public void Play() { Rtsp.Messages.RtspRequest play_message = new Rtsp.Messages.RtspRequestPlay(); play_message.RtspUri = new Uri(url); play_message.Session = session; if (rtsp_client != null) { rtsp_client.SendMessage(play_message); } }
/// <summary> /// Gets the Rtsp request. /// </summary> /// <param name="aRequestParts">A request parts.</param> /// <returns>the parsed request</returns> internal static RtspMessage GetRtspRequest(string[] aRequestParts) { // <pex> Debug.Assert(aRequestParts != (string[])null, "aRequestParts"); Debug.Assert(aRequestParts.Length != 0, "aRequestParts.Length == 0"); // </pex> // we already know this is a Request RtspRequest returnValue; switch (ParseRequest(aRequestParts[0])) { case RequestType.OPTIONS: returnValue = new RtspRequestOptions(); break; case RequestType.SETUP: returnValue = new RtspRequestSetup(); break; case RequestType.PLAY: returnValue = new RtspRequestPlay(); break; /* * case RequestType.DESCRIBE: * break; * case RequestType.ANNOUNCE: * break; * case RequestType.GET_PARAMETER: * break; * * case RequestType.PAUSE: * break; * * case RequestType.RECORD: * break; * case RequestType.REDIRECT: * break; * * case RequestType.SET_PARAMETER: * break; * case RequestType.TEARDOWN: * break; */ case RequestType.UNKNOWN: default: returnValue = new RtspRequest(); break; } return(returnValue); }
public void Play() { if (rtsp_client != null) { // Send PLAY Rtsp.Messages.RtspRequest play_message = new Rtsp.Messages.RtspRequestPlay(); play_message.RtspUri = new Uri(url); play_message.Session = session; if (auth_type != null) { AddAuthorization(play_message, username, password, auth_type, realm, nonce, url); } rtsp_client.SendMessage(play_message); } }
/// <summary> /// Gets the Rtsp request. /// </summary> /// <param name="aRequestParts">A request parts.</param> /// <returns>the parsed request</returns> internal static RtspMessage GetRtspRequest(string[] aRequestParts, ILogger logger) { // <pex> Debug.Assert(aRequestParts != (string[])null, "aRequestParts"); Debug.Assert(aRequestParts.Length != 0, "aRequestParts.Length == 0"); // </pex> // we already know this is a Request RtspRequest returnValue; switch (ParseRequest(aRequestParts[0])) { case RequestType.OPTIONS: returnValue = new RtspRequestOptions(logger); break; case RequestType.DESCRIBE: returnValue = new RtspRequestDescribe(logger); break; case RequestType.SETUP: returnValue = new RtspRequestSetup(logger); break; case RequestType.PLAY: returnValue = new RtspRequestPlay(logger); break; case RequestType.PAUSE: returnValue = new RtspRequestPause(logger); break; case RequestType.TEARDOWN: returnValue = new RtspRequestTeardown(logger); break; case RequestType.GET_PARAMETER: returnValue = new RtspRequestGetParameter(logger); break; case RequestType.ANNOUNCE: returnValue = new RtspRequestAnnounce(logger); break; case RequestType.RECORD: returnValue = new RtspRequestRecord(logger); break; /* * case RequestType.REDIRECT: * break; * * case RequestType.SET_PARAMETER: * break; */ case RequestType.UNKNOWN: default: returnValue = new RtspRequest(logger); break; } return(returnValue); }
/// <summary> /// Gets the Rtsp request. /// </summary> /// <param name="aRequestParts">A request parts.</param> /// <returns>the parsed request</returns> internal static RtspMessage GetRtspRequest(string[] aRequestParts) { // <pex> Debug.Assert(aRequestParts != (string[])null, "aRequestParts"); Debug.Assert(aRequestParts.Length != 0, "aRequestParts.Length == 0"); // </pex> // we already know this is a Request RtspRequest returnValue; switch (ParseRequest(aRequestParts[0])) { case RequestType.OPTIONS: returnValue = new RtspRequestOptions(); break; case RequestType.SETUP: returnValue = new RtspRequestSetup(); break; case RequestType.PLAY: returnValue = new RtspRequestPlay(); break; /* case RequestType.DESCRIBE: break; case RequestType.ANNOUNCE: break; case RequestType.GET_PARAMETER: break; case RequestType.PAUSE: break; case RequestType.RECORD: break; case RequestType.REDIRECT: break; case RequestType.SET_PARAMETER: break; case RequestType.TEARDOWN: break; */ case RequestType.UNKNOWN: default: returnValue = new RtspRequest(); break; } return returnValue; }
/// <summary> /// Handles the request play. /// Do not forward message if already playing /// </summary> /// <param name="destination">The destination.</param> /// <param name="requestPlay">The request play.</param> /// <returns>The message to transmit</returns> private RtspMessage HandleRequestPlay(ref RtspListener destination, RtspRequestPlay requestPlay) { Contract.Requires(requestPlay != null); Contract.Requires(destination != null); Contract.Ensures(Contract.Result<RtspMessage>() != null); Contract.Ensures(Contract.ValueAtReturn(out destination) != null); string sessionKey = RtspSession.GetSessionName(requestPlay.RtspUri, requestPlay.Session); if (_activesSession.ContainsKey(sessionKey)) { RtspSession session = _activesSession[sessionKey]; // si on est dèjà en play on n'envoie pas la commande a la source. if (session.State == RtspSession.SessionState.Playing) { session.Start(requestPlay.SourcePort.RemoteAdress); RtspResponse returnValue = requestPlay.CreateResponse(); destination = requestPlay.SourcePort; return returnValue; } // ajoute un client session.Start(requestPlay.SourcePort.RemoteAdress); } return requestPlay; }
// RTSP Messages are OPTIONS, DESCRIBE, SETUP, PLAY etc private void Rtsp_MessageReceived(object sender, Rtsp.RtspChunkEventArgs e) { Rtsp.Messages.RtspResponse message = e.Message as Rtsp.Messages.RtspResponse; Console.WriteLine("Received " + message.OriginalRequest.ToString()); // Check if the Message has an Authenticate header and what type it is if (message.Headers.ContainsKey(RtspHeaderNames.WWWAuthenticate)) { String www_authenticate = message.Headers[RtspHeaderNames.WWWAuthenticate]; // Parse www_authenticate // EG: WWW-Authenticate: Basic realm="xxxxxxx" // EG: WWW-Authenticate: Digest realm="AXIS_WS_ACCC8E3A0A8F", nonce="000057c3Y810622bff50b36005eb5efeae118626a161bf", stale=FALSE string[] items = www_authenticate.Split(new char[] { ',', ' ' }); // split on Comma and Space // Process the first item if (items.Count() >= 1 && items[0].Equals("Basic")) { authentication = AUTHENTICATION.BASIC; } else if (items.Count() >= 1 && items[0].Equals("Digest")) { authentication = AUTHENTICATION.DIGEST; } // Process the remaining items for (int i = 1; i < items.Count(); i++) { string[] parts = items[i].Split(new char[] { '=' }); // Split on Equals if (parts.Count() >= 2 && parts[0].Trim().Equals("realm")) { realm = parts[1].Trim(new char[] { ' ', '\"' }); // trim space and quotes } else if (parts.Count() >= 2 && parts[0].Trim().Equals("nonce")) { nonce = parts[1].Trim(new char[] { ' ', '\"' }); // trim space and quotes } } } // If we get a reply to OPTIONS and CSEQ is 1 (which was our first command), then send the DESCRIBE // If we fer a reply to OPTIONS and CSEQ is not 1, it must have been a keepalive command if (message.OriginalRequest != null && message.OriginalRequest is Rtsp.Messages.RtspRequestOptions) { if (message.CSeq == 1) { // Start a Timer to send an OPTIONS command (for keepalive) every 20 seconds keepalive_timer = new System.Timers.Timer(); keepalive_timer.Elapsed += Timer_Elapsed; keepalive_timer.Interval = 20 * 1000; keepalive_timer.Enabled = true; // send the DESCRIBE. First time around we have no WWW-Authorise Rtsp.Messages.RtspRequest describe_message = new Rtsp.Messages.RtspRequestDescribe(); describe_message.RtspUri = new Uri(url); rtsp_client.SendMessage(describe_message); } else { // do nothing } } // If we get a reply to DESCRIBE (which was our second command), then prosess SDP and send the SETUP if (message.OriginalRequest != null && message.OriginalRequest is Rtsp.Messages.RtspRequestDescribe) { // Got a reply for DESCRIBE // First time we send DESCRIBE we do not add any authorization (and we could not add it even if we wanted to // as we will not have the authorization Nonce value required for Digest mode // So we have to handle the Unauthorized 401 error here and send a new DESCRIBE message if (message.IsOk == false) { Console.WriteLine("Got Error in DESCRIBE Reply " + message.ReturnCode + " " + message.ReturnMessage); if (message.ReturnCode == 401 && (message.OriginalRequest.Headers.ContainsKey(RtspHeaderNames.Authorization) == false)) { // Error 401 - Unauthorized, but the original request did not use Authorization so try again with Authorization added if (username == null || password == null) { // we do nothave a username or password. Abort return; } // Send a new DESCRIBE with authorization Rtsp.Messages.RtspRequest describe_message = new Rtsp.Messages.RtspRequestDescribe(); describe_message.RtspUri = new Uri(url); if (authentication != AUTHENTICATION.NONE) { String authorization_string = GenerateAuthorization(username, password, authentication, realm, nonce, url, "DESCRIBE"); if (authorization_string != null) { describe_message.Headers.Add("Authorization", authorization_string); } } rtsp_client.SendMessage(describe_message); return; } else if (message.ReturnCode == 401 && (message.OriginalRequest.Headers.ContainsKey(RtspHeaderNames.Authorization) == true)) { // Authorization failed return; } else { // some other error return; } } // Examine the SDP Console.Write(System.Text.Encoding.UTF8.GetString(message.Data)); Rtsp.Sdp.SdpFile sdp_data; using (StreamReader sdp_stream = new StreamReader(new MemoryStream(message.Data))) { sdp_data = Rtsp.Sdp.SdpFile.Read(sdp_stream); } // Process each 'Media' Attribute in the SDP (each sub-stream) // If the attribute is for Video, then carry out a SETUP and a PLAY // Only do this for the first Video attribute in case there is more than one in the SDP for (int x = 0; x < sdp_data.Medias.Count; x++) { if (sdp_data.Medias[x].MediaType == Rtsp.Sdp.Media.MediaTypes.video) { // We only want the first video sub-stream if (video_payload == -1) { video_payload = sdp_data.Medias[x].PayloadType; // search the attributes for control, fmtp and rtpmap String control = ""; // the "track" or "stream id" Rtsp.Sdp.AttributFmtp fmtp = null; // holds SPS and PPS in base64 (h264) Rtsp.Sdp.AttributRtpMap rtpmap = null; // custom payload (>=96) details foreach (Rtsp.Sdp.Attribut attrib in sdp_data.Medias[x].Attributs) { if (attrib.Key.Equals("control")) { String sdp_control = attrib.Value; if (sdp_control.ToLower().StartsWith("rtsp://")) { control = sdp_control; //absolute path } else { control = url + "/" + sdp_control; // relative path } } if (attrib.Key.Equals("fmtp")) { fmtp = attrib as Rtsp.Sdp.AttributFmtp; } if (attrib.Key.Equals("rtpmap")) { rtpmap = attrib as Rtsp.Sdp.AttributRtpMap; } } // If the rtpmap contains H264 then split the fmtp to get the sprop-parameter-sets which hold the SPS and PPS in base64 if (rtpmap != null && rtpmap.Value.Contains("H264") && fmtp != null) { video_codec = "H264"; var param = Rtsp.Sdp.H264Parameters.Parse(fmtp.FormatParameter); var sps_pps = param.SpropParameterSets; if (sps_pps.Count() >= 2) { byte[] sps = sps_pps[0]; byte[] pps = sps_pps[1]; Output_SPS_PPS(sps, pps); // output SPS and PPS } } RtspTransport transport = null; if (rtp_transport == RTP_TRANSPORT.TCP) { // Server interleaves the RTP packets over the RTSP connection // Example for TCP mode (RTP over RTSP) Transport: RTP/AVP/TCP;interleaved=0-1 video_data_channel = 0; // Used in DataReceived event handler video_rtcp_channel = 1; // Used in DataReceived event handler transport = new RtspTransport() { LowerTransport = RtspTransport.LowerTransportType.TCP, Interleaved = new PortCouple(video_data_channel, video_rtcp_channel), // Channel 0 for video. Channel 1 for RTCP status reports }; } if (rtp_transport == RTP_TRANSPORT.UDP) { // Server sends the RTP packets to a Pair of UDP Ports (one for data, one for rtcp control messages) // Example for UDP mode Transport: RTP/AVP;unicast;client_port=8000-8001 video_data_channel = udp_pair.data_port; // Used in DataReceived event handler video_rtcp_channel = udp_pair.control_port; // Used in DataReceived event handler transport = new RtspTransport() { LowerTransport = RtspTransport.LowerTransportType.UDP, IsMulticast = false, ClientPort = new PortCouple(video_data_channel, video_rtcp_channel), // a Channel for video. a Channel for RTCP status reports }; } if (rtp_transport == RTP_TRANSPORT.MULTICAST) { // Server sends the RTP packets to a Pair of UDP ports (one for data, one for rtcp control messages) // using Multicast Address and Ports that are in the reply to the SETUP message // Example for MULTICAST mode Transport: RTP/AVP;multicast video_data_channel = 0; // we get this information in the SETUP message reply video_rtcp_channel = 0; // we get this information in the SETUP message reply transport = new RtspTransport() { LowerTransport = RtspTransport.LowerTransportType.UDP, IsMulticast = true }; } // Send SETUP Rtsp.Messages.RtspRequestSetup setup_message = new Rtsp.Messages.RtspRequestSetup(); setup_message.RtspUri = new Uri(control); setup_message.AddTransport(transport); if (authentication != AUTHENTICATION.NONE) { String authorization_string = GenerateAuthorization(username, password, authentication, realm, nonce, url, "SETUP"); if (authorization_string != null) { setup_message.Headers.Add("Authorization", authorization_string); } } rtsp_client.SendMessage(setup_message); } } } } // If we get a reply to SETUP (which was our third command), then process and then send PLAY if (message.OriginalRequest != null && message.OriginalRequest is Rtsp.Messages.RtspRequestSetup) { // Got Reply to SETUP if (message.IsOk == false) { Console.WriteLine("Got Error in SETUP Reply " + message.ReturnCode + " " + message.ReturnMessage); return; } Console.WriteLine("Got reply from Setup. Session is " + message.Session); session = message.Session; // Session value used with Play, Pause, Teardown // Check the Transport header if (message.Headers.ContainsKey(RtspHeaderNames.Transport)) { RtspTransport transport = RtspTransport.Parse(message.Headers[RtspHeaderNames.Transport]); // Check if Transport header includes Multicast if (transport.IsMulticast) { String multicast_address = transport.Destination; video_data_channel = transport.Port.First; video_rtcp_channel = transport.Port.Second; // Create the Pair of UDP Sockets in Multicast mode udp_pair = new UDPSocket(multicast_address, video_data_channel, multicast_address, video_rtcp_channel); udp_pair.DataReceived += Rtp_DataReceived; udp_pair.Start(); } } // Send PLAY Rtsp.Messages.RtspRequest play_message = new Rtsp.Messages.RtspRequestPlay(); play_message.RtspUri = new Uri(url); play_message.Session = session; if (authentication != AUTHENTICATION.NONE) { String authorization_string = GenerateAuthorization(username, password, authentication, realm, nonce, url, "PLAY"); if (authorization_string != null) { play_message.Headers.Add("Authorization", authorization_string); } } rtsp_client.SendMessage(play_message); } // If we get a reply to PLAY (which was our fourth command), then we should have video being received if (message.OriginalRequest != null && message.OriginalRequest is Rtsp.Messages.RtspRequestPlay) { // Got Reply to PLAY if (message.IsOk == false) { Console.WriteLine("Got Error in PLAY Reply " + message.ReturnCode + " " + message.ReturnMessage); return; } Console.WriteLine("Got reply from Play " + message.Command); } }
// RTSP Messages are OPTIONS, DESCRIBE, SETUP, PLAY etc private void Rtsp_MessageReceived(object sender, Rtsp.RtspChunkEventArgs e) { Rtsp.Messages.RtspResponse message = e.Message as Rtsp.Messages.RtspResponse; Console.WriteLine("Received " + message.OriginalRequest.ToString()); // Check if the Message has an Authenticate header. If so we update the 'realm' and 'nonce' if (message.Headers.ContainsKey(RtspHeaderNames.WWWAuthenticate)) { String www_authenticate = message.Headers[RtspHeaderNames.WWWAuthenticate]; // Parse www_authenticate // EG: Digest realm="AXIS_WS_ACCC8E3A0A8F", nonce="000057c3Y810622bff50b36005eb5efeae118626a161bf", stale=FALSE string[] items = www_authenticate.Split(new char[] { ',', ' ' }); foreach (string item in items) { // Split on the = symbol and load in string[] parts = item.Split(new char[] { '=' }); if (parts.Count() >= 2 && parts[0].Trim().Equals("realm")) { realm = parts[1].Trim(new char[] { ' ', '\"' }); // trim space and quotes } else if (parts.Count() >= 2 && parts[0].Trim().Equals("nonce")) { nonce = parts[1].Trim(new char[] { ' ', '\"' }); // trim space and quotes } } Console.WriteLine("WWW Authorize parsed for " + realm + " " + nonce); } // If we get a reply to OPTIONS and CSEQ is 1 (which was our first command), then send the DESCRIBE // If we fer a reply to OPTIONS and CSEQ is not 1, it must have been a keepalive command if (message.OriginalRequest != null && message.OriginalRequest is Rtsp.Messages.RtspRequestOptions) { if (message.CSeq == 1) { // Start a Timer to send an OPTIONS command (for keepalive) every 20 seconds keepalive_timer = new System.Timers.Timer(); keepalive_timer.Elapsed += Timer_Elapsed; keepalive_timer.Interval = 20 * 1000; keepalive_timer.Enabled = true; // send the DESCRIBE. First time around we have no WWW-Authorise Rtsp.Messages.RtspRequest describe_message = new Rtsp.Messages.RtspRequestDescribe(); describe_message.RtspUri = new Uri(url); rtsp_client.SendMessage(describe_message); } else { // do nothing } } // If we get a reply to DESCRIBE (which was our second command), then prosess SDP and send the SETUP if (message.OriginalRequest != null && message.OriginalRequest is Rtsp.Messages.RtspRequestDescribe) { // Got a reply for DESCRIBE // First time we send DESCRIBE we will not have the authorization Nonce so we // handle the Unauthorized 401 error here and send a new DESCRIBE message if (message.IsOk == false) { Console.WriteLine("Got Error in DESCRIBE Reply " + message.ReturnCode + " " + message.ReturnMessage); if (message.ReturnCode == 401 && (message.OriginalRequest.Headers.ContainsKey(RtspHeaderNames.Authorization) == false)) { // Error 401 - Unauthorized, but the request did not use Authorizarion. if (username == null || password == null) { // we do nothave a username or password. Abort return; } // Send a new DESCRIBE with authorization String digest_authorization = GenerateDigestAuthorization(username, password, realm, nonce, url, "DESCRIBE"); Rtsp.Messages.RtspRequest describe_message = new Rtsp.Messages.RtspRequestDescribe(); describe_message.RtspUri = new Uri(url); if (digest_authorization != null) { describe_message.Headers.Add(RtspHeaderNames.Authorization, digest_authorization); } rtsp_client.SendMessage(describe_message); return; } else if (message.ReturnCode == 401 && (message.OriginalRequest.Headers.ContainsKey(RtspHeaderNames.Authorization) == true)) { // Authorization failed return; } else { // some other error return; } } // Examine the SDP Console.Write(System.Text.Encoding.UTF8.GetString(message.Data)); Rtsp.Sdp.SdpFile sdp_data; using (StreamReader sdp_stream = new StreamReader(new MemoryStream(message.Data))) { sdp_data = Rtsp.Sdp.SdpFile.Read(sdp_stream); } // Process each 'Media' Attribute in the SDP (each sub-stream) for (int x = 0; x < sdp_data.Medias.Count; x++) { bool audio = (sdp_data.Medias[x].MediaType == Rtsp.Sdp.Media.MediaTypes.audio); bool video = (sdp_data.Medias[x].MediaType == Rtsp.Sdp.Media.MediaTypes.video); if (video && video_payload != -1) { continue; // have already matched an video payload } if (audio && audio_payload != -1) { continue; // have already matched an audio payload } if (audio || video) { // search the attributes for control, rtpmap and fmtp // (fmtp only applies to video) String control = ""; // the "track" or "stream id" Rtsp.Sdp.AttributFmtp fmtp = null; // holds SPS and PPS in base64 (h264 video) foreach (Rtsp.Sdp.Attribut attrib in sdp_data.Medias[x].Attributs) { if (attrib.Key.Equals("control")) { String sdp_control = attrib.Value; if (sdp_control.ToLower().StartsWith("rtsp://")) { control = sdp_control; //absolute path } else { control = url + "/" + sdp_control; // relative path } } if (attrib.Key.Equals("fmtp")) { fmtp = attrib as Rtsp.Sdp.AttributFmtp; } if (attrib.Key.Equals("rtpmap")) { Rtsp.Sdp.AttributRtpMap rtpmap = attrib as Rtsp.Sdp.AttributRtpMap; // Check if the Codec Used (EncodingName) is one we support String[] valid_video_codecs = { "H264" }; String[] valid_audio_codecs = { "PCMA", "PCMU" }; if (video && Array.IndexOf(valid_video_codecs, rtpmap.EncodingName) >= 0) { // found a valid codec video_codec = rtpmap.EncodingName; video_payload = sdp_data.Medias[x].PayloadType; } if (audio && Array.IndexOf(valid_audio_codecs, rtpmap.EncodingName) >= 0) { audio_codec = rtpmap.EncodingName; audio_payload = sdp_data.Medias[x].PayloadType; } } } // If the rtpmap contains H264 then split the fmtp to get the sprop-parameter-sets which hold the SPS and PPS in base64 if (video && video_codec.Contains("H264") && fmtp != null) { var param = Rtsp.Sdp.H264Parameters.Parse(fmtp.FormatParameter); var sps_pps = param.SpropParameterSets; if (sps_pps.Count() >= 2) { byte[] sps = sps_pps[0]; byte[] pps = sps_pps[1]; if (Received_SPS_PPS != null) { Received_SPS_PPS(sps, pps); } } } // Send the SETUP RTSP command if we have a matching Payload Decoder if (video && video_payload == -1) { continue; } if (audio && audio_payload == -1) { continue; } RtspTransport transport = null; int data_channel = 0; int rtcp_channel = 0; if (rtp_transport == RTP_TRANSPORT.TCP) { // Server interleaves the RTP packets over the RTSP connection // Example for TCP mode (RTP over RTSP) Transport: RTP/AVP/TCP;interleaved=0-1 if (video) { video_data_channel = 0; video_rtcp_channel = 1; data_channel = video_data_channel; rtcp_channel = video_rtcp_channel; } if (audio) { audio_data_channel = 2; audio_rtcp_channel = 3; data_channel = audio_data_channel; rtcp_channel = audio_rtcp_channel; } transport = new RtspTransport() { LowerTransport = RtspTransport.LowerTransportType.TCP, Interleaved = new PortCouple(data_channel, rtcp_channel), // Eg Channel 0 for video. Channel 1 for RTCP status reports }; } if (rtp_transport == RTP_TRANSPORT.UDP) { // Server sends the RTP packets to a Pair of UDP Ports (one for data, one for rtcp control messages) // Example for UDP mode Transport: RTP/AVP;unicast;client_port=8000-8001 if (video) { video_data_channel = video_udp_pair.data_port; // Used in DataReceived event handler video_rtcp_channel = video_udp_pair.control_port; // Used in DataReceived event handler data_channel = video_data_channel; rtcp_channel = video_rtcp_channel; } if (audio) { audio_data_channel = audio_udp_pair.data_port; // Used in DataReceived event handler audio_rtcp_channel = audio_udp_pair.control_port; // Used in DataReceived event handler data_channel = audio_data_channel; rtcp_channel = audio_rtcp_channel; } transport = new RtspTransport() { LowerTransport = RtspTransport.LowerTransportType.UDP, IsMulticast = false, ClientPort = new PortCouple(data_channel, rtcp_channel), // a Channel for data (video or audio). a Channel for RTCP status reports }; } if (rtp_transport == RTP_TRANSPORT.MULTICAST) { // Server sends the RTP packets to a Pair of UDP ports (one for data, one for rtcp control messages) // using Multicast Address and Ports that are in the reply to the SETUP message // Example for MULTICAST mode Transport: RTP/AVP;multicast if (video) { video_data_channel = 0; // we get this information in the SETUP message reply video_rtcp_channel = 0; // we get this information in the SETUP message reply } if (audio) { audio_data_channel = 0; // we get this information in the SETUP message reply audio_rtcp_channel = 0; // we get this information in the SETUP message reply } transport = new RtspTransport() { LowerTransport = RtspTransport.LowerTransportType.UDP, IsMulticast = true }; } // Add authorization (if there is a username and password) String digest_authorization = GenerateDigestAuthorization(username, password, realm, nonce, url, "SETUP"); // Send SETUP Rtsp.Messages.RtspRequestSetup setup_message = new Rtsp.Messages.RtspRequestSetup(); setup_message.RtspUri = new Uri(control); setup_message.AddTransport(transport); if (digest_authorization != null) { setup_message.Headers.Add("Authorization", digest_authorization); } rtsp_client.SendMessage(setup_message); } } } // If we get a reply to SETUP (which was our third command), then process and then send PLAY if (message.OriginalRequest != null && message.OriginalRequest is Rtsp.Messages.RtspRequestSetup) { // Got Reply to SETUP if (message.IsOk == false) { Console.WriteLine("Got Error in SETUP Reply " + message.ReturnCode + " " + message.ReturnMessage); return; } Console.WriteLine("Got reply from Setup. Session is " + message.Session); session = message.Session; // Session value used with Play, Pause, Teardown // Check the Transport header if (message.Headers.ContainsKey(RtspHeaderNames.Transport)) { RtspTransport transport = RtspTransport.Parse(message.Headers[RtspHeaderNames.Transport]); // Check if Transport header includes Multicast if (transport.IsMulticast) { String multicast_address = transport.Destination; video_data_channel = transport.Port.First; video_rtcp_channel = transport.Port.Second; // Create the Pair of UDP Sockets in Multicast mode video_udp_pair = new Rtsp.UDPSocket(multicast_address, video_data_channel, multicast_address, video_rtcp_channel); video_udp_pair.DataReceived += Rtp_DataReceived; video_udp_pair.Start(); // TODO - Need to set audio_udp_pair } } // Send PLAY Rtsp.Messages.RtspRequest play_message = new Rtsp.Messages.RtspRequestPlay(); play_message.RtspUri = new Uri(url); play_message.Session = session; rtsp_client.SendMessage(play_message); } // If we get a reply to PLAY (which was our fourth command), then we should have video being received if (message.OriginalRequest != null && message.OriginalRequest is Rtsp.Messages.RtspRequestPlay) { // Got Reply to PLAY if (message.IsOk == false) { Console.WriteLine("Got Error in PLAY Reply " + message.ReturnCode + " " + message.ReturnMessage); return; } Console.WriteLine("Got reply from Play " + message.Command); } }
// RTSP Messages are OPTIONS, DESCRIBE, SETUP, PLAY etc private void Rtsp_MessageReceived(object sender, Rtsp.RtspChunkEventArgs e) { Rtsp.Messages.RtspResponse message = e.Message as Rtsp.Messages.RtspResponse; Console.WriteLine("Received " + message.OriginalRequest.ToString()); // If message has a 401 - Unauthorised Error, then we re-send the message with Authorization // using the most recently received 'realm' and 'nonce' if (message.IsOk == false) { Console.WriteLine("Got Error in RTSP Reply " + message.ReturnCode + " " + message.ReturnMessage); if (message.ReturnCode == 401 && (message.OriginalRequest.Headers.ContainsKey(RtspHeaderNames.Authorization) == true)) { // the authorization failed. Stop(); return; } // Check if the Reply has an Authenticate header. if (message.ReturnCode == 401 && message.Headers.ContainsKey(RtspHeaderNames.WWWAuthenticate)) { // Process the WWW-Authenticate header // EG: Basic realm="AProxy" // EG: Digest realm="AXIS_WS_ACCC8E3A0A8F", nonce="000057c3Y810622bff50b36005eb5efeae118626a161bf", stale=FALSE String www_authenticate = message.Headers[RtspHeaderNames.WWWAuthenticate]; string[] items = www_authenticate.Split(new char[] { ',', ' ' }); foreach (string item in items) { if (item.ToLower().Equals("basic")) { auth_type = "Basic"; } else if (item.ToLower().Equals("digest")) { auth_type = "Digest"; } else { // Split on the = symbol and update the realm and nonce string[] parts = item.Split(new char[] { '=' }, 2); // max 2 parts in the results array if (parts.Count() >= 2 && parts[0].Trim().Equals("realm")) { realm = parts[1].Trim(new char[] { ' ', '\"' }); // trim space and quotes } else if (parts.Count() >= 2 && parts[0].Trim().Equals("nonce")) { nonce = parts[1].Trim(new char[] { ' ', '\"' }); // trim space and quotes } } } Console.WriteLine("WWW Authorize parsed for " + auth_type + " " + realm + " " + nonce); } RtspMessage resend_message = message.OriginalRequest.Clone() as RtspMessage; if (auth_type != null) { AddAuthorization(resend_message, username, password, auth_type, realm, nonce, url); } rtsp_client.SendMessage(resend_message); return; } // If we get a reply to OPTIONS then start the Keepalive Timer and send DESCRIBE if (message.OriginalRequest != null && message.OriginalRequest is Rtsp.Messages.RtspRequestOptions) { if (keepalive_timer == null) { // Start a Timer to send an OPTIONS command (for keepalive) every 20 seconds keepalive_timer = new System.Timers.Timer(); keepalive_timer.Elapsed += Timer_Elapsed; keepalive_timer.Interval = 20 * 1000; keepalive_timer.Enabled = true; // Send DESCRIBE Rtsp.Messages.RtspRequest describe_message = new Rtsp.Messages.RtspRequestDescribe(); describe_message.RtspUri = new Uri(url); if (auth_type != null) { AddAuthorization(describe_message, username, password, auth_type, realm, nonce, url); } rtsp_client.SendMessage(describe_message); } else { // do nothing } } // If we get a reply to DESCRIBE (which was our second command), then prosess SDP and send the SETUP if (message.OriginalRequest != null && message.OriginalRequest is Rtsp.Messages.RtspRequestDescribe) { // Got a reply for DESCRIBE if (message.IsOk == false) { Console.WriteLine("Got Error in DESCRIBE Reply " + message.ReturnCode + " " + message.ReturnMessage); return; } // Examine the SDP Console.Write(System.Text.Encoding.UTF8.GetString(message.Data)); Rtsp.Sdp.SdpFile sdp_data; using (StreamReader sdp_stream = new StreamReader(new MemoryStream(message.Data))) { sdp_data = Rtsp.Sdp.SdpFile.Read(sdp_stream); } // RTP and RTCP 'channels' are used in TCP Interleaved mode (RTP over RTSP) int next_free_rtp_channel = 0; int next_free_rtcp_channel = 1; // Process each 'Media' Attribute in the SDP (each sub-stream) for (int x = 0; x < sdp_data.Medias.Count; x++) { bool audio = (sdp_data.Medias[x].MediaType == Rtsp.Sdp.Media.MediaTypes.audio); bool video = (sdp_data.Medias[x].MediaType == Rtsp.Sdp.Media.MediaTypes.video); if (video && video_payload != -1) { continue; // have already matched an video payload } if (audio && audio_payload != -1) { continue; // have already matched an audio payload } if (audio || video) { // search the attributes for control, rtpmap and fmtp // (fmtp only applies to video) String control = ""; // the "track" or "stream id" Rtsp.Sdp.AttributFmtp fmtp = null; // holds SPS and PPS in base64 (h264 video) foreach (Rtsp.Sdp.Attribut attrib in sdp_data.Medias[x].Attributs) { if (attrib.Key.Equals("control")) { String sdp_control = attrib.Value; if (sdp_control.ToLower().StartsWith("rtsp://")) { control = sdp_control; //absolute path } else { control = url + "/" + sdp_control; // relative path } } if (attrib.Key.Equals("fmtp")) { fmtp = attrib as Rtsp.Sdp.AttributFmtp; } if (attrib.Key.Equals("rtpmap")) { Rtsp.Sdp.AttributRtpMap rtpmap = attrib as Rtsp.Sdp.AttributRtpMap; // Check if the Codec Used (EncodingName) is one we support String[] valid_video_codecs = { "H264" }; String[] valid_audio_codecs = { "PCMA", "PCMU", "AMR" }; if (video && Array.IndexOf(valid_video_codecs, rtpmap.EncodingName) >= 0) { // found a valid codec video_codec = rtpmap.EncodingName; video_payload = sdp_data.Medias[x].PayloadType; } if (audio && Array.IndexOf(valid_audio_codecs, rtpmap.EncodingName) >= 0) { audio_codec = rtpmap.EncodingName; audio_payload = sdp_data.Medias[x].PayloadType; } } } // If the rtpmap contains H264 then split the fmtp to get the sprop-parameter-sets which hold the SPS and PPS in base64 if (video && video_codec.Contains("H264") && fmtp != null) { var param = Rtsp.Sdp.H264Parameters.Parse(fmtp.FormatParameter); var sps_pps = param.SpropParameterSets; if (sps_pps.Count() >= 2) { byte[] sps = sps_pps[0]; byte[] pps = sps_pps[1]; if (Received_SPS_PPS != null) { Received_SPS_PPS(sps, pps); } } } // Send the SETUP RTSP command if we have a matching Payload Decoder if (video && video_payload == -1) { continue; } if (audio && audio_payload == -1) { continue; } RtspTransport transport = null; if (rtp_transport == RTP_TRANSPORT.TCP) { // Server interleaves the RTP packets over the RTSP connection // Example for TCP mode (RTP over RTSP) Transport: RTP/AVP/TCP;interleaved=0-1 if (video) { video_data_channel = next_free_rtp_channel; video_rtcp_channel = next_free_rtcp_channel; } if (audio) { audio_data_channel = next_free_rtp_channel; audio_rtcp_channel = next_free_rtcp_channel; } transport = new RtspTransport() { LowerTransport = RtspTransport.LowerTransportType.TCP, Interleaved = new PortCouple(next_free_rtp_channel, next_free_rtcp_channel), // Eg Channel 0 for RTP video data. Channel 1 for RTCP status reports }; next_free_rtp_channel += 2; next_free_rtcp_channel += 2; } if (rtp_transport == RTP_TRANSPORT.UDP) { int rtp_port = 0; int rtcp_port = 0; // Server sends the RTP packets to a Pair of UDP Ports (one for data, one for rtcp control messages) // Example for UDP mode Transport: RTP/AVP;unicast;client_port=8000-8001 if (video) { video_data_channel = video_udp_pair.data_port; // Used in DataReceived event handler video_rtcp_channel = video_udp_pair.control_port; // Used in DataReceived event handler rtp_port = video_udp_pair.data_port; rtcp_port = video_udp_pair.control_port; } if (audio) { audio_data_channel = audio_udp_pair.data_port; // Used in DataReceived event handler audio_rtcp_channel = audio_udp_pair.control_port; // Used in DataReceived event handler rtp_port = audio_udp_pair.data_port; rtcp_port = audio_udp_pair.control_port; } transport = new RtspTransport() { LowerTransport = RtspTransport.LowerTransportType.UDP, IsMulticast = false, ClientPort = new PortCouple(rtp_port, rtcp_port), // a UDP Port for data (video or audio). a UDP Port for RTCP status reports }; } if (rtp_transport == RTP_TRANSPORT.MULTICAST) { // Server sends the RTP packets to a Pair of UDP ports (one for data, one for rtcp control messages) // using Multicast Address and Ports that are in the reply to the SETUP message // Example for MULTICAST mode Transport: RTP/AVP;multicast if (video) { video_data_channel = 0; // we get this information in the SETUP message reply video_rtcp_channel = 0; // we get this information in the SETUP message reply } if (audio) { audio_data_channel = 0; // we get this information in the SETUP message reply audio_rtcp_channel = 0; // we get this information in the SETUP message reply } transport = new RtspTransport() { LowerTransport = RtspTransport.LowerTransportType.UDP, IsMulticast = true }; } // Generate SETUP messages Rtsp.Messages.RtspRequestSetup setup_message = new Rtsp.Messages.RtspRequestSetup(); setup_message.RtspUri = new Uri(control); setup_message.AddTransport(transport); if (auth_type != null) { AddAuthorization(setup_message, username, password, auth_type, realm, nonce, url); } // Add SETUP message to list of mesages to send setup_messages.Add(setup_message); } } // Send the FIRST SETUP message and remove it from the list of Setup Messages rtsp_client.SendMessage(setup_messages[0]); setup_messages.RemoveAt(0); } // If we get a reply to SETUP (which was our third command), then we // (i) check if we have any more SETUP commands to send out (eg if we are doing SETUP for Video and Audio) // (ii) send a PLAY command if all the SETUP command have been sent if (message.OriginalRequest != null && message.OriginalRequest is Rtsp.Messages.RtspRequestSetup) { // Got Reply to SETUP if (message.IsOk == false) { Console.WriteLine("Got Error in SETUP Reply " + message.ReturnCode + " " + message.ReturnMessage); return; } Console.WriteLine("Got reply from Setup. Session is " + message.Session); session = message.Session; // Session value used with Play, Pause, Teardown and and additional Setups // Check the Transport header if (message.Headers.ContainsKey(RtspHeaderNames.Transport)) { RtspTransport transport = RtspTransport.Parse(message.Headers[RtspHeaderNames.Transport]); // Check if Transport header includes Multicast if (transport.IsMulticast) { String multicast_address = transport.Destination; video_data_channel = transport.Port.First; video_rtcp_channel = transport.Port.Second; // Create the Pair of UDP Sockets in Multicast mode video_udp_pair = new Rtsp.UDPSocket(multicast_address, video_data_channel, multicast_address, video_rtcp_channel); video_udp_pair.DataReceived += Rtp_DataReceived; video_udp_pair.Start(); // TODO - Need to set audio_udp_pair } } // Check if we have another SETUP command to send, then remote it from the list if (setup_messages.Count > 0) { // send the next SETUP message, after adding in the 'session' Rtsp.Messages.RtspRequestSetup next_setup = setup_messages[0]; next_setup.Session = session; rtsp_client.SendMessage(next_setup); setup_messages.RemoveAt(0); } else { // Send PLAY Rtsp.Messages.RtspRequest play_message = new Rtsp.Messages.RtspRequestPlay(); play_message.RtspUri = new Uri(url); play_message.Session = session; if (auth_type != null) { AddAuthorization(play_message, username, password, auth_type, realm, nonce, url); } rtsp_client.SendMessage(play_message); } } // If we get a reply to PLAY (which was our fourth command), then we should have video being received if (message.OriginalRequest != null && message.OriginalRequest is Rtsp.Messages.RtspRequestPlay) { // Got Reply to PLAY if (message.IsOk == false) { Console.WriteLine("Got Error in PLAY Reply " + message.ReturnCode + " " + message.ReturnMessage); return; } Console.WriteLine("Got reply from Play " + message.Command); } }
// RTSP Messages are OPTIONS, DESCRIBE, SETUP, PLAY etc private void Rtsp_MessageReceived(object sender, Rtsp.RtspChunkEventArgs e) { Rtsp.Messages.RtspResponse message = e.Message as Rtsp.Messages.RtspResponse; Console.WriteLine("Received " + message.OriginalRequest.ToString()); // If we get a reply to OPTIONS and CSEQ is 1 (which was our first command), then send the DESCRIBE // If we fer a reply to OPTIONS and CSEQ is not 1, it must have been a keepalive command if (message.OriginalRequest != null && message.OriginalRequest is Rtsp.Messages.RtspRequestOptions) { if (message.CSeq == 1) { // Start a Timer to send an OPTIONS command (for keepalive) every 20 seconds keepalive_timer = new System.Timers.Timer(); keepalive_timer.Elapsed += Timer_Elapsed; keepalive_timer.Interval = 20 * 1000; keepalive_timer.Enabled = true; // send the Describe Rtsp.Messages.RtspRequest describe_message = new Rtsp.Messages.RtspRequestDescribe(); describe_message.RtspUri = new Uri(url); rtsp_client.SendMessage(describe_message); } else { // do nothing } } // If we get a reply to DESCRIBE (which was our second command), then prosess SDP and send the SETUP if (message.OriginalRequest != null && message.OriginalRequest is Rtsp.Messages.RtspRequestDescribe) { // Got a reply for DESCRIBE // Examine the SDP Console.Write(System.Text.Encoding.UTF8.GetString(message.Data)); Rtsp.Sdp.SdpFile sdp_data; using (StreamReader sdp_stream = new StreamReader(new MemoryStream(message.Data))) { sdp_data = Rtsp.Sdp.SdpFile.Read(sdp_stream); } // Process each 'Media' Attribute in the SDP (each sub-stream) // If the attribute is for Video, then carry out a SETUP and a PLAY // Only do this for the first Video attribute in case there is more than one in the SDP for (int x = 0; x < sdp_data.Medias.Count; x++) { if (sdp_data.Medias[x].GetMediaType() == Rtsp.Sdp.Media.MediaType.video) { // We only want the first video sub-stream if (video_payload == -1) { // seach the atributes for control, fmtp and rtpmap String control = ""; // the "track" or "stream id" Rtsp.Sdp.AttributFmtp fmtp = null; // holds SPS and PPS in base64 Rtsp.Sdp.AttributRtpMap rtpmap = null; // holds Payload format, eg 96 often used with H264 as first dynamic payload value foreach (Rtsp.Sdp.Attribut attrib in sdp_data.Medias[x].Attributs) { if (attrib.Key.Equals("control")) { control = attrib.Value; } if (attrib.Key.Equals("fmtp")) { fmtp = attrib as Rtsp.Sdp.AttributFmtp; } if (attrib.Key.Equals("rtpmap")) { rtpmap = attrib as Rtsp.Sdp.AttributRtpMap; } } // Split the fmtp to get the sprop-parameter-sets which hold the SPS and PPS in base64 if (fmtp != null) { var param = Rtsp.Sdp.H264Parameters.Parse(fmtp.FormatParameter); var sps_pps = param.SpropParameterSets; if (sps_pps.Count > 0) { video_sps = sps_pps[0]; } if (sps_pps.Count > 1) { video_pps = sps_pps[1]; } Output_NAL(sps_pps); // output SPS and PPS } // Split the rtpmap to get the Payload Type video_payload = 0; if (rtpmap != null) { video_payload = rtpmap.PayloadNumber; } Rtsp.Messages.RtspRequestSetup setup_message = new Rtsp.Messages.RtspRequestSetup(); setup_message.RtspUri = new Uri(url + "/" + control); RtspTransport transport = null; if (rtp_transport == RTP_TRANSPORT.TCP) { // Server interleaves the RTP packets over the RTSP connection // Example for TCP mode (RTP over RTSP) Transport: RTP/AVP/TCP;interleaved=0-1 video_data_channel = 0; // Used in DataReceived event handler video_rtcp_channel = 1; // Used in DataReceived event handler transport = new RtspTransport() { LowerTransport = RtspTransport.LowerTransportType.TCP, Interleaved = new PortCouple(video_data_channel, video_rtcp_channel), // Channel 0 for video. Channel 1 for RTCP status reports }; } if (rtp_transport == RTP_TRANSPORT.UDP) { // Server sends the RTP packets to a Pair of UDP Ports (one for data, one for rtcp control messages) // Example for UDP mode Transport: RTP/AVP;unicast;client_port=8000-8001 video_data_channel = udp_pair.data_port; // Used in DataReceived event handler video_rtcp_channel = udp_pair.control_port; // Used in DataReceived event handler transport = new RtspTransport() { LowerTransport = RtspTransport.LowerTransportType.UDP, IsMulticast = false, ClientPort = new PortCouple(video_data_channel, video_rtcp_channel), // a Channel for video. a Channel for RTCP status reports }; } if (rtp_transport == RTP_TRANSPORT.MULTICAST) { // Server sends the RTP packets to a Pair of UDP ports (one for data, one for rtcp control messages) // using Multicast Address and Ports that are in the reply to the SETUP message // Example for MULTICAST mode Transport: RTP/AVP;multicast video_data_channel = 0; // we get this information in the SETUP message reply video_rtcp_channel = 0; // we get this information in the SETUP message reply transport = new RtspTransport() { LowerTransport = RtspTransport.LowerTransportType.UDP, IsMulticast = true }; } setup_message.AddTransport(transport); rtsp_client.SendMessage(setup_message); } } } } // If we get a reply to SETUP (which was our third command), then process then send PLAY if (message.OriginalRequest != null && message.OriginalRequest is Rtsp.Messages.RtspRequestSetup) { // Got Reply to SETUP Console.WriteLine("Got reply from Setup. Session is " + message.Session); session = message.Session; // Session value used with Play, Pause, Teardown // Check the Transport header if (message.Headers.ContainsKey(RtspHeaderNames.Transport)) { RtspTransport transport = RtspTransport.Parse(message.Headers[RtspHeaderNames.Transport]); // Check if Transport header includes Multicast if (transport.IsMulticast) { String multicast_address = transport.Destination; video_data_channel = transport.Port.First; video_rtcp_channel = transport.Port.Second; // Create the Pair of UDP Sockets in Multicast mode udp_pair = new UDPSocket(multicast_address, video_data_channel, multicast_address, video_rtcp_channel); udp_pair.DataReceived += Rtp_DataReceived; udp_pair.Start(); } } Rtsp.Messages.RtspRequest play_message = new Rtsp.Messages.RtspRequestPlay(); play_message.RtspUri = new Uri(url); play_message.Session = session; rtsp_client.SendMessage(play_message); } // If we get a reply to PLAY (which was our fourth command), then we should have video being received if (message.OriginalRequest != null && message.OriginalRequest is Rtsp.Messages.RtspRequestPlay) { // Got Reply to PLAY Console.WriteLine("Got reply from Play " + message.Command); } }
// RTSP Messages are OPTIONS, DESCRIBE, SETUP, PLAY etc private void Rtsp_MessageReceived(object sender, Rtsp.RtspChunkEventArgs e) { Rtsp.Messages.RtspResponse message = e.Message as Rtsp.Messages.RtspResponse; Console.WriteLine("Received " + message.OriginalRequest.ToString()); // If we get a reply to OPTIONS and CSEQ is 1 (which was our first command), then send the DESCRIBE // If we fer a reply to OPTIONS and CSEQ is not 1, it must have been a keepalive command if (message.OriginalRequest != null && message.OriginalRequest is Rtsp.Messages.RtspRequestOptions) { if (message.CSeq == 1) { // Start a Timer to send an OPTIONS command (for keepalive) every 20 seconds keepalive_timer = new System.Timers.Timer(); keepalive_timer.Elapsed += Timer_Elapsed; keepalive_timer.Interval = 20 * 1000; keepalive_timer.Enabled = true; // send the Describe Rtsp.Messages.RtspRequest describe_message = new Rtsp.Messages.RtspRequestDescribe(); describe_message.RtspUri = new Uri(url); rtsp_client.SendMessage(describe_message); } else { // do nothing } } // If we get a reply to DESCRIBE (which was our second command), then prosess SDP and send the SETUP if (message.OriginalRequest != null && message.OriginalRequest is Rtsp.Messages.RtspRequestDescribe) { // Got a reply for DESCRIBE // Examine the SDP Console.Write(System.Text.Encoding.UTF8.GetString(message.Data)); Rtsp.Sdp.SdpFile sdp_data; using (StreamReader sdp_stream = new StreamReader(new MemoryStream(message.Data))) { sdp_data = Rtsp.Sdp.SdpFile.Read(sdp_stream); } // Process each 'Media' Attribute in the SDP (each sub-stream) // If the attribute is for Video, then carry out a SETUP and a PLAY // Only do this for the first Video attribute in case there is more than one in the SDP for (int x = 0; x < sdp_data.Medias.Count; x++) { if (sdp_data.Medias[x].GetMediaType() == Rtsp.Sdp.Media.MediaType.video) { // We only want the first video sub-stream if (video_payload == -1) { // seach the atributes for control, fmtp and rtpmap String control = ""; // the "track" or "stream id" Rtsp.Sdp.AttributFmtp fmtp = null; // holds SPS and PPS in base64 Rtsp.Sdp.AttributRtpMap rtpmap = null; // holds Payload format, eg 96 often used with H264 as first dynamic payload value foreach (Rtsp.Sdp.Attribut attrib in sdp_data.Medias[x].Attributs) { if (attrib.Key.Equals("control")) control = attrib.Value; if (attrib.Key.Equals("fmtp")) fmtp = attrib as Rtsp.Sdp.AttributFmtp; if (attrib.Key.Equals("rtpmap")) rtpmap = attrib as Rtsp.Sdp.AttributRtpMap; } // Split the fmtp to get the sprop-parameter-sets which hold the SPS and PPS in base64 if (fmtp != null) { var param = Rtsp.Sdp.H264Parameters.Parse(fmtp.FormatParameter); var sps_pps = param.SpropParameterSets; if (sps_pps.Count > 0) video_sps = sps_pps[0]; if (sps_pps.Count > 1) video_pps = sps_pps[1]; Output_NAL(sps_pps); // output SPS and PPS } // Split the rtpmap to get the Payload Type video_payload = 0; if (rtpmap != null) video_payload = rtpmap.PayloadNumber; Rtsp.Messages.RtspRequestSetup setup_message = new Rtsp.Messages.RtspRequestSetup(); setup_message.RtspUri = new Uri(url + "/" + control); RtspTransport transport = null; if (rtp_transport == RTP_TRANSPORT.TCP) { // Server interleaves the RTP packets over the RTSP connection // Example for TCP mode (RTP over RTSP) Transport: RTP/AVP/TCP;interleaved=0-1 video_data_channel = 0; // Used in DataReceived event handler video_rtcp_channel = 1; // Used in DataReceived event handler transport = new RtspTransport() { LowerTransport = RtspTransport.LowerTransportType.TCP, Interleaved = new PortCouple(video_data_channel, video_rtcp_channel), // Channel 0 for video. Channel 1 for RTCP status reports }; } if (rtp_transport == RTP_TRANSPORT.UDP) { // Server sends the RTP packets to a Pair of UDP Ports (one for data, one for rtcp control messages) // Example for UDP mode Transport: RTP/AVP;unicast;client_port=8000-8001 video_data_channel = udp_pair.data_port; // Used in DataReceived event handler video_rtcp_channel = udp_pair.control_port; // Used in DataReceived event handler transport = new RtspTransport() { LowerTransport = RtspTransport.LowerTransportType.UDP, IsMulticast = false, ClientPort = new PortCouple(video_data_channel, video_rtcp_channel), // a Channel for video. a Channel for RTCP status reports }; } if (rtp_transport == RTP_TRANSPORT.MULTICAST) { // Server sends the RTP packets to a Pair of UDP ports (one for data, one for rtcp control messages) // using Multicast Address and Ports that are in the reply to the SETUP message // Example for MULTICAST mode Transport: RTP/AVP;multicast video_data_channel = 0; // we get this information in the SETUP message reply video_rtcp_channel = 0; // we get this information in the SETUP message reply transport = new RtspTransport() { LowerTransport = RtspTransport.LowerTransportType.UDP, IsMulticast = true }; } setup_message.AddTransport(transport); rtsp_client.SendMessage(setup_message); } } } } // If we get a reply to SETUP (which was our third command), then process then send PLAY if (message.OriginalRequest != null && message.OriginalRequest is Rtsp.Messages.RtspRequestSetup) { // Got Reply to SETUP Console.WriteLine("Got reply from Setup. Session is " + message.Session); session = message.Session; // Session value used with Play, Pause, Teardown // Check the Transport header if (message.Headers.ContainsKey(RtspHeaderNames.Transport)) { RtspTransport transport = RtspTransport.Parse(message.Headers[RtspHeaderNames.Transport]); // Check if Transport header includes Multicast if (transport.IsMulticast) { String multicast_address = transport.Destination; video_data_channel = transport.Port.First; video_rtcp_channel = transport.Port.Second; // Create the Pair of UDP Sockets in Multicast mode udp_pair = new UDPSocket(multicast_address, video_data_channel, multicast_address, video_rtcp_channel); udp_pair.DataReceived += Rtp_DataReceived; udp_pair.Start(); } } Rtsp.Messages.RtspRequest play_message = new Rtsp.Messages.RtspRequestPlay(); play_message.RtspUri = new Uri(url); play_message.Session = session; rtsp_client.SendMessage(play_message); } // If we get a reply to PLAY (which was our fourth command), then we should have video being received if (message.OriginalRequest != null && message.OriginalRequest is Rtsp.Messages.RtspRequestPlay) { // Got Reply to PLAY Console.WriteLine("Got reply from Play " + message.Command); } }