public async Task TestProcAsync(Func <JsonRpc, CancellationToken, Task> mainFunc)
{
var cancellationTokenSrc = new CancellationTokenSource();
var cancellationToken = cancellationTokenSrc.Token;
using (var socket = new ClientWebSocket())
{
socket.Options.RemoteCertificateValidationCallback = (a, b, c, d) => true;
var uri = new Uri(LyraGlobal.SelectNode(NetworkId));
var wssUrl = $"wss://{uri.Host}:{uri.Port}/api/v1/socket";
await socket.ConnectAsync(new Uri(wssUrl), cancellationToken);
using (var jsonRpc = new JsonRpc(new WebSocketMessageHandler(socket)))
{
try
{
jsonRpc.AddLocalRpcMethod("Sign", new Func <string, string, string, Task <string[]> >(
async(type, msg, accountId) =>
{
var sign = await SignMessageAsync(msg);
return(new string[] { "p1393", sign });
}
));
jsonRpc.AddLocalRpcMethod("Notify", new Action <JObject>(
(newsObj) =>
{
var news = newsObj.ToObject <News>();
if (news.catalog == "Receiving")
{
RecvNotify(news.content as JObject);
}
}
));
jsonRpc.StartListening();
await mainFunc(jsonRpc, cancellationToken);
cancellationTokenSrc.Cancel();
await jsonRpc.Completion.WithCancellation(cancellationToken);
}
catch (OperationCanceledException)
{
// Closing is initiated by Ctrl+C on the client.
// Close the web socket gracefully -- before JsonRpc is disposed to avoid the socket going into an aborted state.
await socket.CloseAsync(WebSocketCloseStatus.NormalClosure, "Client closing", CancellationToken.None);
//throw;
}
catch
{
throw;
}
}
}
}
static async Task MainAsync(CancellationToken cancellationToken)
{
Console.WriteLine("Connecting to web socket...");
using (var socket = new ClientWebSocket())
{
await socket.ConnectAsync(new Uri("wss://localhost:44392/socket"), cancellationToken);
Console.WriteLine("Connected to web socket. Establishing JSON-RPC protocol...");
using (var jsonRpc = new JsonRpc(new WebSocketMessageHandler(socket)))
{
try
{
jsonRpc.AddLocalRpcMethod("Tick", new Action <int>(tick => Console.WriteLine($"Tick {tick}!")));
jsonRpc.StartListening();
Console.WriteLine("JSON-RPC protocol over web socket established.");
int result = await jsonRpc.InvokeWithCancellationAsync <int>("Add", new object[] { 1, 2 }, cancellationToken);
Console.WriteLine($"JSON-RPC server says 1 + 2 = {result}");
// Request notifications from the server.
await jsonRpc.NotifyAsync("SendTicksAsync");
await jsonRpc.Completion.WithCancellation(cancellationToken);
}
catch (OperationCanceledException)
{
// Closing is initiated by Ctrl+C on the client.
// Close the web socket gracefully -- before JsonRpc is disposed to avoid the socket going into an aborted state.
await socket.CloseAsync(WebSocketCloseStatus.NormalClosure, "Client closing", CancellationToken.None);
throw;
}
}
}
}
/// <summary>
/// RPCに接続する
/// </summary>
/// <param name="ws">WebSocket</param>
/// <returns></returns>
private async Task ConnectRpcAsync(ClientWebSocket ws)
{
Rpc = new JsonRpc(new WebSocketMessageHandler(ws));
Rpc.Disconnected += (s, e) =>
{
// 切断されたときの処理
if (Logger != null)
{
Logger.LogWarning($"切断されました {ToString()}");
isWebSocketConnected = false;
var t = RunAsync();
}
};
Rpc.AddLocalRpcMethod(ChannelMessage, new Action <JToken, CancellationToken>((@params, cancellationToken) =>
{
// 受信したときの処理
var p = @params as dynamic;
// 受信したメッセージ(json)をイベントに送る
OnGetMessage(new TextEventArgs(p.message.ToString()));
}));
Rpc.StartListening();
await Rpc.InvokeWithParameterObjectAsync <object>("subscribe", new { channel = ChannelName });
}
internal LanguageServerTarget(
AbstractRequestDispatcherFactory requestDispatcherFactory,
JsonRpc jsonRpc,
ICapabilitiesProvider capabilitiesProvider,
LspWorkspaceRegistrationService workspaceRegistrationService,
LspMiscellaneousFilesWorkspace?lspMiscellaneousFilesWorkspace,
IGlobalOptionService globalOptions,
IAsynchronousOperationListenerProvider listenerProvider,
ILspLogger logger,
ImmutableArray <string> supportedLanguages,
string?clientName,
WellKnownLspServerKinds serverKind)
{
_requestDispatcher = requestDispatcherFactory.CreateRequestDispatcher(serverKind);
_capabilitiesProvider = capabilitiesProvider;
_logger = logger;
_jsonRpc = jsonRpc;
_jsonRpc.AddLocalRpcTarget(this);
_jsonRpc.Disconnected += JsonRpc_Disconnected;
_listener = listenerProvider.GetListener(FeatureAttribute.LanguageServer);
_clientName = clientName;
_queue = new RequestExecutionQueue(
logger,
workspaceRegistrationService,
lspMiscellaneousFilesWorkspace,
globalOptions,
supportedLanguages,
serverKind);
_queue.RequestServerShutdown += RequestExecutionQueue_Errored;
var entryPointMethod = typeof(DelegatingEntryPoint).GetMethod(nameof(DelegatingEntryPoint.EntryPointAsync));
Contract.ThrowIfNull(entryPointMethod, $"{typeof(DelegatingEntryPoint).FullName} is missing method {nameof(DelegatingEntryPoint.EntryPointAsync)}");
foreach (var metadata in _requestDispatcher.GetRegisteredMethods())
{
// Instead of concretely defining methods for each LSP method, we instead dynamically construct
// the generic method info from the exported handler types. This allows us to define multiple handlers for the same method
// but different type parameters. This is a key functionality to support TS external access as we do not want to couple
// our LSP protocol version dll to theirs.
//
// We also do not use the StreamJsonRpc support for JToken as the rpc method parameters because we want
// StreamJsonRpc to do the deserialization to handle streaming requests using IProgress<T>.
var delegatingEntryPoint = new DelegatingEntryPoint(metadata.MethodName, this);
var genericEntryPointMethod = entryPointMethod.MakeGenericMethod(metadata.RequestType, metadata.ResponseType);
_jsonRpc.AddLocalRpcMethod(genericEntryPointMethod, delegatingEntryPoint, new JsonRpcMethodAttribute(metadata.MethodName)
{
UseSingleObjectParameterDeserialization = true
});
}
}
/// <summary>
/// Initializes a new instance of the <see cref="MessageFormatterEnumerableTracker"/> class.
/// </summary>
/// <param name="jsonRpc">The <see cref="JsonRpc"/> instance that may be used to send or receive RPC messages related to <see cref="IAsyncEnumerable{T}"/>.</param>
/// <param name="formatterState">The formatter that owns this tracker.</param>
public MessageFormatterEnumerableTracker(JsonRpc jsonRpc, IJsonRpcFormatterState formatterState)
{
Requires.NotNull(jsonRpc, nameof(jsonRpc));
Requires.NotNull(formatterState, nameof(formatterState));
this.jsonRpc = jsonRpc;
this.formatterState = formatterState;
jsonRpc.AddLocalRpcMethod(NextMethodName, OnNextAsyncMethodInfo, this);
jsonRpc.AddLocalRpcMethod(DisposeMethodName, OnDisposeAsyncMethodInfo, this);
this.formatterState = formatterState;
// We don't offer a way to remove these handlers because this object should has a lifetime closely tied to the JsonRpc object anyway.
IJsonRpcFormatterCallbacks callbacks = jsonRpc;
callbacks.RequestTransmissionAborted += (s, e) => this.CleanUpResources(e.RequestId);
callbacks.ResponseReceived += (s, e) => this.CleanUpResources(e.RequestId);
}
private void AddLocalRpcMethod(string localMethodName, string rpcMethodName)
{
_rpc.AddLocalRpcMethod(
handler: typeof(MsSqlServiceClient).GetMethod(localMethodName),
target: this,
methodRpcSettings: new JsonRpcMethodAttribute(rpcMethodName)
{
UseSingleObjectParameterDeserialization = true
});
}
internal LanguageServerTarget(
AbstractLspServiceProvider lspServiceProvider,
JsonRpc jsonRpc,
ICapabilitiesProvider capabilitiesProvider,
IAsynchronousOperationListenerProvider listenerProvider,
ILspLogger logger,
ImmutableArray <string> supportedLanguages,
WellKnownLspServerKinds serverKind)
{
_capabilitiesProvider = capabilitiesProvider;
_logger = logger;
_jsonRpc = jsonRpc;
_jsonRpc.AddLocalRpcTarget(this);
_jsonRpc.Disconnected += JsonRpc_Disconnected;
_listener = listenerProvider.GetListener(FeatureAttribute.LanguageServer);
// Add services that require base dependencies (jsonrpc) or are more complex to create to the set manually.
_lspServices = lspServiceProvider.CreateServices(serverKind, ImmutableArray.Create(
CreateLspServiceInstance <ILanguageServerNotificationManager>(new LanguageServerNotificationManager(_jsonRpc)),
CreateLspServiceInstance(logger),
CreateLspServiceInstance <IClientCapabilitiesProvider>(this)));
_queue = new RequestExecutionQueue(
supportedLanguages,
serverKind,
_lspServices);
_queue.RequestServerShutdown += RequestExecutionQueue_Errored;
_requestDispatcher = _lspServices.GetRequiredService <RequestDispatcher>();
var entryPointMethod = typeof(DelegatingEntryPoint).GetMethod(nameof(DelegatingEntryPoint.EntryPointAsync));
Contract.ThrowIfNull(entryPointMethod, $"{typeof(DelegatingEntryPoint).FullName} is missing method {nameof(DelegatingEntryPoint.EntryPointAsync)}");
foreach (var metadata in _requestDispatcher.GetRegisteredMethods())
{
// Instead of concretely defining methods for each LSP method, we instead dynamically construct the
// generic method info from the exported handler types. This allows us to define multiple handlers for
// the same method but different type parameters. This is a key functionality to support TS external
// access as we do not want to couple our LSP protocol version dll to theirs.
//
// We also do not use the StreamJsonRpc support for JToken as the rpc method parameters because we want
// StreamJsonRpc to do the deserialization to handle streaming requests using IProgress<T>.
var delegatingEntryPoint = new DelegatingEntryPoint(metadata.MethodName, this);
var genericEntryPointMethod = entryPointMethod.MakeGenericMethod(metadata.RequestType, metadata.ResponseType);
_jsonRpc.AddLocalRpcMethod(genericEntryPointMethod, delegatingEntryPoint, new JsonRpcMethodAttribute(metadata.MethodName)
{
UseSingleObjectParameterDeserialization = true
});
}
static async Task Main(string[] args)
{
Console.WriteLine("Kurento Echo Test Client");
logger = AddConsoleLogger();
CancellationTokenSource cts = new CancellationTokenSource();
var ws = new ClientWebSocket();
await ws.ConnectAsync(new Uri(KURENTO_JSONRPC_URL), cts.Token);
logger.LogDebug($"Successfully connected web socket client to {KURENTO_JSONRPC_URL}.");
try
{
using (var jsonRpc = new JsonRpc(new WebSocketMessageHandler(ws)))
{
jsonRpc.AddLocalRpcMethod("ping", new Action(() =>
{
logger.LogDebug($"Ping received");
}
));
jsonRpc.AddLocalRpcMethod("onEvent", new Action <KurentoEvent>((evt) =>
{
logger.LogDebug($"Event received type={evt.type}, source={evt.data.source}");
}
));
jsonRpc.StartListening();
// Check the server is there.
var pingResult = await jsonRpc.InvokeWithParameterObjectAsync <KurentoResult>(
KurentoMethodsEnum.ping.ToString(),
new { interval = KEEP_ALIVE_INTERVAL_MS },
cts.Token);
logger.LogDebug($"Ping result={pingResult.value}.");
// Create a media pipeline.
var createPipelineResult = await jsonRpc.InvokeWithParameterObjectAsync <KurentoResult>(
KurentoMethodsEnum.create.ToString(),
new { type = "MediaPipeline" },
cts.Token);
logger.LogDebug($"Create media pipeline result={createPipelineResult.value}, sessionID={createPipelineResult.sessionId}.");
var sessionID = createPipelineResult.sessionId;
var mediaPipeline = createPipelineResult.value;
// Create a WebRTC end point.
var createEndPointResult = await jsonRpc.InvokeWithParameterObjectAsync <KurentoResult>(
KurentoMethodsEnum.create.ToString(),
new
{
type = "WebRtcEndpoint",
constructorParams = new { mediaPipeline = mediaPipeline },
sessionId = sessionID
},
cts.Token);
logger.LogDebug($"Create WebRTC endpoint result={createEndPointResult.value}.");
var webRTCEndPointID = createEndPointResult.value;
// Connect the WebRTC end point to itself to create a loopback connection (no result for this operation).
await jsonRpc.InvokeWithParameterObjectAsync <KurentoResult>(
KurentoMethodsEnum.invoke.ToString(),
new
{
@object = webRTCEndPointID,
operation = "connect",
operationParams = new { sink = webRTCEndPointID },
sessionId = sessionID
},
cts.Token);
// Subscribe for events from the WebRTC end point.
var subscribeResult = await jsonRpc.InvokeWithParameterObjectAsync <KurentoResult>(
KurentoMethodsEnum.subscribe.ToString(),
new
{
@object = webRTCEndPointID,
type = "IceCandidateFound",
sessionId = sessionID
},
cts.Token);
logger.LogDebug($"Subscribe to WebRTC endpoint subscription ID={subscribeResult.value}.");
var subscriptionID = subscribeResult.value;
subscribeResult = await jsonRpc.InvokeWithParameterObjectAsync <KurentoResult>(
KurentoMethodsEnum.subscribe.ToString(),
new
{
@object = webRTCEndPointID,
type = "OnIceCandidate",
sessionId = sessionID
},
cts.Token);
logger.LogDebug($"Subscribe to WebRTC endpoint subscription ID={subscribeResult.value}.");
var pc = CreatePeerConnection();
var offer = pc.createOffer(null);
await pc.setLocalDescription(offer);
// Send SDP offer.
var processOfferResult = await jsonRpc.InvokeWithParameterObjectAsync <KurentoResult>(
KurentoMethodsEnum.invoke.ToString(),
new
{
@object = webRTCEndPointID,
operation = "processOffer",
operationParams = new { offer = offer.sdp },
sessionId = sessionID
},
cts.Token);
logger.LogDebug($"SDP answer={processOfferResult.value}.");
var setAnswerResult = pc.setRemoteDescription(new RTCSessionDescriptionInit
{
type = RTCSdpType.answer,
sdp = processOfferResult.value
});
logger.LogDebug($"Set WebRTC peer connection answer result={setAnswerResult}.");
// Tell Kurento to start ICE.
var gatherCandidatesResult = await jsonRpc.InvokeWithParameterObjectAsync <KurentoResult>(
KurentoMethodsEnum.invoke.ToString(),
new
{
@object = webRTCEndPointID,
operation = "gatherCandidates",
sessionId = sessionID
},
cts.Token);
logger.LogDebug($"Gather candidates result={gatherCandidatesResult.value}.");
Console.ReadLine();
}
}
catch (RemoteInvocationException invokeExcp)
{
logger.LogError($"JSON RPC invoke exception, error code={invokeExcp.ErrorCode}, msg={invokeExcp.Message}.");
}
}
/// <summary>
/// Connects to the snapserver and sets up local RPC methods
/// </summary>
/// <param name="ip">IP address to connect to</param>
/// <param name="port">port to connect on</param>
/// <returns></returns>
public async Task ConnectAsync(string ip, int port, int timeout = 3000)
{
// connect
m_Ip = ip;
m_Port = port;
ConnectionFailed = false;
ServerData = null;
m_TcpClient = new TcpClient();
try
{
//if (m_TcpClient.ConnectAsync(ip, port).Wait(timeout) == false)
var connectAsync = m_TcpClient.ConnectAsync(ip, port);
//await (m_TcpClient.ConnectAsync(ip, port)).
if ((await Task.WhenAny(connectAsync, Task.Delay(timeout)) != connectAsync) || string.IsNullOrEmpty(ip))
{
_HandleConnectionFailure();
return;
}
}
catch (Exception e)
{
// logging this to debug because we don't want to spam the log file (connection gets retried indefinitely if it had previously succeeded)
Debug("Connect exception: ", e.Message);
_HandleConnectionFailure();
return;
}
if (m_TcpClient.Connected == false)
{
_HandleConnectionFailure();
return;
}
// attach StreamJsonRpc (NewLineDelimited)
m_Stream = m_TcpClient.GetStream();
// UnbatchingNewLineDelimitedMessageHandler adapted from UnbatchingWebSocketMessageHandler
// https://github.com/microsoft/vs-streamjsonrpc/compare/master...AArnott:sampleUnbatchingMessageHandler
m_JsonRpc = new StreamJsonRpc.JsonRpc(new UnbatchingNewLineDelimitedMessageHandler(m_Stream, m_Stream));
//m_JsonRpc.TraceSource.Switch.Level = SourceLevels.All; // uncomment if you need detailed json-rpc logs
// register methods (must be done before listening starts)
m_JsonRpc.AddLocalRpcMethod("Server.OnUpdate", new Action <JsonRpcData.ServerData>((server) =>
{
Debug("Received Server.OnUpdate - {0}", server);
_ServerUpdated(server);
}));
m_JsonRpc.AddLocalRpcMethod("Client.OnVolumeChanged", new Action <string, JsonRpcData.Volume>((id, volume) =>
{
Debug("Received Client.OnVolumeChanged - id {0}, volume {1}", id, volume);
_ClientVolumeChanged(id, volume);
}));
m_JsonRpc.AddLocalRpcMethod("Client.OnNameChanged", new Action <string, string>((id, name) =>
{
Debug("Received Client.OnNameChanged - id {0}, name {1}", id, name);
_ClientNameChanged(id, name);
}));
m_JsonRpc.AddLocalRpcMethod("Client.OnLatencyChanged", new Action <string, int>((id, latency) =>
{
Debug("Received Client.OnLatencyChanged - id {0}, latency {1}", id, latency);
_ClientLatencyChanged(id, latency);
}));
m_JsonRpc.AddLocalRpcMethod("Client.OnConnect", new Action <string, JsonRpcData.Client>((id, client) =>
{
// when the server's been down, we keep trying to reconnect (as does every other client)
// when reconnection succeeds, we might see other clients' OnConnect calls come in
// before our own Server.GetStatus has completed. In that case, we queue these
// and execute them as soon as we've received the server data
Debug("Received Client.OnConnect - id {0}, client {1}", id, client);
if (ServerData != null)
{
_ClientConnectedOrDisconnected(id, client);
}
else
{
m_QueuedMessages.Enqueue(() => { _ClientConnectedOrDisconnected(id, client); });
}
}));
m_JsonRpc.AddLocalRpcMethod("Client.OnDisconnect", new Action <string, JsonRpcData.Client>((id, client) =>
{
Debug("Received Client.OnDisconnect - id {0}, client {1}", id, client);
_ClientConnectedOrDisconnected(id, client);
}));
m_JsonRpc.AddLocalRpcMethod("Group.OnMute", new Action <string, bool>((id, mute) =>
{
Debug("Received Group.OnMute - id {0}, mute {1}", id, mute);
_GroupMuteChanged(id, mute);
}));
m_JsonRpc.AddLocalRpcMethod("Group.OnNameChanged", new Action <string, string>((id, name) =>
{
Debug("Received Group.OnNameChanged - id {0}, name {1}", id, name);
_GroupNameChanged(id, name);
}));
m_JsonRpc.AddLocalRpcMethod("Group.OnStreamChanged", new Action <string, string>((id, stream_id) =>
{
Debug("Received Group.OnStreamChanged - id {0}, stream_id {1}", id, stream_id);
_GroupStreamChanged(id, stream_id);
}));
m_JsonRpc.AddLocalRpcMethod("Stream.OnUpdate", new Action <string, Stream>((id, stream) =>
{
Debug("Received Stream.OnUpdate - id {0}, stream {1}", id, stream);
_StreamUpdated(id, stream);
}));
m_JsonRpc.AddLocalRpcMethod("Stream.OnProperties", new Action <string, Properties>((id, properties) =>
{
Debug("Received Stream.OnProperties - id {0}, properties {1}", id, properties);
_StreamPropertiesUpdated(id, properties);
}));
m_JsonRpc.StartListening();
// call Server.GetStatus to get all metadata
await GetServerStatusAsync();
// make sure we find out if connection drops
_StartReconnectLoop();
}
private async static Task OfferAsync(IHttpContext context)
{
var offer = await context.GetRequestDataAsync <RTCSessionDescriptionInit>();
logger.LogDebug($"SDP Offer={offer.sdp}");
var jsonOptions = new JsonSerializerOptions();
jsonOptions.Converters.Add(new System.Text.Json.Serialization.JsonStringEnumConverter());
CancellationTokenSource cts = new CancellationTokenSource();
var ws = new ClientWebSocket();
await ws.ConnectAsync(new Uri(KURENTO_JSONRPC_URL), cts.Token);
logger.LogDebug($"Successfully connected web socket client to {KURENTO_JSONRPC_URL}.");
try
{
using (var jsonRpc = new JsonRpc(new WebSocketMessageHandler(ws)))
{
jsonRpc.AddLocalRpcMethod("ping", new Action(() =>
{
logger.LogDebug($"Ping received");
}
));
jsonRpc.AddLocalRpcMethod("onEvent", new Action <KurentoEvent>((evt) =>
{
logger.LogDebug($"Event received type={evt.type}, source={evt.data.source}");
}
));
jsonRpc.StartListening();
// Check the server is there.
var pingResult = await jsonRpc.InvokeWithParameterObjectAsync <KurentoResult>(
KurentoMethodsEnum.ping.ToString(),
new { interval = KEEP_ALIVE_INTERVAL_MS },
cts.Token);
logger.LogDebug($"Ping result={pingResult.value}.");
// Create a media pipeline.
var createPipelineResult = await jsonRpc.InvokeWithParameterObjectAsync <KurentoResult>(
KurentoMethodsEnum.create.ToString(),
new { type = "MediaPipeline" },
cts.Token);
logger.LogDebug($"Create media pipeline result={createPipelineResult.value}, sessionID={createPipelineResult.sessionId}.");
var sessionID = createPipelineResult.sessionId;
var mediaPipeline = createPipelineResult.value;
// Create a WebRTC end point.
var createEndPointResult = await jsonRpc.InvokeWithParameterObjectAsync <KurentoResult>(
KurentoMethodsEnum.create.ToString(),
new
{
type = "WebRtcEndpoint",
constructorParams = new { mediaPipeline = mediaPipeline },
sessionId = sessionID
},
cts.Token);
logger.LogDebug($"Create WebRTC endpoint result={createEndPointResult.value}.");
var webRTCEndPointID = createEndPointResult.value;
// Connect the WebRTC end point to itself to create a loopback connection (no result for this operation).
await jsonRpc.InvokeWithParameterObjectAsync <KurentoResult>(
KurentoMethodsEnum.invoke.ToString(),
new
{
@object = webRTCEndPointID,
operation = "connect",
operationParams = new { sink = webRTCEndPointID },
sessionId = sessionID
},
cts.Token);
// Subscribe for events from the WebRTC end point.
var subscribeResult = await jsonRpc.InvokeWithParameterObjectAsync <KurentoResult>(
KurentoMethodsEnum.subscribe.ToString(),
new
{
@object = webRTCEndPointID,
type = "IceCandidateFound",
sessionId = sessionID
},
cts.Token);
logger.LogDebug($"Subscribe to WebRTC endpoint subscription ID={subscribeResult.value}.");
var subscriptionID = subscribeResult.value;
subscribeResult = await jsonRpc.InvokeWithParameterObjectAsync <KurentoResult>(
KurentoMethodsEnum.subscribe.ToString(),
new
{
@object = webRTCEndPointID,
type = "OnIceCandidate",
sessionId = sessionID
},
cts.Token);
logger.LogDebug($"Subscribe to WebRTC endpoint subscription ID={subscribeResult.value}.");
// Send SDP offer.
var processOfferResult = await jsonRpc.InvokeWithParameterObjectAsync <KurentoResult>(
KurentoMethodsEnum.invoke.ToString(),
new
{
@object = webRTCEndPointID,
operation = "processOffer",
operationParams = new { offer = offer.sdp },
sessionId = sessionID
},
cts.Token);
logger.LogDebug($"SDP answer={processOfferResult.value}.");
RTCSessionDescriptionInit answerInit = new RTCSessionDescriptionInit
{
type = RTCSdpType.answer,
sdp = processOfferResult.value
};
context.Response.ContentType = "application/json";
using (var responseStm = context.OpenResponseStream(false, false))
{
await JsonSerializer.SerializeAsync(responseStm, answerInit, jsonOptions);
}
// Tell Kurento to start ICE.
var gatherCandidatesResult = await jsonRpc.InvokeWithParameterObjectAsync <KurentoResult>(
KurentoMethodsEnum.invoke.ToString(),
new
{
@object = webRTCEndPointID,
operation = "gatherCandidates",
sessionId = sessionID
},
cts.Token);
logger.LogDebug($"Gather candidates result={gatherCandidatesResult.value}.");
}
}
catch (RemoteInvocationException invokeExcp)
{
logger.LogError($"JSON RPC invoke exception, error code={invokeExcp.ErrorCode}, msg={invokeExcp.Message}.");
}
}
