// +build go1.11 package main import ( "flag" "fmt" "io" "log" "net" "os" "time" "github.com/cbeuw/Cloak/internal/client" "github.com/cbeuw/Cloak/internal/client/TLS" mux "github.com/cbeuw/Cloak/internal/multiplex" "github.com/cbeuw/Cloak/internal/util" ) var version string func pipe(dst io.ReadWriteCloser, src io.ReadWriteCloser) { buf := make([]byte, 20000) for { i, err := io.ReadAtLeast(src, buf, 1) if err != nil || i == 0 { log.Println(err) go dst.Close() go src.Close() return } i, err = dst.Write(buf[:i]) if err != nil || i == 0 { log.Println(err) go dst.Close() go src.Close() return } } } // This establishes a connection with ckserver and performs a handshake func makeRemoteConn(sta *client.State) (net.Conn, error) { d := net.Dialer{Control: protector} clientHello := TLS.ComposeInitHandshake(sta) remoteConn, err := d.Dial("tcp", sta.SS_REMOTE_HOST+":"+sta.SS_REMOTE_PORT) if err != nil { log.Printf("Connecting to remote: %v\n", err) return nil, err } _, err = remoteConn.Write(clientHello) if err != nil { log.Printf("Sending ClientHello: %v\n", err) return nil, err } // Three discarded messages: ServerHello, ChangeCipherSpec and Finished discardBuf := make([]byte, 1024) for c := 0; c < 3; c++ { _, err = util.ReadTillDrain(remoteConn, discardBuf) if err != nil { log.Printf("Reading discarded message %v: %v\n", c, err) return nil, err } } reply := TLS.ComposeReply() _, err = remoteConn.Write(reply) if err != nil { log.Printf("Sending reply to remote: %v\n", err) return nil, err } return remoteConn, nil } func main() { // Should be 127.0.0.1 to listen to ss-local on this machine var localHost string // server_port in ss config, ss sends data on loopback using this port var localPort string // The ip of the proxy server var remoteHost string // The proxy port,should be 443 var remotePort string var pluginOpts string log.SetFlags(log.LstdFlags | log.Lshortfile) log_init() if os.Getenv("SS_LOCAL_HOST") != "" { localHost = os.Getenv("SS_LOCAL_HOST") localPort = os.Getenv("SS_LOCAL_PORT") remoteHost = os.Getenv("SS_REMOTE_HOST") remotePort = os.Getenv("SS_REMOTE_PORT") pluginOpts = os.Getenv("SS_PLUGIN_OPTIONS") } else { localHost = "127.0.0.1" flag.StringVar(&localPort, "l", "", "localPort: same as server_port in ss config, the plugin listens to SS using this") flag.StringVar(&remoteHost, "s", "", "remoteHost: IP of your proxy server") flag.StringVar(&remotePort, "p", "443", "remotePort: proxy port, should be 443") flag.StringVar(&pluginOpts, "c", "ckclient.json", "pluginOpts: path to ckclient.json or options seperated with semicolons") askVersion := flag.Bool("v", false, "Print the version number") printUsage := flag.Bool("h", false, "Print this message") flag.Parse() if *askVersion { fmt.Printf("ck-client %s\n", version) return } if *printUsage { flag.Usage() return } log.Printf("Starting standalone mode. Listening for ss on %v:%v\n", localHost, localPort) } sta := client.InitState(localHost, localPort, remoteHost, remotePort, time.Now) err := sta.ParseConfig(pluginOpts) if err != nil { log.Fatal(err) } if sta.SS_LOCAL_PORT == "" { log.Fatal("Must specify localPort") } if sta.SS_REMOTE_HOST == "" { log.Fatal("Must specify remoteHost") } if sta.TicketTimeHint == 0 { log.Fatal("TicketTimeHint cannot be empty or 0") } initRemoteConn, err := makeRemoteConn(sta) if err != nil { log.Fatalf("Failed to establish connection to remote: %v\n", err) } obfs := util.MakeObfs(sta.SID) deobfs := util.MakeDeobfs(sta.SID) // TODO: where to put obfs deobfs and rtd? sesh := mux.MakeSession(0, initRemoteConn, obfs, deobfs, util.ReadTillDrain) for i := 0; i < sta.NumConn-1; i++ { go func() { conn, err := makeRemoteConn(sta) if err != nil { log.Printf("Failed to establish new connections to remote: %v\n", err) return } sesh.AddConnection(conn) }() } listener, err := net.Listen("tcp", sta.SS_LOCAL_HOST+":"+sta.SS_LOCAL_PORT) if err != nil { log.Fatal(err) } for { ssConn, err := listener.Accept() if err != nil { log.Println(err) continue } go func() { data := make([]byte, 10240) i, err := io.ReadAtLeast(ssConn, data, 1) if err != nil { ssConn.Close() return } stream, err := sesh.OpenStream() if err != nil { ssConn.Close() } stream.Write(data[:i]) go pipe(ssConn, stream) pipe(stream, ssConn) }() } }