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socks.go
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socks.go
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package pt
import (
"bufio"
"fmt"
"io"
"net"
"time"
)
const (
socksVersion = 0x05
socksAuthNoneRequired = 0x00
socksAuthUsernamePassword = 0x02
socksAuthNoAcceptableMethods = 0xff
socksCmdConnect = 0x01
socksRsv = 0x00
socksAtypeV4 = 0x01
socksAtypeDomainName = 0x03
socksAtypeV6 = 0x04
socksAuthRFC1929Ver = 0x01
socksAuthRFC1929Success = 0x00
socksAuthRFC1929Fail = 0x01
socksRepSucceeded = 0x00
// "general SOCKS server failure"
SocksRepGeneralFailure = 0x01
// "connection not allowed by ruleset"
SocksRepConnectionNotAllowed = 0x02
// "Network unreachable"
SocksRepNetworkUnreachable = 0x03
// "Host unreachable"
SocksRepHostUnreachable = 0x04
// "Connection refused"
SocksRepConnectionRefused = 0x05
// "TTL expired"
SocksRepTTLExpired = 0x06
// "Command not supported"
SocksRepCommandNotSupported = 0x07
// "Address type not supported"
SocksRepAddressNotSupported = 0x08
)
// Put a sanity timeout on how long we wait for a SOCKS request.
const socksRequestTimeout = 5 * time.Second
// SocksRequest describes a SOCKS request.
type SocksRequest struct {
// The endpoint requested by the client as a "host:port" string.
Target string
// The userid string sent by the client.
Username string
// The password string sent by the client.
Password string
// The parsed contents of Username as a key–value mapping.
Args Args
}
// SocksConn encapsulates a net.Conn and information associated with a SOCKS request.
type SocksConn struct {
net.Conn
Req SocksRequest
}
// Send a message to the proxy client that access to the given address is
// granted. Addr is ignored, and "0.0.0.0:0" is always sent back for
// BND.ADDR/BND.PORT in the SOCKS response.
func (conn *SocksConn) Grant(addr *net.TCPAddr) error {
return sendSocks5ResponseGranted(conn)
}
// Send a message to the proxy client that access was rejected or failed. This
// sends back a "General Failure" error code. RejectReason should be used if
// more specific error reporting is desired.
func (conn *SocksConn) Reject() error {
return conn.RejectReason(SocksRepGeneralFailure)
}
// Send a message to the proxy client that access was rejected, with the
// specific error code indicating the reason behind the rejection.
func (conn *SocksConn) RejectReason(reason byte) error {
return sendSocks5ResponseRejected(conn, reason)
}
// SocksListener wraps a net.Listener in order to read a SOCKS request on Accept.
//
// func handleConn(conn *pt.SocksConn) error {
// defer conn.Close()
// remote, err := net.Dial("tcp", conn.Req.Target)
// if err != nil {
// conn.Reject()
// return err
// }
// defer remote.Close()
// err = conn.Grant(remote.RemoteAddr().(*net.TCPAddr))
// if err != nil {
// return err
// }
// // do something with conn and remote
// return nil
// }
// ...
// ln, err := pt.ListenSocks("tcp", "127.0.0.1:0")
// if err != nil {
// panic(err.Error())
// }
// for {
// conn, err := ln.AcceptSocks()
// if err != nil {
// log.Printf("accept error: %s", err)
// if e, ok := err.(net.Error); ok && e.Temporary() {
// continue
// }
// break
// }
// go handleConn(conn)
// }
type SocksListener struct {
net.Listener
}
// Open a net.Listener according to network and laddr, and return it as a
// SocksListener.
func ListenSocks(network, laddr string) (*SocksListener, error) {
ln, err := net.Listen(network, laddr)
if err != nil {
return nil, err
}
return NewSocksListener(ln), nil
}
// Create a new SocksListener wrapping the given net.Listener.
func NewSocksListener(ln net.Listener) *SocksListener {
return &SocksListener{ln}
}
// Accept is the same as AcceptSocks, except that it returns a generic net.Conn.
// It is present for the sake of satisfying the net.Listener interface.
func (ln *SocksListener) Accept() (net.Conn, error) {
return ln.AcceptSocks()
}
// Call Accept on the wrapped net.Listener, do SOCKS negotiation, and return a
// SocksConn. After accepting, you must call either conn.Grant or conn.Reject
// (presumably after trying to connect to conn.Req.Target).
//
// Errors returned by AcceptSocks may be temporary (for example, EOF while
// reading the request, or a badly formatted userid string), or permanent (e.g.,
// the underlying socket is closed). You can determine whether an error is
// temporary and take appropriate action with a type conversion to net.Error.
// For example:
//
// for {
// conn, err := ln.AcceptSocks()
// if err != nil {
// if e, ok := err.(net.Error); ok && e.Temporary() {
// log.Printf("temporary accept error; trying again: %s", err)
// continue
// }
// log.Printf("permanent accept error; giving up: %s", err)
// break
// }
// go handleConn(conn)
// }
func (ln *SocksListener) AcceptSocks() (*SocksConn, error) {
retry:
c, err := ln.Listener.Accept()
if err != nil {
return nil, err
}
conn := new(SocksConn)
conn.Conn = c
err = conn.SetDeadline(time.Now().Add(socksRequestTimeout))
if err != nil {
conn.Close()
goto retry
}
conn.Req, err = socks5Handshake(conn)
if err != nil {
conn.Close()
goto retry
}
err = conn.SetDeadline(time.Time{})
if err != nil {
conn.Close()
goto retry
}
return conn, nil
}
// Returns "socks5", suitable to be included in a call to Cmethod.
func (ln *SocksListener) Version() string {
return "socks5"
}
// socks5handshake conducts the SOCKS5 handshake up to the point where the
// client command is read and the proxy must open the outgoing connection.
// Returns a SocksRequest.
func socks5Handshake(s io.ReadWriter) (req SocksRequest, err error) {
rw := bufio.NewReadWriter(bufio.NewReader(s), bufio.NewWriter(s))
// Negotiate the authentication method.
var method byte
if method, err = socksNegotiateAuth(rw); err != nil {
return
}
// Authenticate the client.
if err = socksAuthenticate(rw, method, &req); err != nil {
return
}
// Read the command.
err = socksReadCommand(rw, &req)
return
}
// socksNegotiateAuth negotiates the authentication method and returns the
// selected method as a byte. On negotiation failures an error is returned.
func socksNegotiateAuth(rw *bufio.ReadWriter) (method byte, err error) {
// Validate the version.
if err = socksReadByteVerify(rw, "version", socksVersion); err != nil {
return
}
// Read the number of methods.
var nmethods byte
if nmethods, err = socksReadByte(rw); err != nil {
return
}
// Read the methods.
var methods []byte
if methods, err = socksReadBytes(rw, int(nmethods)); err != nil {
return
}
// Pick the most "suitable" method.
method = socksAuthNoAcceptableMethods
for _, m := range methods {
switch m {
case socksAuthNoneRequired:
// Pick Username/Password over None if the client happens to
// send both.
if method == socksAuthNoAcceptableMethods {
method = m
}
case socksAuthUsernamePassword:
method = m
}
}
// Send the negotiated method.
var msg [2]byte
msg[0] = socksVersion
msg[1] = method
if _, err = rw.Writer.Write(msg[:]); err != nil {
return
}
if err = socksFlushBuffers(rw); err != nil {
return
}
return
}
// socksAuthenticate authenticates the client via the chosen authentication
// mechanism.
func socksAuthenticate(rw *bufio.ReadWriter, method byte, req *SocksRequest) (err error) {
switch method {
case socksAuthNoneRequired:
// Straight into reading the connect.
case socksAuthUsernamePassword:
if err = socksAuthRFC1929(rw, req); err != nil {
return
}
case socksAuthNoAcceptableMethods:
err = fmt.Errorf("SOCKS method select had no compatible methods")
return
default:
err = fmt.Errorf("SOCKS method select picked a unsupported method 0x%02x", method)
return
}
if err = socksFlushBuffers(rw); err != nil {
return
}
return
}
// socksAuthRFC1929 authenticates the client via RFC 1929 username/password
// auth. As a design decision any valid username/password is accepted as this
// field is primarily used as an out-of-band argument passing mechanism for
// pluggable transports.
func socksAuthRFC1929(rw *bufio.ReadWriter, req *SocksRequest) (err error) {
sendErrResp := func() {
// Swallow the write/flush error here, we are going to close the
// connection and the original failure is more useful.
resp := []byte{socksAuthRFC1929Ver, socksAuthRFC1929Fail}
rw.Write(resp[:])
socksFlushBuffers(rw)
}
// Validate the fixed parts of the command message.
if err = socksReadByteVerify(rw, "auth version", socksAuthRFC1929Ver); err != nil {
sendErrResp()
return
}
// Read the username.
var ulen byte
if ulen, err = socksReadByte(rw); err != nil {
return
}
if ulen < 1 {
sendErrResp()
err = fmt.Errorf("RFC1929 username with 0 length")
return
}
var uname []byte
if uname, err = socksReadBytes(rw, int(ulen)); err != nil {
return
}
req.Username = string(uname)
// Read the password.
var plen byte
if plen, err = socksReadByte(rw); err != nil {
return
}
if plen < 1 {
sendErrResp()
err = fmt.Errorf("RFC1929 password with 0 length")
return
}
var passwd []byte
if passwd, err = socksReadBytes(rw, int(plen)); err != nil {
return
}
if !(plen == 1 && passwd[0] == 0x00) {
// tor will set the password to 'NUL' if there are no arguments.
req.Password = string(passwd)
}
// Mash the username/password together and parse it as a pluggable
// transport argument string.
if req.Args, err = parseClientParameters(req.Username + req.Password); err != nil {
sendErrResp()
} else {
resp := []byte{socksAuthRFC1929Ver, socksAuthRFC1929Success}
_, err = rw.Write(resp[:])
}
return
}
// socksReadCommand reads a SOCKS5 client command and parses out the relevant
// fields into a SocksRequest. Only CMD_CONNECT is supported.
func socksReadCommand(rw *bufio.ReadWriter, req *SocksRequest) (err error) {
sendErrResp := func(reason byte) {
// Swallow errors that occur when writing/flushing the response,
// connection will be closed anyway.
sendSocks5ResponseRejected(rw, reason)
socksFlushBuffers(rw)
}
// Validate the fixed parts of the command message.
if err = socksReadByteVerify(rw, "version", socksVersion); err != nil {
sendErrResp(SocksRepGeneralFailure)
return
}
if err = socksReadByteVerify(rw, "command", socksCmdConnect); err != nil {
sendErrResp(SocksRepCommandNotSupported)
return
}
if err = socksReadByteVerify(rw, "reserved", socksRsv); err != nil {
sendErrResp(SocksRepGeneralFailure)
return
}
// Read the destination address/port.
// XXX: This should probably eventually send socks 5 error messages instead
// of rudely closing connections on invalid addresses.
var atype byte
if atype, err = socksReadByte(rw); err != nil {
return
}
var host string
switch atype {
case socksAtypeV4:
var addr []byte
if addr, err = socksReadBytes(rw, net.IPv4len); err != nil {
return
}
host = net.IPv4(addr[0], addr[1], addr[2], addr[3]).String()
case socksAtypeDomainName:
var alen byte
if alen, err = socksReadByte(rw); err != nil {
return
}
if alen == 0 {
err = fmt.Errorf("SOCKS request had domain name with 0 length")
return
}
var addr []byte
if addr, err = socksReadBytes(rw, int(alen)); err != nil {
return
}
host = string(addr)
case socksAtypeV6:
var rawAddr []byte
if rawAddr, err = socksReadBytes(rw, net.IPv6len); err != nil {
return
}
addr := make(net.IP, net.IPv6len)
copy(addr[:], rawAddr[:])
host = fmt.Sprintf("[%s]", addr.String())
default:
sendErrResp(SocksRepAddressNotSupported)
err = fmt.Errorf("SOCKS request had unsupported address type 0x%02x", atype)
return
}
var rawPort []byte
if rawPort, err = socksReadBytes(rw, 2); err != nil {
return
}
port := int(rawPort[0])<<8 | int(rawPort[1])<<0
if err = socksFlushBuffers(rw); err != nil {
return
}
req.Target = fmt.Sprintf("%s:%d", host, port)
return
}
// Send a SOCKS5 response with the given code. BND.ADDR/BND.PORT is always the
// IPv4 address/port "0.0.0.0:0".
func sendSocks5Response(w io.Writer, code byte) error {
resp := make([]byte, 4+4+2)
resp[0] = socksVersion
resp[1] = code
resp[2] = socksRsv
resp[3] = socksAtypeV4
// BND.ADDR/BND.PORT should be the address and port that the outgoing
// connection is bound to on the proxy, but Tor does not use this
// information, so all zeroes are sent.
_, err := w.Write(resp[:])
return err
}
// Send a SOCKS5 response code 0x00.
func sendSocks5ResponseGranted(w io.Writer) error {
return sendSocks5Response(w, socksRepSucceeded)
}
// Send a SOCKS5 response with the provided failure reason.
func sendSocks5ResponseRejected(w io.Writer, reason byte) error {
return sendSocks5Response(w, reason)
}
func socksFlushBuffers(rw *bufio.ReadWriter) error {
if err := rw.Writer.Flush(); err != nil {
return err
}
if rw.Reader.Buffered() > 0 {
return fmt.Errorf("%d bytes left after SOCKS message", rw.Reader.Buffered())
}
return nil
}
func socksReadByte(rw *bufio.ReadWriter) (byte, error) {
return rw.Reader.ReadByte()
}
func socksReadBytes(rw *bufio.ReadWriter, n int) ([]byte, error) {
ret := make([]byte, n)
if _, err := io.ReadFull(rw.Reader, ret); err != nil {
return nil, err
}
return ret, nil
}
func socksReadByteVerify(rw *bufio.ReadWriter, descr string, expected byte) error {
val, err := socksReadByte(rw)
if err != nil {
return err
}
if val != expected {
return fmt.Errorf("SOCKS message field %s was 0x%02x, not 0x%02x", descr, val, expected)
}
return nil
}
var _ net.Listener = (*SocksListener)(nil)