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v2ray-core/transport/internet/kcp/segment.go

292 lines
5.5 KiB

package kcp
import (
"v2ray.com/core/common/buf"
"v2ray.com/core/common/serial"
)
// Command is a KCP command that indicate the purpose of a Segment.
type Command byte
const (
// CommandACK indicates a AckSegment.
CommandACK Command = 0
// CommandData indicates a DataSegment.
CommandData Command = 1
// CommandTerminate indicates that peer terminates the connection.
CommandTerminate Command = 2
// CommandPing indicates a ping.
CommandPing Command = 3
)
type SegmentOption byte
const (
SegmentOptionClose SegmentOption = 1
)
type Segment interface {
Release()
Conversation() uint16
Command() Command
ByteSize() int
Bytes() buf.Supplier
}
const (
DataSegmentOverhead = 18
)
type DataSegment struct {
Conv uint16
Option SegmentOption
Timestamp uint32
Number uint32
SendingNext uint32
Data *buf.Buffer
timeout uint32
transmit uint32
}
func NewDataSegment() *DataSegment {
return new(DataSegment)
}
func (v *DataSegment) Conversation() uint16 {
return v.Conv
}
func (v *DataSegment) Command() Command {
return CommandData
}
func (v *DataSegment) SetData(data []byte) {
if v.Data == nil {
v.Data = buf.New()
}
v.Data.Reset(func(b []byte) (int, error) {
return copy(b, data), nil
})
}
func (v *DataSegment) Bytes() buf.Supplier {
return func(b []byte) (int, error) {
b = serial.Uint16ToBytes(v.Conv, b[:0])
b = append(b, byte(CommandData), byte(v.Option))
b = serial.Uint32ToBytes(v.Timestamp, b)
b = serial.Uint32ToBytes(v.Number, b)
b = serial.Uint32ToBytes(v.SendingNext, b)
b = serial.Uint16ToBytes(uint16(v.Data.Len()), b)
b = append(b, v.Data.Bytes()...)
return len(b), nil
}
}
func (v *DataSegment) ByteSize() int {
return 2 + 1 + 1 + 4 + 4 + 4 + 2 + v.Data.Len()
}
func (v *DataSegment) Release() {
v.Data.Release()
v.Data = nil
}
type AckSegment struct {
Conv uint16
Option SegmentOption
ReceivingWindow uint32
ReceivingNext uint32
Timestamp uint32
NumberList []uint32
}
const ackNumberLimit = 128
func NewAckSegment() *AckSegment {
return &AckSegment{
NumberList: make([]uint32, 0, ackNumberLimit),
}
}
func (v *AckSegment) Conversation() uint16 {
return v.Conv
}
func (v *AckSegment) Command() Command {
return CommandACK
}
func (v *AckSegment) PutTimestamp(timestamp uint32) {
if timestamp-v.Timestamp < 0x7FFFFFFF {
v.Timestamp = timestamp
}
}
func (v *AckSegment) PutNumber(number uint32) {
v.NumberList = append(v.NumberList, number)
}
func (v *AckSegment) IsFull() bool {
return len(v.NumberList) == ackNumberLimit
}
func (v *AckSegment) IsEmpty() bool {
return len(v.NumberList) == 0
}
func (v *AckSegment) ByteSize() int {
return 2 + 1 + 1 + 4 + 4 + 4 + 1 + len(v.NumberList)*4
}
func (v *AckSegment) Bytes() buf.Supplier {
return func(b []byte) (int, error) {
b = serial.Uint16ToBytes(v.Conv, b[:0])
b = append(b, byte(CommandACK), byte(v.Option))
b = serial.Uint32ToBytes(v.ReceivingWindow, b)
b = serial.Uint32ToBytes(v.ReceivingNext, b)
b = serial.Uint32ToBytes(v.Timestamp, b)
count := byte(len(v.NumberList))
b = append(b, count)
for _, number := range v.NumberList {
b = serial.Uint32ToBytes(number, b)
}
return v.ByteSize(), nil
}
}
func (v *AckSegment) Release() {
v.NumberList = nil
}
type CmdOnlySegment struct {
Conv uint16
Cmd Command
Option SegmentOption
SendingNext uint32
ReceivinNext uint32
PeerRTO uint32
}
func NewCmdOnlySegment() *CmdOnlySegment {
return new(CmdOnlySegment)
}
func (v *CmdOnlySegment) Conversation() uint16 {
return v.Conv
}
func (v *CmdOnlySegment) Command() Command {
return v.Cmd
}
func (v *CmdOnlySegment) ByteSize() int {
return 2 + 1 + 1 + 4 + 4 + 4
}
func (v *CmdOnlySegment) Bytes() buf.Supplier {
return func(b []byte) (int, error) {
b = serial.Uint16ToBytes(v.Conv, b[:0])
b = append(b, byte(v.Cmd), byte(v.Option))
b = serial.Uint32ToBytes(v.SendingNext, b)
b = serial.Uint32ToBytes(v.ReceivinNext, b)
b = serial.Uint32ToBytes(v.PeerRTO, b)
return len(b), nil
}
}
func (v *CmdOnlySegment) Release() {
}
func ReadSegment(buf []byte) (Segment, []byte) {
if len(buf) < 4 {
return nil, nil
}
conv := serial.BytesToUint16(buf)
buf = buf[2:]
cmd := Command(buf[0])
opt := SegmentOption(buf[1])
buf = buf[2:]
if cmd == CommandData {
seg := NewDataSegment()
seg.Conv = conv
seg.Option = opt
if len(buf) < 15 {
return nil, nil
}
seg.Timestamp = serial.BytesToUint32(buf)
buf = buf[4:]
seg.Number = serial.BytesToUint32(buf)
buf = buf[4:]
seg.SendingNext = serial.BytesToUint32(buf)
buf = buf[4:]
dataLen := int(serial.BytesToUint16(buf))
buf = buf[2:]
if len(buf) < dataLen {
return nil, nil
}
seg.SetData(buf[:dataLen])
buf = buf[dataLen:]
return seg, buf
}
if cmd == CommandACK {
seg := NewAckSegment()
seg.Conv = conv
seg.Option = opt
if len(buf) < 13 {
return nil, nil
}
seg.ReceivingWindow = serial.BytesToUint32(buf)
buf = buf[4:]
seg.ReceivingNext = serial.BytesToUint32(buf)
buf = buf[4:]
seg.Timestamp = serial.BytesToUint32(buf)
buf = buf[4:]
count := int(buf[0])
buf = buf[1:]
if len(buf) < count*4 {
return nil, nil
}
for i := 0; i < count; i++ {
seg.PutNumber(serial.BytesToUint32(buf))
buf = buf[4:]
}
return seg, buf
}
seg := NewCmdOnlySegment()
seg.Conv = conv
seg.Cmd = cmd
seg.Option = opt
if len(buf) < 12 {
return nil, nil
}
seg.SendingNext = serial.BytesToUint32(buf)
buf = buf[4:]
seg.ReceivinNext = serial.BytesToUint32(buf)
buf = buf[4:]
seg.PeerRTO = serial.BytesToUint32(buf)
buf = buf[4:]
return seg, buf
}