package tcp import ( "bufio" "bytes" "crypto/tls" "io" "net" "net/http" "strings" "github.com/containous/traefik/pkg/log" ) // Router is a TCP router type Router struct { routingTable map[string]Handler httpForwarder Handler httpsForwarder Handler httpHandler http.Handler httpsHandler http.Handler httpsTLSConfig *tls.Config catchAllNoTLS Handler } // ServeTCP forwards the connection to the right TCP/HTTP handler func (r *Router) ServeTCP(conn net.Conn) { // FIXME -- Check if ProxyProtocol changes the first bytes of the request br := bufio.NewReader(conn) serverName, tls, peeked := clientHelloServerName(br) if !tls { switch { case r.catchAllNoTLS != nil: r.catchAllNoTLS.ServeTCP(r.GetConn(conn, peeked)) case r.httpForwarder != nil: r.httpForwarder.ServeTCP(r.GetConn(conn, peeked)) default: conn.Close() } return } // FIXME Optimize and test the routing table before helloServerName serverName = strings.ToLower(serverName) if r.routingTable != nil && serverName != "" { if target, ok := r.routingTable[serverName]; ok { target.ServeTCP(r.GetConn(conn, peeked)) return } } // FIXME Needs tests if target, ok := r.routingTable["*"]; ok { target.ServeTCP(r.GetConn(conn, peeked)) return } if r.httpsForwarder != nil { r.httpsForwarder.ServeTCP(r.GetConn(conn, peeked)) } else { conn.Close() } } // AddRoute defines a handler for a given sniHost (* is the only valid option) func (r *Router) AddRoute(sniHost string, target Handler) { if r.routingTable == nil { r.routingTable = map[string]Handler{} } r.routingTable[strings.ToLower(sniHost)] = target } // AddRouteTLS defines a handler for a given sniHost and sets the matching tlsConfig func (r *Router) AddRouteTLS(sniHost string, target Handler, config *tls.Config) { r.AddRoute(sniHost, &TLSHandler{ Next: target, Config: config, }) } // AddCatchAllNoTLS defines the fallback tcp handler func (r *Router) AddCatchAllNoTLS(handler Handler) { r.catchAllNoTLS = handler } // GetConn creates a connection proxy with a peeked string func (r *Router) GetConn(conn net.Conn, peeked string) net.Conn { // FIXME should it really be on Router ? conn = &Conn{ Peeked: []byte(peeked), Conn: conn, } return conn } // GetHTTPHandler gets the attached http handler func (r *Router) GetHTTPHandler() http.Handler { return r.httpHandler } // GetHTTPSHandler gets the attached https handler func (r *Router) GetHTTPSHandler() http.Handler { return r.httpsHandler } // HTTPForwarder sets the tcp handler that will forward the connections to an http handler func (r *Router) HTTPForwarder(handler Handler) { r.httpForwarder = handler } // HTTPSForwarder sets the tcp handler that will forward the TLS connections to an http handler func (r *Router) HTTPSForwarder(handler Handler) { r.httpsForwarder = &TLSHandler{ Next: handler, Config: r.httpsTLSConfig, } } // HTTPHandler attaches http handlers on the router func (r *Router) HTTPHandler(handler http.Handler) { r.httpHandler = handler } // HTTPSHandler attaches https handlers on the router func (r *Router) HTTPSHandler(handler http.Handler, config *tls.Config) { r.httpsHandler = handler r.httpsTLSConfig = config } // Conn is a connection proxy that handles Peeked bytes type Conn struct { // Peeked are the bytes that have been read from Conn for the // purposes of route matching, but have not yet been consumed // by Read calls. It set to nil by Read when fully consumed. Peeked []byte // Conn is the underlying connection. // It can be type asserted against *net.TCPConn or other types // as needed. It should not be read from directly unless // Peeked is nil. net.Conn } // Read reads bytes from the connection (using the buffer prior to actually reading) func (c *Conn) Read(p []byte) (n int, err error) { if len(c.Peeked) > 0 { n = copy(p, c.Peeked) c.Peeked = c.Peeked[n:] if len(c.Peeked) == 0 { c.Peeked = nil } return n, nil } return c.Conn.Read(p) } // clientHelloServerName returns the SNI server name inside the TLS ClientHello, // without consuming any bytes from br. // On any error, the empty string is returned. func clientHelloServerName(br *bufio.Reader) (string, bool, string) { hdr, err := br.Peek(1) if err != nil { log.Errorf("Error while Peeking first byte: %s", err) return "", false, "" } const recordTypeHandshake = 0x16 if hdr[0] != recordTypeHandshake { // log.Errorf("Error not tls") return "", false, getPeeked(br) // Not TLS. } const recordHeaderLen = 5 hdr, err = br.Peek(recordHeaderLen) if err != nil { log.Errorf("Error while Peeking hello: %s", err) return "", false, getPeeked(br) } recLen := int(hdr[3])<<8 | int(hdr[4]) // ignoring version in hdr[1:3] helloBytes, err := br.Peek(recordHeaderLen + recLen) if err != nil { log.Errorf("Error while Hello: %s", err) return "", true, getPeeked(br) } sni := "" server := tls.Server(sniSniffConn{r: bytes.NewReader(helloBytes)}, &tls.Config{ GetConfigForClient: func(hello *tls.ClientHelloInfo) (*tls.Config, error) { sni = hello.ServerName return nil, nil }, }) _ = server.Handshake() return sni, true, getPeeked(br) } func getPeeked(br *bufio.Reader) string { peeked, err := br.Peek(br.Buffered()) if err != nil { log.Errorf("Could not get anything: %s", err) return "" } return string(peeked) } // sniSniffConn is a net.Conn that reads from r, fails on Writes, // and crashes otherwise. type sniSniffConn struct { r io.Reader net.Conn // nil; crash on any unexpected use } // Read reads from the underlying reader func (c sniSniffConn) Read(p []byte) (int, error) { return c.r.Read(p) } // Write crashes all the time func (sniSniffConn) Write(p []byte) (int, error) { return 0, io.EOF }