// SPDX-FileCopyrightText: 2023 The Pion community // SPDX-License-Identifier: MIT //go:build !js // +build !js package webrtc import ( "crypto/ecdsa" "crypto/elliptic" "crypto/rand" "strings" "testing" "github.com/pion/sdp/v3" "github.com/stretchr/testify/assert" ) func TestExtractFingerprint(t *testing.T) { t.Run("Good Session Fingerprint", func(t *testing.T) { s := &sdp.SessionDescription{ Attributes: []sdp.Attribute{{Key: "fingerprint", Value: "foo bar"}}, } fingerprint, hash, err := extractFingerprint(s) assert.NoError(t, err) assert.Equal(t, fingerprint, "bar") assert.Equal(t, hash, "foo") }) t.Run("Good Media Fingerprint", func(t *testing.T) { s := &sdp.SessionDescription{ MediaDescriptions: []*sdp.MediaDescription{ {Attributes: []sdp.Attribute{{Key: "fingerprint", Value: "foo bar"}}}, }, } fingerprint, hash, err := extractFingerprint(s) assert.NoError(t, err) assert.Equal(t, fingerprint, "bar") assert.Equal(t, hash, "foo") }) t.Run("No Fingerprint", func(t *testing.T) { s := &sdp.SessionDescription{} _, _, err := extractFingerprint(s) assert.Equal(t, ErrSessionDescriptionNoFingerprint, err) }) t.Run("Invalid Fingerprint", func(t *testing.T) { s := &sdp.SessionDescription{ Attributes: []sdp.Attribute{{Key: "fingerprint", Value: "foo"}}, } _, _, err := extractFingerprint(s) assert.Equal(t, ErrSessionDescriptionInvalidFingerprint, err) }) t.Run("Conflicting Fingerprint", func(t *testing.T) { s := &sdp.SessionDescription{ Attributes: []sdp.Attribute{{Key: "fingerprint", Value: "foo"}}, MediaDescriptions: []*sdp.MediaDescription{ {Attributes: []sdp.Attribute{{Key: "fingerprint", Value: "foo blah"}}}, }, } _, _, err := extractFingerprint(s) assert.Equal(t, ErrSessionDescriptionConflictingFingerprints, err) }) } func TestExtractICEDetails(t *testing.T) { const defaultUfrag = "defaultPwd" const defaultPwd = "defaultUfrag" t.Run("Missing ice-pwd", func(t *testing.T) { s := &sdp.SessionDescription{ MediaDescriptions: []*sdp.MediaDescription{ {Attributes: []sdp.Attribute{{Key: "ice-ufrag", Value: defaultUfrag}}}, }, } _, _, _, err := extractICEDetails(s, nil) assert.Equal(t, err, ErrSessionDescriptionMissingIcePwd) }) t.Run("Missing ice-ufrag", func(t *testing.T) { s := &sdp.SessionDescription{ MediaDescriptions: []*sdp.MediaDescription{ {Attributes: []sdp.Attribute{{Key: "ice-pwd", Value: defaultPwd}}}, }, } _, _, _, err := extractICEDetails(s, nil) assert.Equal(t, err, ErrSessionDescriptionMissingIceUfrag) }) t.Run("ice details at session level", func(t *testing.T) { s := &sdp.SessionDescription{ Attributes: []sdp.Attribute{ {Key: "ice-ufrag", Value: defaultUfrag}, {Key: "ice-pwd", Value: defaultPwd}, }, MediaDescriptions: []*sdp.MediaDescription{}, } ufrag, pwd, _, err := extractICEDetails(s, nil) assert.Equal(t, ufrag, defaultUfrag) assert.Equal(t, pwd, defaultPwd) assert.NoError(t, err) }) t.Run("ice details at media level", func(t *testing.T) { s := &sdp.SessionDescription{ MediaDescriptions: []*sdp.MediaDescription{ { Attributes: []sdp.Attribute{ {Key: "ice-ufrag", Value: defaultUfrag}, {Key: "ice-pwd", Value: defaultPwd}, }, }, }, } ufrag, pwd, _, err := extractICEDetails(s, nil) assert.Equal(t, ufrag, defaultUfrag) assert.Equal(t, pwd, defaultPwd) assert.NoError(t, err) }) t.Run("Conflict ufrag", func(t *testing.T) { s := &sdp.SessionDescription{ Attributes: []sdp.Attribute{{Key: "ice-ufrag", Value: "invalidUfrag"}}, MediaDescriptions: []*sdp.MediaDescription{ {Attributes: []sdp.Attribute{{Key: "ice-ufrag", Value: defaultUfrag}, {Key: "ice-pwd", Value: defaultPwd}}}, }, } _, _, _, err := extractICEDetails(s, nil) assert.Equal(t, err, ErrSessionDescriptionConflictingIceUfrag) }) t.Run("Conflict pwd", func(t *testing.T) { s := &sdp.SessionDescription{ Attributes: []sdp.Attribute{{Key: "ice-pwd", Value: "invalidPwd"}}, MediaDescriptions: []*sdp.MediaDescription{ {Attributes: []sdp.Attribute{{Key: "ice-ufrag", Value: defaultUfrag}, {Key: "ice-pwd", Value: defaultPwd}}}, }, } _, _, _, err := extractICEDetails(s, nil) assert.Equal(t, err, ErrSessionDescriptionConflictingIcePwd) }) } func TestTrackDetailsFromSDP(t *testing.T) { t.Run("Tracks unknown, audio and video with RTX", func(t *testing.T) { s := &sdp.SessionDescription{ MediaDescriptions: []*sdp.MediaDescription{ { MediaName: sdp.MediaName{ Media: "foobar", }, Attributes: []sdp.Attribute{ {Key: "mid", Value: "0"}, {Key: "sendrecv"}, {Key: "ssrc", Value: "1000 msid:unknown_trk_label unknown_trk_guid"}, }, }, { MediaName: sdp.MediaName{ Media: "audio", }, Attributes: []sdp.Attribute{ {Key: "mid", Value: "1"}, {Key: "sendrecv"}, {Key: "ssrc", Value: "2000 msid:audio_trk_label audio_trk_guid"}, }, }, { MediaName: sdp.MediaName{ Media: "video", }, Attributes: []sdp.Attribute{ {Key: "mid", Value: "2"}, {Key: "sendrecv"}, {Key: "ssrc-group", Value: "FID 3000 4000"}, {Key: "ssrc", Value: "3000 msid:video_trk_label video_trk_guid"}, {Key: "ssrc", Value: "4000 msid:rtx_trk_label rtx_trck_guid"}, }, }, { MediaName: sdp.MediaName{ Media: "video", }, Attributes: []sdp.Attribute{ {Key: "mid", Value: "3"}, {Key: "sendonly"}, {Key: "msid", Value: "video_stream_id video_trk_id"}, {Key: "ssrc", Value: "5000"}, }, }, { MediaName: sdp.MediaName{ Media: "video", }, Attributes: []sdp.Attribute{ {Key: "sendonly"}, {Key: sdpAttributeRid, Value: "f send pt=97;max-width=1280;max-height=720"}, }, }, }, } tracks := trackDetailsFromSDP(nil, s) assert.Equal(t, 3, len(tracks)) if trackDetail := trackDetailsForSSRC(tracks, 1000); trackDetail != nil { assert.Fail(t, "got the unknown track ssrc:1000 which should have been skipped") } if track := trackDetailsForSSRC(tracks, 2000); track == nil { assert.Fail(t, "missing audio track with ssrc:2000") } else { assert.Equal(t, RTPCodecTypeAudio, track.kind) assert.Equal(t, SSRC(2000), track.ssrcs[0]) assert.Equal(t, "audio_trk_label", track.streamID) } if track := trackDetailsForSSRC(tracks, 3000); track == nil { assert.Fail(t, "missing video track with ssrc:3000") } else { assert.Equal(t, RTPCodecTypeVideo, track.kind) assert.Equal(t, SSRC(3000), track.ssrcs[0]) assert.Equal(t, "video_trk_label", track.streamID) } if track := trackDetailsForSSRC(tracks, 4000); track != nil { assert.Fail(t, "got the rtx track ssrc:3000 which should have been skipped") } if track := trackDetailsForSSRC(tracks, 5000); track == nil { assert.Fail(t, "missing video track with ssrc:5000") } else { assert.Equal(t, RTPCodecTypeVideo, track.kind) assert.Equal(t, SSRC(5000), track.ssrcs[0]) assert.Equal(t, "video_trk_id", track.id) assert.Equal(t, "video_stream_id", track.streamID) } }) t.Run("inactive and recvonly tracks ignored", func(t *testing.T) { s := &sdp.SessionDescription{ MediaDescriptions: []*sdp.MediaDescription{ { MediaName: sdp.MediaName{ Media: "video", }, Attributes: []sdp.Attribute{ {Key: "inactive"}, {Key: "ssrc", Value: "6000"}, }, }, { MediaName: sdp.MediaName{ Media: "video", }, Attributes: []sdp.Attribute{ {Key: "recvonly"}, {Key: "ssrc", Value: "7000"}, }, }, }, } assert.Equal(t, 0, len(trackDetailsFromSDP(nil, s))) }) } func TestHaveApplicationMediaSection(t *testing.T) { t.Run("Audio only", func(t *testing.T) { s := &sdp.SessionDescription{ MediaDescriptions: []*sdp.MediaDescription{ { MediaName: sdp.MediaName{ Media: "audio", }, Attributes: []sdp.Attribute{ {Key: "sendrecv"}, {Key: "ssrc", Value: "2000"}, }, }, }, } assert.False(t, haveApplicationMediaSection(s)) }) t.Run("Application", func(t *testing.T) { s := &sdp.SessionDescription{ MediaDescriptions: []*sdp.MediaDescription{ { MediaName: sdp.MediaName{ Media: mediaSectionApplication, }, }, }, } assert.True(t, haveApplicationMediaSection(s)) }) } func TestMediaDescriptionFingerprints(t *testing.T) { engine := &MediaEngine{} assert.NoError(t, engine.RegisterDefaultCodecs()) api := NewAPI(WithMediaEngine(engine)) sk, err := ecdsa.GenerateKey(elliptic.P256(), rand.Reader) assert.NoError(t, err) certificate, err := GenerateCertificate(sk) assert.NoError(t, err) media := []mediaSection{ { id: "video", transceivers: []*RTPTransceiver{{ kind: RTPCodecTypeVideo, api: api, codecs: engine.getCodecsByKind(RTPCodecTypeVideo), }}, }, { id: "audio", transceivers: []*RTPTransceiver{{ kind: RTPCodecTypeAudio, api: api, codecs: engine.getCodecsByKind(RTPCodecTypeAudio), }}, }, { id: "application", data: true, }, } for i := 0; i < 2; i++ { media[i].transceivers[0].setSender(&RTPSender{}) media[i].transceivers[0].setDirection(RTPTransceiverDirectionSendonly) } fingerprintTest := func(SDPMediaDescriptionFingerprints bool, expectedFingerprintCount int) func(t *testing.T) { return func(t *testing.T) { s := &sdp.SessionDescription{} dtlsFingerprints, err := certificate.GetFingerprints() assert.NoError(t, err) s, err = populateSDP(s, false, dtlsFingerprints, SDPMediaDescriptionFingerprints, false, true, engine, sdp.ConnectionRoleActive, []ICECandidate{}, ICEParameters{}, media, ICEGatheringStateNew, nil) assert.NoError(t, err) sdparray, err := s.Marshal() assert.NoError(t, err) assert.Equal(t, strings.Count(string(sdparray), "sha-256"), expectedFingerprintCount) } } t.Run("Per-Media Description Fingerprints", fingerprintTest(true, 3)) t.Run("Per-Session Description Fingerprints", fingerprintTest(false, 1)) } func TestPopulateSDP(t *testing.T) { t.Run("rid", func(t *testing.T) { se := SettingEngine{} me := &MediaEngine{} assert.NoError(t, me.RegisterDefaultCodecs()) api := NewAPI(WithMediaEngine(me)) tr := &RTPTransceiver{kind: RTPCodecTypeVideo, api: api, codecs: me.videoCodecs} tr.setDirection(RTPTransceiverDirectionRecvonly) rids := []*simulcastRid{ { id: "ridkey", attrValue: "some", }, { id: "ridPaused", attrValue: "some2", paused: true, }, } mediaSections := []mediaSection{{id: "video", transceivers: []*RTPTransceiver{tr}, rids: rids}} d := &sdp.SessionDescription{} offerSdp, err := populateSDP(d, false, []DTLSFingerprint{}, se.sdpMediaLevelFingerprints, se.candidates.ICELite, true, me, connectionRoleFromDtlsRole(defaultDtlsRoleOffer), []ICECandidate{}, ICEParameters{}, mediaSections, ICEGatheringStateComplete, nil) assert.Nil(t, err) // Test contains rid map keys var ridFound int for _, desc := range offerSdp.MediaDescriptions { if desc.MediaName.Media != "video" { continue } ridsInSDP := getRids(desc) for _, rid := range ridsInSDP { if rid.id == "ridkey" && !rid.paused { ridFound++ } if rid.id == "ridPaused" && rid.paused { ridFound++ } } } assert.Equal(t, 2, ridFound, "All rid keys should be present") }) t.Run("SetCodecPreferences", func(t *testing.T) { se := SettingEngine{} me := &MediaEngine{} assert.NoError(t, me.RegisterDefaultCodecs()) api := NewAPI(WithMediaEngine(me)) me.pushCodecs(me.videoCodecs, RTPCodecTypeVideo) me.pushCodecs(me.audioCodecs, RTPCodecTypeAudio) tr := &RTPTransceiver{kind: RTPCodecTypeVideo, api: api, codecs: me.videoCodecs} tr.setDirection(RTPTransceiverDirectionRecvonly) codecErr := tr.SetCodecPreferences([]RTPCodecParameters{ { RTPCodecCapability: RTPCodecCapability{MimeTypeVP8, 90000, 0, "", nil}, PayloadType: 96, }, }) assert.NoError(t, codecErr) mediaSections := []mediaSection{{id: "video", transceivers: []*RTPTransceiver{tr}}} d := &sdp.SessionDescription{} offerSdp, err := populateSDP(d, false, []DTLSFingerprint{}, se.sdpMediaLevelFingerprints, se.candidates.ICELite, true, me, connectionRoleFromDtlsRole(defaultDtlsRoleOffer), []ICECandidate{}, ICEParameters{}, mediaSections, ICEGatheringStateComplete, nil) assert.Nil(t, err) // Test codecs foundVP8 := false for _, desc := range offerSdp.MediaDescriptions { if desc.MediaName.Media != "video" { continue } for _, a := range desc.Attributes { if strings.Contains(a.Key, "rtpmap") { if a.Value == "98 VP9/90000" { t.Fatal("vp9 should not be present in sdp") } else if a.Value == "96 VP8/90000" { foundVP8 = true } } } } assert.Equal(t, true, foundVP8, "vp8 should be present in sdp") }) t.Run("ice-lite", func(t *testing.T) { se := SettingEngine{} se.SetLite(true) offerSdp, err := populateSDP(&sdp.SessionDescription{}, false, []DTLSFingerprint{}, se.sdpMediaLevelFingerprints, se.candidates.ICELite, true, &MediaEngine{}, connectionRoleFromDtlsRole(defaultDtlsRoleOffer), []ICECandidate{}, ICEParameters{}, []mediaSection{}, ICEGatheringStateComplete, nil) assert.Nil(t, err) var found bool // ice-lite is an session-level attribute for _, a := range offerSdp.Attributes { if a.Key == sdp.AttrKeyICELite { // ice-lite does not have value (e.g. ":") and it should be an empty string if a.Value == "" { found = true break } } } assert.Equal(t, true, found, "ICELite key should be present") }) t.Run("rejected track", func(t *testing.T) { se := SettingEngine{} me := &MediaEngine{} registerCodecErr := me.RegisterCodec(RTPCodecParameters{ RTPCodecCapability: RTPCodecCapability{MimeType: MimeTypeVP8, ClockRate: 90000, Channels: 0, SDPFmtpLine: "", RTCPFeedback: nil}, PayloadType: 96, }, RTPCodecTypeVideo) assert.NoError(t, registerCodecErr) api := NewAPI(WithMediaEngine(me)) videoTransceiver := &RTPTransceiver{kind: RTPCodecTypeVideo, api: api, codecs: me.videoCodecs} audioTransceiver := &RTPTransceiver{kind: RTPCodecTypeAudio, api: api, codecs: []RTPCodecParameters{}} mediaSections := []mediaSection{{id: "video", transceivers: []*RTPTransceiver{videoTransceiver}}, {id: "audio", transceivers: []*RTPTransceiver{audioTransceiver}}} d := &sdp.SessionDescription{} offerSdp, err := populateSDP(d, false, []DTLSFingerprint{}, se.sdpMediaLevelFingerprints, se.candidates.ICELite, true, me, connectionRoleFromDtlsRole(defaultDtlsRoleOffer), []ICECandidate{}, ICEParameters{}, mediaSections, ICEGatheringStateComplete, nil) assert.NoError(t, err) // Test codecs foundRejectedTrack := false for _, desc := range offerSdp.MediaDescriptions { if desc.MediaName.Media != "audio" { continue } assert.True(t, desc.ConnectionInformation != nil, "connection information must be provided for rejected tracks") assert.Equal(t, desc.MediaName.Formats, []string{"0"}, "rejected tracks have 0 for Formats") assert.Equal(t, desc.MediaName.Port, sdp.RangedPort{Value: 0}, "rejected tracks have 0 for Port") foundRejectedTrack = true } assert.Equal(t, true, foundRejectedTrack, "rejected track wasn't present") }) t.Run("allow mixed extmap", func(t *testing.T) { se := SettingEngine{} offerSdp, err := populateSDP(&sdp.SessionDescription{}, false, []DTLSFingerprint{}, se.sdpMediaLevelFingerprints, se.candidates.ICELite, true, &MediaEngine{}, connectionRoleFromDtlsRole(defaultDtlsRoleOffer), []ICECandidate{}, ICEParameters{}, []mediaSection{}, ICEGatheringStateComplete, nil) assert.Nil(t, err) var found bool // session-level attribute for _, a := range offerSdp.Attributes { if a.Key == sdp.AttrKeyExtMapAllowMixed { if a.Value == "" { found = true break } } } assert.Equal(t, true, found, "AllowMixedExtMap key should be present") offerSdp, err = populateSDP(&sdp.SessionDescription{}, false, []DTLSFingerprint{}, se.sdpMediaLevelFingerprints, se.candidates.ICELite, false, &MediaEngine{}, connectionRoleFromDtlsRole(defaultDtlsRoleOffer), []ICECandidate{}, ICEParameters{}, []mediaSection{}, ICEGatheringStateComplete, nil) assert.Nil(t, err) found = false // session-level attribute for _, a := range offerSdp.Attributes { if a.Key == sdp.AttrKeyExtMapAllowMixed { if a.Value == "" { found = true break } } } assert.Equal(t, false, found, "AllowMixedExtMap key should not be present") }) t.Run("bundle all", func(t *testing.T) { se := SettingEngine{} me := &MediaEngine{} assert.NoError(t, me.RegisterDefaultCodecs()) api := NewAPI(WithMediaEngine(me)) tr := &RTPTransceiver{kind: RTPCodecTypeVideo, api: api, codecs: me.videoCodecs} tr.setDirection(RTPTransceiverDirectionRecvonly) mediaSections := []mediaSection{{id: "video", transceivers: []*RTPTransceiver{tr}}} d := &sdp.SessionDescription{} offerSdp, err := populateSDP(d, false, []DTLSFingerprint{}, se.sdpMediaLevelFingerprints, se.candidates.ICELite, true, me, connectionRoleFromDtlsRole(defaultDtlsRoleOffer), []ICECandidate{}, ICEParameters{}, mediaSections, ICEGatheringStateComplete, nil) assert.Nil(t, err) bundle, ok := offerSdp.Attribute(sdp.AttrKeyGroup) assert.True(t, ok) assert.Equal(t, "BUNDLE video", bundle) }) t.Run("bundle matched", func(t *testing.T) { se := SettingEngine{} me := &MediaEngine{} assert.NoError(t, me.RegisterDefaultCodecs()) api := NewAPI(WithMediaEngine(me)) tra := &RTPTransceiver{kind: RTPCodecTypeVideo, api: api, codecs: me.videoCodecs} tra.setDirection(RTPTransceiverDirectionRecvonly) mediaSections := []mediaSection{{id: "video", transceivers: []*RTPTransceiver{tra}}} trv := &RTPTransceiver{kind: RTPCodecTypeAudio, api: api, codecs: me.audioCodecs} trv.setDirection(RTPTransceiverDirectionRecvonly) mediaSections = append(mediaSections, mediaSection{id: "audio", transceivers: []*RTPTransceiver{trv}}) d := &sdp.SessionDescription{} matchedBundle := "audio" offerSdp, err := populateSDP(d, false, []DTLSFingerprint{}, se.sdpMediaLevelFingerprints, se.candidates.ICELite, true, me, connectionRoleFromDtlsRole(defaultDtlsRoleOffer), []ICECandidate{}, ICEParameters{}, mediaSections, ICEGatheringStateComplete, &matchedBundle) assert.Nil(t, err) bundle, ok := offerSdp.Attribute(sdp.AttrKeyGroup) assert.True(t, ok) assert.Equal(t, "BUNDLE audio", bundle) mediaVideo := offerSdp.MediaDescriptions[0] mid, ok := mediaVideo.Attribute(sdp.AttrKeyMID) assert.True(t, ok) assert.Equal(t, "video", mid) assert.True(t, mediaVideo.MediaName.Port.Value == 0) }) t.Run("empty bundle group", func(t *testing.T) { se := SettingEngine{} me := &MediaEngine{} assert.NoError(t, me.RegisterDefaultCodecs()) api := NewAPI(WithMediaEngine(me)) tra := &RTPTransceiver{kind: RTPCodecTypeVideo, api: api, codecs: me.videoCodecs} tra.setDirection(RTPTransceiverDirectionRecvonly) mediaSections := []mediaSection{{id: "video", transceivers: []*RTPTransceiver{tra}}} d := &sdp.SessionDescription{} matchedBundle := "" offerSdp, err := populateSDP(d, false, []DTLSFingerprint{}, se.sdpMediaLevelFingerprints, se.candidates.ICELite, true, me, connectionRoleFromDtlsRole(defaultDtlsRoleOffer), []ICECandidate{}, ICEParameters{}, mediaSections, ICEGatheringStateComplete, &matchedBundle) assert.Nil(t, err) _, ok := offerSdp.Attribute(sdp.AttrKeyGroup) assert.False(t, ok) }) } func TestGetRIDs(t *testing.T) { m := []*sdp.MediaDescription{ { MediaName: sdp.MediaName{ Media: "video", }, Attributes: []sdp.Attribute{ {Key: "sendonly"}, {Key: sdpAttributeRid, Value: "f send pt=97;max-width=1280;max-height=720"}, }, }, } rids := getRids(m[0]) assert.NotEmpty(t, rids, "Rid mapping should be present") found := false for _, rid := range rids { if rid.id == "f" { found = true break } } if !found { assert.Fail(t, "rid values should contain 'f'") } } func TestCodecsFromMediaDescription(t *testing.T) { t.Run("Codec Only", func(t *testing.T) { codecs, err := codecsFromMediaDescription(&sdp.MediaDescription{ MediaName: sdp.MediaName{ Media: "audio", Formats: []string{"111"}, }, Attributes: []sdp.Attribute{ {Key: "rtpmap", Value: "111 opus/48000/2"}, }, }) assert.Equal(t, codecs, []RTPCodecParameters{ { RTPCodecCapability: RTPCodecCapability{MimeTypeOpus, 48000, 2, "", []RTCPFeedback{}}, PayloadType: 111, }, }) assert.NoError(t, err) }) t.Run("Codec with fmtp/rtcp-fb", func(t *testing.T) { codecs, err := codecsFromMediaDescription(&sdp.MediaDescription{ MediaName: sdp.MediaName{ Media: "audio", Formats: []string{"111"}, }, Attributes: []sdp.Attribute{ {Key: "rtpmap", Value: "111 opus/48000/2"}, {Key: "fmtp", Value: "111 minptime=10;useinbandfec=1"}, {Key: "rtcp-fb", Value: "111 goog-remb"}, {Key: "rtcp-fb", Value: "111 ccm fir"}, {Key: "rtcp-fb", Value: "* ccm fir"}, {Key: "rtcp-fb", Value: "* nack"}, }, }) assert.Equal(t, codecs, []RTPCodecParameters{ { RTPCodecCapability: RTPCodecCapability{MimeTypeOpus, 48000, 2, "minptime=10;useinbandfec=1", []RTCPFeedback{{"goog-remb", ""}, {"ccm", "fir"}, {"nack", ""}}}, PayloadType: 111, }, }) assert.NoError(t, err) }) } func TestRtpExtensionsFromMediaDescription(t *testing.T) { extensions, err := rtpExtensionsFromMediaDescription(&sdp.MediaDescription{ MediaName: sdp.MediaName{ Media: "audio", Formats: []string{"111"}, }, Attributes: []sdp.Attribute{ {Key: "extmap", Value: "1 " + sdp.ABSSendTimeURI}, {Key: "extmap", Value: "3 " + sdp.SDESMidURI}, }, }) assert.NoError(t, err) assert.Equal(t, extensions[sdp.ABSSendTimeURI], 1) assert.Equal(t, extensions[sdp.SDESMidURI], 3) }