package main import ( "bufio" "bytes" "fmt" "io" "net" "strings" "sync" "testing" "time" "github.com/subgraph/fw-daemon/socks5" "golang.org/x/net/proxy" ) // MortalService can be killed at any time. type MortalService struct { network string address string connectionCallback func(net.Conn) error conns []net.Conn quit chan bool listener net.Listener waitGroup *sync.WaitGroup } // NewMortalService creates a new MortalService func NewMortalService(network, address string, connectionCallback func(net.Conn) error) *MortalService { l := MortalService{ network: network, address: address, connectionCallback: connectionCallback, conns: make([]net.Conn, 0, 10), quit: make(chan bool), waitGroup: &sync.WaitGroup{}, } return &l } // Stop will kill our listener and all it's connections func (l *MortalService) Stop() { log.Info("stopping listener service %s:%s", l.network, l.address) close(l.quit) if l.listener != nil { l.listener.Close() } l.waitGroup.Wait() } func (l *MortalService) acceptLoop() { defer l.waitGroup.Done() defer func() { log.Info("stoping listener service %s:%s", l.network, l.address) for i, conn := range l.conns { if conn != nil { log.Info("Closing connection #%d", i) conn.Close() } } }() defer l.listener.Close() for { conn, err := l.listener.Accept() if nil != err { if opErr, ok := err.(*net.OpError); ok && opErr.Timeout() { continue } else { log.Info("MortalService connection accept failure: %s\n", err) select { case <-l.quit: return default: } continue } } l.conns = append(l.conns, conn) go l.handleConnection(conn, len(l.conns)-1) } } func (l *MortalService) createDeadlinedListener() error { if l.network == "tcp" { tcpAddr, err := net.ResolveTCPAddr("tcp", l.address) if err != nil { return fmt.Errorf("MortalService.createDeadlinedListener %s %s failure: %s", l.network, l.address, err) } tcpListener, err := net.ListenTCP("tcp", tcpAddr) if err != nil { return fmt.Errorf("MortalService.createDeadlinedListener %s %s failure: %s", l.network, l.address, err) } tcpListener.SetDeadline(time.Now().Add(1e9)) l.listener = tcpListener return nil } else if l.network == "unix" { unixAddr, err := net.ResolveUnixAddr("unix", l.address) if err != nil { return fmt.Errorf("MortalService.createDeadlinedListener %s %s failure: %s", l.network, l.address, err) } unixListener, err := net.ListenUnix("unix", unixAddr) if err != nil { return fmt.Errorf("MortalService.createDeadlinedListener %s %s failure: %s", l.network, l.address, err) } unixListener.SetDeadline(time.Now().Add(1e9)) l.listener = unixListener return nil } else { panic("") } return nil } // Start the MortalService func (l *MortalService) Start() error { var err error err = l.createDeadlinedListener() if err != nil { return err } l.waitGroup.Add(1) go l.acceptLoop() return nil } func (l *MortalService) handleConnection(conn net.Conn, id int) error { defer func() { log.Info("Closing connection #%d", id) conn.Close() l.conns[id] = nil }() log.Info("Starting connection #%d", id) for { if err := l.connectionCallback(conn); err != nil { log.Error(err.Error()) return err } return nil } } type AccumulatingService struct { net, address string banner string buffer bytes.Buffer mortalService *MortalService hasProtocolInfo bool hasAuthenticate bool receivedChan chan bool } func NewAccumulatingService(net, address, banner string) *AccumulatingService { l := AccumulatingService{ net: net, address: address, banner: banner, hasProtocolInfo: true, hasAuthenticate: true, receivedChan: make(chan bool, 0), } return &l } func (a *AccumulatingService) Start() { a.mortalService = NewMortalService(a.net, a.address, a.SessionWorker) a.mortalService.Start() } func (a *AccumulatingService) Stop() { fmt.Println("AccumulatingService STOP") a.mortalService.Stop() } func (a *AccumulatingService) WaitUntilReceived() { <-a.receivedChan } func (a *AccumulatingService) SessionWorker(conn net.Conn) error { connReader := bufio.NewReader(conn) conn.Write([]byte(a.banner)) for { line, err := connReader.ReadBytes('\n') if err != nil { fmt.Printf("AccumulatingService read error: %s\n", err) } lineStr := strings.TrimSpace(string(line)) a.buffer.WriteString(lineStr + "\n") a.receivedChan <- true } return nil } func fakeSocksSessionWorker(clientConn net.Conn, targetNet, targetAddr string) error { defer clientConn.Close() clientAddr := clientConn.RemoteAddr() fmt.Printf("INFO/socks: New connection from: %v\n", clientAddr) // Do the SOCKS handshake with the client, and read the command. req, err := socks5.Handshake(clientConn) if err != nil { panic(fmt.Sprintf("ERR/socks: Failed SOCKS5 handshake: %v", err)) } var upstreamConn net.Conn upstreamConn, err = net.Dial(targetNet, targetAddr) if err != nil { panic(err) } defer upstreamConn.Close() req.Reply(socks5.ReplySucceeded) // A upstream connection has been established, push data back and forth // till the session is done. var wg sync.WaitGroup wg.Add(2) //upstreamConn.Write([]byte("meow 123\r\n")) //clientConn.Write([]byte("meow 123\r\n")) copyLoop := func(dst, src net.Conn) { defer wg.Done() defer dst.Close() io.Copy(dst, src) } go copyLoop(upstreamConn, clientConn) go copyLoop(clientConn, upstreamConn) wg.Wait() fmt.Printf("INFO/socks: Closed SOCKS connection from: %v\n", clientAddr) return nil } func TestSocksServerProxyChain(t *testing.T) { // socks client ---> socks chain ---> socks server ---> service socksChainNet := "tcp" socksChainAddr := "127.0.0.1:7750" socksServerNet := "tcp" socksServerAddr := "127.0.0.1:8850" serviceNet := "tcp" serviceAddr := "127.0.0.1:9950" banner := "meow 123\r\n" // setup the service listener service := NewAccumulatingService(serviceNet, serviceAddr, banner) service.Start() defer service.Stop() // setup the "socks server" session := func(clientConn net.Conn) error { return fakeSocksSessionWorker(clientConn, serviceNet, serviceAddr) } socksService := NewMortalService(socksServerNet, socksServerAddr, session) socksService.Start() defer socksService.Stop() // setup the SOCKS proxy chain socksConfig := SocksChainConfig{ TargetSocksNet: socksServerNet, TargetSocksAddr: socksServerAddr, ListenSocksNet: socksChainNet, ListenSocksAddr: socksChainAddr, } wg := sync.WaitGroup{} InitSocksListener(&socksConfig, &wg) // setup the SOCKS client auth := proxy.Auth{ User: "", Password: "", } forward := proxy.NewPerHost(proxy.Direct, proxy.Direct) socksClient, err := proxy.SOCKS5(socksChainNet, socksChainAddr, &auth, forward) conn, err := socksClient.Dial(serviceNet, serviceAddr) if err != nil { panic(err) } // read a banner from the service rd := bufio.NewReader(conn) line := []byte{} line, err = rd.ReadBytes('\n') if err != nil { panic(err) } if string(line) != banner { t.Errorf("Did not receive expected banner. Got %s, wanted %s\n", string(line), banner) t.Fail() } // send the service some data and verify it was received clientData := "hello world\r\n" conn.Write([]byte(clientData)) service.WaitUntilReceived() if service.buffer.String() != strings.TrimSpace(clientData)+"\n" { t.Errorf("Client sent %s but service only received %s\n", "hello world\n", service.buffer.String()) t.Fail() } }