YTSFlix_Go/vendor/github.com/anacrolix/utp/conn.go

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2018-11-04 14:58:15 +00:00
package utp
import (
"errors"
"fmt"
"io"
"log"
"net"
"time"
"github.com/anacrolix/missinggo"
)
// Conn is a uTP stream and implements net.Conn. It owned by a Socket, which
// handles dispatching packets to and from Conns.
type Conn struct {
recv_id, send_id uint16
seq_nr, ack_nr uint16
lastAck uint16
lastTimeDiff uint32
peerWndSize uint32
cur_window uint32
connKey connKey
// Data waiting to be Read.
readBuf []byte
readBufNotEmpty missinggo.Event
socket *Socket
remoteSocketAddr net.Addr
// The uTP timestamp.
startTimestamp uint32
// When the conn was allocated.
created time.Time
synAcked bool // Syn is acked by the acceptor. Initiator also tracks it.
gotFin missinggo.Event
wroteFin missinggo.Event
err error
closed missinggo.Event
destroyed missinggo.Event
canWrite missinggo.Event
unackedSends []*send
// Inbound payloads, the first is ack_nr+1.
inbound []recv
inboundWnd int
connDeadlines
latencies []time.Duration
// We need to send state packet.
pendingSendState bool
sendPendingSendSendStateTimer *time.Timer
// Send state is being delayed until sendStateTimer fires, which may have
// been set at the beginning of a batch of received packets.
sendPendingSendStateTimerActive bool
// This timer fires when no packet has been received for a period.
packetReadTimeoutTimer *time.Timer
}
var (
_ net.Conn = &Conn{}
)
func (c *Conn) age() time.Duration {
return time.Since(c.created)
}
func (c *Conn) timestamp() uint32 {
return nowTimestamp() - c.startTimestamp
}
func (c *Conn) sendPendingSendStateTimerCallback() {
mu.Lock()
defer mu.Unlock()
c.sendPendingSendStateTimerActive = false
c.sendPendingSendSendStateTimer.Stop()
c.sendPendingState()
}
// Send a state packet, if one is needed.
func (c *Conn) sendPendingState() {
if c.destroyed.IsSet() {
c.sendReset()
} else {
c.sendState()
}
}
// So far as the spec makes clear, this is how many more, as-yet-unacked bytes
// we can fit into our receive buffers.
func (c *Conn) wndSize() uint32 {
if len(c.readBuf)+c.inboundWnd > readBufferLen {
return 0
}
return uint32(readBufferLen - len(c.readBuf) - c.inboundWnd)
}
func (c *Conn) makePacket(_type st, connID, seqNr uint16, payload []byte) (p []byte) {
var selAck selectiveAckBitmask
for i := 1; i < len(c.inbound); i++ {
if c.inbound[i].seen {
selAck.SetBit(i - 1)
}
}
h := header{
Type: _type,
Version: 1,
ConnID: connID,
SeqNr: seqNr,
AckNr: c.ack_nr,
WndSize: c.wndSize(),
Timestamp: c.timestamp(),
TimestampDiff: c.lastTimeDiff,
}
if len(selAck.Bytes) != 0 {
// The spec requires the number of bytes for a selective ACK to be at
// least 4, and a multiple of 4.
if len(selAck.Bytes)%4 != 0 {
panic(len(selAck.Bytes))
}
h.Extensions = append(h.Extensions, extensionField{
Type: extensionTypeSelectiveAck,
Bytes: selAck.Bytes,
})
}
p = sendBufferPool.Get().([]byte)[:0:minMTU]
n := h.Marshal(p)
p = p[:n]
// Extension headers are currently fixed in size.
if n > maxHeaderSize {
panic("header has unexpected size")
}
p = append(p, payload...)
return
}
// Send the given payload with an up to date header.
func (c *Conn) send(_type st, connID uint16, payload []byte, seqNr uint16) (err error) {
p := c.makePacket(_type, connID, seqNr, payload)
n1, err := c.socket.writeTo(p, c.remoteSocketAddr)
sendBufferPool.Put(p[:0:minMTU])
if err != nil {
return
}
if n1 != len(p) {
panic(n1)
}
if c.unpendSendState() && _type != stState {
// We needed to send a state packet, but this packet suppresses that
// need.
unsentStatePackets.Add(1)
}
return
}
func (c *Conn) unpendSendState() (wasPending bool) {
wasPending = c.pendingSendState
c.pendingSendState = false
c.sendPendingSendSendStateTimer.Stop()
c.sendPendingSendStateTimerActive = false
return
}
func (c *Conn) pendSendState() {
if c.pendingSendState {
// A state packet is pending but hasn't been sent, and we want to send
// another.
unsentStatePackets.Add(1)
}
c.pendingSendState = true
if !c.sendPendingSendStateTimerActive {
c.sendPendingSendSendStateTimer.Reset(pendingSendStateDelay)
c.sendPendingSendStateTimerActive = true
}
}
func (me *Conn) writeSyn() {
me.write(stSyn, me.recv_id, nil, me.seq_nr)
return
}
func (c *Conn) write(_type st, connID uint16, payload []byte, seqNr uint16) (n int, err error) {
switch _type {
case stSyn, stFin, stData:
default:
panic(_type)
}
if c.wroteFin.IsSet() {
panic("can't write after fin")
}
if len(payload) > maxPayloadSize {
payload = payload[:maxPayloadSize]
}
err = c.send(_type, connID, payload, seqNr)
if err != nil {
c.destroy(fmt.Errorf("error sending packet: %s", err))
return
}
n = len(payload)
// Copy payload so caller to write can continue to use the buffer.
if payload != nil {
payload = append(sendBufferPool.Get().([]byte)[:0:minMTU], payload...)
}
send := &send{
payloadSize: uint32(len(payload)),
started: missinggo.MonotonicNow(),
_type: _type,
connID: connID,
payload: payload,
seqNr: seqNr,
conn: c,
}
send.resendTimer = time.AfterFunc(c.resendTimeout(), send.timeoutResend)
c.unackedSends = append(c.unackedSends, send)
c.cur_window += send.payloadSize
c.updateCanWrite()
c.seq_nr++
return
}
// TODO: Introduce a minimum latency.
func (c *Conn) latency() (ret time.Duration) {
if len(c.latencies) == 0 {
return initialLatency
}
for _, l := range c.latencies {
ret += l
}
ret = (ret + time.Duration(len(c.latencies)) - 1) / time.Duration(len(c.latencies))
return
}
func (c *Conn) sendState() {
c.send(stState, c.send_id, nil, c.seq_nr)
sentStatePackets.Add(1)
}
func (c *Conn) sendReset() {
c.send(stReset, c.send_id, nil, c.seq_nr)
}
func (c *Conn) addLatency(l time.Duration) {
c.latencies = append(c.latencies, l)
if len(c.latencies) > 10 {
c.latencies = c.latencies[len(c.latencies)-10:]
}
}
// Ack our send with the given sequence number.
func (c *Conn) ack(nr uint16) {
if !seqLess(c.lastAck, nr) {
// Already acked.
return
}
i := nr - c.lastAck - 1
if int(i) >= len(c.unackedSends) {
// Remote has acknowledged receipt of packets we haven't even sent.
acksReceivedAheadOfSyn.Add(1)
// log.Printf("got ack ahead of syn (%x > %x)", nr, c.seq_nr-1)
return
}
s := c.unackedSends[i]
latency, first := s.Ack()
if first {
c.cur_window -= s.payloadSize
c.updateCanWrite()
c.addLatency(latency)
}
// Trim sends that aren't needed anymore.
for len(c.unackedSends) != 0 {
if !c.unackedSends[0].acked.IsSet() {
// Can't trim unacked sends any further.
return
}
// Trim the front of the unacked sends.
c.unackedSends = c.unackedSends[1:]
c.updateCanWrite()
c.lastAck++
}
}
func (c *Conn) ackTo(nr uint16) {
if !seqLess(nr, c.seq_nr) {
return
}
for seqLess(c.lastAck, nr) {
c.ack(c.lastAck + 1)
}
}
// Return the send state for the sequence number. Returns nil if there's no
// outstanding send for that sequence number.
func (c *Conn) seqSend(seqNr uint16) *send {
if !seqLess(c.lastAck, seqNr) {
// Presumably already acked.
return nil
}
i := int(seqNr - c.lastAck - 1)
if i >= len(c.unackedSends) {
// No such send.
return nil
}
return c.unackedSends[i]
}
func (c *Conn) resendTimeout() time.Duration {
l := c.latency()
ret := missinggo.JitterDuration(3*l, l)
return ret
}
func (c *Conn) ackSkipped(seqNr uint16) {
send := c.seqSend(seqNr)
if send == nil {
return
}
send.acksSkipped++
if send.acked.IsSet() {
return
}
switch send.acksSkipped {
case 3, 60:
ackSkippedResends.Add(1)
send.resend()
send.resendTimer.Reset(c.resendTimeout() * time.Duration(send.numResends))
default:
}
}
// Handle a packet destined for this connection.
func (c *Conn) receivePacket(h header, payload []byte) {
c.packetReadTimeoutTimer.Reset(packetReadTimeout)
c.processDelivery(h, payload)
}
func (c *Conn) receivePacketTimeoutCallback() {
mu.Lock()
c.destroy(errors.New("no packet read timeout"))
mu.Unlock()
}
func (c *Conn) lazyDestroy() {
if c.wroteFin.IsSet() && len(c.unackedSends) <= 1 && (c.gotFin.IsSet() || c.closed.IsSet()) {
c.destroy(errors.New("lazily destroyed"))
}
}
func (c *Conn) processDelivery(h header, payload []byte) {
deliveriesProcessed.Add(1)
defer c.lazyDestroy()
c.assertHeader(h)
c.peerWndSize = h.WndSize
c.applyAcks(h)
if h.Timestamp == 0 {
c.lastTimeDiff = 0
} else {
c.lastTimeDiff = c.timestamp() - h.Timestamp
}
if h.Type == stReset {
c.destroy(errors.New("peer reset"))
return
}
if !c.synAcked {
if h.Type != stState {
return
}
c.synAcked = true
c.updateCanWrite()
c.ack_nr = h.SeqNr - 1
return
}
if h.Type == stState {
return
}
// Even if we didn't need or want this packet, we need to inform the peer
// what our state is, in case they missed something.
c.pendSendState()
if !seqLess(c.ack_nr, h.SeqNr) {
// Already received this packet.
return
}
inboundIndex := int(h.SeqNr - c.ack_nr - 1)
if inboundIndex < len(c.inbound) && c.inbound[inboundIndex].seen {
// Already received this packet.
return
}
// Derived from running in production:
// grep -oP '(?<=packet out of order, index=)\d+' log | sort -n | uniq -c
// 64 should correspond to 8 bytes of selective ack.
if inboundIndex >= maxUnackedInbound {
// Discard packet too far ahead.
if logLevel >= 1 {
log.Printf("received packet from %s %d ahead of next seqnr (%x > %x)", c.remoteSocketAddr, inboundIndex, h.SeqNr, c.ack_nr+1)
}
return
}
// Extend inbound so the new packet has a place.
for inboundIndex >= len(c.inbound) {
c.inbound = append(c.inbound, recv{})
}
c.inbound[inboundIndex] = recv{true, payload, h.Type}
c.inboundWnd += len(payload)
c.processInbound()
}
func (c *Conn) applyAcks(h header) {
c.ackTo(h.AckNr)
for _, ext := range h.Extensions {
switch ext.Type {
case extensionTypeSelectiveAck:
c.ackSkipped(h.AckNr + 1)
bitmask := selectiveAckBitmask{ext.Bytes}
for i := 0; i < bitmask.NumBits(); i++ {
if bitmask.BitIsSet(i) {
nr := h.AckNr + 2 + uint16(i)
// log.Printf("selectively acked %d", nr)
c.ack(nr)
} else {
c.ackSkipped(h.AckNr + 2 + uint16(i))
}
}
}
}
}
func (c *Conn) assertHeader(h header) {
if h.Type == stSyn {
if h.ConnID != c.send_id {
panic(fmt.Sprintf("%d != %d", h.ConnID, c.send_id))
}
} else {
if h.ConnID != c.recv_id {
panic("erroneous delivery")
}
}
}
func (c *Conn) updateReadBufNotEmpty() {
c.readBufNotEmpty.SetBool(len(c.readBuf) != 0)
}
func (c *Conn) processInbound() {
// Consume consecutive next packets.
for !c.gotFin.IsSet() && len(c.inbound) > 0 && c.inbound[0].seen && len(c.readBuf) < readBufferLen {
c.ack_nr++
p := c.inbound[0]
c.inbound = c.inbound[1:]
c.inboundWnd -= len(p.data)
c.readBuf = append(c.readBuf, p.data...)
c.updateReadBufNotEmpty()
if p.Type == stFin {
c.gotFin.Set()
}
}
}
func (c *Conn) waitAck(seq uint16) {
send := c.seqSend(seq)
if send == nil {
return
}
missinggo.WaitEvents(&mu, &send.acked, &c.destroyed)
return
}
// Waits for sent SYN to be ACKed. Returns any errors.
func (c *Conn) recvSynAck() (err error) {
mu.Lock()
defer mu.Unlock()
c.waitAck(1)
if c.err != nil {
err = c.err
}
c.synAcked = true
c.updateCanWrite()
return err
}
func (c *Conn) writeFin() {
if c.wroteFin.IsSet() {
return
}
c.write(stFin, c.send_id, nil, c.seq_nr)
c.wroteFin.Set()
return
}
func (c *Conn) destroy(reason error) {
c.destroyed.Set()
if c.err == nil {
c.err = reason
}
c.detach()
}
func (c *Conn) closeNow() (err error) {
c.closed.Set()
c.writeFin()
c.destroy(errors.New("destroyed"))
return
}
func (c *Conn) Close() (err error) {
mu.Lock()
defer mu.Unlock()
c.closed.Set()
c.writeFin()
c.lazyDestroy()
return
}
func (c *Conn) LocalAddr() net.Addr {
return addr{c.socket.Addr()}
}
func (c *Conn) Read(b []byte) (n int, err error) {
mu.Lock()
defer mu.Unlock()
for {
n = copy(b, c.readBuf)
c.readBuf = c.readBuf[n:]
c.updateReadBufNotEmpty()
if n != 0 {
// Inbound packets are backed up when the read buffer is too big.
c.processInbound()
return
}
if c.gotFin.IsSet() || c.closed.IsSet() {
err = io.EOF
return
}
if c.destroyed.IsSet() {
if c.err == nil {
panic("closed without receiving fin, and no error")
}
err = c.err
return
}
if c.connDeadlines.read.passed.IsSet() {
err = errTimeout
return
}
missinggo.WaitEvents(&mu,
&c.gotFin,
&c.closed,
&c.destroyed,
&c.connDeadlines.read.passed,
&c.readBufNotEmpty)
}
}
func (c *Conn) RemoteAddr() net.Addr {
return addr{c.remoteSocketAddr}
}
func (c *Conn) String() string {
return fmt.Sprintf("<UTPConn %s-%s (%d)>", c.LocalAddr(), c.RemoteAddr(), c.recv_id)
}
func (c *Conn) updateCanWrite() {
c.canWrite.SetBool(c.synAcked &&
len(c.unackedSends) < maxUnackedSends &&
c.cur_window <= c.peerWndSize)
}
func (c *Conn) Write(p []byte) (n int, err error) {
mu.Lock()
defer mu.Unlock()
for len(p) != 0 {
if c.wroteFin.IsSet() || c.closed.IsSet() {
err = errClosed
return
}
if c.destroyed.IsSet() {
err = c.err
return
}
if c.connDeadlines.write.passed.IsSet() {
err = errTimeout
return
}
// If peerWndSize is 0, we still want to send something, so don't
// block until we exceed it.
if c.canWrite.IsSet() {
var n1 int
n1, err = c.write(stData, c.send_id, p, c.seq_nr)
n += n1
if err != nil {
break
}
if n1 == 0 {
panic(len(p))
}
p = p[n1:]
continue
}
missinggo.WaitEvents(&mu,
&c.wroteFin,
&c.closed,
&c.destroyed,
&c.connDeadlines.write.passed,
&c.canWrite)
}
return
}
func (c *Conn) detach() {
s := c.socket
_, ok := s.conns[c.connKey]
if !ok {
return
}
delete(s.conns, c.connKey)
s.lazyDestroy()
}