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// Package proxy contains all proxies used by Xray.
//
// To implement an inbound or outbound proxy, one needs to do the following:
// 1. Implement the interface(s) below.
// 2. Register a config creator through common.RegisterConfig.
package proxy
import (
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"bytes"
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"context"
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"crypto/rand"
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"io"
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"math/big"
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"runtime"
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"strconv"
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"github.com/pires/go-proxyproto"
"github.com/xtls/xray-core/common/buf"
"github.com/xtls/xray-core/common/errors"
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"github.com/xtls/xray-core/common/net"
"github.com/xtls/xray-core/common/protocol"
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"github.com/xtls/xray-core/common/session"
"github.com/xtls/xray-core/common/signal"
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"github.com/xtls/xray-core/features/routing"
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"github.com/xtls/xray-core/features/stats"
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"github.com/xtls/xray-core/transport"
"github.com/xtls/xray-core/transport/internet"
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"github.com/xtls/xray-core/transport/internet/reality"
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"github.com/xtls/xray-core/transport/internet/stat"
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"github.com/xtls/xray-core/transport/internet/tls"
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)
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var (
Tls13SupportedVersions = [ ] byte { 0x00 , 0x2b , 0x00 , 0x02 , 0x03 , 0x04 }
TlsClientHandShakeStart = [ ] byte { 0x16 , 0x03 }
TlsServerHandShakeStart = [ ] byte { 0x16 , 0x03 , 0x03 }
TlsApplicationDataStart = [ ] byte { 0x17 , 0x03 , 0x03 }
Tls13CipherSuiteDic = map [ uint16 ] string {
0x1301 : "TLS_AES_128_GCM_SHA256" ,
0x1302 : "TLS_AES_256_GCM_SHA384" ,
0x1303 : "TLS_CHACHA20_POLY1305_SHA256" ,
0x1304 : "TLS_AES_128_CCM_SHA256" ,
0x1305 : "TLS_AES_128_CCM_8_SHA256" ,
}
)
const (
TlsHandshakeTypeClientHello byte = 0x01
TlsHandshakeTypeServerHello byte = 0x02
CommandPaddingContinue byte = 0x00
CommandPaddingEnd byte = 0x01
CommandPaddingDirect byte = 0x02
)
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// An Inbound processes inbound connections.
type Inbound interface {
// Network returns a list of networks that this inbound supports. Connections with not-supported networks will not be passed into Process().
Network ( ) [ ] net . Network
// Process processes a connection of given network. If necessary, the Inbound can dispatch the connection to an Outbound.
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Process ( context . Context , net . Network , stat . Connection , routing . Dispatcher ) error
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}
// An Outbound process outbound connections.
type Outbound interface {
// Process processes the given connection. The given dialer may be used to dial a system outbound connection.
Process ( context . Context , * transport . Link , internet . Dialer ) error
}
// UserManager is the interface for Inbounds and Outbounds that can manage their users.
type UserManager interface {
// AddUser adds a new user.
AddUser ( context . Context , * protocol . MemoryUser ) error
// RemoveUser removes a user by email.
RemoveUser ( context . Context , string ) error
}
type GetInbound interface {
GetInbound ( ) Inbound
}
type GetOutbound interface {
GetOutbound ( ) Outbound
}
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// TrafficState is used to track uplink and downlink of one connection
// It is used by XTLS to determine if switch to raw copy mode, It is used by Vision to calculate padding
type TrafficState struct {
UserUUID [ ] byte
NumberOfPacketToFilter int
EnableXtls bool
IsTLS12orAbove bool
IsTLS bool
Cipher uint16
RemainingServerHello int32
// reader link state
WithinPaddingBuffers bool
ReaderSwitchToDirectCopy bool
RemainingCommand int32
RemainingContent int32
RemainingPadding int32
CurrentCommand int
// write link state
IsPadding bool
WriterSwitchToDirectCopy bool
}
func NewTrafficState ( userUUID [ ] byte ) * TrafficState {
return & TrafficState {
UserUUID : userUUID ,
NumberOfPacketToFilter : 8 ,
EnableXtls : false ,
IsTLS12orAbove : false ,
IsTLS : false ,
Cipher : 0 ,
RemainingServerHello : - 1 ,
WithinPaddingBuffers : true ,
ReaderSwitchToDirectCopy : false ,
RemainingCommand : - 1 ,
RemainingContent : - 1 ,
RemainingPadding : - 1 ,
CurrentCommand : 0 ,
IsPadding : true ,
WriterSwitchToDirectCopy : false ,
}
}
// VisionReader is used to read xtls vision protocol
// Note Vision probably only make sense as the inner most layer of reader, since it need assess traffic state from origin proxy traffic
type VisionReader struct {
buf . Reader
trafficState * TrafficState
ctx context . Context
}
func NewVisionReader ( reader buf . Reader , state * TrafficState , context context . Context ) * VisionReader {
return & VisionReader {
Reader : reader ,
trafficState : state ,
ctx : context ,
}
}
func ( w * VisionReader ) ReadMultiBuffer ( ) ( buf . MultiBuffer , error ) {
buffer , err := w . Reader . ReadMultiBuffer ( )
if ! buffer . IsEmpty ( ) {
if w . trafficState . WithinPaddingBuffers || w . trafficState . NumberOfPacketToFilter > 0 {
mb2 := make ( buf . MultiBuffer , 0 , len ( buffer ) )
for _ , b := range buffer {
newbuffer := XtlsUnpadding ( b , w . trafficState , w . ctx )
if newbuffer . Len ( ) > 0 {
mb2 = append ( mb2 , newbuffer )
}
}
buffer = mb2
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if w . trafficState . RemainingContent > 0 || w . trafficState . RemainingPadding > 0 || w . trafficState . CurrentCommand == 0 {
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w . trafficState . WithinPaddingBuffers = true
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} else if w . trafficState . CurrentCommand == 1 {
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w . trafficState . WithinPaddingBuffers = false
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} else if w . trafficState . CurrentCommand == 2 {
w . trafficState . WithinPaddingBuffers = false
w . trafficState . ReaderSwitchToDirectCopy = true
} else {
newError ( "XtlsRead unknown command " , w . trafficState . CurrentCommand , buffer . Len ( ) ) . WriteToLog ( session . ExportIDToError ( w . ctx ) )
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}
}
if w . trafficState . NumberOfPacketToFilter > 0 {
XtlsFilterTls ( buffer , w . trafficState , w . ctx )
}
}
return buffer , err
}
// VisionWriter is used to write xtls vision protocol
// Note Vision probably only make sense as the inner most layer of writer, since it need assess traffic state from origin proxy traffic
type VisionWriter struct {
buf . Writer
trafficState * TrafficState
ctx context . Context
writeOnceUserUUID [ ] byte
}
func NewVisionWriter ( writer buf . Writer , state * TrafficState , context context . Context ) * VisionWriter {
w := make ( [ ] byte , len ( state . UserUUID ) )
copy ( w , state . UserUUID )
return & VisionWriter {
Writer : writer ,
trafficState : state ,
ctx : context ,
writeOnceUserUUID : w ,
}
}
func ( w * VisionWriter ) WriteMultiBuffer ( mb buf . MultiBuffer ) error {
if w . trafficState . NumberOfPacketToFilter > 0 {
XtlsFilterTls ( mb , w . trafficState , w . ctx )
}
if w . trafficState . IsPadding {
if len ( mb ) == 1 && mb [ 0 ] == nil {
mb [ 0 ] = XtlsPadding ( nil , CommandPaddingContinue , & w . writeOnceUserUUID , true , w . ctx ) // we do a long padding to hide vless header
return w . Writer . WriteMultiBuffer ( mb )
}
mb = ReshapeMultiBuffer ( w . ctx , mb )
longPadding := w . trafficState . IsTLS
for i , b := range mb {
if w . trafficState . IsTLS && b . Len ( ) >= 6 && bytes . Equal ( TlsApplicationDataStart , b . BytesTo ( 3 ) ) {
if w . trafficState . EnableXtls {
w . trafficState . WriterSwitchToDirectCopy = true
}
var command byte = CommandPaddingContinue
if i == len ( mb ) - 1 {
command = CommandPaddingEnd
if w . trafficState . EnableXtls {
command = CommandPaddingDirect
}
}
mb [ i ] = XtlsPadding ( b , command , & w . writeOnceUserUUID , true , w . ctx )
w . trafficState . IsPadding = false // padding going to end
longPadding = false
continue
} else if ! w . trafficState . IsTLS12orAbove && w . trafficState . NumberOfPacketToFilter <= 1 { // For compatibility with earlier vision receiver, we finish padding 1 packet early
w . trafficState . IsPadding = false
mb [ i ] = XtlsPadding ( b , CommandPaddingEnd , & w . writeOnceUserUUID , longPadding , w . ctx )
break
}
var command byte = CommandPaddingContinue
if i == len ( mb ) - 1 && ! w . trafficState . IsPadding {
command = CommandPaddingEnd
if w . trafficState . EnableXtls {
command = CommandPaddingDirect
}
}
mb [ i ] = XtlsPadding ( b , command , & w . writeOnceUserUUID , longPadding , w . ctx )
}
}
return w . Writer . WriteMultiBuffer ( mb )
}
// ReshapeMultiBuffer prepare multi buffer for padding stucture (max 21 bytes)
func ReshapeMultiBuffer ( ctx context . Context , buffer buf . MultiBuffer ) buf . MultiBuffer {
needReshape := 0
for _ , b := range buffer {
if b . Len ( ) >= buf . Size - 21 {
needReshape += 1
}
}
if needReshape == 0 {
return buffer
}
mb2 := make ( buf . MultiBuffer , 0 , len ( buffer ) + needReshape )
toPrint := ""
for i , buffer1 := range buffer {
if buffer1 . Len ( ) >= buf . Size - 21 {
index := int32 ( bytes . LastIndex ( buffer1 . Bytes ( ) , TlsApplicationDataStart ) )
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if index < 21 || index > buf . Size - 21 {
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index = buf . Size / 2
}
buffer2 := buf . New ( )
buffer2 . Write ( buffer1 . BytesFrom ( index ) )
buffer1 . Resize ( 0 , index )
mb2 = append ( mb2 , buffer1 , buffer2 )
toPrint += " " + strconv . Itoa ( int ( buffer1 . Len ( ) ) ) + " " + strconv . Itoa ( int ( buffer2 . Len ( ) ) )
} else {
mb2 = append ( mb2 , buffer1 )
toPrint += " " + strconv . Itoa ( int ( buffer1 . Len ( ) ) )
}
buffer [ i ] = nil
}
buffer = buffer [ : 0 ]
newError ( "ReshapeMultiBuffer " , toPrint ) . WriteToLog ( session . ExportIDToError ( ctx ) )
return mb2
}
// XtlsPadding add padding to eliminate length siganature during tls handshake
func XtlsPadding ( b * buf . Buffer , command byte , userUUID * [ ] byte , longPadding bool , ctx context . Context ) * buf . Buffer {
var contentLen int32 = 0
var paddingLen int32 = 0
if b != nil {
contentLen = b . Len ( )
}
if contentLen < 900 && longPadding {
l , err := rand . Int ( rand . Reader , big . NewInt ( 500 ) )
if err != nil {
newError ( "failed to generate padding" ) . Base ( err ) . WriteToLog ( session . ExportIDToError ( ctx ) )
}
paddingLen = int32 ( l . Int64 ( ) ) + 900 - contentLen
} else {
l , err := rand . Int ( rand . Reader , big . NewInt ( 256 ) )
if err != nil {
newError ( "failed to generate padding" ) . Base ( err ) . WriteToLog ( session . ExportIDToError ( ctx ) )
}
paddingLen = int32 ( l . Int64 ( ) )
}
if paddingLen > buf . Size - 21 - contentLen {
paddingLen = buf . Size - 21 - contentLen
}
newbuffer := buf . New ( )
if userUUID != nil {
newbuffer . Write ( * userUUID )
* userUUID = nil
}
newbuffer . Write ( [ ] byte { command , byte ( contentLen >> 8 ) , byte ( contentLen ) , byte ( paddingLen >> 8 ) , byte ( paddingLen ) } )
if b != nil {
newbuffer . Write ( b . Bytes ( ) )
b . Release ( )
b = nil
}
newbuffer . Extend ( paddingLen )
newError ( "XtlsPadding " , contentLen , " " , paddingLen , " " , command ) . WriteToLog ( session . ExportIDToError ( ctx ) )
return newbuffer
}
// XtlsUnpadding remove padding and parse command
func XtlsUnpadding ( b * buf . Buffer , s * TrafficState , ctx context . Context ) * buf . Buffer {
if s . RemainingCommand == - 1 && s . RemainingContent == - 1 && s . RemainingPadding == - 1 { // inital state
if b . Len ( ) >= 21 && bytes . Equal ( s . UserUUID , b . BytesTo ( 16 ) ) {
b . Advance ( 16 )
s . RemainingCommand = 5
} else {
return b
}
}
newbuffer := buf . New ( )
for b . Len ( ) > 0 {
if s . RemainingCommand > 0 {
data , err := b . ReadByte ( )
if err != nil {
return newbuffer
}
switch s . RemainingCommand {
case 5 :
s . CurrentCommand = int ( data )
case 4 :
s . RemainingContent = int32 ( data ) << 8
case 3 :
s . RemainingContent = s . RemainingContent | int32 ( data )
case 2 :
s . RemainingPadding = int32 ( data ) << 8
case 1 :
s . RemainingPadding = s . RemainingPadding | int32 ( data )
newError ( "Xtls Unpadding new block, content " , s . RemainingContent , " padding " , s . RemainingPadding , " command " , s . CurrentCommand ) . WriteToLog ( session . ExportIDToError ( ctx ) )
}
s . RemainingCommand --
} else if s . RemainingContent > 0 {
len := s . RemainingContent
if b . Len ( ) < len {
len = b . Len ( )
}
data , err := b . ReadBytes ( len )
if err != nil {
return newbuffer
}
newbuffer . Write ( data )
s . RemainingContent -= len
} else { // remainingPadding > 0
len := s . RemainingPadding
if b . Len ( ) < len {
len = b . Len ( )
}
b . Advance ( len )
s . RemainingPadding -= len
}
if s . RemainingCommand <= 0 && s . RemainingContent <= 0 && s . RemainingPadding <= 0 { // this block done
if s . CurrentCommand == 0 {
s . RemainingCommand = 5
} else {
s . RemainingCommand = - 1 // set to initial state
s . RemainingContent = - 1
s . RemainingPadding = - 1
if b . Len ( ) > 0 { // shouldn't happen
newbuffer . Write ( b . Bytes ( ) )
}
break
}
}
}
b . Release ( )
b = nil
return newbuffer
}
// XtlsFilterTls filter and recognize tls 1.3 and other info
func XtlsFilterTls ( buffer buf . MultiBuffer , trafficState * TrafficState , ctx context . Context ) {
for _ , b := range buffer {
if b == nil {
continue
}
trafficState . NumberOfPacketToFilter --
if b . Len ( ) >= 6 {
startsBytes := b . BytesTo ( 6 )
if bytes . Equal ( TlsServerHandShakeStart , startsBytes [ : 3 ] ) && startsBytes [ 5 ] == TlsHandshakeTypeServerHello {
trafficState . RemainingServerHello = ( int32 ( startsBytes [ 3 ] ) << 8 | int32 ( startsBytes [ 4 ] ) ) + 5
trafficState . IsTLS12orAbove = true
trafficState . IsTLS = true
if b . Len ( ) >= 79 && trafficState . RemainingServerHello >= 79 {
sessionIdLen := int32 ( b . Byte ( 43 ) )
cipherSuite := b . BytesRange ( 43 + sessionIdLen + 1 , 43 + sessionIdLen + 3 )
trafficState . Cipher = uint16 ( cipherSuite [ 0 ] ) << 8 | uint16 ( cipherSuite [ 1 ] )
} else {
newError ( "XtlsFilterTls short server hello, tls 1.2 or older? " , b . Len ( ) , " " , trafficState . RemainingServerHello ) . WriteToLog ( session . ExportIDToError ( ctx ) )
}
} else if bytes . Equal ( TlsClientHandShakeStart , startsBytes [ : 2 ] ) && startsBytes [ 5 ] == TlsHandshakeTypeClientHello {
trafficState . IsTLS = true
newError ( "XtlsFilterTls found tls client hello! " , buffer . Len ( ) ) . WriteToLog ( session . ExportIDToError ( ctx ) )
}
}
if trafficState . RemainingServerHello > 0 {
end := trafficState . RemainingServerHello
if end > b . Len ( ) {
end = b . Len ( )
}
trafficState . RemainingServerHello -= b . Len ( )
if bytes . Contains ( b . BytesTo ( end ) , Tls13SupportedVersions ) {
v , ok := Tls13CipherSuiteDic [ trafficState . Cipher ]
if ! ok {
v = "Old cipher: " + strconv . FormatUint ( uint64 ( trafficState . Cipher ) , 16 )
} else if v != "TLS_AES_128_CCM_8_SHA256" {
trafficState . EnableXtls = true
}
newError ( "XtlsFilterTls found tls 1.3! " , b . Len ( ) , " " , v ) . WriteToLog ( session . ExportIDToError ( ctx ) )
trafficState . NumberOfPacketToFilter = 0
return
} else if trafficState . RemainingServerHello <= 0 {
newError ( "XtlsFilterTls found tls 1.2! " , b . Len ( ) ) . WriteToLog ( session . ExportIDToError ( ctx ) )
trafficState . NumberOfPacketToFilter = 0
return
}
newError ( "XtlsFilterTls inconclusive server hello " , b . Len ( ) , " " , trafficState . RemainingServerHello ) . WriteToLog ( session . ExportIDToError ( ctx ) )
}
if trafficState . NumberOfPacketToFilter <= 0 {
newError ( "XtlsFilterTls stop filtering" , buffer . Len ( ) ) . WriteToLog ( session . ExportIDToError ( ctx ) )
}
}
}
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// UnwrapRawConn support unwrap stats, tls, utls, reality and proxyproto conn and get raw tcp conn from it
func UnwrapRawConn ( conn net . Conn ) ( net . Conn , stats . Counter , stats . Counter ) {
var readCounter , writerCounter stats . Counter
if conn != nil {
statConn , ok := conn . ( * stat . CounterConnection )
if ok {
conn = statConn . Connection
readCounter = statConn . ReadCounter
writerCounter = statConn . WriteCounter
}
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if xc , ok := conn . ( * tls . Conn ) ; ok {
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conn = xc . NetConn ( )
} else if utlsConn , ok := conn . ( * tls . UConn ) ; ok {
conn = utlsConn . NetConn ( )
} else if realityConn , ok := conn . ( * reality . Conn ) ; ok {
conn = realityConn . NetConn ( )
} else if realityUConn , ok := conn . ( * reality . UConn ) ; ok {
conn = realityUConn . NetConn ( )
}
if pc , ok := conn . ( * proxyproto . Conn ) ; ok {
conn = pc . Raw ( )
// 8192 > 4096, there is no need to process pc's bufReader
}
}
return conn , readCounter , writerCounter
}
// CopyRawConnIfExist use the most efficient copy method.
// - If caller don't want to turn on splice, do not pass in both reader conn and writer conn
// - writer are from *transport.Link
func CopyRawConnIfExist ( ctx context . Context , readerConn net . Conn , writerConn net . Conn , writer buf . Writer , timer signal . ActivityUpdater ) error {
readerConn , readCounter , _ := UnwrapRawConn ( readerConn )
writerConn , _ , writeCounter := UnwrapRawConn ( writerConn )
reader := buf . NewReader ( readerConn )
if inbound := session . InboundFromContext ( ctx ) ; inbound != nil {
if tc , ok := writerConn . ( * net . TCPConn ) ; ok && readerConn != nil && writerConn != nil && ( runtime . GOOS == "linux" || runtime . GOOS == "android" ) {
for inbound . CanSpliceCopy != 3 {
if inbound . CanSpliceCopy == 1 {
newError ( "CopyRawConn splice" ) . WriteToLog ( session . ExportIDToError ( ctx ) )
runtime . Gosched ( ) // necessary
w , err := tc . ReadFrom ( readerConn )
if readCounter != nil {
readCounter . Add ( w )
}
if writeCounter != nil {
writeCounter . Add ( w )
}
if err != nil && errors . Cause ( err ) != io . EOF {
return err
}
return nil
}
buffer , err := reader . ReadMultiBuffer ( )
if ! buffer . IsEmpty ( ) {
if readCounter != nil {
readCounter . Add ( int64 ( buffer . Len ( ) ) )
}
timer . Update ( )
if werr := writer . WriteMultiBuffer ( buffer ) ; werr != nil {
return werr
}
}
if err != nil {
return err
}
}
}
}
newError ( "CopyRawConn readv" ) . WriteToLog ( session . ExportIDToError ( ctx ) )
if err := buf . Copy ( reader , writer , buf . UpdateActivity ( timer ) , buf . AddToStatCounter ( readCounter ) ) ; err != nil {
return newError ( "failed to process response" ) . Base ( err )
}
return nil
}