public async Task SctpError()
{
// Setup
var config = new PeerConnectionConfiguration();
var pc1 = new PeerConnection();
var pc2 = new PeerConnection();
await pc1.InitializeAsync(config);
await pc2.InitializeAsync(config);
pc1.LocalSdpReadytoSend += async(string type, string sdp) =>
{
await pc2.SetRemoteDescriptionAsync(type, sdp);
if (type == "offer")
{
pc2.CreateAnswer();
}
};
pc2.LocalSdpReadytoSend += async(string type, string sdp) =>
{
await pc1.SetRemoteDescriptionAsync(type, sdp);
if (type == "offer")
{
pc1.CreateAnswer();
}
};
pc1.IceCandidateReadytoSend += (string candidate, int sdpMlineindex, string sdpMid)
=> pc2.AddIceCandidate(sdpMid, sdpMlineindex, candidate);
pc2.IceCandidateReadytoSend += (string candidate, int sdpMlineindex, string sdpMid)
=> pc1.AddIceCandidate(sdpMid, sdpMlineindex, candidate);
// Connect
{
var c1 = new ManualResetEventSlim(false);
var c2 = new ManualResetEventSlim(false);
pc1.Connected += () => c1.Set();
pc2.Connected += () => c2.Set();
Assert.True(pc1.CreateOffer());
Assert.True(c1.Wait(TimeSpan.FromSeconds(60.0)));
Assert.True(c2.Wait(TimeSpan.FromSeconds(60.0)));
Assert.True(pc1.IsConnected);
Assert.True(pc1.IsConnected);
}
// Try to add a data channel. This should fail because SCTP was not negotiated.
Assert.ThrowsAsync <SctpNotNegotiatedException>(async() => await pc1.AddDataChannelAsync("dummy", false, false));
Assert.ThrowsAsync <SctpNotNegotiatedException>(async() => await pc1.AddDataChannelAsync(42, "dummy", false, false));
// Clean-up
pc1.Close();
pc1.Dispose();
pc2.Close();
pc2.Dispose();
}
public async void PeerConnectionLocalConnect()
{
using (var pc1 = new PeerConnection())
{
await pc1.InitializeAsync();
using (var pc2 = new PeerConnection())
{
await pc2.InitializeAsync();
// Prepare SDP event handlers
pc1.LocalSdpReadytoSend += async(SdpMessage message) =>
{
await pc2.SetRemoteDescriptionAsync(message);
if (message.Type == SdpMessageType.Offer)
{
pc2.CreateAnswer();
}
};
pc2.LocalSdpReadytoSend += async(SdpMessage message) =>
{
await pc1.SetRemoteDescriptionAsync(message);
if (message.Type == SdpMessageType.Offer)
{
pc1.CreateAnswer();
}
};
pc1.IceCandidateReadytoSend += (IceCandidate candidate) => pc2.AddIceCandidate(candidate);
pc2.IceCandidateReadytoSend += (IceCandidate candidate) => pc1.AddIceCandidate(candidate);
// Connect
var conn1 = new ManualResetEventSlim(initialState: false);
var conn2 = new ManualResetEventSlim(initialState: false);
pc1.Connected += () => conn1.Set();
pc2.Connected += () => conn2.Set();
pc1.CreateOffer();
WaitForSdpExchangeCompleted(conn1, conn2);
pc1.Close();
pc2.Close();
}
}
}
protected async Task MakeICECall(PeerConnection pc1, PeerConnection pc2)
{
pc1.LocalSdpReadytoSend += (string type, string sdp) =>
{
pc2.SetRemoteDescription(type, sdp);
if (type == "offer")
{
pc2.CreateAnswer();
}
};
pc2.LocalSdpReadytoSend += (string type, string sdp) =>
{
pc1.SetRemoteDescription(type, sdp);
if (type == "offer")
{
pc1.CreateAnswer();
}
};
pc1.IceCandidateReadytoSend += (string candidate, int sdpMlineindex, string sdpMid) =>
{
pc2.AddIceCandidate(sdpMid, sdpMlineindex, candidate);
};
pc2.IceCandidateReadytoSend += (string candidate, int sdpMlineindex, string sdpMid) =>
{
pc1.AddIceCandidate(sdpMid, sdpMlineindex, candidate);
};
var pcConfig = new PeerConnectionConfiguration();
await pc1.InitializeAsync(pcConfig);
await pc2.InitializeAsync(pcConfig);
var ev1 = new ManualResetEventSlim(initialState: false);
var ev2 = new ManualResetEventSlim(initialState: false);
pc1.Connected += () => ev1.Set();
pc2.Connected += () => ev2.Set();
pc1.CreateOffer();
ev1.Wait(millisecondsTimeout: 5000);
ev2.Wait(millisecondsTimeout: 5000);
}
public void CreateAnswer(Callback <RTCSessionDescription> callback)
{
MustNotDisposed();
_peerConnectionImpl.CreateAnswer(callback);
}
private async void Window_Initialized(object sender, EventArgs e)
{
_peerConnection = new PeerConnection();
var config = new PeerConnectionConfiguration
{
IceServers = new List <IceServer> {
new IceServer {
Urls = { "turn:35.193.0.31:3478" }, TurnPassword = "******", TurnUserName = "******"
}
}
};
_peerConnection.Connected += () =>
{
Debugger.Log(0, "", "Peerconnection: DONE");
};
_peerConnection.IceStateChanged += (IceConnectionState newState) =>
{
Debugger.Log(0, "", $"ICE state: {newState}\n");
};
await _peerConnection.InitializeAsync(config);
_dc = await _peerConnection.AddDataChannelAsync(14, "vzgo", true, true);
Debugger.Log(0, "", "Peer connection initialized successfully.\n");
_peerConnection.LocalSdpReadytoSend += Peer_LocalSdpReadytoSendAsync;
_peerConnection.IceCandidateReadytoSend += Peer_IceCandidateReadytoSend;
_hubConnection = new HubConnectionBuilder()
.WithUrl(new Uri(SignallerConstants.SignallerUrl))
.AddJsonProtocol()
.WithAutomaticReconnect(new[] { TimeSpan.Zero, TimeSpan.Zero, TimeSpan.FromSeconds(10) })
.Build();
_hubConnection.On <string>("Message", (message) =>
{
var msg = JsonConvert.DeserializeObject <SignallingMessage>(message);
switch (msg.MessageType)
{
case SignallingMessage.WireMessageType.Offer:
_peerConnection.SetRemoteDescription("offer", msg.Data);
_peerConnection.CreateAnswer();
break;
case SignallingMessage.WireMessageType.Answer:
_peerConnection.SetRemoteDescription("answer", msg.Data);
break;
case SignallingMessage.WireMessageType.Ice:
var parts = msg.Data.Split(new string[] { msg.IceDataSeparator },
StringSplitOptions.RemoveEmptyEntries);
// Note the inverted arguments for historical reasons.
// 'candidate' is last in AddIceCandidate(), but first in the message.
string sdpMid = parts[2];
int sdpMlineindex = int.Parse(parts[1]);
string candidate = parts[0];
_peerConnection.AddIceCandidate(sdpMid, sdpMlineindex, candidate);
break;
}
});
await _hubConnection.StartAsync();
await _hubConnection.InvokeAsync("JoinRoom", SignallerConstants.RoomName);
}
static async Task Main(string[] args)
{
DataChannel dataChannel = null;
try
{
// Create a new peer connection automatically disposed at the end of the program
using var pc = new PeerConnection();
// Initialize the connection with a STUN server to allow remote access
var config = new PeerConnectionConfiguration
{
IceServers = new List <IceServer> {
new IceServer {
Urls = { "stun:stun.l.google.com:19302" }
}
}
};
await pc.InitializeAsync(config);
Console.WriteLine("Peer connection initialized.");
Console.WriteLine("Opening data channel");
dataChannel = await pc.AddDataChannelAsync("data", true, true);
// Setup signaling
Console.WriteLine("Starting signaling...");
var signaler = new NamedPipeSignaler.NamedPipeSignaler(pc, "testpipe");
signaler.SdpMessageReceived += (string type, string sdp) => {
pc.SetRemoteDescription(type, sdp);
if (type == "offer")
{
pc.CreateAnswer();
}
};
signaler.IceCandidateReceived += (string sdpMid, int sdpMlineindex, string candidate) => {
pc.AddIceCandidate(sdpMid, sdpMlineindex, candidate);
};
await signaler.StartAsync();
// Start peer connection
pc.Connected += () => { Console.WriteLine("PeerConnection: connected."); };
pc.IceStateChanged += (IceConnectionState newState) => { Console.WriteLine($"ICE state: {newState}"); };
pc.DataChannelAdded += (DataChannel c) =>
{
Console.WriteLine("DataChannel added");
c.MessageReceived += (byte[] _msg) =>
{
Console.WriteLine("received {0} bytes", _msg.Length);
};
};
if (signaler.IsClient)
{
Console.WriteLine("Connecting to remote peer...");
pc.CreateOffer();
}
else
{
Console.WriteLine("Waiting for offer from remote peer...");
}
Console.WriteLine("Press a 'S' to send data. 'Esc' to exit ...");
ConsoleKeyInfo key;
while ((key = Console.ReadKey(true)).Key != ConsoleKey.Escape)
{
if (key.Key == ConsoleKey.S)
{
Console.WriteLine("Sending data");
dataChannel.SendMessage(new byte[3000]);
}
}
signaler.Stop();
}
catch (Exception e)
{
Console.WriteLine(e.Message);
}
Console.WriteLine("Program termined.");
}
static async Task Main()
{
try
{
Console.WriteLine("Starting...");
//create and Initialize capture object to record audio
var waveFormat = new WaveFormat(44100, 32, 2, AudioEncoding.MpegLayer3);
WasapiCapture capture = new WasapiCapture(true, AudioClientShareMode.Shared, 100, waveFormat);
//initialize the selected device for recording
capture.Initialize();
//fill ice servers here
List <string> urls = new List <string>();
using var pc = new PeerConnection();
var config = new PeerConnectionConfiguration
{
IceServers = new List <IceServer> {
new IceServer {
Urls = urls,
}
}
,
BundlePolicy = BundlePolicy.MaxBundle
};
await pc.InitializeAsync(config);
Console.WriteLine("Peer connection initialized.");
//create audio transceiver
Transceiver transceiver = pc.AddTransceiver(MediaKind.Audio);
transceiver.DesiredDirection = Transceiver.Direction.ReceiveOnly;
Console.WriteLine("Create audio transceiver ...");
DataChannel chanel = await pc.AddDataChannelAsync("Data", true, true, cancellationToken : default);
string url = "";
WebSocketSharp.WebSocket signaling = new WebSocket(url);
signaling.SslConfiguration.EnabledSslProtocols = System.Security.Authentication.SslProtocols.Tls12;
signaling.OnMessage += async(sender, message) =>
{
try
{
//response messages may differ from service provider to another, adjust WebsocketResponse object accordingly
var messageObject = JsonConvert.DeserializeObject <WebsocketResponse>(message.Data);
var mess = new SdpMessage {
Content = messageObject.Data.Sdp, Type = SdpMessage.StringToType("answer")
};
if (!string.IsNullOrEmpty(mess.Content))
{
Console.WriteLine("Sdpmessage: {0}, Type: {1}", mess.Content, mess.Type);
await pc.SetRemoteDescriptionAsync(mess);
if (mess.Type == SdpMessageType.Answer)
{
bool res = pc.CreateAnswer();
Console.WriteLine("Answer created? {0}", res);
}
}
}
catch (Exception e)
{
Console.WriteLine(e.Message);
}
};
signaling.OnError += (sender, e) =>
{
Console.WriteLine(e.Message, e.Exception);
};
signaling.OnOpen += (sender, e) =>
{
pc.CreateOffer();
Console.WriteLine("open");
};
signaling.Connect();
transceiver.Associated += (tranciever) =>
{
Console.WriteLine("Transivier: {0}, {1}", tranciever.Name, tranciever.StreamIDs);
};
pc.LocalSdpReadytoSend += (SdpMessage message) =>
{
Console.WriteLine(message.Content);
//modify the offer message according to your need
var data = new
{
streamId = "",
sdp = message.Content
};
var payload = JsonConvert.SerializeObject(new
{
type = "cmd",
transId = 0,
name = "view",
data = data
});
Console.WriteLine("Sdp offer to send: " + payload);
signaling.Send(payload);
};
pc.RenegotiationNeeded += () =>
{
Console.WriteLine("Regotiation needed");
};
//when a remote audio track is added, start recording
pc.AudioTrackAdded += (RemoteAudioTrack track) =>
{
//create a wavewriter to write the data to
WaveWriter w = new WaveWriter("audio.mp3", capture.WaveFormat);
//setup an eventhandler to receive the recorded data
capture.DataAvailable += (s, e) =>
{
//save the recorded audio
w.Write(e.Data, e.Offset, e.ByteCount);
};
//start recording
capture.Start();
//this should output the sound
track.OutputToDevice(true);
//track.AudioFrameReady += (AudioFrame frame) =>
//{
//you can print anything here if you want to make sure that's you're recieving audio
//};
};
pc.Connected += () =>
{
Console.WriteLine("Connected");
Console.WriteLine(pc.DataChannels.Count);
};
pc.IceStateChanged += (IceConnectionState newState) =>
{
Console.WriteLine($"ICE state: {newState}");
};
Console.WriteLine("Press enter to stop");
Console.ReadLine();
//stop recording
capture.Stop();
pc.Close();
signaling.Close();
Console.WriteLine("Program termined.");
}
catch (Exception e)
{
Console.WriteLine(e.Message);
}
}
public async Task <string> InitiateCallRTC()
{
var list = new List <string>();
list.Add(this.Configuration.GetSection("Key")["iceServer"]);
AudioTrackSource microphoneSource = null;
LocalAudioTrack localAudioTrack = null;
Transceiver audioTransceiver = null;
var iceServer = new IceServer
{
Urls = list,
TurnPassword = this.Configuration.GetSection("Key")["turnPwd"],
TurnUserName = this.Configuration.GetSection("Key")["turnUser"]
};
var serverList = new List <IceServer>();
serverList.Add(iceServer);
var connectionConfig = new PeerConnectionConfiguration {
IceServers = serverList,
IceTransportType = IceTransportType.All,
BundlePolicy = BundlePolicy.Balanced,
SdpSemantic = SdpSemantic.UnifiedPlan
};
var connection = new PeerConnection();
await connection.InitializeAsync(connectionConfig);
microphoneSource = await DeviceAudioTrackSource.CreateAsync();
var audioTrackConfig = new LocalAudioTrackInitConfig
{
trackName = "microphone_track"
};
localAudioTrack = LocalAudioTrack.CreateFromSource(microphoneSource, audioTrackConfig);
audioTransceiver = connection.AddTransceiver(MediaKind.Audio);
audioTransceiver.LocalAudioTrack = localAudioTrack;
audioTransceiver.DesiredDirection = Transceiver.Direction.SendReceive;
var signaler = new NamedPipeSignaler.NamedPipeSignaler(connection, "testpipe");
connection.Connected += () => {
Console.WriteLine("PeerConnection: connected.");
};
signaler.SdpMessageReceived += async(SdpMessage message) =>
{
// Note: we use 'await' to ensure the remote description is applied
// before calling CreateAnswer(). Failing to do so will prevent the
// answer from being generated, and the connection from establishing.
await connection.SetRemoteDescriptionAsync(message);
if (message.Type == SdpMessageType.Offer)
{
connection.CreateAnswer();
}
};
await signaler.StartAsync();
signaler.IceCandidateReceived += (IceCandidate candidate) => {
connection.AddIceCandidate(candidate);
};
connection.IceStateChanged += (IceConnectionState newState) => {
Console.WriteLine($"ICE state: {newState}");
};
if (signaler.IsClient)
{
Console.WriteLine("Connecting to remote peer...");
connection.CreateOffer();
}
else
{
Console.WriteLine("Waiting for offer from remote peer...");
}
return(connection.IsConnected + "-" + connection.Name + "-");
}