Ejemplo n.º 1
0
bool StreamCapabilities::Serialize(IOBuffer &dest) {
	uint8_t temp[28];
	EHTONLLP(temp, __STREAM_CAPABILITIES_VERSION);
	EHTONLLP(temp + 8, videoCodecId);
	EHTONLLP(temp + 16, audioCodecId);
	EHTONLP(temp + 24, bandwidthHint);
	dest.ReadFromBuffer(temp, 28);
	switch (videoCodecId) {
		case CODEC_VIDEO_AVC:
		{
			if (!avc.Serialize(dest)) {
				FATAL("Unable to serialize avc");
				return false;
			}
			break;
		}
		default:
		{
			break;
		}
	}
	switch (audioCodecId) {
		case CODEC_AUDIO_AAC:
		{
			if (!aac.Serialize(dest)) {
				FATAL("Unable to serialize aac");
				return false;
			}
			break;
		}
		default:
		{
			break;
		}
	}
	return true;
}
Ejemplo n.º 2
0
void CommonTestsSuite::test_Endianess() {
	uint16_t ui16 = 0x0102;
	uint32_t ui32 = 0x01020304;
	uint64_t ui64 = 0x0102030405060708LL;
	double d = 123.456;

	//host to network
	uint8_t *pBuffer = NULL;
	ui16 = EHTONS(ui16);
	pBuffer = (uint8_t *) & ui16;
	TS_ASSERT(pBuffer[0] == 0x01);
	TS_ASSERT(pBuffer[1] == 0x02);

	pBuffer = NULL;
	ui32 = EHTONL(ui32);
	pBuffer = (uint8_t *) & ui32;
	TS_ASSERT(pBuffer[0] == 0x01);
	TS_ASSERT(pBuffer[1] == 0x02);
	TS_ASSERT(pBuffer[2] == 0x03);
	TS_ASSERT(pBuffer[3] == 0x04);

	pBuffer = NULL;
	ui32 = 0x01020304;
	ui32 = EHTONA(ui32);
	pBuffer = (uint8_t *) & ui32;
	TS_ASSERT(pBuffer[0] == 0x02);
	TS_ASSERT(pBuffer[1] == 0x03);
	TS_ASSERT(pBuffer[2] == 0x04);
	TS_ASSERT(pBuffer[3] == 0x01);

	pBuffer = NULL;
	ui64 = EHTONLL(ui64);
	pBuffer = (uint8_t *) & ui64;
	TS_ASSERT(pBuffer[0] == 0x01);
	TS_ASSERT(pBuffer[1] == 0x02);
	TS_ASSERT(pBuffer[2] == 0x03);
	TS_ASSERT(pBuffer[3] == 0x04);
	TS_ASSERT(pBuffer[4] == 0x05);
	TS_ASSERT(pBuffer[5] == 0x06);
	TS_ASSERT(pBuffer[6] == 0x07);
	TS_ASSERT(pBuffer[7] == 0x08);

	pBuffer = NULL;
	EHTOND(d, ui64);
	pBuffer = (uint8_t *) & ui64;
	TS_ASSERT(pBuffer[0] == 0x40);
	TS_ASSERT(pBuffer[1] == 0x5e);
	TS_ASSERT(pBuffer[2] == 0xdd);
	TS_ASSERT(pBuffer[3] == 0x2f);
	TS_ASSERT(pBuffer[4] == 0x1a);
	TS_ASSERT(pBuffer[5] == 0x9f);
	TS_ASSERT(pBuffer[6] == 0xbe);
	TS_ASSERT(pBuffer[7] == 0x77);

	//network to host pointer
	char buffer[] = {
		0x00, 0x01, 0x02, 0x03,
		0x04, 0x05, 0x06, 0x07,
		0x08, 0x09, 0x0a, 0x0b,
		0x0c, 0x0d, 0x0e, 0x0f,
		0x00, 0x01, 0x02, 0x03,
		0x04, 0x05, 0x06, 0x07,
		0x08, 0x09, 0x0a, 0x0b,
		0x0c, 0x0d, 0x0e, 0x0f,
		0x00, 0x01, 0x02, 0x03,
		0x04, 0x05, 0x06, 0x07,
		0x08, 0x09, 0x0a, 0x0b,
		0x0c, 0x0d, 0x0e, 0x0f,
		0x00, 0x01, 0x02, 0x03,
		0x04, 0x05, 0x06, 0x07,
		0x08, 0x09, 0x0a, 0x0b,
		0x0c, 0x0d, 0x0e, 0x0f,
		0x00, 0x01, 0x02, 0x03,
		0x04, 0x05, 0x06, 0x07,
		0x08, 0x09, 0x0a, 0x0b,
		0x0c, 0x0d, 0x0e, 0x0f,
		0x00, 0x01, 0x02, 0x03,
		0x04, 0x05, 0x06, 0x07,
		0x08, 0x09, 0x0a, 0x0b,
		0x0c, 0x0d, 0x0e, 0x0f,
		0x00, 0x01, 0x02, 0x03,
		0x04, 0x05, 0x06, 0x07,
		0x08, 0x09, 0x0a, 0x0b,
		0x0c, 0x0d, 0x0e, 0x0f,
		0x00, 0x01, 0x02, 0x03,
		0x04, 0x05, 0x06, 0x07,
		0x08, 0x09, 0x0a, 0x0b,
		0x0c, 0x0d, 0x0e, 0x0f
	};

	ui16 = ENTOHSP(buffer);
	TS_ASSERT(ui16 == 0x0001);
	ui16 = ENTOHSP(buffer + 1);
	TS_ASSERT(ui16 == 0x0102);
	ui16 = ENTOHSP(buffer + 2);
	TS_ASSERT(ui16 == 0x0203);
	ui16 = ENTOHSP(buffer + 3);
	TS_ASSERT(ui16 == 0x0304);
	ui16 = ENTOHSP(buffer + 4);
	TS_ASSERT(ui16 == 0x0405);
	ui16 = ENTOHSP(buffer + 5);
	TS_ASSERT(ui16 == 0x0506);
	ui16 = ENTOHSP(buffer + 6);
	TS_ASSERT(ui16 == 0x0607);
	ui16 = ENTOHSP(buffer + 7);
	TS_ASSERT(ui16 == 0x0708);
	ui16 = ENTOHSP(buffer + 8);
	TS_ASSERT(ui16 == 0x0809);
	ui16 = ENTOHSP(buffer + 9);
	TS_ASSERT(ui16 == 0x090a);
	ui16 = ENTOHSP(buffer + 10);
	TS_ASSERT(ui16 == 0x0a0b);
	ui16 = ENTOHSP(buffer + 11);
	TS_ASSERT(ui16 == 0x0b0c);
	ui16 = ENTOHSP(buffer + 12);
	TS_ASSERT(ui16 == 0x0c0d);
	ui16 = ENTOHSP(buffer + 13);
	TS_ASSERT(ui16 == 0x0d0e);
	ui16 = ENTOHSP(buffer + 14);
	TS_ASSERT(ui16 == 0x0e0f);

	ui32 = ENTOHLP(buffer);
	TS_ASSERT(ui32 == 0x00010203);
	ui32 = ENTOHLP(buffer + 1);
	TS_ASSERT(ui32 == 0x01020304);
	ui32 = ENTOHLP(buffer + 2);
	TS_ASSERT(ui32 == 0x02030405);
	ui32 = ENTOHLP(buffer + 3);
	TS_ASSERT(ui32 == 0x03040506);
	ui32 = ENTOHLP(buffer + 4);
	TS_ASSERT(ui32 == 0x04050607);
	ui32 = ENTOHLP(buffer + 5);
	TS_ASSERT(ui32 == 0x05060708);
	ui32 = ENTOHLP(buffer + 6);
	TS_ASSERT(ui32 == 0x06070809);
	ui32 = ENTOHLP(buffer + 7);
	TS_ASSERT(ui32 == 0x0708090a);
	ui32 = ENTOHLP(buffer + 8);
	TS_ASSERT(ui32 == 0x08090a0b);
	ui32 = ENTOHLP(buffer + 9);
	TS_ASSERT(ui32 == 0x090a0b0c);
	ui32 = ENTOHLP(buffer + 10);
	TS_ASSERT(ui32 == 0x0a0b0c0d);
	ui32 = ENTOHLP(buffer + 11);
	TS_ASSERT(ui32 == 0x0b0c0d0e);
	ui32 = ENTOHLP(buffer + 12);
	TS_ASSERT(ui32 == 0x0c0d0e0f);

	ui32 = ENTOHAP(buffer);
	TS_ASSERT(ui32 == 0x03000102);
	ui32 = ENTOHAP(buffer + 1);
	TS_ASSERT(ui32 == 0x04010203);
	ui32 = ENTOHAP(buffer + 2);
	TS_ASSERT(ui32 == 0x05020304);
	ui32 = ENTOHAP(buffer + 3);
	TS_ASSERT(ui32 == 0x06030405);
	ui32 = ENTOHAP(buffer + 4);
	TS_ASSERT(ui32 == 0x07040506);
	ui32 = ENTOHAP(buffer + 5);
	TS_ASSERT(ui32 == 0x08050607);
	ui32 = ENTOHAP(buffer + 6);
	TS_ASSERT(ui32 == 0x09060708);
	ui32 = ENTOHAP(buffer + 7);
	TS_ASSERT(ui32 == 0x0a070809);
	ui32 = ENTOHAP(buffer + 8);
	TS_ASSERT(ui32 == 0x0b08090a);
	ui32 = ENTOHAP(buffer + 9);
	TS_ASSERT(ui32 == 0x0c090a0b);
	ui32 = ENTOHAP(buffer + 10);
	TS_ASSERT(ui32 == 0x0d0a0b0c);
	ui32 = ENTOHAP(buffer + 11);
	TS_ASSERT(ui32 == 0x0e0b0c0d);
	ui32 = ENTOHAP(buffer + 12);
	TS_ASSERT(ui32 == 0x0f0c0d0e);

	ui64 = ENTOHLLP(buffer);
	TS_ASSERT(ui64 == 0x0001020304050607LL);
	ui64 = ENTOHLLP(buffer + 1);
	TS_ASSERT(ui64 == 0x0102030405060708LL);
	ui64 = ENTOHLLP(buffer + 2);
	TS_ASSERT(ui64 == 0x0203040506070809LL);
	ui64 = ENTOHLLP(buffer + 3);
	TS_ASSERT(ui64 == 0x030405060708090aLL);
	ui64 = ENTOHLLP(buffer + 4);
	TS_ASSERT(ui64 == 0x0405060708090a0bLL);
	ui64 = ENTOHLLP(buffer + 5);
	TS_ASSERT(ui64 == 0x05060708090a0b0cLL);
	ui64 = ENTOHLLP(buffer + 6);
	TS_ASSERT(ui64 == 0x060708090a0b0c0dLL);
	ui64 = ENTOHLLP(buffer + 7);
	TS_ASSERT(ui64 == 0x0708090a0b0c0d0eLL);
	ui64 = ENTOHLLP(buffer + 8);
	TS_ASSERT(ui64 == 0x08090a0b0c0d0e0fLL);

	char *pTempBuffer = new char[64 + 8];
	unsigned char rawDouble[] = {0x40, 0x5E, 0xDD, 0x2F, 0x1A, 0x9F, 0xBE, 0x77};
	double tempDoubleVal = 0;
	for (int i = 0; i <= 64; i++) {
		memset(pTempBuffer, 0, i);
		memcpy(pTempBuffer + i, rawDouble, 8);
		memset(pTempBuffer + i + 8, 0, 64 + 8 - i - 8);
		ENTOHDP((pTempBuffer + i), tempDoubleVal);
		TS_ASSERT(d == tempDoubleVal);
	}
	delete[] pTempBuffer;

	//network to host
#ifdef LITTLE_ENDIAN_BYTE_ALIGNED
	TS_ASSERT(ENTOHA(0x01040302) == 0x01020304);
	TS_ASSERT(ENTOHLL(0x0807060504030201LL) == 0x0102030405060708LL);
	ENTOHD(0x77BE9F1A2FDD5E40LL, tempDoubleVal);
	TS_ASSERT(d == tempDoubleVal);
#endif /* LITTLE_ENDIAN_BYTE_ALIGNED */

#ifdef LITTLE_ENDIAN_SHORT_ALIGNED
	TS_ASSERT(ENTOHA(0x01040302) == 0x01020304);
	TS_ASSERT(ENTOHLL(0x0807060504030201LL) == 0x0102030405060708LL);
	ENTOHD(0x77BE9F1A2FDD5E40LL, tempDoubleVal);
	TS_ASSERT(d == tempDoubleVal);
#endif /* LITTLE_ENDIAN_SHORT_ALIGNED */

#ifdef BIG_ENDIAN_BYTE_ALIGNED
	TS_ASSERT(ENTOHA(0x02030401) == 0x01020304);
	TS_ASSERT(ENTOHLL(0x0102030405060708LL) == 0x0102030405060708LL);
#error ENTOHD not tested
#endif /* BIG_ENDIAN_BYTE_ALIGNED */

#ifdef BIG_ENDIAN_SHORT_ALIGNED
#error BIG_ENDIAN_SHORT_ALIGNED set of tests not yet implemented!!! Please take care of this first!!!
#endif /* BIG_ENDIAN_SHORT_ALIGNED */

	//double mirror
	TS_ASSERT(ENTOHS(EHTONS(0x0102)) == 0x0102);
	TS_ASSERT(EHTONS(ENTOHS(0x0102)) == 0x0102);

	TS_ASSERT(ENTOHL(EHTONL(0x01020304)) == 0x01020304);
	TS_ASSERT(EHTONL(ENTOHL(0x01020304)) == 0x01020304);

	TS_ASSERT(ENTOHLL(EHTONLL(0x0102030405060708LL)) == 0x0102030405060708LL);
	TS_ASSERT(EHTONLL(ENTOHLL(0x0102030405060708LL)) == 0x0102030405060708LL);

	//EHTOND/ENTOHD are different. Requires 2 parameters. So, no double mirror

	TS_ASSERT(ENTOHA(EHTONA(0x01020304)) == 0x01020304);
	TS_ASSERT(EHTONA(ENTOHA(0x01020304)) == 0x01020304);

	// Buffer Put routines
	for (int i = 0; i < 16; i++) {
		EHTONSP(buffer + i, 0x0102);
		TS_ASSERT(ENTOHSP(buffer + i) == 0x0102);

		EHTONLP(buffer + i, 0x01020304);
		TS_ASSERT(ENTOHLP(buffer + i) == 0x01020304);

		EHTONLLP(buffer + i, 0x0102030405060708LL);
		TS_ASSERT(ENTOHLLP(buffer + i) == 0x0102030405060708LL);

		EHTONDP(d, (buffer + i));
		ENTOHDP(buffer + i, tempDoubleVal);
		TS_ASSERT(d == tempDoubleVal);
	}
}
Ejemplo n.º 3
0
bool OutboundConnectivity::FeedData(MSGHDR &message, double absoluteTimestamp,
		bool isAudio) {

	if (absoluteTimestamp == 0) {
		return true;
  }

#if 0
	//double rate = isAudio ? _pOutStream->GetCapabilities()->aac._sampleRate : 90000.0;
	double rate = 90000.0;
  if (isAudio) {
    BaseInStream *pPCMInStream = NULL;
    pPCMInStream = reinterpret_cast<BaseInStream*>(_pOutStream->GetStreamsManager()->FindFirstByTypeByName(ST_IN_AUDIO_PCM, QIC_STREAM_WAVE));
    StreamCapabilities *pAudioCapabilities = NULL;

    if (pPCMInStream == NULL) {
      FATAL("Inbound stream %s not found", QIC_STREAM_WAVE);
      return false;
    } else {
      pAudioCapabilities = pPCMInStream->GetCapabilities();
      if (pAudioCapabilities == NULL) {
        FATAL("Inbound stream capability %s not found", QIC_STREAM_WAVE);
        return false;
      }
    }

    rate = (CODEC_AUDIO_PCM == pAudioCapabilities->audioCodecId) ?
           pAudioCapabilities->pcm._sampleRate : _pOutStream->GetCapabilities()->aac._sampleRate;
  }

	uint32_t ssrc = isAudio ? _pOutStream->AudioSSRC() : _pOutStream->VideoSSRC();
#endif
	uint16_t messageLength = 0;
	for (uint32_t i = 0; i < (uint32_t) message.MSGHDR_MSG_IOVLEN; i++) {
		messageLength += (uint16_t) message.MSGHDR_MSG_IOV[i].IOVEC_IOV_LEN;
	}

	bool &hasTrack = isAudio ? _rtpClient.hasAudio : _rtpClient.hasVideo;
	uint32_t &packetsCount = isAudio ? _rtpClient.audioPacketsCount : _rtpClient.videoPacketsCount;
	uint32_t &bytesCount = isAudio ? _rtpClient.audioBytesCount : _rtpClient.videoBytesCount;
	uint32_t &startRTP = isAudio ? _rtpClient.audioStartRTP : _rtpClient.videoStartRTP;
	double &startTS = isAudio ? _rtpClient.audioStartTS : _rtpClient.videoStartTS;
	if (!hasTrack) {
		return true;
	}

	if (startRTP == 0xffffffff) {
		startRTP = ENTOHLP(((uint8_t *) message.MSGHDR_MSG_IOV[0].IOVEC_IOV_BASE) + 4);
		startTS = absoluteTimestamp;
	}

#if 0
/*
** temporary disable it to prevent client to enable a/v sync mechanism
** because video/audio timestamp could somehow out of sync
** it could make video or audio packets been dropped due to PTS out of range
*/
	if ((packetsCount % 500) == 0) {
		//FINEST("Send %c RTCP: %u", isAudio ? 'A' : 'V', packetsCount);
		EHTONLP(((uint8_t *) _rtcpMessage.MSGHDR_MSG_IOV[0].IOVEC_IOV_BASE) + 4, ssrc); //SSRC


		//NTP
		uint32_t integerValue = (uint32_t) (absoluteTimestamp / 1000.0);
		double fractionValue = (absoluteTimestamp / 1000.0 - ((uint32_t) (absoluteTimestamp / 1000.0)))*4294967296.0;
		uint64_t ntpVal = (_startupTime + integerValue + 2208988800ULL) << 32;
		ntpVal |= (uint32_t) fractionValue;
		EHTONLLP(_pRTCPNTP, ntpVal);

		//RTP
		uint64_t rtp = (uint64_t) (((double) (integerValue) + fractionValue / 4294967296.0) * rate);
		rtp &= 0xffffffff;
		EHTONLP(_pRTCPRTP, (uint32_t) rtp);

		//packet count
		EHTONLP(_pRTCPSPC, packetsCount);

		//octet count
		EHTONLP(_pRTCPSOC, bytesCount);
		//			FINEST("\n%s", STR(IOBuffer::DumpBuffer(((uint8_t *) _rtcpMessage.MSGHDR_MSG_IOV[0].IOVEC_IOV_BASE),
		//					_rtcpMessage.MSGHDR_MSG_IOV[0].IOVEC_IOV_LEN)));

		if (_rtpClient.isUdp) {
			SOCKET rtcpFd = isAudio ? _audioRTCPFd : _videoRTCPFd;
			sockaddr_in &rtcpAddress = isAudio ? _rtpClient.audioRtcpAddress : _rtpClient.videoRtcpAddress;
			_rtcpMessage.MSGHDR_MSG_NAME = (sockaddr *) & rtcpAddress;
			_amountSent = SENDMSG(rtcpFd, &_rtcpMessage, 0, &_dummyValue);
			if (_amountSent < 0) {
				FATAL("Unable to send message");
				return false;
			}
			ADD_OUT_BYTES_MANAGED(IOHT_UDP_CARRIER, _amountSent);
		} else {
			if (_pRTSPProtocol != NULL) {
				if (!_pRTSPProtocol->SendRaw(&_rtcpMessage,
						(uint16_t) (_rtcpMessage.MSGHDR_MSG_IOV[0].IOVEC_IOV_LEN), &_rtpClient, isAudio, false)) {
					FATAL("Unable to send raw rtcp audio data");
					return false;
				}
			}
		}
	}
#endif

	if (_rtpClient.isUdp) {
		SOCKET dataFd = isAudio ? _audioDataFd : _videoDataFd;
		sockaddr_in &dataAddress = isAudio ? _rtpClient.audioDataAddress : _rtpClient.videoDataAddress;
		message.MSGHDR_MSG_NAME = (sockaddr *) & dataAddress;
		_amountSent = SENDMSG(dataFd, &message, 0, &_dummyValue);
		if (_amountSent < 0) {
			int err = errno;
			FATAL("Unable to send message: %d; %s", err, strerror(errno));
			return false;
		}
		ADD_OUT_BYTES_MANAGED(IOHT_UDP_CARRIER, _amountSent);
	} else {
		if (_pRTSPProtocol != NULL) {
			if (!_pRTSPProtocol->SendRaw(&message, messageLength, &_rtpClient,
					isAudio, true)) {
				FATAL("Unable to send raw rtcp audio data");
				return false;
			}
		}
	}

  //INFO("send rtp data pkt %d byte cout %d", packetsCount, bytesCount);
	packetsCount++;
	bytesCount += messageLength;

	return true;
}