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socks5.go
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socks5.go
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package brook
import (
"errors"
"io"
"log"
"net"
"time"
cache "github.com/patrickmn/go-cache"
"github.com/txthinking/brook/plugin"
"github.com/txthinking/socks5"
)
// Socks5Server is the client of raw socks5 protocol
type Socks5Server struct {
Server *socks5.Server
Socks5Middleman plugin.Socks5Middleman
TCPTimeout int
TCPDeadline int // not refreshed
UDPDeadline int
UDPSessionTime int
ForwardAddress string
ForwardUserName string
ForwardPassword string
Cache *cache.Cache
}
// NewSocks5Server returns a new Socks5Server
func NewSocks5Server(addr, ip, userName, password string, tcpTimeout, tcpDeadline, udpDeadline, udpSessionTime int) (*Socks5Server, error) {
s5, err := socks5.NewClassicServer(addr, ip, userName, password, tcpTimeout, tcpDeadline, udpDeadline, udpSessionTime)
if err != nil {
return nil, err
}
cs := cache.New(60*time.Minute, 10*time.Minute)
x := &Socks5Server{
Server: s5,
TCPTimeout: tcpTimeout,
TCPDeadline: tcpDeadline,
UDPDeadline: udpDeadline,
UDPSessionTime: udpSessionTime,
Cache: cs,
}
return x, nil
}
// SetSocks5Middleman sets socks5middleman plugin
func (x *Socks5Server) SetSocks5Middleman(m plugin.Socks5Middleman) {
x.Socks5Middleman = m
}
// ListenAndServe will let client start to listen and serve, sm can be nil
func (x *Socks5Server) ListenAndServe() error {
return x.Server.Run(nil)
}
// ListenAndForward will let client start a proxy to listen and forward to another socks5,
// sm can be nil
func (x *Socks5Server) ListenAndForward(addr, username, password string) error {
x.ForwardAddress = addr
x.ForwardUserName = username
x.ForwardPassword = password
return x.Server.Run(x)
}
// TCPHandle handles tcp request
func (x *Socks5Server) TCPHandle(s *socks5.Server, c *net.TCPConn, r *socks5.Request) error {
if x.Socks5Middleman != nil {
done, err := x.Socks5Middleman.TCPHandle(s, c, r)
if err != nil {
if done {
return err
}
return ErrorReply(r, c, err)
}
if done {
return nil
}
}
client, err := socks5.NewClient(x.ForwardAddress, x.ForwardUserName, x.ForwardPassword, x.TCPTimeout, x.TCPDeadline, x.UDPDeadline)
if err != nil {
return err
}
if err := client.Negotiate(); err != nil {
return ErrorReply(r, c, err)
}
defer client.TCPConn.Close()
if r.Cmd == socks5.CmdUDP {
// TODO If client's udp address is not 0, then prepare a local udp address
if r.Atyp == socks5.ATYPIPv4 || r.Atyp == socks5.ATYPDomain {
r.DstAddr = net.IPv4zero
} else {
r.DstAddr = net.IPv6zero
}
r.DstPort = []byte{0x00, 0x00}
}
rp, err := client.Request(r)
if err != nil {
return ErrorReply(r, c, err)
}
// reply ok and choose address according to cmd or something wrong
if r.Cmd == socks5.CmdConnect {
a, address, port, err := socks5.ParseAddress(client.TCPConn.LocalAddr().String())
if err != nil {
return ErrorReply(r, c, err)
}
rp.Atyp = a
rp.BndAddr = address
rp.BndPort = port
if err := rp.WriteTo(c); err != nil {
return err
}
go func() {
_, _ = io.Copy(c, client.TCPConn)
}()
_, _ = io.Copy(client.TCPConn, c)
return nil
}
if r.Cmd == socks5.CmdUDP {
caddr, err := r.UDP(c, x.Server.ServerAddr)
if err != nil {
return err
}
// Because we always send zero:0 to remote
_, ok := x.Cache.Get("RUA")
if !ok {
x.Cache.Set("RUA", rp.Address(), cache.DefaultExpiration)
}
_, p, err := net.SplitHostPort(caddr.String())
if err != nil {
return err
}
if p == "0" {
time.Sleep(time.Duration(x.Server.UDPSessionTime) * time.Second)
return nil
}
ch := make(chan byte)
x.Server.TCPUDPAssociate.Set(caddr.String(), ch, cache.DefaultExpiration)
<-ch
return nil
}
return ErrorReply(r, c, socks5.ErrUnsupportCmd)
}
// UDPHandle handles udp request
func (x *Socks5Server) UDPHandle(s *socks5.Server, addr *net.UDPAddr, d *socks5.Datagram) error {
if x.Socks5Middleman != nil {
if done, err := x.Socks5Middleman.UDPHandle(s, addr, d); err != nil || done {
return err
}
}
send := func(ue *socks5.UDPExchange, data []byte) error {
_, err := ue.RemoteConn.Write(data)
if err != nil {
return err
}
return nil
}
var ue *socks5.UDPExchange
iue, ok := s.UDPExchanges.Get(addr.String())
if ok {
ue = iue.(*socks5.UDPExchange)
return send(ue, d.Bytes())
}
raddr, ok := x.Cache.Get("RUA")
if !ok {
return errors.New("Can not find remote udp address.")
}
tmp, err := Dial.Dial("udp", raddr.(string))
if err != nil {
return err
}
rc := tmp.(*net.UDPConn)
ue = &socks5.UDPExchange{
ClientAddr: addr,
RemoteConn: rc,
}
if err := send(ue, d.Bytes()); err != nil {
return err
}
s.UDPExchanges.Set(ue.ClientAddr.String(), ue, cache.DefaultExpiration)
go func(ue *socks5.UDPExchange) {
defer func() {
v, ok := s.TCPUDPAssociate.Get(ue.ClientAddr.String())
if ok {
ch := v.(chan byte)
ch <- '0'
}
s.UDPExchanges.Delete(ue.ClientAddr.String())
ue.RemoteConn.Close()
}()
var b [65536]byte
for {
if s.UDPDeadline != 0 {
if err := ue.RemoteConn.SetDeadline(time.Now().Add(time.Duration(s.UDPDeadline) * time.Second)); err != nil {
log.Println(err)
break
}
}
n, err := ue.RemoteConn.Read(b[:])
if err != nil {
log.Println(err)
break
}
d1, err := socks5.NewDatagramFromBytes(b[0:n])
if err != nil {
log.Println(err)
break
}
a, addr, port, err := socks5.ParseAddress(ue.ClientAddr.String())
if err != nil {
log.Println(err)
break
}
d1 = socks5.NewDatagram(a, addr, port, d1.Data)
if _, err := s.UDPConn.WriteToUDP(d1.Bytes(), ue.ClientAddr); err != nil {
log.Println(err)
break
}
}
}(ue)
return nil
}
// Shutdown used to stop the client
func (x *Socks5Server) Shutdown() error {
return x.Server.Stop()
}