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多媒体开发之---live555 分析客户端

时间:2014-08-29 19:50:58      阅读:318      评论:0      收藏:0      [点我收藏+]

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live555的客服端流程:建立任务计划对象--建立环境对象--处理用户输入的参数(RTSP地址)--创建RTSPClient实例--发出DESCRIBE--发出SETUP--发出PLAY--进入Loop循环接收数据--发出TEARDOWN结束连接。

可以抽成3个函数接口:rtspOpen rtspRead rtspClose。

首先我们来分析rtspOpen的过程

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int rtspOpen(rtsp_object_t *p_obj, int tcpConnect)
{
     ... ...
TRACE1_DEC("BasicTaskScheduler::createNew !!!\n" ); if( ( p_sys->scheduler = BasicTaskScheduler::createNew() ) == NULL ) { TRACE1_DEC("BasicTaskScheduler::createNew failed\n" ); goto error; } if( !( p_sys->env = BasicUsageEnvironment::createNew(*p_sys->scheduler) ) ) { TRACE1_DEC("BasicUsageEnvironment::createNew failed\n"); goto error; } if( ( i_return = Connect( p_obj ) ) != RTSP_SUCCESS ) { TRACE1_DEC( "Failed to connect with %s\n", p_obj->rtspURL ); goto error; } if( p_sys->p_sdp == NULL ) { TRACE1_DEC( "Failed to retrieve the RTSP Session Description\n" ); goto error; } if( ( i_return = SessionsSetup( p_obj ) ) != RTSP_SUCCESS ) { TRACE1_DEC( "Nothing to play for rtsp://%s\n", p_obj->rtspURL ); goto error; } if( ( i_return = Play( p_obj ) ) != RTSP_SUCCESS ) goto error;      ... ... }
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1> BasicTaskScheduler::createNew()

2> BasicUsageEnvironment::createNew()

3> connect 

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static int Connect( rtsp_object_t *p_demux )
{
     ... ...
sprintf(appName, "LibRTSP%d", p_demux->id); if( ( p_sys->rtsp = RTSPClient::createNew( *p_sys->env, 1, appName, i_http_port ) ) == NULL ) { TRACE1_DEC( "RTSPClient::createNew failed (%s)\n", p_sys->env->getResultMsg() ); i_ret = RTSP_ERROR; goto connect_error; } psz_options = p_sys->rtsp->sendOptionsCmd( p_demux->rtspURL, psz_user, psz_pwd ); if(psz_options == NULL) TRACE1_DEC("RTSP Option commend error!!\n"); delete [] psz_options; p_sdp = p_sys->rtsp->describeURL( p_demux->rtspURL );      ... ... }
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  connect中做了三件事:RTSPClient类的实例,发送“OPTIONS”请求,发送“describeURL”请求。

  sendOptionsCmd()函数首先调用openConnectionFromURL()函数进程tcp连接,然后组包发送:

 

OPTIONS rtsp://120.90.0.50:8552/h264_ch2 RTSP/1.0
CSeq: 493
User-Agent: LibRTSP4 (LIVE555 Streaming Media v2008.04.02)

 

  收到服务器的应答:

RTSP/1.0 200 OK
CSeq: 493
Date: Mon, May 26 2014 13:27:07 GMT
Public: OPTIONS, DESCRIBE, SETUP, TEARDOWN, PLAY, PAUSE

  describeURL()函数首先也会调用openConnectionFromURL()函数进行TCP连接(这里可以看出先发OPTIONS请求,也可以先发describeURL请求),然后组包发送:

DESCRIBE rtsp://120.90.0.50:8552/h264_ch2 RTSP/1.0
CSeq: 494
Accept: application/sdp
User-Agent: LibRTSP4 (LIVE555 Streaming Media v2008.04.02)

  收到服务器应答:

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DESCRIBE rtsp://120.90.0.50:8552/h264_ch2 RTSP/1.0
CSeq: 494
Accept: application/sdp
User-Agent: LibRTSP4 (LIVE555 Streaming Media v2008.04.02)


Received DESCRIBE response: 
RTSP/1.0 200 OK
CSeq: 494
Date: Mon, May 26 2014 13:27:07 GMT
Content-Base: rtsp://192.168.103.51:8552/h264_ch2/
Content-Type: application/sdp
Content-Length: 509

Need to read 509 extra bytes
Read 509 extra bytes: v=0
o=- 1401092685794152 1 IN IP4 192.168.103.51
s=RTSP/RTP stream from NETRA
i=h264_ch2
t=0 0
a=tool:LIVE555 Streaming Media v2008.04.02
a=type:broadcast
a=control:*
a=range:npt=0-
a=x-qt-text-nam:RTSP/RTP stream from NETRA
a=x-qt-text-inf:h264_ch2
m=video 0 RTP/AVP 96
c=IN IP4 0.0.0.0
a=rtpmap:96 H264/90000
a=fmtp:96 packetization-mode=1;profile-level-id=000042;sprop-parameter-sets=h264
a=control:track1
m=audio 0 RTP/AVP 96
c=IN IP4 0.0.0.0
a=rtpmap:96 PCMU/48000/2
a=control:track2
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4> SessionsSetup

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static int SessionsSetup( rtsp_object_t *p_demux )
{
     ... ... 
        //    unsigned const thresh             = 1000000;
        if( !( p_sys->ms = MediaSession::createNew( *p_sys->env, p_sys->p_sdp ) ) )
        {
                TRACE1_DEC( "Could not create the RTSP Session: %s\n", p_sys->env->getResultMsg() );
                return RTSP_ERROR;
        }    

        /* Initialise each media subsession */
        iter = new MediaSubsessionIterator( *p_sys->ms );
        while( ( sub = iter->next() ) != NULL )
        {
               ... ...
                bInit = sub->initiate();

                if( !bInit )
                {
                        TRACE1_DEC( "RTP subsession ‘%s/%s‘ failed (%s)\n",
                        sub->mediumName(), sub->codecName(), p_sys->env->getResultMsg() );
                }
                else
                {
              ... ...
                        /* Issue the SETUP */
                        if( p_sys->rtsp )
                        {
                                if( !p_sys->rtsp->setupMediaSubsession( *sub, False, b_rtsp_tcp, False ) )
                                {
                                        /* if we get an unsupported transport error, toggle TCP
                                        * use and try again */
                                        if( !strstr(p_sys->env->getResultMsg(),"461 Unsupported Transport")
                                                || !p_sys->rtsp->setupMediaSubsession( *sub, False, b_rtsp_tcp, False ) )
                                        {
                                                TRACE1_DEC( "SETUP of‘%s/%s‘ failed %s\n", sub->mediumName(), sub->codecName(), p_sys->env->getResultMsg() );
                                                continue;
                                        }
                                }
                        }

               ... .../* Value taken from mplayer */
                        if( !strcmp( sub->mediumName(), "audio" ) )
                        {
                                if( !strcmp( sub->codecName(), "MP4A-LATM" ) )
                                {
                                       ... ...
                                }
                                else if( !strcmp( sub->codecName(), "PCMA" )  || !strcmp( sub->codecName(), "PCMU" ))
                                {
                                        tk->fmt.i_extra = 0;
                                        tk->fmt.i_codec = RTSP_CODEC_PCMU;
                                }
                        } 
                        else if( !strcmp( sub->mediumName(), "video" ) )
                        {
                                if( !strcmp( sub->codecName(), "H264" ) )
                                {
                                       ... ...
                                }
                                else if( !strcmp( sub->codecName(), "MP4V-ES" ) )
                                {
                                        ... ...
                                }                
                                else if( !strcmp( sub->codecName(), "JPEG" ) )
                                {
                                        tk->fmt.i_codec = RTSP_CODEC_MJPG;
                                }                
                        }  
               ... ...         
                }
        }
     ... ...
}
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  这个函数做了四件事:创建MediaSession类的实例,创建MediaSubsessionIterator类的实例,MediaSubsession的初始化,发送"SETUP"请求。

  创建MediaSession实例的同时,会调用initializeWithSDP()函数去解析SDP,解析出"s="相对应的fSessionName,解析出"s="相对应的fSessionName,解析出"i="相对应的fSessionDescription,解析出"c="相对应的connectionEndpointName,解析出"a=type:"相对应的fMediaSessionType等等。创建MediaSubsession类的实例,并且加入到fSubsessionsHead链表中,从上面的SDP描述来看,有两个MediaSubsession,一个video,一个audio。

  创建MediaSubsessionIterator类的实例,并且调用reset函数,将fOurSession.fSubsessionsHead赋值给fNextPtr,也就是将链表的头结点赋值给fNextPtr。当执行while循环的时候,执行了两次,一次video,一次audio。

  initiate函数,根据fSourceFilterAddr来判断是否是SSM,还是ASM,然后调用Groupsock的不同构造函数来创建实例fRTPSocket、fRTCPSocket;然后根据协议类型fProtocolName(这个值在sdp中的“m=”)来判断是基于udp还是rtp,我们只分析RTP,如果是RTP,则根据相应的编码类型fCodecName(这个值在sdp中的“a=rtpmap:”)来判断相应的fRTPSource,这里我们创建了H264和PCMU的RTPSource实例fRTPSource;创建RTCPInstance类的实例fRTCPInstance。

  setupMediaSubsession()函数,主要是发送“SETUP”请求,通过SDP的描述,知道我们采用的是RTP协议,根据rtspOpen传入的参数streamUsingTCP来请求rtp是基于udp传输,还是tcp传输,如果是TCP传输,只能是单播,如果udp传输,则根据connectionEndpointName和传入的参数forceMulticastOnUnspecified来判断是否多播还是单播,我们的服务端值支持单播,而且传入的参数false,所以这里采用单播;组包发送“SETUP”请求:

SETUP rtsp://192.168.103.51:8552/h264_ch2/track1 RTSP/1.0
CSeq: 495
Transport: RTP/AVP;unicast;client_port=33482-33483
User-Agent: LibRTSP4 (LIVE555 Streaming Media v2008.04.02)

   服务器应答:

RTSP/1.0 200 OK
CSeq: 495
Date: Mon, May 26 2014 13:27:07 GMT
Transport: RTP/AVP;unicast;destination=14.214.248.17;source=192.168.103.51;client_port=33482-33483;server_port=6970-6971
Session: 151

  最后,如果采用TCP传输,则调用setStreamSocket()->RTPInterface::setStreamSocket()->addStreamSocket()函数将RTSP的socket值fInputSocketNum加入到fTCPStreams链表中;如果是UDP传输的话,组播地址为空,则用服务端地址保存到fDests中,如果组播地址不为空,则加入组播组。

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        ... ...
     if (streamUsingTCP) { // Tell the subsession to receive RTP (and send/receive RTCP) // over the RTSP stream: if (subsession.rtpSource() != NULL) subsession.rtpSource()->setStreamSocket(fInputSocketNum, subsession.rtpChannelId); if (subsession.rtcpInstance() != NULL) subsession.rtcpInstance()->setStreamSocket(fInputSocketNum, subsession.rtcpChannelId); } else { // Normal case. // Set the RTP and RTCP sockets‘ destination address and port // from the information in the SETUP response: subsession.setDestinations(fServerAddress); }
... ...
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5> play

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static int Play( rtsp_object_t *p_demux )
{
    ... ...
    if( p_sys->rtsp )
    {    
        /* The PLAY */
        if( !p_sys->rtsp->playMediaSession( *p_sys->ms, p_sys->i_npt_start, -1, 1 ) )
        {
            TRACE1_DEC( "RTSP PLAY failed %s\n", p_sys->env->getResultMsg() );
            return RTSP_ERROR;;
        }        
    }
    ... ...return RTSP_SUCCESS;    
}
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  playMediaSession()函数,就是发送“PLAY”请求:

PLAY rtsp://120.90.0.50:8552/h264_ch2/ RTSP/1.0
CSeq: 497
Session: 151
Range: npt=0.000-
User-Agent: LibRTSP4 (LIVE555 Streaming Media v2008.04.02)

 服务器应答:

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RTSP/1.0 200 OK
CSeq: 497
Date: Mon, May 26 2014 13:27:07 GMT
Range: npt=0.000-
Session: 151
RTP-Info: url=rtsp://192.168.103.51:8552/h264_ch2/track1;seq=63842;rtptime=1242931431,url=rtsp://192.168.103.51:8552/h264_ch2/track2;seq=432;rtptime=3179210581
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接着我们分析rtspRead过程:

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int rtspRead(rtsp_object_t *p_obj)
{ 
      ... ...
        if(p_sys != NULL)
        {
                /* First warn we want to read data */
                p_sys->event = 0;    
                for( i = 0; i < p_sys->i_track; i++ )
                {
                        live_track_t *tk = p_sys->track[i];if( tk->waiting == 0 )
                        {
                                tk->waiting = 1;
                                tk->sub->readSource()->getNextFrame( tk->p_buffer, tk->i_buffer,
                                        StreamRead, tk, StreamClose, tk );
                        }        
                }               

                /* Create a task that will be called if we wait more than 300ms */
                task = p_sys->scheduler->scheduleDelayedTask( 300000, TaskInterrupt, p_obj );        

                /* Do the read */
                p_sys->scheduler->doEventLoop( &p_sys->event );

                /* remove the task */
                p_sys->scheduler->unscheduleDelayedTask( task );    

                p_sys->b_error ? ret = RTSP_ERROR : ret = RTSP_SUCCESS;
        }

        return ret;
}
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  这个函数首先要知道readSource()函数的fReadSource的值在哪里复制,在前面的initiate()函数里面有:

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       ... ...
       } else if (strcmp(fCodecName, "H264") == 0) { fReadSource = fRTPSource = H264VideoRTPSource::createNew(env(), fRTPSocket, fRTPPayloadFormat, fRTPTimestampFrequency); } else if (strcmp(fCodecName, "JPEG") == 0) { // motion JPEG           ... ... } else if ( strcmp(fCodecName, "PCMU") == 0 // PCM u-law audio || strcmp(fCodecName, "GSM") == 0 // GSM audio || strcmp(fCodecName, "PCMA") == 0 // PCM a-law audio || strcmp(fCodecName, "L16") == 0 // 16-bit linear audio || strcmp(fCodecName, "MP1S") == 0 // MPEG-1 System Stream || strcmp(fCodecName, "MP2P") == 0 // MPEG-2 Program Stream || strcmp(fCodecName, "L8") == 0 // 8-bit linear audio || strcmp(fCodecName, "G726-16") == 0 // G.726, 16 kbps || strcmp(fCodecName, "G726-24") == 0 // G.726, 24 kbps || strcmp(fCodecName, "G726-32") == 0 // G.726, 32 kbps || strcmp(fCodecName, "G726-40") == 0 // G.726, 40 kbps || strcmp(fCodecName, "SPEEX") == 0 // SPEEX audio ) { createSimpleRTPSource = True; useSpecialRTPoffset = 0; } else if (useSpecialRTPoffset >= 0) {   ... ... } if (createSimpleRTPSource) { char* mimeType = new char[strlen(mediumName()) + strlen(codecName()) + 2] ; sprintf(mimeType, "%s/%s", mediumName(), codecName()); fReadSource = fRTPSource = SimpleRTPSource::createNew(env(), fRTPSocket, fRTPPayloadFormat, fRTPTimestampFrequency, mimeType, (unsigned)useSpecialRTPoffset, doNormalMBitRule); delete[] mimeType; } }
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    如果是h264编码方式,则getNextFrame函数定义在FramedSource::getNextFrame:

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void FramedSource::getNextFrame(unsigned char* to, unsigned maxSize,
                afterGettingFunc* afterGettingFunc,
                void* afterGettingClientData,
                onCloseFunc* onCloseFunc,
                void* onCloseClientData) 
{
    // Make sure we‘re not already being read:
    if (fIsCurrentlyAwaitingData) {
        envir() << "FramedSource[" << this << "]::getNextFrame(): attempting to read more than once at the same time!\n";
        exit(1);
    }

    fTo = to;
    fMaxSize = maxSize;
    fNumTruncatedBytes = 0; // by default; could be changed by doGetNextFrame()
    fDurationInMicroseconds = 0; // by default; could be changed by doGetNextFrame()
    fAfterGettingFunc = afterGettingFunc;
    fAfterGettingClientData = afterGettingClientData;
    fOnCloseFunc = onCloseFunc;
    fOnCloseClientData = onCloseClientData;
    fIsCurrentlyAwaitingData = True;

    doGetNextFrame();
}
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  doGetNextFrame()函数定义在MultiFramedRTPSource::doGetNextFrame():

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void MultiFramedRTPSource::doGetNextFrame() 
{
    if (!fAreDoingNetworkReads) {
        // Turn on background read handling of incoming packets:
        fAreDoingNetworkReads = True;
        TaskScheduler::BackgroundHandlerProc* handler = (TaskScheduler::BackgroundHandlerProc*)&networkReadHandler;
                                                   fRTPInterface.startNetworkReading(handler);
    }

    fSavedTo = fTo;
    fSavedMaxSize = fMaxSize;
    fFrameSize = 0; // for now
    fNeedDelivery = True;
    
    doGetNextFrame1();
}
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  doGetNextFrame1()函数定义在MultiFramedRTPSource::doGetNextFrame1():

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void MultiFramedRTPSource::doGetNextFrame1() 
{
    while (fNeedDelivery) {
        // If we already have packet data available, then deliver it now.
        Boolean packetLossPrecededThis;
        BufferedPacket* nextPacket = fReorderingBuffer->getNextCompletedPacket(packetLossPrecededThis);
        if (nextPacket == NULL) break;

        fNeedDelivery = False;

        if (nextPacket->useCount() == 0) {
            // Before using the packet, check whether it has a special header
            // that needs to be processed:
            unsigned specialHeaderSize;
            if (!processSpecialHeader(nextPacket, specialHeaderSize)) {
                // Something‘s wrong with the header; reject the packet:
                fReorderingBuffer->releaseUsedPacket(nextPacket);
                fNeedDelivery = True;
                break;
            }
            nextPacket->skip(specialHeaderSize);
        }

        // Check whether we‘re part of a multi-packet frame, and whether
        // there was packet loss that would render this packet unusable:
        if (fCurrentPacketBeginsFrame) {
            if (packetLossPrecededThis || fPacketLossInFragmentedFrame) {
                // We didn‘t get all of the previous frame.
                // Forget any data that we used from it:
                fTo = fSavedTo; fMaxSize = fSavedMaxSize;
                fFrameSize = 0;
            }
            fPacketLossInFragmentedFrame = False;
        } else if (packetLossPrecededThis) {
            // We‘re in a multi-packet frame, with preceding packet loss
            fPacketLossInFragmentedFrame = True;
        }
        if (fPacketLossInFragmentedFrame) {
            // This packet is unusable; reject it:
            fReorderingBuffer->releaseUsedPacket(nextPacket);
            fNeedDelivery = True;
            break;
        }

        // The packet is usable. Deliver all or part of it to our caller:
        unsigned frameSize;
        nextPacket->use(fTo, fMaxSize, frameSize, fNumTruncatedBytes,
                        fCurPacketRTPSeqNum, fCurPacketRTPTimestamp,
                        fPresentationTime, fCurPacketHasBeenSynchronizedUsingRTCP,
                        fCurPacketMarkerBit);
        fFrameSize += frameSize;

        if (!nextPacket->hasUsableData()) {
            // We‘re completely done with this packet now
            fReorderingBuffer->releaseUsedPacket(nextPacket);
        }

        if (fCurrentPacketCompletesFrame || fNumTruncatedBytes > 0) {
            // We have all the data that the client wants.
            if (fNumTruncatedBytes > 0) {
                envir() << "MultiFramedRTPSource::doGetNextFrame1(): The total received frame size exceeds the client‘s buffer size ("
                       << fSavedMaxSize << ").  "<< fNumTruncatedBytes << " bytes of trailing data will be dropped!\n";
            }
            // Call our own ‘after getting‘ function, so that the downstream object can consume the data:
            if (fReorderingBuffer->isEmpty()) {
                // Common case optimization: There are no more queued incoming packets, so this code will not get
                // executed again without having first returned to the event loop.  Call our ‘after getting‘ function
                // directly, because there‘s no risk of a long chain of recursion (and thus stack overflow):
                afterGetting(this);
            } else {
                // Special case: Call our ‘after getting‘ function via the event loop.
                nextTask() = envir().taskScheduler().scheduleDelayedTask(0,  (TaskFunc*)FramedSource::afterGetting, this);
            }
        } else {
            // This packet contained fragmented data, and does not complete
            // the data that the client wants.  Keep getting data:
            fTo += frameSize; fMaxSize -= frameSize;
            fNeedDelivery = True;
        }
    }
}
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   FramedSource::afterGetting(FramedSource* source) :

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void FramedSource::afterGetting(FramedSource* source) 
{
    source->fIsCurrentlyAwaitingData = False;
    // indicates that we can be read again
    // Note that this needs to be done here, in case the "fAfterFunc"
    // called below tries to read another frame (which it usually will)

    if (source->fAfterGettingFunc != NULL) {
        (*(source->fAfterGettingFunc))(source->fAfterGettingClientData,
                                   source->fFrameSize, 
                                   source->fNumTruncatedBytes,
                                   source->fPresentationTime,
                                   source->fDurationInMicroseconds);
    }
}
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  fAfterGettingFunc函数指针在FramedSource::getNextFrame()中被赋值afterGettingFunc,afterGettingFunc的值则是rtspRead()函数调用getNextFrame()函数时,传入的StreamRead()。这样就获取了一帧数据。

     在MultiFramedRTPSource::doGetNextFrame()函数中,我们发现了fRTPInterface.startNetworkReading(handler),这个函数主要做了什么作用?

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void RTPInterface::startNetworkReading(TaskScheduler::BackgroundHandlerProc* handlerProc) 
{
    // Normal case: Arrange to read UDP packets:
    envir().taskScheduler().turnOnBackgroundReadHandling(fGS->socketNum(), handlerProc, fOwner);

    // Also, receive RTP over TCP, on each of our TCP connections:
    fReadHandlerProc = handlerProc;
    for (tcpStreamRecord* streams = fTCPStreams; streams != NULL; streams = streams->fNext) {
        // Get a socket descriptor for "streams->fStreamSocketNum":
        SocketDescriptor* socketDescriptor = lookupSocketDescriptor(envir(), streams->fStreamSocketNum);
        if (socketDescriptor == NULL) {
            socketDescriptor = new SocketDescriptor(envir(), streams->fStreamSocketNum);
            socketHashTable(envir())->Add((char const*)(long)(streams->fStreamSocketNum), socketDescriptor);
        }

        // Tell it about our subChannel:
        socketDescriptor->registerRTPInterface(streams->fStreamChannelId, this);
    }
}
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  这个函数主要做了两个作用,一个是注册UDP socket的读取任务函数MultiFramedRTPSource::networkReadHandler()到任务队列,一个是注册TCP socket的读取任务函数SocketDescriptor::tcpReadHandler()到任务队列,最终还是会调用MultiFramedRTPSource::networkReadHandler()函数获取一帧数据。

多媒体开发之---live555 分析客户端

标签:des   blog   http   os   io   strong   ar   for   数据   

原文地址:http://www.cnblogs.com/pengkunfan/p/3945480.html

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