Example #1
0
        RTCPeerConnection CreatePeerConnection(string connectionId, bool isOffer)
        {
            if (_mapConnectionIdAndPeer.TryGetValue(connectionId, out var peer))
            {
                peer.Close();
            }
            var pc = new RTCPeerConnection();

            _mapConnectionIdAndPeer[connectionId] = pc;

            pc.SetConfiguration(ref _config);
            pc.OnDataChannel  = channel => { OnDataChannel(connectionId, channel); };
            pc.OnIceCandidate = candidate =>
            {
                _signaling.SendCandidate(connectionId, candidate);
            };
            pc.OnIceConnectionChange = state => OnIceConnectionChange(connectionId, state);

            pc.OnTrack = trackEvent =>
            {
                onAddReceiver?.Invoke(connectionId, trackEvent.Receiver);
            };
            pc.OnNegotiationNeeded = () => OnNegotiationNeeded(connectionId, isOffer);
            return(pc);
        }
Example #2
0
        public IEnumerator OnCandidate()
        {
            bool         startRaised1     = false;
            bool         startRaised2     = false;
            bool         offerRaised      = false;
            bool         answerRaised     = false;
            bool         candidateRaised1 = false;
            bool         candidateRaised2 = false;
            const string connectionId     = "12345";
            string       connectionId1    = null;
            string       connectionId2    = null;

            signaling1.OnStart += s => { startRaised1 = true; };
            signaling2.OnStart += s => { startRaised2 = true; };
            signaling1.Start();
            signaling2.Start();
            yield return(new WaitUntil(() => startRaised1 && startRaised2));

            signaling1.OnCreateConnection += (s, id, peerExists) => { connectionId1 = id; };
            signaling1.OpenConnection(connectionId);
            signaling2.OnCreateConnection += (s, id, peerExists) => { connectionId2 = id; };
            signaling2.OpenConnection(connectionId);
            yield return(new WaitUntil(() =>
                                       !string.IsNullOrEmpty(connectionId1) && !string.IsNullOrEmpty(connectionId2)));

            signaling2.OnOffer += (s, e) => { offerRaised = true; };
            signaling1.SendOffer(connectionId1, m_DescOffer);
            yield return(new WaitUntil(() => offerRaised));

            signaling1.OnAnswer += (s, e) => { answerRaised = true; };
            signaling2.SendAnswer(connectionId1, m_DescAnswer);
            yield return(new WaitUntil(() => answerRaised));

            signaling2.OnIceCandidate += (s, e) => { candidateRaised1 = true; };
            signaling1.SendCandidate(connectionId1, m_candidate);
            yield return(new WaitUntil(() => candidateRaised1));

            signaling1.OnIceCandidate += (s, e) => { candidateRaised2 = true; };
            signaling2.SendCandidate(connectionId1, m_candidate);
            yield return(new WaitUntil(() => candidateRaised2));

            signaling1.CloseConnection(connectionId1);
            signaling2.CloseConnection(connectionId2);
            signaling1.Stop();
            signaling2.Stop();
            yield return(new WaitForSeconds(1));
        }
Example #3
0
        public IEnumerator OnCandidate()
        {
            bool   startRaised1     = false;
            bool   startRaised2     = false;
            bool   offerRaised      = false;
            bool   answerRaised     = false;
            bool   candidateRaised1 = false;
            bool   candidateRaised2 = false;
            string connectionId1    = null;
            string connectionId2    = null;

            signaling1.OnStart += s => { startRaised1 = true; };
            signaling2.OnStart += s => { startRaised2 = true; };
            signaling1.Start();
            signaling2.Start();
            yield return(new WaitUntil(() => startRaised1 && startRaised2));

            signaling1.OnCreateConnection += (s, connectionId, polite) => {
                connectionId1 = connectionId;
            };
            signaling1.OpenConnection(Guid.NewGuid().ToString());
            signaling2.OnCreateConnection += (s, connectionId, polite) => {
                connectionId2 = connectionId;
            };
            signaling2.OpenConnection(Guid.NewGuid().ToString());
            yield return(new WaitUntil(() =>
                                       !string.IsNullOrEmpty(connectionId1) && !string.IsNullOrEmpty(connectionId2)));

            signaling2.OnOffer += (s, e) => { offerRaised = true; };
            signaling1.SendOffer(connectionId1, m_DescOffer);
            yield return(new WaitUntil(() => offerRaised));

            signaling1.OnAnswer += (s, e) => { answerRaised = true; };
            signaling2.SendAnswer(connectionId1, m_DescAnswer);
            yield return(new WaitUntil(() => answerRaised));

            signaling2.OnIceCandidate += (s, e) => { candidateRaised1 = true; };
            signaling1.SendCandidate(connectionId1, m_candidate);
            yield return(new WaitUntil(() => candidateRaised1));

            signaling1.OnIceCandidate += (s, e) => { candidateRaised2 = true; };
            signaling2.SendCandidate(connectionId1, m_candidate);
            yield return(new WaitUntil(() => candidateRaised2));
        }
Example #4
0
        RTCPeerConnection CreatePeerConnection(ISignaling signaling, string connectionId, bool isOffer)
        {
            if (m_mapConnectionIdAndPeer.TryGetValue(connectionId, out var peer))
            {
                peer.Close();
            }

            var pc = new RTCPeerConnection();

            m_mapConnectionIdAndPeer[connectionId] = pc;

            pc.OnDataChannel = new DelegateOnDataChannel(channel => { OnDataChannel(pc, channel); });
            pc.SetConfiguration(ref m_conf);
            pc.OnIceCandidate = new DelegateOnIceCandidate(candidate =>
            {
                signaling.SendCandidate(connectionId, candidate);
            });
            pc.OnIceConnectionChange = new DelegateOnIceConnectionChange(state =>
            {
                if (state == RTCIceConnectionState.Disconnected)
                {
                    pc.Close();
                    m_mapConnectionIdAndPeer.Remove(connectionId);
                }
            });

            pc.OnTrack = trackEvent =>
            {
                foreach (var viewer in m_listVideoReceiveViewer)
                {
                    viewer.AddTrack(connectionId, trackEvent.Track);
                }
            };

            pc.OnNegotiationNeeded = () => StartCoroutine(OnNegotiationNeeded(signaling, connectionId, isOffer));
            return(pc);
        }
Example #5
0
        public void OnCandidate()
        {
            bool   startRaised1     = false;
            bool   startRaised2     = false;
            bool   offerRaised      = false;
            bool   answerRaised     = false;
            bool   candidateRaised1 = false;
            bool   candidateRaised2 = false;
            string connectionId1    = null;

            signaling1.Start();
            signaling2.Start();
            signaling1.OnStart += s => { startRaised1 = true; };
            signaling2.OnStart += s => { startRaised2 = true; };
            Assert.True(Wait(() => startRaised1 && startRaised2));

            signaling1.OnCreateConnection += (s, connectionId) => { connectionId1 = connectionId; };
            signaling1.CreateConnection();
            Assert.True(Wait(() => !string.IsNullOrEmpty(connectionId1)));

            signaling2.OnOffer += (s, e) => { offerRaised = true; };
            signaling1.SendOffer(connectionId1, m_DescOffer);
            Assert.True(Wait(() => offerRaised));

            signaling1.OnAnswer += (s, e) => { answerRaised = true; };
            signaling2.SendAnswer(connectionId1, m_DescAnswer);
            Assert.True(Wait(() => answerRaised));

            signaling2.OnIceCandidate += (s, e) => { candidateRaised1 = true; };
            signaling1.SendCandidate(connectionId1, m_candidate);
            Assert.True(Wait(() => candidateRaised1));

            signaling1.OnIceCandidate += (s, e) => { candidateRaised2 = true; };
            signaling2.SendCandidate(connectionId1, m_candidate);
            Assert.True(Wait(() => candidateRaised2));
        }
Example #6
0
        void OnOffer(ISignaling signaling, DescData e)
        {
            RTCSessionDescription _desc;

            _desc.type = RTCSdpType.Offer;
            _desc.sdp  = e.sdp;
            var connectionId = e.connectionId;

            if (m_mapConnectionIdAndPeer.ContainsKey(connectionId))
            {
                return;
            }
            var pc = new RTCPeerConnection();

            m_mapConnectionIdAndPeer.Add(e.connectionId, pc);

            pc.OnDataChannel = new DelegateOnDataChannel(channel => { OnDataChannel(pc, channel); });
            pc.SetConfiguration(ref m_conf);
            pc.OnIceCandidate = new DelegateOnIceCandidate(candidate =>
            {
                signaling.SendCandidate(e.connectionId, candidate);
            });
            pc.OnIceConnectionChange = new DelegateOnIceConnectionChange(state =>
            {
                if (state == RTCIceConnectionState.Disconnected)
                {
                    pc.Close();
                    m_mapConnectionIdAndPeer.Remove(e.connectionId);
                }
            });

            pc.SetRemoteDescription(ref _desc);
            foreach (var track in m_listVideoStreamTrack.Concat(m_audioStream.GetTracks()))
            {
                RTCRtpSender sender = pc.AddTrack(track);
                if (!m_mapTrackAndSenderList.TryGetValue(track, out List <RTCRtpSender> list))
                {
                    list = new List <RTCRtpSender>();
                    m_mapTrackAndSenderList.Add(track, list);
                }
                list.Add(sender);
            }

            RTCAnswerOptions options = default;
            var op = pc.CreateAnswer(ref options);

            while (op.MoveNext())
            {
            }
            if (op.IsError)
            {
                Debug.LogError($"Network Error: {op.Error}");
                return;
            }

            var desc        = op.Desc;
            var opLocalDesc = pc.SetLocalDescription(ref desc);

            while (opLocalDesc.MoveNext())
            {
            }
            if (opLocalDesc.IsError)
            {
                Debug.LogError($"Network Error: {opLocalDesc.Error}");
                return;
            }

            signaling.SendAnswer(connectionId, desc);
        }
        void OnOffer(ISignaling signaling, DescData e)
        {
            RTCSessionDescription _desc;

            _desc.type = RTCSdpType.Offer;
            _desc.sdp  = e.sdp;
            var connectionId = e.connectionId;

            if (m_mapConnectionIdAndPeer.ContainsKey(connectionId))
            {
                return;
            }
            var pc = new RTCPeerConnection();

            m_mapConnectionIdAndPeer.Add(e.connectionId, pc);

            pc.OnDataChannel = new DelegateOnDataChannel(channel => { OnDataChannel(pc, channel); });
            pc.SetConfiguration(ref m_conf);
            pc.OnIceCandidate = new DelegateOnIceCandidate(candidate =>
            {
                signaling.SendCandidate(e.connectionId, candidate);
            });
            pc.OnIceConnectionChange = new DelegateOnIceConnectionChange(state =>
            {
                if (state == RTCIceConnectionState.Disconnected)
                {
                    pc.Close();
                    m_mapConnectionIdAndPeer.Remove(e.connectionId);
                }
            });
            //make video bit rate starts at 16000kbits, and 160000kbits at max.
            string pattern = @"(a=fmtp:\d+ .*level-asymmetry-allowed=.*)\r\n";

            _desc.sdp = Regex.Replace(_desc.sdp, pattern, "$1;x-google-start-bitrate=16000;x-google-max-bitrate=160000\r\n");
            pc.SetRemoteDescription(ref _desc);
            foreach (var track in m_listVideoStreamTrack)
            {
                pc.AddTrack(track);
            }
            foreach (var track in m_audioStream.GetTracks())
            {
                pc.AddTrack(track);
            }

            RTCAnswerOptions options = default;
            var op = pc.CreateAnswer(ref options);

            while (op.MoveNext())
            {
            }
            if (op.IsError)
            {
                Debug.LogError($"Network Error: {op.Error}");
                return;
            }

            var desc        = op.Desc;
            var opLocalDesc = pc.SetLocalDescription(ref desc);

            while (opLocalDesc.MoveNext())
            {
            }
            if (opLocalDesc.IsError)
            {
                Debug.LogError($"Network Error: {opLocalDesc.Error}");
                return;
            }

            signaling.SendAnswer(connectionId, desc);
        }
Example #8
0
        public IEnumerator OnCandidate()
        {
            bool         startRaised1     = false;
            bool         startRaised2     = false;
            bool         offerRaised      = false;
            bool         answerRaised     = false;
            bool         candidateRaised1 = false;
            bool         candidateRaised2 = false;
            const string connectionId     = "12345";
            bool         raiseOnDestroy1  = false;
            bool         raiseOnDestroy2  = false;
            string       connectionId1    = null;
            string       connectionId2    = null;

            signaling1.OnStart += s => { startRaised1 = true; };
            signaling2.OnStart += s => { startRaised2 = true; };
            signaling1.Start();
            signaling2.Start();
            yield return(new WaitUntil(() => startRaised1 && startRaised2));

            signaling1.OnCreateConnection += (s, id, polite) =>
            {
                connectionId1 = id;
            };
            signaling1.OnDestroyConnection += (signaling, id) =>
            {
                raiseOnDestroy1 = id == connectionId1;
            };
            signaling1.OpenConnection(connectionId);

            signaling2.OnCreateConnection += (s, id, polite) =>
            {
                connectionId2 = id;
            };
            signaling2.OnDestroyConnection += (signaling, id) =>
            {
                raiseOnDestroy2 = id == connectionId2;
            };
            signaling2.OpenConnection(connectionId);

            yield return(new WaitUntil(() =>
                                       !string.IsNullOrEmpty(connectionId1) && !string.IsNullOrEmpty(connectionId2)));

            Assert.That(connectionId1, Is.EqualTo(connectionId));
            Assert.That(connectionId2, Is.EqualTo(connectionId));

            signaling2.OnOffer += (s, e) => { offerRaised = true; };
            signaling1.SendOffer(connectionId1, m_DescOffer);
            yield return(new WaitUntil(() => offerRaised));

            signaling1.OnAnswer += (s, e) => { answerRaised = true; };
            signaling2.SendAnswer(connectionId1, m_DescAnswer);
            yield return(new WaitUntil(() => answerRaised));

            signaling2.OnIceCandidate += (s, e) => { candidateRaised1 = true; };
            signaling1.SendCandidate(connectionId1, m_candidate);
            yield return(new WaitUntil(() => candidateRaised1));

            signaling1.OnIceCandidate += (s, e) => { candidateRaised2 = true; };
            signaling2.SendCandidate(connectionId1, m_candidate);
            yield return(new WaitUntil(() => candidateRaised2));

            signaling1.CloseConnection(connectionId1);

            yield return(new WaitUntil(() => raiseOnDestroy1 && raiseOnDestroy2));

            Assert.That(raiseOnDestroy1, Is.True);
            Assert.That(raiseOnDestroy2, Is.True);

            signaling2.CloseConnection(connectionId2);
            signaling1.Stop();
            signaling2.Stop();
            yield return(new WaitForSeconds(1));
        }