mirror of
https://github.com/XTLS/Xray-core.git
synced 2024-11-25 01:51:28 +00:00
517 lines
17 KiB
Go
517 lines
17 KiB
Go
// Package proxy contains all proxies used by Xray.
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//
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// To implement an inbound or outbound proxy, one needs to do the following:
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// 1. Implement the interface(s) below.
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// 2. Register a config creator through common.RegisterConfig.
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package proxy
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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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"time"
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"github.com/pires/go-proxyproto"
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"github.com/xtls/xray-core/common/buf"
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"github.com/xtls/xray-core/common/errors"
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"github.com/xtls/xray-core/common/net"
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"github.com/xtls/xray-core/common/protocol"
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"github.com/xtls/xray-core/common/session"
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"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"
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"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 (
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Tls13SupportedVersions = []byte{0x00, 0x2b, 0x00, 0x02, 0x03, 0x04}
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TlsClientHandShakeStart = []byte{0x16, 0x03}
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TlsServerHandShakeStart = []byte{0x16, 0x03, 0x03}
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TlsApplicationDataStart = []byte{0x17, 0x03, 0x03}
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Tls13CipherSuiteDic = map[uint16]string{
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0x1301: "TLS_AES_128_GCM_SHA256",
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0x1302: "TLS_AES_256_GCM_SHA384",
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0x1303: "TLS_CHACHA20_POLY1305_SHA256",
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0x1304: "TLS_AES_128_CCM_SHA256",
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0x1305: "TLS_AES_128_CCM_8_SHA256",
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}
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)
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const (
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TlsHandshakeTypeClientHello byte = 0x01
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TlsHandshakeTypeServerHello byte = 0x02
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CommandPaddingContinue byte = 0x00
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CommandPaddingEnd byte = 0x01
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CommandPaddingDirect byte = 0x02
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)
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// An Inbound processes inbound connections.
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type Inbound interface {
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// Network returns a list of networks that this inbound supports. Connections with not-supported networks will not be passed into Process().
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Network() []net.Network
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// 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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}
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// An Outbound process outbound connections.
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type Outbound interface {
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// Process processes the given connection. The given dialer may be used to dial a system outbound connection.
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Process(context.Context, *transport.Link, internet.Dialer) error
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}
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// UserManager is the interface for Inbounds and Outbounds that can manage their users.
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type UserManager interface {
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// AddUser adds a new user.
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AddUser(context.Context, *protocol.MemoryUser) error
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// RemoveUser removes a user by email.
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RemoveUser(context.Context, string) error
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}
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type GetInbound interface {
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GetInbound() Inbound
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}
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type GetOutbound interface {
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GetOutbound() Outbound
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}
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// TrafficState is used to track uplink and downlink of one connection
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// It is used by XTLS to determine if switch to raw copy mode, It is used by Vision to calculate padding
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type TrafficState struct {
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UserUUID []byte
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NumberOfPacketToFilter int
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EnableXtls bool
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IsTLS12orAbove bool
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IsTLS bool
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Cipher uint16
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RemainingServerHello int32
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// reader link state
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WithinPaddingBuffers bool
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ReaderSwitchToDirectCopy bool
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RemainingCommand int32
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RemainingContent int32
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RemainingPadding int32
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CurrentCommand int
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// write link state
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IsPadding bool
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WriterSwitchToDirectCopy bool
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}
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func NewTrafficState(userUUID []byte) *TrafficState {
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return &TrafficState{
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UserUUID: userUUID,
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NumberOfPacketToFilter: 8,
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EnableXtls: false,
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IsTLS12orAbove: false,
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IsTLS: false,
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Cipher: 0,
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RemainingServerHello: -1,
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WithinPaddingBuffers: true,
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ReaderSwitchToDirectCopy: false,
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RemainingCommand: -1,
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RemainingContent: -1,
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RemainingPadding: -1,
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CurrentCommand: 0,
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IsPadding: true,
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WriterSwitchToDirectCopy: false,
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}
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}
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// VisionReader is used to read xtls vision protocol
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// Note Vision probably only make sense as the inner most layer of reader, since it need assess traffic state from origin proxy traffic
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type VisionReader struct {
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buf.Reader
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trafficState *TrafficState
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ctx context.Context
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}
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func NewVisionReader(reader buf.Reader, state *TrafficState, context context.Context) *VisionReader {
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return &VisionReader{
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Reader: reader,
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trafficState: state,
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ctx: context,
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}
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}
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func (w *VisionReader) ReadMultiBuffer() (buf.MultiBuffer, error) {
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buffer, err := w.Reader.ReadMultiBuffer()
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if !buffer.IsEmpty() {
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if w.trafficState.WithinPaddingBuffers || w.trafficState.NumberOfPacketToFilter > 0 {
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mb2 := make(buf.MultiBuffer, 0, len(buffer))
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for _, b := range buffer {
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newbuffer := XtlsUnpadding(b, w.trafficState, w.ctx)
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if newbuffer.Len() > 0 {
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mb2 = append(mb2, newbuffer)
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}
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}
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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 {
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w.trafficState.WithinPaddingBuffers = false
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w.trafficState.ReaderSwitchToDirectCopy = true
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} else {
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newError("XtlsRead unknown command ", w.trafficState.CurrentCommand, buffer.Len()).WriteToLog(session.ExportIDToError(w.ctx))
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}
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}
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if w.trafficState.NumberOfPacketToFilter > 0 {
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XtlsFilterTls(buffer, w.trafficState, w.ctx)
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}
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}
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return buffer, err
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}
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// VisionWriter is used to write xtls vision protocol
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// Note Vision probably only make sense as the inner most layer of writer, since it need assess traffic state from origin proxy traffic
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type VisionWriter struct {
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buf.Writer
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trafficState *TrafficState
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ctx context.Context
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writeOnceUserUUID []byte
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}
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func NewVisionWriter(writer buf.Writer, state *TrafficState, context context.Context) *VisionWriter {
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w := make([]byte, len(state.UserUUID))
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copy(w, state.UserUUID)
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return &VisionWriter{
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Writer: writer,
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trafficState: state,
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ctx: context,
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writeOnceUserUUID: w,
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}
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}
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func (w *VisionWriter) WriteMultiBuffer(mb buf.MultiBuffer) error {
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if w.trafficState.NumberOfPacketToFilter > 0 {
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XtlsFilterTls(mb, w.trafficState, w.ctx)
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}
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if w.trafficState.IsPadding {
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if len(mb) == 1 && mb[0] == nil {
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mb[0] = XtlsPadding(nil, CommandPaddingContinue, &w.writeOnceUserUUID, true, w.ctx) // we do a long padding to hide vless header
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return w.Writer.WriteMultiBuffer(mb)
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}
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mb = ReshapeMultiBuffer(w.ctx, mb)
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longPadding := w.trafficState.IsTLS
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for i, b := range mb {
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if w.trafficState.IsTLS && b.Len() >= 6 && bytes.Equal(TlsApplicationDataStart, b.BytesTo(3)) {
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if w.trafficState.EnableXtls {
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w.trafficState.WriterSwitchToDirectCopy = true
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}
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var command byte = CommandPaddingContinue
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if i == len(mb) - 1 {
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command = CommandPaddingEnd
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if w.trafficState.EnableXtls {
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command = CommandPaddingDirect
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}
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}
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mb[i] = XtlsPadding(b, command, &w.writeOnceUserUUID, true, w.ctx)
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w.trafficState.IsPadding = false // padding going to end
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longPadding = false
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continue
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} else if !w.trafficState.IsTLS12orAbove && w.trafficState.NumberOfPacketToFilter <= 1 { // For compatibility with earlier vision receiver, we finish padding 1 packet early
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w.trafficState.IsPadding = false
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mb[i] = XtlsPadding(b, CommandPaddingEnd, &w.writeOnceUserUUID, longPadding, w.ctx)
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break
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}
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var command byte = CommandPaddingContinue
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if i == len(mb) - 1 && !w.trafficState.IsPadding {
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command = CommandPaddingEnd
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if w.trafficState.EnableXtls {
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command = CommandPaddingDirect
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}
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}
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mb[i] = XtlsPadding(b, command, &w.writeOnceUserUUID, longPadding, w.ctx)
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}
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}
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return w.Writer.WriteMultiBuffer(mb)
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}
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// ReshapeMultiBuffer prepare multi buffer for padding stucture (max 21 bytes)
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func ReshapeMultiBuffer(ctx context.Context, buffer buf.MultiBuffer) buf.MultiBuffer {
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needReshape := 0
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for _, b := range buffer {
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if b.Len() >= buf.Size-21 {
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needReshape += 1
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}
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}
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if needReshape == 0 {
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return buffer
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}
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mb2 := make(buf.MultiBuffer, 0, len(buffer)+needReshape)
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toPrint := ""
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for i, buffer1 := range buffer {
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if buffer1.Len() >= buf.Size-21 {
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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
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}
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buffer2 := buf.New()
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buffer2.Write(buffer1.BytesFrom(index))
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buffer1.Resize(0, index)
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mb2 = append(mb2, buffer1, buffer2)
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toPrint += " " + strconv.Itoa(int(buffer1.Len())) + " " + strconv.Itoa(int(buffer2.Len()))
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} else {
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mb2 = append(mb2, buffer1)
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toPrint += " " + strconv.Itoa(int(buffer1.Len()))
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}
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buffer[i] = nil
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}
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buffer = buffer[:0]
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newError("ReshapeMultiBuffer ", toPrint).WriteToLog(session.ExportIDToError(ctx))
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return mb2
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}
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// XtlsPadding add padding to eliminate length siganature during tls handshake
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func XtlsPadding(b *buf.Buffer, command byte, userUUID *[]byte, longPadding bool, ctx context.Context) *buf.Buffer {
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var contentLen int32 = 0
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var paddingLen int32 = 0
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if b != nil {
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contentLen = b.Len()
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}
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if contentLen < 900 && longPadding {
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l, err := rand.Int(rand.Reader, big.NewInt(500))
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if err != nil {
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newError("failed to generate padding").Base(err).WriteToLog(session.ExportIDToError(ctx))
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}
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paddingLen = int32(l.Int64()) + 900 - contentLen
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} else {
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l, err := rand.Int(rand.Reader, big.NewInt(256))
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if err != nil {
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newError("failed to generate padding").Base(err).WriteToLog(session.ExportIDToError(ctx))
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}
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paddingLen = int32(l.Int64())
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}
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if paddingLen > buf.Size-21-contentLen {
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paddingLen = buf.Size - 21 - contentLen
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}
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newbuffer := buf.New()
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if userUUID != nil {
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newbuffer.Write(*userUUID)
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*userUUID = nil
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}
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newbuffer.Write([]byte{command, byte(contentLen >> 8), byte(contentLen), byte(paddingLen >> 8), byte(paddingLen)})
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if b != nil {
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newbuffer.Write(b.Bytes())
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b.Release()
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b = nil
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}
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newbuffer.Extend(paddingLen)
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newError("XtlsPadding ", contentLen, " ", paddingLen, " ", command).WriteToLog(session.ExportIDToError(ctx))
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return newbuffer
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}
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// XtlsUnpadding remove padding and parse command
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func XtlsUnpadding(b *buf.Buffer, s *TrafficState, ctx context.Context) *buf.Buffer {
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if s.RemainingCommand == -1 && s.RemainingContent == -1 && s.RemainingPadding == -1 { // inital state
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if b.Len() >= 21 && bytes.Equal(s.UserUUID, b.BytesTo(16)) {
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b.Advance(16)
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s.RemainingCommand = 5
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} else {
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return b
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}
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}
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newbuffer := buf.New()
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for b.Len() > 0 {
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if s.RemainingCommand > 0 {
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data, err := b.ReadByte()
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if err != nil {
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return newbuffer
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}
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switch s.RemainingCommand {
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case 5:
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s.CurrentCommand = int(data)
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case 4:
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s.RemainingContent = int32(data)<<8
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case 3:
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s.RemainingContent = s.RemainingContent | int32(data)
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case 2:
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s.RemainingPadding = int32(data)<<8
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case 1:
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s.RemainingPadding = s.RemainingPadding | int32(data)
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newError("Xtls Unpadding new block, content ", s.RemainingContent, " padding ", s.RemainingPadding, " command ", s.CurrentCommand).WriteToLog(session.ExportIDToError(ctx))
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}
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s.RemainingCommand--
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} else if s.RemainingContent > 0 {
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len := s.RemainingContent
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if b.Len() < len {
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len = b.Len()
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}
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data, err := b.ReadBytes(len)
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if err != nil {
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return newbuffer
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}
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newbuffer.Write(data)
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s.RemainingContent -= len
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} else { // remainingPadding > 0
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len := s.RemainingPadding
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if b.Len() < len {
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len = b.Len()
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}
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b.Advance(len)
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s.RemainingPadding -= len
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}
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if s.RemainingCommand <= 0 && s.RemainingContent <= 0 && s.RemainingPadding <= 0 { // this block done
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if s.CurrentCommand == 0 {
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s.RemainingCommand = 5
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} else {
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s.RemainingCommand = -1 // set to initial state
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s.RemainingContent = -1
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s.RemainingPadding = -1
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if b.Len() > 0 { // shouldn't happen
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newbuffer.Write(b.Bytes())
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}
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break
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}
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}
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}
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b.Release()
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b = nil
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return newbuffer
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}
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// XtlsFilterTls filter and recognize tls 1.3 and other info
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func XtlsFilterTls(buffer buf.MultiBuffer, trafficState *TrafficState, ctx context.Context) {
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for _, b := range buffer {
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if b == nil {
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continue
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}
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trafficState.NumberOfPacketToFilter--
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if b.Len() >= 6 {
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startsBytes := b.BytesTo(6)
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if bytes.Equal(TlsServerHandShakeStart, startsBytes[:3]) && startsBytes[5] == TlsHandshakeTypeServerHello {
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trafficState.RemainingServerHello = (int32(startsBytes[3])<<8 | int32(startsBytes[4])) + 5
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trafficState.IsTLS12orAbove = true
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trafficState.IsTLS = true
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if b.Len() >= 79 && trafficState.RemainingServerHello >= 79 {
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sessionIdLen := int32(b.Byte(43))
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cipherSuite := b.BytesRange(43+sessionIdLen+1, 43+sessionIdLen+3)
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trafficState.Cipher = uint16(cipherSuite[0])<<8 | uint16(cipherSuite[1])
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} else {
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newError("XtlsFilterTls short server hello, tls 1.2 or older? ", b.Len(), " ", trafficState.RemainingServerHello).WriteToLog(session.ExportIDToError(ctx))
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}
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} else if bytes.Equal(TlsClientHandShakeStart, startsBytes[:2]) && startsBytes[5] == TlsHandshakeTypeClientHello {
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trafficState.IsTLS = true
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newError("XtlsFilterTls found tls client hello! ", buffer.Len()).WriteToLog(session.ExportIDToError(ctx))
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}
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}
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if trafficState.RemainingServerHello > 0 {
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end := trafficState.RemainingServerHello
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if end > b.Len() {
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end = b.Len()
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}
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trafficState.RemainingServerHello -= b.Len()
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if bytes.Contains(b.BytesTo(end), Tls13SupportedVersions) {
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v, ok := Tls13CipherSuiteDic[trafficState.Cipher]
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if !ok {
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v = "Old cipher: " + strconv.FormatUint(uint64(trafficState.Cipher), 16)
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} else if v != "TLS_AES_128_CCM_8_SHA256" {
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trafficState.EnableXtls = true
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}
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newError("XtlsFilterTls found tls 1.3! ", b.Len(), " ", v).WriteToLog(session.ExportIDToError(ctx))
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trafficState.NumberOfPacketToFilter = 0
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return
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} else if trafficState.RemainingServerHello <= 0 {
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newError("XtlsFilterTls found tls 1.2! ", b.Len()).WriteToLog(session.ExportIDToError(ctx))
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trafficState.NumberOfPacketToFilter = 0
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return
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}
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newError("XtlsFilterTls inconclusive server hello ", b.Len(), " ", trafficState.RemainingServerHello).WriteToLog(session.ExportIDToError(ctx))
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}
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if trafficState.NumberOfPacketToFilter <= 0 {
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newError("XtlsFilterTls stop filtering", buffer.Len()).WriteToLog(session.ExportIDToError(ctx))
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}
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}
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}
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// UnwrapRawConn support unwrap stats, tls, utls, reality and proxyproto conn and get raw tcp conn from it
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func UnwrapRawConn(conn net.Conn) (net.Conn, stats.Counter, stats.Counter) {
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var readCounter, writerCounter stats.Counter
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if conn != nil {
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statConn, ok := conn.(*stat.CounterConnection)
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if ok {
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conn = statConn.Connection
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readCounter = statConn.ReadCounter
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writerCounter = statConn.WriteCounter
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}
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if xc, ok := conn.(*tls.Conn); ok {
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conn = xc.NetConn()
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} else if utlsConn, ok := conn.(*tls.UConn); ok {
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conn = utlsConn.NetConn()
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} else if realityConn, ok := conn.(*reality.Conn); ok {
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conn = realityConn.NetConn()
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} else if realityUConn, ok := conn.(*reality.UConn); ok {
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conn = realityUConn.NetConn()
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}
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if pc, ok := conn.(*proxyproto.Conn); ok {
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conn = pc.Raw()
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// 8192 > 4096, there is no need to process pc's bufReader
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}
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}
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return conn, readCounter, writerCounter
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}
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// CopyRawConnIfExist use the most efficient copy method.
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// - If caller don't want to turn on splice, do not pass in both reader conn and writer conn
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// - 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
|
|
time.Sleep(time.Millisecond) // without this, there will be a rare ssl error for freedom splice
|
|
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
|
|
}
|