// SPDX-FileCopyrightText: 2023 The Pion community // SPDX-License-Identifier: MIT //go:build !js // +build !js package ice import ( "context" "crypto/tls" "io" "net" "net/url" "reflect" "sort" "strconv" "sync" "sync/atomic" "testing" "time" "github.com/pion/dtls/v2" "github.com/pion/dtls/v2/pkg/crypto/selfsign" "github.com/pion/logging" "github.com/pion/stun" "github.com/pion/transport/v2/test" "github.com/pion/turn/v2" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" "golang.org/x/net/proxy" ) func TestListenUDP(t *testing.T) { a, err := NewAgent(&AgentConfig{}) assert.NoError(t, err) localIPs, err := localInterfaces(a.net, a.interfaceFilter, a.ipFilter, []NetworkType{NetworkTypeUDP4}, false) assert.NotEqual(t, len(localIPs), 0, "localInterfaces found no interfaces, unable to test") assert.NoError(t, err) ip := localIPs[0] conn, err := listenUDPInPortRange(a.net, a.log, 0, 0, udp, &net.UDPAddr{IP: ip, Port: 0}) assert.NoError(t, err, "listenUDP error with no port restriction") assert.NotNil(t, conn, "listenUDP error with no port restriction return a nil conn") _, err = listenUDPInPortRange(a.net, a.log, 4999, 5000, udp, &net.UDPAddr{IP: ip, Port: 0}) assert.Equal(t, err, ErrPort, "listenUDP with invalid port range did not return ErrPort") conn, err = listenUDPInPortRange(a.net, a.log, 5000, 5000, udp, &net.UDPAddr{IP: ip, Port: 0}) assert.NoError(t, err, "listenUDP error with no port restriction") assert.NotNil(t, conn, "listenUDP error with no port restriction return a nil conn") _, port, err := net.SplitHostPort(conn.LocalAddr().String()) assert.NoError(t, err) assert.Equal(t, port, "5000", "listenUDP with port restriction of 5000 listened on incorrect port") portMin := 5100 portMax := 5109 total := portMax - portMin + 1 result := make([]int, 0, total) portRange := make([]int, 0, total) for i := 0; i < total; i++ { conn, err = listenUDPInPortRange(a.net, a.log, portMax, portMin, udp, &net.UDPAddr{IP: ip, Port: 0}) assert.NoError(t, err, "listenUDP error with no port restriction") assert.NotNil(t, conn, "listenUDP error with no port restriction return a nil conn") _, port, err = net.SplitHostPort(conn.LocalAddr().String()) if err != nil { t.Fatal(err) } p, _ := strconv.Atoi(port) if p < portMin || p > portMax { t.Fatalf("listenUDP with port restriction [%d, %d] listened on incorrect port (%s)", portMin, portMax, port) } result = append(result, p) portRange = append(portRange, portMin+i) } if sort.IntsAreSorted(result) { t.Fatalf("listenUDP with port restriction [%d, %d], ports result should be random", portMin, portMax) } sort.Ints(result) if !reflect.DeepEqual(result, portRange) { t.Fatalf("listenUDP with port restriction [%d, %d], got:%v, want:%v", portMin, portMax, result, portRange) } _, err = listenUDPInPortRange(a.net, a.log, portMax, portMin, udp, &net.UDPAddr{IP: ip, Port: 0}) assert.Equal(t, err, ErrPort, "listenUDP with port restriction [%d, %d], did not return ErrPort", portMin, portMax) assert.NoError(t, a.Close()) } func TestGatherConcurrency(t *testing.T) { report := test.CheckRoutines(t) defer report() lim := test.TimeOut(time.Second * 30) defer lim.Stop() a, err := NewAgent(&AgentConfig{ NetworkTypes: []NetworkType{NetworkTypeUDP4, NetworkTypeUDP6}, IncludeLoopback: true, }) assert.NoError(t, err) candidateGathered, candidateGatheredFunc := context.WithCancel(context.Background()) assert.NoError(t, a.OnCandidate(func(c Candidate) { candidateGatheredFunc() })) // Testing for panic for i := 0; i < 10; i++ { _ = a.GatherCandidates() } <-candidateGathered.Done() assert.NoError(t, a.Close()) } func TestLoopbackCandidate(t *testing.T) { report := test.CheckRoutines(t) defer report() lim := test.TimeOut(time.Second * 30) defer lim.Stop() type testCase struct { name string agentConfig *AgentConfig loExpected bool } mux, err := NewMultiUDPMuxFromPort(12500) assert.NoError(t, err) muxWithLo, errlo := NewMultiUDPMuxFromPort(12501, UDPMuxFromPortWithLoopback()) assert.NoError(t, errlo) testCases := []testCase{ { name: "mux should not have loopback candidate", agentConfig: &AgentConfig{ NetworkTypes: []NetworkType{NetworkTypeUDP4, NetworkTypeUDP6}, UDPMux: mux, }, loExpected: false, }, { name: "mux with loopback should not have loopback candidate", agentConfig: &AgentConfig{ NetworkTypes: []NetworkType{NetworkTypeUDP4, NetworkTypeUDP6}, UDPMux: muxWithLo, }, loExpected: true, }, { name: "includeloopback enabled", agentConfig: &AgentConfig{ NetworkTypes: []NetworkType{NetworkTypeUDP4, NetworkTypeUDP6}, IncludeLoopback: true, }, loExpected: true, }, { name: "includeloopback disabled", agentConfig: &AgentConfig{ NetworkTypes: []NetworkType{NetworkTypeUDP4, NetworkTypeUDP6}, IncludeLoopback: false, }, loExpected: false, }, } for _, tc := range testCases { tcase := tc t.Run(tcase.name, func(t *testing.T) { a, err := NewAgent(tc.agentConfig) assert.NoError(t, err) candidateGathered, candidateGatheredFunc := context.WithCancel(context.Background()) var loopback int32 assert.NoError(t, a.OnCandidate(func(c Candidate) { if c != nil { if net.ParseIP(c.Address()).IsLoopback() { atomic.StoreInt32(&loopback, 1) } } else { candidateGatheredFunc() return } t.Log(c.NetworkType(), c.Priority(), c) })) assert.NoError(t, a.GatherCandidates()) <-candidateGathered.Done() assert.NoError(t, a.Close()) assert.Equal(t, tcase.loExpected, atomic.LoadInt32(&loopback) == 1) }) } assert.NoError(t, mux.Close()) assert.NoError(t, muxWithLo.Close()) } // Assert that STUN gathering is done concurrently func TestSTUNConcurrency(t *testing.T) { report := test.CheckRoutines(t) defer report() lim := test.TimeOut(time.Second * 30) defer lim.Stop() serverPort := randomPort(t) serverListener, err := net.ListenPacket("udp4", "127.0.0.1:"+strconv.Itoa(serverPort)) assert.NoError(t, err) server, err := turn.NewServer(turn.ServerConfig{ Realm: "pion.ly", AuthHandler: optimisticAuthHandler, PacketConnConfigs: []turn.PacketConnConfig{ { PacketConn: serverListener, RelayAddressGenerator: &turn.RelayAddressGeneratorNone{Address: "127.0.0.1"}, }, }, }) assert.NoError(t, err) urls := []*stun.URI{} for i := 0; i <= 10; i++ { urls = append(urls, &stun.URI{ Scheme: stun.SchemeTypeSTUN, Host: "127.0.0.1", Port: serverPort + 1, }) } urls = append(urls, &stun.URI{ Scheme: stun.SchemeTypeSTUN, Host: "127.0.0.1", Port: serverPort, }) listener, err := net.ListenTCP("tcp", &net.TCPAddr{ IP: net.IP{127, 0, 0, 1}, }) require.NoError(t, err) defer func() { _ = listener.Close() }() a, err := NewAgent(&AgentConfig{ NetworkTypes: supportedNetworkTypes(), Urls: urls, CandidateTypes: []CandidateType{CandidateTypeHost, CandidateTypeServerReflexive}, TCPMux: NewTCPMuxDefault( TCPMuxParams{ Listener: listener, Logger: logging.NewDefaultLoggerFactory().NewLogger("ice"), ReadBufferSize: 8, }, ), }) assert.NoError(t, err) candidateGathered, candidateGatheredFunc := context.WithCancel(context.Background()) assert.NoError(t, a.OnCandidate(func(c Candidate) { if c == nil { candidateGatheredFunc() return } t.Log(c.NetworkType(), c.Priority(), c) })) assert.NoError(t, a.GatherCandidates()) <-candidateGathered.Done() assert.NoError(t, a.Close()) assert.NoError(t, server.Close()) } // Assert that TURN gathering is done concurrently func TestTURNConcurrency(t *testing.T) { report := test.CheckRoutines(t) defer report() lim := test.TimeOut(time.Second * 30) defer lim.Stop() runTest := func(protocol stun.ProtoType, scheme stun.SchemeType, packetConn net.PacketConn, listener net.Listener, serverPort int) { packetConnConfigs := []turn.PacketConnConfig{} if packetConn != nil { packetConnConfigs = append(packetConnConfigs, turn.PacketConnConfig{ PacketConn: packetConn, RelayAddressGenerator: &turn.RelayAddressGeneratorNone{Address: "127.0.0.1"}, }) } listenerConfigs := []turn.ListenerConfig{} if listener != nil { listenerConfigs = append(listenerConfigs, turn.ListenerConfig{ Listener: listener, RelayAddressGenerator: &turn.RelayAddressGeneratorNone{Address: "127.0.0.1"}, }) } server, err := turn.NewServer(turn.ServerConfig{ Realm: "pion.ly", AuthHandler: optimisticAuthHandler, PacketConnConfigs: packetConnConfigs, ListenerConfigs: listenerConfigs, }) assert.NoError(t, err) urls := []*stun.URI{} for i := 0; i <= 10; i++ { urls = append(urls, &stun.URI{ Scheme: scheme, Host: "127.0.0.1", Username: "username", Password: "password", Proto: protocol, Port: serverPort + 1 + i, }) } urls = append(urls, &stun.URI{ Scheme: scheme, Host: "127.0.0.1", Username: "username", Password: "password", Proto: protocol, Port: serverPort, }) a, err := NewAgent(&AgentConfig{ CandidateTypes: []CandidateType{CandidateTypeRelay}, InsecureSkipVerify: true, NetworkTypes: supportedNetworkTypes(), Urls: urls, }) assert.NoError(t, err) candidateGathered, candidateGatheredFunc := context.WithCancel(context.Background()) assert.NoError(t, a.OnCandidate(func(c Candidate) { if c != nil { candidateGatheredFunc() } })) assert.NoError(t, a.GatherCandidates()) <-candidateGathered.Done() assert.NoError(t, a.Close()) assert.NoError(t, server.Close()) } t.Run("UDP Relay", func(t *testing.T) { serverPort := randomPort(t) serverListener, err := net.ListenPacket("udp", "127.0.0.1:"+strconv.Itoa(serverPort)) assert.NoError(t, err) runTest(stun.ProtoTypeUDP, stun.SchemeTypeTURN, serverListener, nil, serverPort) }) t.Run("TCP Relay", func(t *testing.T) { serverPort := randomPort(t) serverListener, err := net.Listen("tcp", "127.0.0.1:"+strconv.Itoa(serverPort)) assert.NoError(t, err) runTest(stun.ProtoTypeTCP, stun.SchemeTypeTURN, nil, serverListener, serverPort) }) t.Run("TLS Relay", func(t *testing.T) { certificate, genErr := selfsign.GenerateSelfSigned() assert.NoError(t, genErr) serverPort := randomPort(t) serverListener, err := tls.Listen("tcp", "127.0.0.1:"+strconv.Itoa(serverPort), &tls.Config{ //nolint:gosec Certificates: []tls.Certificate{certificate}, }) assert.NoError(t, err) runTest(stun.ProtoTypeTCP, stun.SchemeTypeTURNS, nil, serverListener, serverPort) }) t.Run("DTLS Relay", func(t *testing.T) { certificate, genErr := selfsign.GenerateSelfSigned() assert.NoError(t, genErr) serverPort := randomPort(t) serverListener, err := dtls.Listen("udp", &net.UDPAddr{IP: net.ParseIP("127.0.0.1"), Port: serverPort}, &dtls.Config{ Certificates: []tls.Certificate{certificate}, }) assert.NoError(t, err) runTest(stun.ProtoTypeUDP, stun.SchemeTypeTURNS, nil, serverListener, serverPort) }) } // Assert that STUN and TURN gathering are done concurrently func TestSTUNTURNConcurrency(t *testing.T) { report := test.CheckRoutines(t) defer report() lim := test.TimeOut(time.Second * 8) defer lim.Stop() serverPort := randomPort(t) serverListener, err := net.ListenPacket("udp4", "127.0.0.1:"+strconv.Itoa(serverPort)) assert.NoError(t, err) server, err := turn.NewServer(turn.ServerConfig{ Realm: "pion.ly", AuthHandler: optimisticAuthHandler, PacketConnConfigs: []turn.PacketConnConfig{ { PacketConn: serverListener, RelayAddressGenerator: &turn.RelayAddressGeneratorNone{Address: "127.0.0.1"}, }, }, }) assert.NoError(t, err) urls := []*stun.URI{} for i := 0; i <= 10; i++ { urls = append(urls, &stun.URI{ Scheme: stun.SchemeTypeSTUN, Host: "127.0.0.1", Port: serverPort + 1, }) } urls = append(urls, &stun.URI{ Scheme: stun.SchemeTypeTURN, Proto: stun.ProtoTypeUDP, Host: "127.0.0.1", Port: serverPort, Username: "username", Password: "password", }) a, err := NewAgent(&AgentConfig{ NetworkTypes: supportedNetworkTypes(), Urls: urls, CandidateTypes: []CandidateType{CandidateTypeServerReflexive, CandidateTypeRelay}, }) assert.NoError(t, err) { gatherLim := test.TimeOut(time.Second * 3) // As TURN and STUN should be checked in parallel, this should complete before the default STUN timeout (5s) candidateGathered, candidateGatheredFunc := context.WithCancel(context.Background()) assert.NoError(t, a.OnCandidate(func(c Candidate) { if c != nil { candidateGatheredFunc() } })) assert.NoError(t, a.GatherCandidates()) <-candidateGathered.Done() gatherLim.Stop() } assert.NoError(t, a.Close()) assert.NoError(t, server.Close()) } // Assert that srflx candidates can be gathered from TURN servers // // When TURN servers are utilized, both types of candidates // (i.e. srflx and relay) are obtained from the TURN server. // // https://tools.ietf.org/html/rfc5245#section-2.1 func TestTURNSrflx(t *testing.T) { report := test.CheckRoutines(t) defer report() lim := test.TimeOut(time.Second * 30) defer lim.Stop() serverPort := randomPort(t) serverListener, err := net.ListenPacket("udp4", "127.0.0.1:"+strconv.Itoa(serverPort)) assert.NoError(t, err) server, err := turn.NewServer(turn.ServerConfig{ Realm: "pion.ly", AuthHandler: optimisticAuthHandler, PacketConnConfigs: []turn.PacketConnConfig{ { PacketConn: serverListener, RelayAddressGenerator: &turn.RelayAddressGeneratorNone{Address: "127.0.0.1"}, }, }, }) assert.NoError(t, err) urls := []*stun.URI{{ Scheme: stun.SchemeTypeTURN, Proto: stun.ProtoTypeUDP, Host: "127.0.0.1", Port: serverPort, Username: "username", Password: "password", }} a, err := NewAgent(&AgentConfig{ NetworkTypes: supportedNetworkTypes(), Urls: urls, CandidateTypes: []CandidateType{CandidateTypeServerReflexive, CandidateTypeRelay}, }) assert.NoError(t, err) candidateGathered, candidateGatheredFunc := context.WithCancel(context.Background()) assert.NoError(t, a.OnCandidate(func(c Candidate) { if c != nil && c.Type() == CandidateTypeServerReflexive { candidateGatheredFunc() } })) assert.NoError(t, a.GatherCandidates()) <-candidateGathered.Done() assert.NoError(t, a.Close()) assert.NoError(t, server.Close()) } func TestCloseConnLog(t *testing.T) { a, err := NewAgent(&AgentConfig{}) assert.NoError(t, err) closeConnAndLog(nil, a.log, "normal nil") var nc *net.UDPConn closeConnAndLog(nc, a.log, "nil ptr") assert.NoError(t, a.Close()) } type mockProxy struct { proxyWasDialed func() } type mockConn struct{} func (m *mockConn) Read([]byte) (n int, err error) { return 0, io.EOF } func (m *mockConn) Write([]byte) (int, error) { return 0, io.EOF } func (m *mockConn) Close() error { return io.EOF } func (m *mockConn) LocalAddr() net.Addr { return &net.TCPAddr{} } func (m *mockConn) RemoteAddr() net.Addr { return &net.TCPAddr{} } func (m *mockConn) SetDeadline(time.Time) error { return io.EOF } func (m *mockConn) SetReadDeadline(time.Time) error { return io.EOF } func (m *mockConn) SetWriteDeadline(time.Time) error { return io.EOF } func (m *mockProxy) Dial(string, string) (net.Conn, error) { m.proxyWasDialed() return &mockConn{}, nil } func TestTURNProxyDialer(t *testing.T) { report := test.CheckRoutines(t) defer report() lim := test.TimeOut(time.Second * 30) defer lim.Stop() proxyWasDialed, proxyWasDialedFunc := context.WithCancel(context.Background()) proxy.RegisterDialerType("tcp", func(*url.URL, proxy.Dialer) (proxy.Dialer, error) { return &mockProxy{proxyWasDialedFunc}, nil }) tcpProxyURI, err := url.Parse("tcp://fakeproxy:3128") assert.NoError(t, err) proxyDialer, err := proxy.FromURL(tcpProxyURI, proxy.Direct) assert.NoError(t, err) a, err := NewAgent(&AgentConfig{ CandidateTypes: []CandidateType{CandidateTypeRelay}, NetworkTypes: supportedNetworkTypes(), Urls: []*stun.URI{ { Scheme: stun.SchemeTypeTURN, Host: "127.0.0.1", Username: "username", Password: "password", Proto: stun.ProtoTypeTCP, Port: 5000, }, }, ProxyDialer: proxyDialer, }) assert.NoError(t, err) candidateGatherFinish, candidateGatherFinishFunc := context.WithCancel(context.Background()) assert.NoError(t, a.OnCandidate(func(c Candidate) { if c == nil { candidateGatherFinishFunc() } })) assert.NoError(t, a.GatherCandidates()) <-candidateGatherFinish.Done() <-proxyWasDialed.Done() assert.NoError(t, a.Close()) } // TestUDPMuxDefaultWithNAT1To1IPsUsage asserts that candidates // are given and connections are valid when using UDPMuxDefault and NAT1To1IPs. func TestUDPMuxDefaultWithNAT1To1IPsUsage(t *testing.T) { report := test.CheckRoutines(t) defer report() lim := test.TimeOut(time.Second * 30) defer lim.Stop() conn, err := net.ListenPacket("udp4", ":0") assert.NoError(t, err) defer func() { _ = conn.Close() }() mux := NewUDPMuxDefault(UDPMuxParams{ UDPConn: conn, }) defer func() { _ = mux.Close() }() a, err := NewAgent(&AgentConfig{ NAT1To1IPs: []string{"1.2.3.4"}, NAT1To1IPCandidateType: CandidateTypeHost, UDPMux: mux, }) assert.NoError(t, err) gatherCandidateDone := make(chan struct{}) assert.NoError(t, a.OnCandidate(func(c Candidate) { if c == nil { close(gatherCandidateDone) } else { assert.Equal(t, "1.2.3.4", c.Address()) } })) assert.NoError(t, a.GatherCandidates()) <-gatherCandidateDone assert.NotEqual(t, 0, len(mux.connsIPv4)) assert.NoError(t, a.Close()) } // Assert that candidates are given for each mux in a MultiUDPMux func TestMultiUDPMuxUsage(t *testing.T) { report := test.CheckRoutines(t) defer report() lim := test.TimeOut(time.Second * 30) defer lim.Stop() var expectedPorts []int var udpMuxInstances []UDPMux for i := 0; i < 3; i++ { port := randomPort(t) conn, err := net.ListenUDP("udp4", &net.UDPAddr{IP: net.IP{127, 0, 0, 1}, Port: port}) assert.NoError(t, err) defer func() { _ = conn.Close() }() expectedPorts = append(expectedPorts, port) muxDefault := NewUDPMuxDefault(UDPMuxParams{UDPConn: conn}) udpMuxInstances = append(udpMuxInstances, muxDefault) idx := i defer func() { _ = udpMuxInstances[idx].Close() }() } a, err := NewAgent(&AgentConfig{ NetworkTypes: []NetworkType{NetworkTypeUDP4, NetworkTypeUDP6}, CandidateTypes: []CandidateType{CandidateTypeHost}, UDPMux: NewMultiUDPMuxDefault(udpMuxInstances...), }) assert.NoError(t, err) candidateCh := make(chan Candidate) assert.NoError(t, a.OnCandidate(func(c Candidate) { if c == nil { close(candidateCh) return } candidateCh <- c })) assert.NoError(t, a.GatherCandidates()) portFound := make(map[int]bool) for c := range candidateCh { portFound[c.Port()] = true assert.True(t, c.NetworkType().IsUDP(), "All candidates should be UDP") } assert.Len(t, portFound, len(expectedPorts)) for _, port := range expectedPorts { assert.True(t, portFound[port], "There should be a candidate for each UDP mux port") } assert.NoError(t, a.Close()) } // Assert that candidates are given for each mux in a MultiTCPMux func TestMultiTCPMuxUsage(t *testing.T) { report := test.CheckRoutines(t) defer report() lim := test.TimeOut(time.Second * 30) defer lim.Stop() var expectedPorts []int var tcpMuxInstances []TCPMux for i := 0; i < 3; i++ { port := randomPort(t) listener, err := net.ListenTCP("tcp", &net.TCPAddr{ IP: net.IP{127, 0, 0, 1}, Port: port, }) assert.NoError(t, err) defer func() { _ = listener.Close() }() expectedPorts = append(expectedPorts, port) tcpMuxInstances = append(tcpMuxInstances, NewTCPMuxDefault(TCPMuxParams{ Listener: listener, ReadBufferSize: 8, })) } a, err := NewAgent(&AgentConfig{ NetworkTypes: supportedNetworkTypes(), CandidateTypes: []CandidateType{CandidateTypeHost}, TCPMux: NewMultiTCPMuxDefault(tcpMuxInstances...), }) assert.NoError(t, err) candidateCh := make(chan Candidate) assert.NoError(t, a.OnCandidate(func(c Candidate) { if c == nil { close(candidateCh) return } candidateCh <- c })) assert.NoError(t, a.GatherCandidates()) portFound := make(map[int]bool) for c := range candidateCh { activeCandidate := c.Port() == 0 if c.NetworkType().IsTCP() && !activeCandidate { portFound[c.Port()] = true } } assert.Len(t, portFound, len(expectedPorts)) for _, port := range expectedPorts { assert.True(t, portFound[port], "There should be a candidate for each TCP mux port") } assert.NoError(t, a.Close()) } // Assert that UniversalUDPMux is used while gathering when configured in the Agent func TestUniversalUDPMuxUsage(t *testing.T) { report := test.CheckRoutines(t) defer report() lim := test.TimeOut(time.Second * 30) defer lim.Stop() conn, err := net.ListenUDP("udp4", &net.UDPAddr{IP: net.IP{127, 0, 0, 1}, Port: randomPort(t)}) assert.NoError(t, err) defer func() { _ = conn.Close() }() udpMuxSrflx := &universalUDPMuxMock{ conn: conn, } numSTUNS := 3 urls := []*stun.URI{} for i := 0; i < numSTUNS; i++ { urls = append(urls, &stun.URI{ Scheme: SchemeTypeSTUN, Host: "127.0.0.1", Port: 3478 + i, }) } a, err := NewAgent(&AgentConfig{ NetworkTypes: supportedNetworkTypes(), Urls: urls, CandidateTypes: []CandidateType{CandidateTypeServerReflexive}, UDPMuxSrflx: udpMuxSrflx, }) assert.NoError(t, err) candidateGathered, candidateGatheredFunc := context.WithCancel(context.Background()) assert.NoError(t, a.OnCandidate(func(c Candidate) { if c == nil { candidateGatheredFunc() return } t.Log(c.NetworkType(), c.Priority(), c) })) assert.NoError(t, a.GatherCandidates()) <-candidateGathered.Done() assert.NoError(t, a.Close()) // Twice because of 2 STUN servers configured assert.Equal(t, numSTUNS, udpMuxSrflx.getXORMappedAddrUsedTimes, "expected times that GetXORMappedAddr should be called") // One for Restart() when agent has been initialized and one time when Close() the agent assert.Equal(t, 2, udpMuxSrflx.removeConnByUfragTimes, "expected times that RemoveConnByUfrag should be called") // Twice because of 2 STUN servers configured assert.Equal(t, numSTUNS, udpMuxSrflx.getConnForURLTimes, "expected times that GetConnForURL should be called") } type universalUDPMuxMock struct { UDPMux getXORMappedAddrUsedTimes int removeConnByUfragTimes int getConnForURLTimes int mu sync.Mutex conn *net.UDPConn } func (m *universalUDPMuxMock) GetRelayedAddr(net.Addr, time.Duration) (*net.Addr, error) { return nil, errNotImplemented } func (m *universalUDPMuxMock) GetConnForURL(string, string, net.Addr) (net.PacketConn, error) { m.mu.Lock() defer m.mu.Unlock() m.getConnForURLTimes++ return m.conn, nil } func (m *universalUDPMuxMock) GetXORMappedAddr(net.Addr, time.Duration) (*stun.XORMappedAddress, error) { m.mu.Lock() defer m.mu.Unlock() m.getXORMappedAddrUsedTimes++ return &stun.XORMappedAddress{IP: net.IP{100, 64, 0, 1}, Port: 77878}, nil } func (m *universalUDPMuxMock) RemoveConnByUfrag(string) { m.mu.Lock() defer m.mu.Unlock() m.removeConnByUfragTimes++ } func (m *universalUDPMuxMock) GetListenAddresses() []net.Addr { return []net.Addr{m.conn.LocalAddr()} }