// // Created by xzl on 2018/10/18. // #include "AACRtpCodec.h" AACRtpEncoder::AACRtpEncoder(uint32_t ui32Ssrc, uint32_t ui32MtuSize, uint32_t ui32SampleRate, uint8_t ui8PlayloadType, uint8_t ui8Interleaved) : RtpInfo(ui32Ssrc, ui32MtuSize, ui32SampleRate, ui8PlayloadType, ui8Interleaved), AACRtpDecoder(ui32SampleRate){ } void AACRtpEncoder::inputFrame(const Frame::Ptr &frame) { RtpCodec::inputFrame(frame); GET_CONFIG_AND_REGISTER(uint32_t, cycleMS, Config::Rtp::kCycleMS); auto uiStamp = frame->stamp(); auto pcData = frame->data() + frame->prefixSize(); auto iLen = frame->size() - frame->prefixSize(); uiStamp %= cycleMS; char *ptr = (char *) pcData; int iSize = iLen; while (iSize > 0) { if (iSize <= m_ui32MtuSize - 20) { m_aucSectionBuf[0] = 0; m_aucSectionBuf[1] = 16; m_aucSectionBuf[2] = iLen >> 5; m_aucSectionBuf[3] = (iLen & 0x1F) << 3; memcpy(m_aucSectionBuf + 4, ptr, iSize); makeAACRtp(m_aucSectionBuf, iSize + 4, true, uiStamp); break; } m_aucSectionBuf[0] = 0; m_aucSectionBuf[1] = 16; m_aucSectionBuf[2] = (iLen) >> 5; m_aucSectionBuf[3] = (iLen & 0x1F) << 3; memcpy(m_aucSectionBuf + 4, ptr, m_ui32MtuSize - 20); makeAACRtp(m_aucSectionBuf, m_ui32MtuSize - 16, false, uiStamp); ptr += (m_ui32MtuSize - 20); iSize -= (m_ui32MtuSize - 20); } } void AACRtpEncoder::makeAACRtp(const void *pData, unsigned int uiLen, bool bMark, uint32_t uiStamp) { uint16_t u16RtpLen = uiLen + 12; m_ui32TimeStamp = (m_ui32SampleRate / 1000) * uiStamp; uint32_t ts = htonl(m_ui32TimeStamp); uint16_t sq = htons(m_ui16Sequence); uint32_t sc = htonl(m_ui32Ssrc); auto pRtppkt = ResourcePoolHelper::obtainObj(); auto &rtppkt = *pRtppkt; unsigned char *pucRtp = rtppkt.payload; pucRtp[0] = '$'; pucRtp[1] = m_ui8Interleaved; pucRtp[2] = u16RtpLen >> 8; pucRtp[3] = u16RtpLen & 0x00FF; pucRtp[4] = 0x80; pucRtp[5] = (bMark << 7) | m_ui8PlayloadType; memcpy(&pucRtp[6], &sq, 2); memcpy(&pucRtp[8], &ts, 4); //ssrc memcpy(&pucRtp[12], &sc, 4); //playload memcpy(&pucRtp[16], pData, uiLen); rtppkt.PT = m_ui8PlayloadType; rtppkt.interleaved = m_ui8Interleaved; rtppkt.mark = bMark; rtppkt.length = uiLen + 16; rtppkt.sequence = m_ui16Sequence; rtppkt.timeStamp = m_ui32TimeStamp; rtppkt.ssrc = m_ui32Ssrc; rtppkt.type = TrackAudio; rtppkt.offset = 16; RtpCodec::inputRtp(pRtppkt, false); m_ui16Sequence++; } ///////////////////////////////////////////////////////////////////////////////////// AACRtpDecoder::AACRtpDecoder(uint32_t ui32SampleRate) { m_adts = obtainFrame(); m_sampleRate = ui32SampleRate; } AACFrame::Ptr AACRtpDecoder::obtainFrame() { //从缓存池重新申请对象,防止覆盖已经写入环形缓存的对象 auto frame = ResourcePoolHelper::obtainObj(); frame->aac_frame_length = 7; frame->iPrefixSize = 7; return frame; } bool AACRtpDecoder::inputRtp(const RtpPacket::Ptr &rtppack, bool key_pos) { RtpCodec::inputRtp(rtppack, false); int length = rtppack->length - rtppack->offset; if (m_adts->aac_frame_length + length - 4 > sizeof(AACFrame::buffer)) { m_adts->aac_frame_length = 7; WarnL << "aac负载数据太长"; return false; } memcpy(m_adts->buffer + m_adts->aac_frame_length, rtppack->payload + rtppack->offset + 4, length - 4); m_adts->aac_frame_length += (length - 4); if (rtppack->mark == true) { m_adts->sequence = rtppack->sequence; m_adts->timeStamp = rtppack->timeStamp * (1000.0 / m_sampleRate); writeAdtsHeader(*m_adts, m_adts->buffer); onGetAAC(m_adts); } return false; } void AACRtpDecoder::onGetAAC(const AACFrame::Ptr &frame) { //写入环形缓存 RtpCodec::inputFrame(frame); m_adts = obtainFrame(); }