/********** This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. (See .) This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA **********/ // "liveMedia" // Copyright (c) 1996-2024 Live Networks, Inc. All rights reserved. // RTP sink for a common kind of payload format: Those which pack multiple, // complete codec frames (as many as possible) into each RTP packet. // C++ header #ifndef _MULTI_FRAMED_RTP_SINK_HH #define _MULTI_FRAMED_RTP_SINK_HH #ifndef _RTP_SINK_HH #include "RTPSink.hh" #endif class LIVEMEDIA_API MultiFramedRTPSink: public RTPSink { public: void setPacketSizes(unsigned preferredPacketSize, unsigned maxPacketSize); typedef void (onSendErrorFunc)(void* clientData); void setOnSendErrorFunc(onSendErrorFunc* onSendErrorFunc, void* onSendErrorFuncData) { // Can be used to set a callback function to be called if there's an error sending RTP packets on our socket. fOnSendErrorFunc = onSendErrorFunc; fOnSendErrorData = onSendErrorFuncData; } protected: MultiFramedRTPSink(UsageEnvironment& env, Groupsock* rtpgs, unsigned char rtpPayloadType, unsigned rtpTimestampFrequency, char const* rtpPayloadFormatName, unsigned numChannels = 1); // we're a virtual base class virtual ~MultiFramedRTPSink(); virtual void doSpecialFrameHandling(unsigned fragmentationOffset, unsigned char* frameStart, unsigned numBytesInFrame, struct timeval framePresentationTime, unsigned numRemainingBytes); // perform any processing specific to the particular payload format virtual Boolean allowFragmentationAfterStart() const; // whether a frame can be fragmented if other frame(s) appear earlier // in the packet (by default: False) virtual Boolean allowOtherFramesAfterLastFragment() const; // whether other frames can be packed into a packet following the // final fragment of a previous, fragmented frame (by default: False) virtual Boolean frameCanAppearAfterPacketStart(unsigned char const* frameStart, unsigned numBytesInFrame) const; // whether this frame can appear in position >1 in a pkt (default: True) virtual unsigned specialHeaderSize() const; // returns the size of any special header used (following the RTP header) (default: 0) virtual unsigned frameSpecificHeaderSize() const; // returns the size of any frame-specific header used (before each frame // within the packet) (default: 0) virtual unsigned computeOverflowForNewFrame(unsigned newFrameSize) const; // returns the number of overflow bytes that would be produced by adding a new // frame of size "newFrameSize" to the current RTP packet. // (By default, this just calls "numOverflowBytes()", but subclasses can redefine // this to (e.g.) impose a granularity upon RTP payload fragments.) // Functions that might be called by doSpecialFrameHandling(), or other subclass virtual functions: Boolean isFirstPacket() const { return fIsFirstPacket; } Boolean isFirstFrameInPacket() const { return fNumFramesUsedSoFar == 0; } unsigned curFragmentationOffset() const { return fCurFragmentationOffset; } void setMarkerBit(); void setTimestamp(struct timeval framePresentationTime); void setSpecialHeaderWord(unsigned word, /* 32 bits, in host order */ unsigned wordPosition = 0); void setSpecialHeaderBytes(unsigned char const* bytes, unsigned numBytes, unsigned bytePosition = 0); void setFrameSpecificHeaderWord(unsigned word, /* 32 bits, in host order */ unsigned wordPosition = 0); void setFrameSpecificHeaderBytes(unsigned char const* bytes, unsigned numBytes, unsigned bytePosition = 0); void setFramePadding(unsigned numPaddingBytes); unsigned numFramesUsedSoFar() const { return fNumFramesUsedSoFar; } unsigned ourMaxPacketSize() const { return fOurMaxPacketSize; } public: // redefined virtual functions: virtual void stopPlaying(); protected: // redefined virtual functions: virtual Boolean continuePlaying(); private: void buildAndSendPacket(Boolean isFirstPacket); void packFrame(); void sendPacketIfNecessary(); static void sendNext(void* firstArg); friend void sendNext(void*); static void afterGettingFrame(void* clientData, unsigned numBytesRead, unsigned numTruncatedBytes, struct timeval presentationTime, unsigned durationInMicroseconds); void afterGettingFrame1(unsigned numBytesRead, unsigned numTruncatedBytes, struct timeval presentationTime, unsigned durationInMicroseconds); Boolean isTooBigForAPacket(unsigned numBytes) const; static void ourHandleClosure(void* clientData); private: OutPacketBuffer* fOutBuf; Boolean fNoFramesLeft; unsigned fNumFramesUsedSoFar; unsigned fCurFragmentationOffset; Boolean fPreviousFrameEndedFragmentation; Boolean fIsFirstPacket; struct timeval fNextSendTime; unsigned fTimestampPosition; unsigned fSpecialHeaderPosition; unsigned fSpecialHeaderSize; // size in bytes of any special header used unsigned fCurFrameSpecificHeaderPosition; unsigned fCurFrameSpecificHeaderSize; // size in bytes of cur frame-specific header unsigned fTotalFrameSpecificHeaderSizes; // size of all frame-specific hdrs in pkt unsigned fOurMaxPacketSize; onSendErrorFunc* fOnSendErrorFunc; void* fOnSendErrorData; }; #endif