package gost import ( "crypto/rand" "fmt" "net/http/httptest" "net/url" "testing" ) func httpOverKCPRoundtrip(targetURL string, data []byte, clientInfo *url.Userinfo, serverInfo []*url.Userinfo) error { ln, err := KCPListener("localhost:0", nil) if err != nil { return err } client := &Client{ Connector: HTTPConnector(clientInfo), Transporter: KCPTransporter(nil), } server := &Server{ Listener: ln, Handler: HTTPHandler( UsersHandlerOption(serverInfo...), ), } go server.Run() defer server.Close() return proxyRoundtrip(client, server, targetURL, data) } func TestHTTPOverKCP(t *testing.T) { httpSrv := httptest.NewServer(httpTestHandler) defer httpSrv.Close() sendData := make([]byte, 128) rand.Read(sendData) for i, tc := range httpProxyTests { err := httpOverKCPRoundtrip(httpSrv.URL, sendData, tc.cliUser, tc.srvUsers) if err == nil { if tc.errStr != "" { t.Errorf("#%d should failed with error %s", i, tc.errStr) } } else { if tc.errStr == "" { t.Errorf("#%d got error %v", i, err) } if err.Error() != tc.errStr { t.Errorf("#%d got error %v, want %v", i, err, tc.errStr) } } } } func BenchmarkHTTPOverKCP(b *testing.B) { httpSrv := httptest.NewServer(httpTestHandler) defer httpSrv.Close() sendData := make([]byte, 128) rand.Read(sendData) ln, err := KCPListener("", nil) if err != nil { b.Error(err) } b.Log(ln.Addr()) client := &Client{ Connector: HTTPConnector(url.UserPassword("admin", "123456")), Transporter: KCPTransporter(nil), } server := &Server{ Listener: ln, Handler: HTTPHandler( UsersHandlerOption(url.UserPassword("admin", "123456")), ), } go server.Run() defer server.Close() for i := 0; i < b.N; i++ { if err := proxyRoundtrip(client, server, httpSrv.URL, sendData); err != nil { b.Error(err) } } } func BenchmarkHTTPOverKCPParallel(b *testing.B) { httpSrv := httptest.NewServer(httpTestHandler) defer httpSrv.Close() sendData := make([]byte, 128) rand.Read(sendData) ln, err := KCPListener("", nil) if err != nil { b.Error(err) } client := &Client{ Connector: HTTPConnector(url.UserPassword("admin", "123456")), Transporter: KCPTransporter(nil), } server := &Server{ Listener: ln, Handler: HTTPHandler( UsersHandlerOption(url.UserPassword("admin", "123456")), ), } go server.Run() defer server.Close() b.RunParallel(func(pb *testing.PB) { for pb.Next() { if err := proxyRoundtrip(client, server, httpSrv.URL, sendData); err != nil { b.Error(err) } } }) } func socks5OverKCPRoundtrip(targetURL string, data []byte, clientInfo *url.Userinfo, serverInfo []*url.Userinfo) error { ln, err := KCPListener("localhost:0", nil) if err != nil { return err } client := &Client{ Connector: SOCKS5Connector(clientInfo), Transporter: KCPTransporter(nil), } server := &Server{ Listener: ln, Handler: SOCKS5Handler( UsersHandlerOption(serverInfo...), ), } go server.Run() defer server.Close() return proxyRoundtrip(client, server, targetURL, data) } func TestSOCKS5OverKCP(t *testing.T) { httpSrv := httptest.NewServer(httpTestHandler) defer httpSrv.Close() sendData := make([]byte, 128) rand.Read(sendData) for i, tc := range socks5ProxyTests { err := socks5OverKCPRoundtrip(httpSrv.URL, sendData, tc.cliUser, tc.srvUsers, ) if err == nil { if !tc.pass { t.Errorf("#%d should failed", i) } } else { // t.Logf("#%d %v", i, err) if tc.pass { t.Errorf("#%d got error: %v", i, err) } } } } func socks4OverKCPRoundtrip(targetURL string, data []byte) error { ln, err := KCPListener("localhost:0", nil) if err != nil { return err } client := &Client{ Connector: SOCKS4Connector(), Transporter: KCPTransporter(nil), } server := &Server{ Listener: ln, Handler: SOCKS4Handler(), } go server.Run() defer server.Close() return proxyRoundtrip(client, server, targetURL, data) } func TestSOCKS4OverKCP(t *testing.T) { httpSrv := httptest.NewServer(httpTestHandler) defer httpSrv.Close() sendData := make([]byte, 128) rand.Read(sendData) err := socks4OverKCPRoundtrip(httpSrv.URL, sendData) // t.Logf("#%d %v", i, err) if err != nil { t.Errorf("got error: %v", err) } } func socks4aOverKCPRoundtrip(targetURL string, data []byte) error { ln, err := KCPListener("localhost:0", nil) if err != nil { return err } client := &Client{ Connector: SOCKS4AConnector(), Transporter: KCPTransporter(nil), } server := &Server{ Listener: ln, Handler: SOCKS4Handler(), } go server.Run() defer server.Close() return proxyRoundtrip(client, server, targetURL, data) } func TestSOCKS4AOverKCP(t *testing.T) { httpSrv := httptest.NewServer(httpTestHandler) defer httpSrv.Close() sendData := make([]byte, 128) rand.Read(sendData) err := socks4aOverKCPRoundtrip(httpSrv.URL, sendData) // t.Logf("#%d %v", i, err) if err != nil { t.Errorf("got error: %v", err) } } func ssOverKCPRoundtrip(targetURL string, data []byte, clientInfo, serverInfo *url.Userinfo) error { ln, err := KCPListener("localhost:0", nil) if err != nil { return err } client := &Client{ Connector: ShadowConnector(clientInfo), Transporter: KCPTransporter(nil), } server := &Server{ Listener: ln, Handler: ShadowHandler( UsersHandlerOption(serverInfo), ), } go server.Run() defer server.Close() return proxyRoundtrip(client, server, targetURL, data) } func TestSSOverKCP(t *testing.T) { httpSrv := httptest.NewServer(httpTestHandler) defer httpSrv.Close() sendData := make([]byte, 128) rand.Read(sendData) for i, tc := range ssProxyTests { err := ssOverKCPRoundtrip(httpSrv.URL, sendData, tc.clientCipher, tc.serverCipher, ) if err == nil { if !tc.pass { t.Errorf("#%d should failed", i) } } else { // t.Logf("#%d %v", i, err) if tc.pass { t.Errorf("#%d got error: %v", i, err) } } } } func sniOverKCPRoundtrip(targetURL string, data []byte, host string) error { ln, err := KCPListener("localhost:0", nil) if err != nil { return err } u, err := url.Parse(targetURL) if err != nil { return err } client := &Client{ Connector: SNIConnector(host), Transporter: KCPTransporter(nil), } server := &Server{ Listener: ln, Handler: SNIHandler(HostHandlerOption(u.Host)), } go server.Run() defer server.Close() return sniRoundtrip(client, server, targetURL, data) } func TestSNIOverKCP(t *testing.T) { httpSrv := httptest.NewServer(httpTestHandler) defer httpSrv.Close() httpsSrv := httptest.NewTLSServer(httpTestHandler) defer httpsSrv.Close() sendData := make([]byte, 128) rand.Read(sendData) var sniProxyTests = []struct { targetURL string host string pass bool }{ {httpSrv.URL, "", true}, {httpSrv.URL, "example.com", true}, {httpsSrv.URL, "", true}, {httpsSrv.URL, "example.com", true}, } for i, tc := range sniProxyTests { tc := tc t.Run(fmt.Sprintf("#%d", i), func(t *testing.T) { err := sniOverKCPRoundtrip(tc.targetURL, sendData, tc.host) if err == nil { if !tc.pass { t.Errorf("#%d should failed", i) } } else { // t.Logf("#%d %v", i, err) if tc.pass { t.Errorf("#%d got error: %v", i, err) } } }) } } func kcpForwardTunnelRoundtrip(targetURL string, data []byte) error { ln, err := KCPListener("localhost:0", nil) if err != nil { return err } u, err := url.Parse(targetURL) if err != nil { return err } client := &Client{ Connector: ForwardConnector(), Transporter: KCPTransporter(nil), } server := &Server{ Listener: ln, Handler: TCPDirectForwardHandler(u.Host), } server.Handler.Init() go server.Run() defer server.Close() return proxyRoundtrip(client, server, targetURL, data) } func TestKCPForwardTunnel(t *testing.T) { httpSrv := httptest.NewServer(httpTestHandler) defer httpSrv.Close() sendData := make([]byte, 128) rand.Read(sendData) err := kcpForwardTunnelRoundtrip(httpSrv.URL, sendData) if err != nil { t.Error(err) } }