读test.264码流文件,客户端可以通过ffplay.exe rtsp: xxx播放出来。
直接使用编译好的库,改自testOnDemandRTSPServer.cpp
#include "liveMedia.hh" #include "BasicUsageEnvironment.hh" #pragma comment (lib, "Ws2_32.lib") #pragma comment (lib, "BasicUsageEnvironment.lib") #pragma comment (lib, "groupsock.lib") #pragma comment (lib, "liveMedia.lib") #pragma comment (lib, "UsageEnvironment.lib") UsageEnvironment* env; // To make the second and subsequent client for each stream reuse the same // input stream as the first client (rather than playing the file from the // start for each client), change the following "False" to "True": Boolean reuseFirstSource = False; // To stream *only* MPEG-1 or 2 video "I" frames // (e.g., to reduce network bandwidth), // change the following "False" to "True": Boolean iFramesOnly = False; static void announceStream(RTSPServer* rtspServer, ServerMediaSession* sms, char const* streamName, char const* inputFileName); // fwd static char newMatroskaDemuxWatchVariable; static MatroskaFileServerDemux* demux; static void onMatroskaDemuxCreation(MatroskaFileServerDemux* newDemux, void* /*clientData*/) { demux = newDemux; newMatroskaDemuxWatchVariable = 1; } int main(int argc, char** argv) { // Begin by setting up our usage environment: TaskScheduler* scheduler = BasicTaskScheduler::createNew(); env = BasicUsageEnvironment::createNew(*scheduler); UserAuthenticationDatabase* authDB = NULL; #ifdef ACCESS_CONTROL // To implement client access control to the RTSP server, do the following: authDB = new UserAuthenticationDatabase; authDB->addUserRecord("username1", "password1"); // replace these with real strings // Repeat the above with each <username>, <password> that you wish to allow // access to the server. #endif // Create the RTSP server: RTSPServer* rtspServer = RTSPServer::createNew(*env, 8554, authDB); if (rtspServer == NULL) { *env << "Failed to create RTSP server: " << env->getResultMsg() << "\n"; exit(1); } char const* descriptionString = "Session streamed by \"testOnDemandRTSPServer\""; // Set up each of the possible streams that can be served by the // RTSP server. Each such stream is implemented using a // "ServerMediaSession" object, plus one or more // "ServerMediaSubsession" objects for each audio/video substream. // A H.264 video elementary stream: { char const* streamName = "h264ESVideoTest"; char const* inputFileName = "test.264"; ServerMediaSession* sms = ServerMediaSession::createNew(*env, streamName, streamName, descriptionString); sms->addSubsession(H264VideoFileServerMediaSubsession ::createNew(*env, inputFileName, reuseFirstSource)); rtspServer->addServerMediaSession(sms); announceStream(rtspServer, sms, streamName, inputFileName); } // Also, attempt to create a HTTP server for RTSP-over-HTTP tunneling. // Try first with the default HTTP port (80), and then with the alternative HTTP // port numbers (8000 and 8080). //if (rtspServer->setUpTunnelingOverHTTP(80) || rtspServer->setUpTunnelingOverHTTP(8000) || rtspServer->setUpTunnelingOverHTTP(8080)) { // *env << "\n(We use port " << rtspServer->httpServerPortNum() << " for optional RTSP-over-HTTP tunneling.)\n"; //} else { // *env << "\n(RTSP-over-HTTP tunneling is not available.)\n"; //} env->taskScheduler().doEventLoop(); // does not return return 0; // only to prevent compiler warning } static void announceStream(RTSPServer* rtspServer, ServerMediaSession* sms, char const* streamName, char const* inputFileName) { char* url = rtspServer->rtspURL(sms); UsageEnvironment& env = rtspServer->envir(); env << "\n\"" << streamName << "\" stream, from the file \"" << inputFileName << "\"\n"; env << "Play this stream using the URL \"" << url << "\"\n"; delete[] url; }