mihomo/adapter/outbound/vmess.go

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package outbound
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import (
"context"
"crypto/tls"
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"errors"
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"fmt"
"net"
"net/http"
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"strconv"
"strings"
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"sync"
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N "github.com/Dreamacro/clash/common/net"
"github.com/Dreamacro/clash/component/dialer"
"github.com/Dreamacro/clash/component/proxydialer"
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"github.com/Dreamacro/clash/component/resolver"
tlsC "github.com/Dreamacro/clash/component/tls"
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C "github.com/Dreamacro/clash/constant"
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"github.com/Dreamacro/clash/transport/gun"
clashVMess "github.com/Dreamacro/clash/transport/vmess"
vmess "github.com/sagernet/sing-vmess"
"github.com/sagernet/sing-vmess/packetaddr"
M "github.com/sagernet/sing/common/metadata"
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)
var ErrUDPRemoteAddrMismatch = errors.New("udp packet dropped due to mismatched remote address")
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type Vmess struct {
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*Base
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client *vmess.Client
option *VmessOption
// for gun mux
gunTLSConfig *tls.Config
gunConfig *gun.Config
transport *gun.TransportWrap
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realityConfig *tlsC.RealityConfig
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}
type VmessOption struct {
BasicOption
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Name string `proxy:"name"`
Server string `proxy:"server"`
Port int `proxy:"port"`
UUID string `proxy:"uuid"`
AlterID int `proxy:"alterId"`
Cipher string `proxy:"cipher"`
UDP bool `proxy:"udp,omitempty"`
Network string `proxy:"network,omitempty"`
TLS bool `proxy:"tls,omitempty"`
SkipCertVerify bool `proxy:"skip-cert-verify,omitempty"`
Fingerprint string `proxy:"fingerprint,omitempty"`
ServerName string `proxy:"servername,omitempty"`
RealityOpts RealityOptions `proxy:"reality-opts,omitempty"`
HTTPOpts HTTPOptions `proxy:"http-opts,omitempty"`
HTTP2Opts HTTP2Options `proxy:"h2-opts,omitempty"`
GrpcOpts GrpcOptions `proxy:"grpc-opts,omitempty"`
WSOpts WSOptions `proxy:"ws-opts,omitempty"`
PacketAddr bool `proxy:"packet-addr,omitempty"`
XUDP bool `proxy:"xudp,omitempty"`
PacketEncoding string `proxy:"packet-encoding,omitempty"`
GlobalPadding bool `proxy:"global-padding,omitempty"`
AuthenticatedLength bool `proxy:"authenticated-length,omitempty"`
ClientFingerprint string `proxy:"client-fingerprint,omitempty"`
}
type HTTPOptions struct {
Method string `proxy:"method,omitempty"`
Path []string `proxy:"path,omitempty"`
Headers map[string][]string `proxy:"headers,omitempty"`
}
type HTTP2Options struct {
Host []string `proxy:"host,omitempty"`
Path string `proxy:"path,omitempty"`
}
type GrpcOptions struct {
GrpcServiceName string `proxy:"grpc-service-name,omitempty"`
}
type WSOptions struct {
Path string `proxy:"path,omitempty"`
Headers map[string]string `proxy:"headers,omitempty"`
MaxEarlyData int `proxy:"max-early-data,omitempty"`
EarlyDataHeaderName string `proxy:"early-data-header-name,omitempty"`
}
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// StreamConn implements C.ProxyAdapter
func (v *Vmess) StreamConn(c net.Conn, metadata *C.Metadata) (net.Conn, error) {
var err error
if tlsC.HaveGlobalFingerprint() && (len(v.option.ClientFingerprint) == 0) {
v.option.ClientFingerprint = tlsC.GetGlobalFingerprint()
}
switch v.option.Network {
case "ws":
host, port, _ := net.SplitHostPort(v.addr)
wsOpts := &clashVMess.WebsocketConfig{
Host: host,
Port: port,
Path: v.option.WSOpts.Path,
MaxEarlyData: v.option.WSOpts.MaxEarlyData,
EarlyDataHeaderName: v.option.WSOpts.EarlyDataHeaderName,
ClientFingerprint: v.option.ClientFingerprint,
Headers: http.Header{},
}
if len(v.option.WSOpts.Headers) != 0 {
for key, value := range v.option.WSOpts.Headers {
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wsOpts.Headers.Add(key, value)
}
}
if v.option.TLS {
wsOpts.TLS = true
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tlsConfig := &tls.Config{
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ServerName: host,
InsecureSkipVerify: v.option.SkipCertVerify,
NextProtos: []string{"http/1.1"},
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}
if len(v.option.Fingerprint) == 0 {
wsOpts.TLSConfig = tlsC.GetGlobalTLSConfig(tlsConfig)
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} else {
if wsOpts.TLSConfig, err = tlsC.GetSpecifiedFingerprintTLSConfig(tlsConfig, v.option.Fingerprint); err != nil {
return nil, err
}
}
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if v.option.ServerName != "" {
wsOpts.TLSConfig.ServerName = v.option.ServerName
} else if host := wsOpts.Headers.Get("Host"); host != "" {
wsOpts.TLSConfig.ServerName = host
}
}
c, err = clashVMess.StreamWebsocketConn(c, wsOpts)
case "http":
// readability first, so just copy default TLS logic
if v.option.TLS {
host, _, _ := net.SplitHostPort(v.addr)
tlsOpts := &clashVMess.TLSConfig{
Host: host,
SkipCertVerify: v.option.SkipCertVerify,
ClientFingerprint: v.option.ClientFingerprint,
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Reality: v.realityConfig,
}
if v.option.ServerName != "" {
tlsOpts.Host = v.option.ServerName
}
c, err = clashVMess.StreamTLSConn(c, tlsOpts)
if err != nil {
return nil, err
}
}
host, _, _ := net.SplitHostPort(v.addr)
httpOpts := &clashVMess.HTTPConfig{
Host: host,
Method: v.option.HTTPOpts.Method,
Path: v.option.HTTPOpts.Path,
Headers: v.option.HTTPOpts.Headers,
}
c = clashVMess.StreamHTTPConn(c, httpOpts)
case "h2":
host, _, _ := net.SplitHostPort(v.addr)
tlsOpts := clashVMess.TLSConfig{
Host: host,
SkipCertVerify: v.option.SkipCertVerify,
NextProtos: []string{"h2"},
ClientFingerprint: v.option.ClientFingerprint,
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Reality: v.realityConfig,
}
if v.option.ServerName != "" {
tlsOpts.Host = v.option.ServerName
}
c, err = clashVMess.StreamTLSConn(c, &tlsOpts)
if err != nil {
return nil, err
}
h2Opts := &clashVMess.H2Config{
Hosts: v.option.HTTP2Opts.Host,
Path: v.option.HTTP2Opts.Path,
}
c, err = clashVMess.StreamH2Conn(c, h2Opts)
case "grpc":
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c, err = gun.StreamGunWithConn(c, v.gunTLSConfig, v.gunConfig, v.realityConfig)
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default:
// handle TLS
if v.option.TLS {
host, _, _ := net.SplitHostPort(v.addr)
tlsOpts := &clashVMess.TLSConfig{
Host: host,
SkipCertVerify: v.option.SkipCertVerify,
ClientFingerprint: v.option.ClientFingerprint,
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Reality: v.realityConfig,
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}
if v.option.ServerName != "" {
tlsOpts.Host = v.option.ServerName
}
c, err = clashVMess.StreamTLSConn(c, tlsOpts)
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}
}
if err != nil {
return nil, err
}
return v.streamConn(c, metadata)
}
func (v *Vmess) streamConn(c net.Conn, metadata *C.Metadata) (conn net.Conn, err error) {
if metadata.NetWork == C.UDP {
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if v.option.XUDP {
if N.NeedHandshake(c) {
conn = v.client.DialEarlyXUDPPacketConn(c, M.SocksaddrFromNet(metadata.UDPAddr()))
} else {
conn, err = v.client.DialXUDPPacketConn(c, M.SocksaddrFromNet(metadata.UDPAddr()))
}
} else if v.option.PacketAddr {
if N.NeedHandshake(c) {
conn = v.client.DialEarlyPacketConn(c, M.ParseSocksaddrHostPort(packetaddr.SeqPacketMagicAddress, 443))
} else {
conn, err = v.client.DialPacketConn(c, M.ParseSocksaddrHostPort(packetaddr.SeqPacketMagicAddress, 443))
}
conn = packetaddr.NewBindConn(conn)
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} else {
if N.NeedHandshake(c) {
conn = v.client.DialEarlyPacketConn(c, M.SocksaddrFromNet(metadata.UDPAddr()))
} else {
conn, err = v.client.DialPacketConn(c, M.SocksaddrFromNet(metadata.UDPAddr()))
}
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}
} else {
if N.NeedHandshake(c) {
conn = v.client.DialEarlyConn(c, M.ParseSocksaddr(metadata.RemoteAddress()))
} else {
conn, err = v.client.DialConn(c, M.ParseSocksaddr(metadata.RemoteAddress()))
}
}
if err != nil {
conn = nil
}
return
}
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// DialContext implements C.ProxyAdapter
func (v *Vmess) DialContext(ctx context.Context, metadata *C.Metadata, opts ...dialer.Option) (_ C.Conn, err error) {
// gun transport
if v.transport != nil && len(opts) == 0 {
c, err := gun.StreamGunWithTransport(v.transport, v.gunConfig)
if err != nil {
return nil, err
}
defer func(c net.Conn) {
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safeConnClose(c, err)
}(c)
c, err = v.client.DialConn(c, M.ParseSocksaddr(metadata.RemoteAddress()))
if err != nil {
return nil, err
}
return NewConn(c, v), nil
}
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return v.DialContextWithDialer(ctx, dialer.NewDialer(v.Base.DialOptions(opts...)...), metadata)
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}
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// DialContextWithDialer implements C.ProxyAdapter
func (v *Vmess) DialContextWithDialer(ctx context.Context, dialer C.Dialer, metadata *C.Metadata) (_ C.Conn, err error) {
if len(v.option.DialerProxy) > 0 {
dialer, err = proxydialer.NewByName(v.option.DialerProxy, dialer)
if err != nil {
return nil, err
}
}
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c, err := dialer.DialContext(ctx, "tcp", v.addr)
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if err != nil {
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return nil, fmt.Errorf("%s connect error: %s", v.addr, err.Error())
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}
tcpKeepAlive(c)
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defer func(c net.Conn) {
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safeConnClose(c, err)
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}(c)
c, err = v.StreamConn(c, metadata)
return NewConn(c, v), err
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}
// ListenPacketContext implements C.ProxyAdapter
func (v *Vmess) ListenPacketContext(ctx context.Context, metadata *C.Metadata, opts ...dialer.Option) (_ C.PacketConn, err error) {
// vmess use stream-oriented udp with a special address, so we need a net.UDPAddr
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if !metadata.Resolved() {
ip, err := resolver.ResolveIP(ctx, metadata.Host)
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if err != nil {
return nil, errors.New("can't resolve ip")
}
metadata.DstIP = ip
}
var c net.Conn
// gun transport
if v.transport != nil && len(opts) == 0 {
c, err = gun.StreamGunWithTransport(v.transport, v.gunConfig)
if err != nil {
return nil, err
}
defer func(c net.Conn) {
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safeConnClose(c, err)
}(c)
c, err = v.streamConn(c, metadata)
if err != nil {
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return nil, fmt.Errorf("new vmess client error: %v", err)
}
return v.ListenPacketOnStreamConn(ctx, c, metadata)
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}
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return v.ListenPacketWithDialer(ctx, dialer.NewDialer(v.Base.DialOptions(opts...)...), metadata)
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}
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// ListenPacketWithDialer implements C.ProxyAdapter
func (v *Vmess) ListenPacketWithDialer(ctx context.Context, dialer C.Dialer, metadata *C.Metadata) (_ C.PacketConn, err error) {
if len(v.option.DialerProxy) > 0 {
dialer, err = proxydialer.NewByName(v.option.DialerProxy, dialer)
if err != nil {
return nil, err
}
}
// vmess use stream-oriented udp with a special address, so we need a net.UDPAddr
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if !metadata.Resolved() {
ip, err := resolver.ResolveIP(ctx, metadata.Host)
if err != nil {
return nil, errors.New("can't resolve ip")
}
metadata.DstIP = ip
}
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c, err := dialer.DialContext(ctx, "tcp", v.addr)
if err != nil {
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return nil, fmt.Errorf("%s connect error: %s", v.addr, err.Error())
}
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tcpKeepAlive(c)
defer func(c net.Conn) {
safeConnClose(c, err)
}(c)
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c, err = v.StreamConn(c, metadata)
if err != nil {
return nil, fmt.Errorf("new vmess client error: %v", err)
}
return v.ListenPacketOnStreamConn(ctx, c, metadata)
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}
// SupportWithDialer implements C.ProxyAdapter
func (v *Vmess) SupportWithDialer() C.NetWork {
return C.ALLNet
}
// ListenPacketOnStreamConn implements C.ProxyAdapter
func (v *Vmess) ListenPacketOnStreamConn(ctx context.Context, c net.Conn, metadata *C.Metadata) (_ C.PacketConn, err error) {
// vmess use stream-oriented udp with a special address, so we need a net.UDPAddr
if !metadata.Resolved() {
ip, err := resolver.ResolveIP(ctx, metadata.Host)
if err != nil {
return nil, errors.New("can't resolve ip")
}
metadata.DstIP = ip
}
if pc, ok := c.(net.PacketConn); ok {
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return newPacketConn(&threadSafePacketConn{PacketConn: pc}, v), nil
}
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return newPacketConn(&vmessPacketConn{Conn: c, rAddr: metadata.UDPAddr()}, v), nil
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}
// SupportUOT implements C.ProxyAdapter
func (v *Vmess) SupportUOT() bool {
return true
}
func NewVmess(option VmessOption) (*Vmess, error) {
security := strings.ToLower(option.Cipher)
var options []vmess.ClientOption
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if option.GlobalPadding {
options = append(options, vmess.ClientWithGlobalPadding())
}
if option.AuthenticatedLength {
options = append(options, vmess.ClientWithAuthenticatedLength())
}
client, err := vmess.NewClient(option.UUID, security, option.AlterID, options...)
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if err != nil {
return nil, err
}
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switch option.PacketEncoding {
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case "packetaddr", "packet":
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option.PacketAddr = true
case "xudp":
option.XUDP = true
}
if option.XUDP {
option.PacketAddr = false
}
switch option.Network {
case "h2", "grpc":
if !option.TLS {
option.TLS = true
}
}
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v := &Vmess{
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Base: &Base{
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name: option.Name,
addr: net.JoinHostPort(option.Server, strconv.Itoa(option.Port)),
tp: C.Vmess,
udp: option.UDP,
xudp: option.XUDP,
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tfo: option.TFO,
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iface: option.Interface,
rmark: option.RoutingMark,
prefer: C.NewDNSPrefer(option.IPVersion),
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},
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client: client,
option: &option,
}
switch option.Network {
case "h2":
if len(option.HTTP2Opts.Host) == 0 {
option.HTTP2Opts.Host = append(option.HTTP2Opts.Host, "www.example.com")
}
case "grpc":
dialFn := func(network, addr string) (net.Conn, error) {
var err error
var cDialer C.Dialer = dialer.NewDialer(v.Base.DialOptions()...)
if len(v.option.DialerProxy) > 0 {
cDialer, err = proxydialer.NewByName(v.option.DialerProxy, cDialer)
if err != nil {
return nil, err
}
}
c, err := cDialer.DialContext(context.Background(), "tcp", v.addr)
if err != nil {
return nil, fmt.Errorf("%s connect error: %s", v.addr, err.Error())
}
tcpKeepAlive(c)
return c, nil
}
gunConfig := &gun.Config{
ServiceName: v.option.GrpcOpts.GrpcServiceName,
Host: v.option.ServerName,
ClientFingerprint: v.option.ClientFingerprint,
}
tlsConfig := &tls.Config{
InsecureSkipVerify: v.option.SkipCertVerify,
ServerName: v.option.ServerName,
}
if v.option.ServerName == "" {
host, _, _ := net.SplitHostPort(v.addr)
tlsConfig.ServerName = host
gunConfig.Host = host
}
v.gunTLSConfig = tlsConfig
v.gunConfig = gunConfig
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v.transport = gun.NewHTTP2Client(dialFn, tlsConfig, v.option.ClientFingerprint, v.realityConfig)
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}
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v.realityConfig, err = v.option.RealityOpts.Parse()
if err != nil {
return nil, err
}
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return v, nil
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}
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type threadSafePacketConn struct {
net.PacketConn
access sync.Mutex
}
func (c *threadSafePacketConn) WriteTo(b []byte, addr net.Addr) (int, error) {
c.access.Lock()
defer c.access.Unlock()
return c.PacketConn.WriteTo(b, addr)
}
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type vmessPacketConn struct {
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net.Conn
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rAddr net.Addr
access sync.Mutex
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}
// WriteTo implments C.PacketConn.WriteTo
// Since VMess doesn't support full cone NAT by design, we verify if addr matches uc.rAddr, and drop the packet if not.
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func (uc *vmessPacketConn) WriteTo(b []byte, addr net.Addr) (int, error) {
allowedAddr := uc.rAddr
destAddr := addr
if allowedAddr.String() != destAddr.String() {
return 0, ErrUDPRemoteAddrMismatch
}
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uc.access.Lock()
defer uc.access.Unlock()
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return uc.Conn.Write(b)
}
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func (uc *vmessPacketConn) ReadFrom(b []byte) (int, net.Addr, error) {
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n, err := uc.Conn.Read(b)
return n, uc.rAddr, err
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}