pingtunnel/framemgr.go

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package pingtunnel
import (
"container/list"
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"github.com/esrrhs/go-engine/src/common"
"github.com/esrrhs/go-engine/src/loggo"
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"github.com/esrrhs/go-engine/src/rbuffergo"
"sync"
"time"
)
type FrameMgr struct {
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sendb *rbuffergo.RBuffergo
recvb *rbuffergo.RBuffergo
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recvlock sync.Locker
windowsize int
resend_timems int
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sendwin *list.List
sendlist *list.List
sendid int
recvwin *list.List
recvlist *list.List
recvid int
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close bool
remoteclosed bool
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closesend bool
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lastPingTime int64
rttms int
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}
func NewFrameMgr(buffersize int, windowsize int, resend_timems int) *FrameMgr {
sendb := rbuffergo.New(buffersize, false)
recvb := rbuffergo.New(buffersize, false)
fm := &FrameMgr{sendb: sendb, recvb: recvb,
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recvlock: &sync.Mutex{},
windowsize: windowsize, resend_timems: resend_timems,
sendwin: list.New(), sendlist: list.New(), sendid: 0,
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recvwin: list.New(), recvlist: list.New(), recvid: 0,
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close: false, remoteclosed: false, closesend: false,
lastPingTime: time.Now().UnixNano(), rttms: resend_timems}
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return fm
}
func (fm *FrameMgr) GetSendBufferLeft() int {
left := fm.sendb.Capacity() - fm.sendb.Size()
return left
}
func (fm *FrameMgr) WriteSendBuffer(data []byte) {
fm.sendb.Write(data)
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loggo.Debug("WriteSendBuffer %d %d", fm.sendb.Size(), len(data))
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}
func (fm *FrameMgr) Update() {
fm.cutSendBufferToWindow()
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fm.sendlist.Init()
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tmpreq, tmpack, tmpackto := fm.preProcessRecvList()
fm.processRecvList(tmpreq, tmpack, tmpackto)
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fm.combineWindowToRecvBuffer()
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fm.calSendList()
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fm.ping()
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}
func (fm *FrameMgr) cutSendBufferToWindow() {
sendall := false
if fm.sendb.Size() < FRAME_MAX_SIZE {
sendall = true
}
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for fm.sendb.Size() >= FRAME_MAX_SIZE && fm.sendwin.Len() < fm.windowsize {
f := &Frame{Type: (int32)(Frame_DATA), Resend: false, Sendtime: 0,
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Id: (int32)(fm.sendid),
Data: make([]byte, FRAME_MAX_SIZE)}
fm.sendb.Read(f.Data)
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fm.sendid++
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if fm.sendid >= FRAME_MAX_ID {
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fm.sendid = 0
}
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fm.sendwin.PushBack(f)
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loggo.Debug("cut frame push to send win %d %d %d", f.Id, FRAME_MAX_SIZE, fm.sendwin.Len())
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}
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if sendall && fm.sendb.Size() > 0 && fm.sendwin.Len() < fm.windowsize {
f := &Frame{Type: (int32)(Frame_DATA), Resend: false, Sendtime: 0,
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Id: (int32)(fm.sendid),
Data: make([]byte, fm.sendb.Size())}
fm.sendb.Read(f.Data)
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fm.sendid++
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if fm.sendid >= FRAME_MAX_ID {
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fm.sendid = 0
}
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fm.sendwin.PushBack(f)
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loggo.Debug("cut small frame push to send win %d %d %d", f.Id, len(f.Data), fm.sendwin.Len())
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}
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if fm.sendb.Empty() && fm.close && !fm.closesend && fm.sendwin.Len() < fm.windowsize {
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f := &Frame{Type: (int32)(Frame_DATA), Resend: false, Sendtime: 0,
Id: (int32)(fm.sendid),
Data: make([]byte, 0)}
fm.sendwin.PushBack(f)
fm.sendid++
if fm.sendid >= FRAME_MAX_ID {
fm.sendid = 0
}
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fm.closesend = true
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loggo.Debug("close frame push to send win %d %d", f.Id, fm.sendwin.Len())
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}
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}
func (fm *FrameMgr) calSendList() {
cur := time.Now().UnixNano()
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for e := fm.sendwin.Front(); e != nil; e = e.Next() {
f := e.Value.(*Frame)
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if f.Resend || cur-f.Sendtime > int64(fm.resend_timems*(int)(time.Millisecond)) {
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f.Sendtime = cur
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fm.sendlist.PushBack(f)
f.Resend = false
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loggo.Debug("push frame to sendlist %d %d", f.Id, len(f.Data))
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}
}
}
func (fm *FrameMgr) getSendList() *list.List {
return fm.sendlist
}
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func (fm *FrameMgr) OnRecvFrame(f *Frame) {
fm.recvlock.Lock()
defer fm.recvlock.Unlock()
fm.recvlist.PushBack(f)
}
func (fm *FrameMgr) preProcessRecvList() (map[int32]int, map[int32]int, map[int32]*Frame) {
fm.recvlock.Lock()
defer fm.recvlock.Unlock()
tmpreq := make(map[int32]int)
tmpack := make(map[int32]int)
tmpackto := make(map[int32]*Frame)
for e := fm.recvlist.Front(); e != nil; e = e.Next() {
f := e.Value.(*Frame)
if f.Type == (int32)(Frame_REQ) {
for _, id := range f.Dataid {
tmpreq[id]++
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loggo.Debug("recv req %d %s", f.Id, common.Int32ArrayToString(f.Dataid, ","))
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}
} else if f.Type == (int32)(Frame_ACK) {
for _, id := range f.Dataid {
tmpack[id]++
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loggo.Debug("recv ack %d %s", f.Id, common.Int32ArrayToString(f.Dataid, ","))
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}
} else if f.Type == (int32)(Frame_DATA) {
tmpackto[f.Id] = f
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loggo.Debug("recv data %d %d", f.Id, len(f.Data))
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} else if f.Type == (int32)(Frame_PING) {
fm.processPing(f)
} else if f.Type == (int32)(Frame_PONG) {
fm.processPong(f)
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}
}
fm.recvlist.Init()
return tmpreq, tmpack, tmpackto
}
func (fm *FrameMgr) processRecvList(tmpreq map[int32]int, tmpack map[int32]int, tmpackto map[int32]*Frame) {
for id, _ := range tmpreq {
for e := fm.sendwin.Front(); e != nil; e = e.Next() {
f := e.Value.(*Frame)
if f.Id == id {
f.Resend = true
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loggo.Debug("choose resend win %d %d", f.Id, len(f.Data))
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break
}
}
}
for id, _ := range tmpack {
for e := fm.sendwin.Front(); e != nil; e = e.Next() {
f := e.Value.(*Frame)
if f.Id == id {
fm.sendwin.Remove(e)
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loggo.Debug("remove send win %d %d", f.Id, len(f.Data))
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break
}
}
}
if len(tmpackto) > 0 {
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tmp := make([]int32, len(tmpackto))
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index := 0
for id, rf := range tmpackto {
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if fm.addToRecvWin(rf) {
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tmp[index] = id
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index++
loggo.Debug("add data to win %d %d", rf.Id, len(rf.Data))
}
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}
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if index > 0 {
f := &Frame{Type: (int32)(Frame_ACK), Resend: false, Sendtime: 0,
Id: 0,
Dataid: tmp[0:index]}
fm.sendlist.PushBack(f)
loggo.Debug("send ack %d %s", f.Id, common.Int32ArrayToString(f.Dataid, ","))
}
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}
}
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func (fm *FrameMgr) addToRecvWin(rf *Frame) bool {
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if !fm.isIdInRange((int)(rf.Id), FRAME_MAX_ID) {
loggo.Debug("recv frame not in range %d %d", rf.Id, fm.recvid)
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return false
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}
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for e := fm.recvwin.Front(); e != nil; e = e.Next() {
f := e.Value.(*Frame)
if f.Id == rf.Id {
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loggo.Debug("recv frame ignore %d %d", f.Id, len(f.Data))
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return true
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}
}
for e := fm.recvwin.Front(); e != nil; e = e.Next() {
f := e.Value.(*Frame)
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loggo.Debug("start insert recv win %d %d %d", fm.recvid, rf.Id, f.Id)
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if fm.compareId((int)(rf.Id), (int)(f.Id)) < 0 {
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fm.recvwin.InsertBefore(rf, e)
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loggo.Debug("insert recv win %d %d before %d", rf.Id, len(rf.Data), f.Id)
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return true
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}
}
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fm.recvwin.PushBack(rf)
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loggo.Debug("insert recv win last %d %d", rf.Id, len(rf.Data))
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return true
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}
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func (fm *FrameMgr) compareId(l int, r int) int {
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if l < fm.recvid {
l += FRAME_MAX_ID
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}
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if r < fm.recvid {
r += FRAME_MAX_ID
}
return l - r
}
func (fm *FrameMgr) combineWindowToRecvBuffer() {
for {
done := false
for e := fm.recvwin.Front(); e != nil; e = e.Next() {
f := e.Value.(*Frame)
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if f.Id == (int32)(fm.recvid) {
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left := fm.recvb.Capacity() - fm.recvb.Size()
if left >= len(f.Data) {
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if len(f.Data) == 0 {
fm.remoteclosed = true
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loggo.Debug("recv remote close frame %d", f.Id)
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}
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fm.recvb.Write(f.Data)
fm.recvwin.Remove(e)
done = true
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loggo.Debug("combined recv frame to recv buffer %d %d", f.Id, len(f.Data))
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break
}
}
}
if !done {
break
} else {
fm.recvid++
if fm.recvid >= FRAME_MAX_ID {
fm.recvid = 0
}
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loggo.Debug("combined ok add recvid %d ", fm.recvid)
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}
}
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reqtmp := make(map[int]int)
e := fm.recvwin.Front()
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id := fm.recvid
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for len(reqtmp) < fm.windowsize && len(reqtmp)*4 < FRAME_MAX_SIZE/2 && e != nil {
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f := e.Value.(*Frame)
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loggo.Debug("start add req id %d %d %d", fm.recvid, f.Id, id)
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if f.Id != (int32)(id) {
reqtmp[id]++
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loggo.Debug("add req id %d ", id)
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} else {
e = e.Next()
}
id++
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if id >= FRAME_MAX_ID {
id = 0
}
}
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if len(reqtmp) > 0 {
f := &Frame{Type: (int32)(Frame_REQ), Resend: false, Sendtime: 0,
Id: 0,
Dataid: make([]int32, len(reqtmp))}
index := 0
for id, _ := range reqtmp {
f.Dataid[index] = (int32)(id)
index++
}
fm.sendlist.PushBack(f)
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loggo.Debug("send req %d %s", f.Id, common.Int32ArrayToString(f.Dataid, ","))
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}
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}
func (fm *FrameMgr) GetRecvBufferSize() int {
return fm.recvb.Size()
}
func (fm *FrameMgr) GetRecvReadLineBuffer() []byte {
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ret := fm.recvb.GetReadLineBuffer()
loggo.Debug("GetRecvReadLineBuffer %d %d", fm.recvb.Size(), len(ret))
return ret
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}
func (fm *FrameMgr) SkipRecvBuffer(size int) {
fm.recvb.SkipRead(size)
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loggo.Debug("SkipRead %d %d", fm.recvb.Size(), size)
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}
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func (fm *FrameMgr) Close() {
fm.recvlock.Lock()
defer fm.recvlock.Unlock()
fm.close = true
}
func (fm *FrameMgr) IsRemoteClosed() bool {
return fm.remoteclosed
}
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func (fm *FrameMgr) ping() {
cur := time.Now().UnixNano()
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if cur-fm.lastPingTime > (int64)(time.Second) {
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f := &Frame{Type: (int32)(Frame_PING), Resend: false, Sendtime: cur,
Id: 0}
fm.sendlist.PushBack(f)
loggo.Debug("send ping %d", cur)
fm.lastPingTime = cur
}
}
func (fm *FrameMgr) processPing(f *Frame) {
rf := &Frame{Type: (int32)(Frame_PONG), Resend: false, Sendtime: f.Sendtime,
Id: 0}
fm.sendlist.PushBack(rf)
loggo.Debug("recv ping %d", f.Sendtime)
}
func (fm *FrameMgr) processPong(f *Frame) {
cur := time.Now().UnixNano()
if cur > f.Sendtime {
rtt := (cur - f.Sendtime) / 1000
fm.rttms = (fm.rttms + (int)(rtt)) / 2
loggo.Debug("recv pong %d %d", rtt, fm.rttms)
}
}
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func (fm *FrameMgr) isIdInRange(id int, maxid int) bool {
begin := fm.recvid
end := fm.recvid + fm.windowsize
if end >= maxid {
if id >= 0 && id < end-maxid {
return true
}
end = maxid
}
if id >= begin && id < end {
return true
}
return false
}