Timestamp(math.MaxUint64)
for _, tt := range ttBarrier.peer2LastTt {
if tt < tempMin {
tempMin = tt
}
}
return tempMin
}
func (ttBarrier *hardTimeTickBarrier) GetTimeTick() (Timestamp, error) {
select {
case <-ttBarrier.ctx.Done():
return 0, errors.Errorf("[GetTimeTick] closed.")
case ts, ok := <-ttBarrier.outTt:
if !ok {
return 0, errors.Errorf("[GetTimeTick] closed.")
}
return ts, ttBarrier.ctx.Err()
}
}
func (ttBarrier *hardTimeTickBarrier) Start() error {
go func() {
// Last timestamp synchronized
state := Timestamp(0)
for {
select {
case <-ttBarrier.ctx.Done():
log.Printf("[TtBarrierStart] %s\n", ttBarrier.ctx.Err())
return
case ttmsgs := <-ttBarrier.ttStream.Chan():
if len(ttmsgs.Msgs) > 0 {
for _, timetickmsg := range ttmsgs.Msgs {
// Suppose ttmsg.Timestamp from stream is always larger than the previous one,
// that `ttmsg.Timestamp > oldT`
ttmsg := timetickmsg.(*ms.TimeTickMsg)
oldT, ok := ttBarrier.peer2Tt[ttmsg.PeerID]
if !ok {
log.Printf("[hardTimeTickBarrier] Warning: peerID %d not exist\n", ttmsg.PeerID)
continue
}
if oldT > state {
log.Printf("[hardTimeTickBarrier] Warning: peer(%d) timestamp(%d) ahead\n",
ttmsg.PeerID, ttmsg.Timestamp)
}
ttBarrier.peer2Tt[ttmsg.PeerID] = ttmsg.Timestamp
newState := ttBarrier.minTimestamp()
if newState > state {
ttBarrier.outTt <- newState
state = newState
}
}
}
}
}
}()
return nil
}
func (ttBarrier *hardTimeTickBarrier) minTimestamp() Timestamp {
tempMin := Timestamp(math.MaxUint64)
for _, tt := range ttBarrier.peer2Tt {
if tt < tempMin {
tempMin = tt
}
}
return tempMin
}
func newHardTimeTickBarrier(ctx context.Context,
ttStream *ms.MsgStream,
peerIds []UniqueID) *hardTimeTickBarrier {
if len(peerIds) <= 0 {
log.Printf("[newSoftTimeTickBarrier] Error: peerIds is empty!")
return nil
}
sttbarrier := hardTimeTickBarrier{}
sttbarrier.ttStream = *ttStream
sttbarrier.outTt = make(chan Timestamp, 1024)
sttbarrier.ctx, sttbarrier.cancel = context.WithCancel(ctx)
sttbarrier.peer2Tt = make(map[UniqueID]Timestamp)
for _, id := range peerIds {
sttbarrier.peer2Tt[id] = Timestamp(0)
}
if len(peerIds) != len(sttbarrier.peer2Tt) {
log.Printf("[newSoftTimeTickBarrier] Warning: there are duplicate peerIds!")
}
return &sttbarrier
}
func (ttBarrier *hardTimeTickBarrier) Close() {
ttBarrier.cancel()
}