I need to print every frame time(UTC) by getting every RTP timestamp but vlc API does not support this feature. So, I just heard the VLC lib called the live555 lib to parse RTSP and find the function afterGettingFrame in testRTSPClient(Demo of official website of live555) print the UTC time of every frame.

I just go to use testRTSPClient to open the .sdp file in local PC. but it does not work. It can only open the "rtsp://123.434.12.4/3523swdawd.sdp" this form and so forth (Failed to Get SDP Description : 404 Stream not found testRTSPClient in LIVE555).
Do I need to install the rtsp server ? because I found out that it needs to send some special commands(SETUP,PLAY,OPTIONS) to the server.

If testRTSPClient can only process rtsp://123.434.12.4/3523swdawd.sdp this form of url, and how VLC Media Player can process local .sdp file without setup the server of RTSP ?

TIPS: This local .sdp file is for my local IP Camera. I can play video frame from IP Camera with VLC Player but I just want to use testRTSPClient process the local .sdp file and print UTC time of video frame, Does anyone can get resolution to solve this problem ?

  • If you want to get RTP time, wireshark could helps you.
    – mpromonet
    Sep 16, 2015 at 8:24
  • @mpromonet It is too low in layers. I do not want to parse related Packets, I want to get RTP time and display video synchronously. My Project is real-time monitor. It need to print UTC time of every frame on Video frame and display. Sep 22, 2015 at 9:22

1 Answer 1


In order to receive an RTP stream described by an SDP file with live555, you need to :

  1. Create a MediaSession from the SDP (this will create the associated MediaSubsession )
  2. Initiate the MediaSubsession in order to open the UDP ports that will receive RTP/RTCP
  3. Create an overloaded MediaSink to receive the RTP frames
  4. Start this sink

A naive implementation inspired from testRTSPClient.cpp could be something like :

#include "liveMedia.hh"
#include "BasicUsageEnvironment.hh"

UsageEnvironment& operator<<(UsageEnvironment& env, const MediaSubsession& subsession) 
    return env << subsession.mediumName() << "/" << subsession.codecName();


class DummySink: public MediaSink 
        static DummySink* createNew(UsageEnvironment& env,
                      MediaSubsession& subsession, // identifies the kind of data that's being received
                      char const* streamId = NULL) // identifies the stream itself (optional)
              return new DummySink(env, subsession, streamId);

        DummySink(UsageEnvironment& env, MediaSubsession& subsession, char const* streamId)  
            : MediaSink(env), fSubsession(subsession) 
            fStreamId = strDup(streamId);
            fReceiveBuffer = new u_int8_t[DUMMY_SINK_RECEIVE_BUFFER_SIZE];

        virtual ~DummySink()
            delete[] fReceiveBuffer;
            delete[] fStreamId;

        static void afterGettingFrame(void* clientData, unsigned frameSize,
                    unsigned numTruncatedBytes,
                    struct timeval presentationTime,
                    unsigned durationInMicroseconds)
            DummySink* sink = (DummySink*)clientData;
            sink->afterGettingFrame(frameSize, numTruncatedBytes, presentationTime, durationInMicroseconds);        
        void afterGettingFrame(unsigned frameSize, unsigned numTruncatedBytes,
                 struct timeval presentationTime, unsigned durationInMicroseconds)
            if (fStreamId != NULL) envir() << "Stream \"" << fStreamId << "\"; ";
            envir() << fSubsession.mediumName() << "/" << fSubsession.codecName() << ":\tReceived " << frameSize << " bytes";
            if (numTruncatedBytes > 0) envir() << " (with " << numTruncatedBytes << " bytes truncated)";
            char uSecsStr[6+1]; // used to output the 'microseconds' part of the presentation time
            sprintf(uSecsStr, "%06u", (unsigned)presentationTime.tv_usec);
            envir() << ".\tPresentation time: " << (int)presentationTime.tv_sec << "." << uSecsStr;
            if (fSubsession.rtpSource() != NULL && !fSubsession.rtpSource()->hasBeenSynchronizedUsingRTCP()) 
                envir() << "!"; // mark the debugging output to indicate that this presentation time is not RTCP-synchronized
            envir() << "\tNPT: " << fSubsession.getNormalPlayTime(presentationTime);
            envir() << "\n";

            // Then continue, to request the next frame of data:

        virtual Boolean continuePlaying()
            if (fSource == NULL) return False; // sanity check (should not happen)          
            fSource->getNextFrame(fReceiveBuffer, DUMMY_SINK_RECEIVE_BUFFER_SIZE, afterGettingFrame, this, onSourceClosure, this);
            return True;

        u_int8_t* fReceiveBuffer;
        MediaSubsession& fSubsession;
        char* fStreamId;

int main(int argc, char** argv) 
    TaskScheduler* scheduler = BasicTaskScheduler::createNew();
    UsageEnvironment* env = BasicUsageEnvironment::createNew(*scheduler);

    if (argc < 2) 
        *env << "Usage: " << argv[0] << " file.sdp\n";
        return 1;
    const char* filename = argv[1];
    FILE* file = fopen(filename,"r");
    if (file == NULL)
        *env << "Cannot open SDP file:" << filename << "\n";        
        return 1;
    fseek(file, 0, SEEK_END);
    long size = ftell(file);
    fseek(file, 0, SEEK_SET);
    char sdp[size];

    MediaSession* session = MediaSession::createNew(*env, sdp);               
    if (session == NULL)
        *env << "Failed to create a MediaSession object from the SDP description: " << env->getResultMsg() << "\n";     
        return 1;

    MediaSubsessionIterator iter(*session);
    MediaSubsession* subsession = NULL;
    while ((subsession = iter.next()) != NULL) 
        if (!subsession->initiate (0))
            *env << "Failed to initiate the \"" << *subsession << "\" subsession: " << env->getResultMsg() << "\n";
            subsession->sink = DummySink::createNew(*env, *subsession, filename);
            if (subsession->sink == NULL)
                *env << "Failed to create a data sink for the \"" << *subsession << "\" subsession: " << env->getResultMsg() << "\n";           
                subsession->sink->startPlaying(*subsession->rtpSource(), NULL, NULL);

    char eventLoopWatchVariable = 0;

    return 0;

Running the program giving as argument the path to the file that contains the SDP will read the RTP streams printing frame size and the timestamp of each frames.
Something like :

Stream "ffmpeg.sdp"; video/H265:    Received 5131 bytes.    Presentation time: 1442350569.228804!   NPT: 0.000000
Stream "ffmpeg.sdp"; video/H265:    Received 7917 bytes.    Presentation time: 1442350569.268804!   NPT: 0.000000
Stream "ffmpeg.sdp"; video/H265:    Received 2383 bytes.    Presentation time: 1442350569.308804!   NPT: 0.000000
Stream "ffmpeg.sdp"; video/H265:    Received 7780 bytes.    Presentation time: 1442350569.348804!   NPT: 0.000000
Stream "ffmpeg.sdp"; video/H265:    Received 1773 bytes.    Presentation time: 1442350569.388804!   NPT: 0.000000
Stream "ffmpeg.sdp"; video/H265:    Received 9580 bytes.    Presentation time: 1442350569.428804!   NPT: 0.000000
Stream "ffmpeg.sdp"; video/H265:    Received 7934 bytes.    Presentation time: 1442350569.468804!   NPT: 0.000000
Stream "ffmpeg.sdp"; video/H265:    Received 2180 bytes.    Presentation time: 1442350569.508804!   NPT: 0.000000
Stream "ffmpeg.sdp"; video/H265:    Received 10804 bytes.   Presentation time: 1442350569.548804!   NPT: 0.000000
Stream "ffmpeg.sdp"; video/H265:    Received 7801 bytes.    Presentation time: 1442350569.588804!   NPT: 0.000000
Stream "ffmpeg.sdp"; video/H265:    Received 7816 bytes.    Presentation time: 1442350569.628804!   NPT: 0.000000
Stream "ffmpeg.sdp"; video/H265:    Received 4028 bytes.    Presentation time: 1442350569.668804!   NPT: 0.000000
Stream "ffmpeg.sdp"; video/H265:    Received 7959 bytes.    Presentation time: 1442350569.708804!   NPT: 0.000000
Stream "ffmpeg.sdp"; video/H265:    Received 8062 bytes.    Presentation time: 1442350569.794000    NPT: 0.000000
Stream "ffmpeg.sdp"; video/H265:    Received 8014 bytes.    Presentation time: 1442350569.834000    NPT: 0.000000
  • Thank you for your replay ,And I need to decode the frame data to display the video, How Can I do with live555 ? your solution is just print presentation time of every frame。And How to display it and video frame synchronously on the Screen? I need to find frame data and decode it to display。 Sep 22, 2015 at 8:50
  • @MathxHChen : live555 have neither decoding capacity nor rendering one, this code just do what does testRTSPClient reading an SDP file. In order to decode you can use ffmpeg, SDL_ttf to build OSD frames and SDL to display.
    – mpromonet
    Sep 22, 2015 at 11:13
  • live555 can get every RTP Packets?if it can , How can I get? I need to extract the timestamp of every RTP Packet before decode it. And I took a look of your code, I could not find any about the buffer of every frame before decoding (need to use FFMPEG to decode the frame data) Sep 22, 2015 at 11:58
  • DummySink::continuePlaying ask to receive data in fReceiveBuffer calling fSource->getNextFrame. The RTP frame content is available in the afterGetting callback using the first frameSize bytes of this buffer.
    – mpromonet
    Sep 22, 2015 at 13:58
  • Tank you, I wonder the presentation time is the UTC, it looks like number of seconds from 1970 . 1. 1 to now . So , I do not have to Extract the timestamp of RTP? because I found RTP timestamp is converted to some form in live555 source, the code as follow: Sep 23, 2015 at 0:47

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