ZLMediaKit/src/RtmpCodec/AACRtmpCodec.cpp

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//
// Created by xzl on 2018/10/24.
//
#include <Player/Player.h>
#include "AACRtmpCodec.h"
namespace ZL{
namespace Rtmp {
AACRtmpDecoder::AACRtmpDecoder() {
_adts = obtainFrame();
}
AACFrame::Ptr AACRtmpDecoder::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<AACFrame>::obtainObj();
frame->aac_frame_length = 7;
frame->iPrefixSize = 7;
return frame;
}
bool AACRtmpDecoder::inputRtmp(const RtmpPacket::Ptr &pkt, bool key_pos) {
RtmpCodec::inputRtmp(pkt, false);
if (pkt->isCfgFrame()) {
_aac_cfg = pkt->getAacCfg();
return false;
}
if (!_aac_cfg.empty()) {
onGetAAC(pkt->strBuf.data() + 2, pkt->strBuf.size() - 2, pkt->timeStamp);
}
return false;
}
void AACRtmpDecoder::onGetAAC(const char* pcData, int iLen, uint32_t ui32TimeStamp) {
if(iLen + 7 > sizeof(_adts->buffer)){
WarnL << "Illegal adts data, exceeding the length limit.";
return;
}
//写adts结构头
makeAdtsHeader(_aac_cfg,*_adts);
//拷贝aac负载
memcpy(_adts->buffer + 7, pcData, iLen);
_adts->aac_frame_length = 7 + iLen;
_adts->timeStamp = ui32TimeStamp;
//adts结构头转成头7个字节
writeAdtsHeader(*_adts, _adts->buffer);
//写入环形缓存
RtmpCodec::inputFrame(_adts);
_adts = obtainFrame();
}
/////////////////////////////////////////////////////////////////////////////////////
void AACRtmpEncoder::inputFrame(const Frame::Ptr &frame) {
RtmpCodec::inputFrame(frame);
if(frame->prefixSize() == 7 && _aac_cfg.empty()){
//包含adts头
_aac_cfg = makeAdtsConfig(reinterpret_cast<const uint8_t *>(frame->data()));
makeAudioConfigPkt();
}
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if(!_aac_cfg.empty()){
RtmpPacket::Ptr rtmpPkt = ResourcePoolHelper<RtmpPacket>::obtainObj();
//////////header
uint8_t is_config = false;
rtmpPkt->strBuf.push_back(m_ui8AudioFlags);
rtmpPkt->strBuf.push_back(!is_config);
rtmpPkt->strBuf.append(frame->data() + frame->prefixSize(), frame->size() - frame->prefixSize());
rtmpPkt->bodySize = rtmpPkt->strBuf.size();
rtmpPkt->chunkId = CHUNK_AUDIO;
rtmpPkt->streamId = STREAM_MEDIA;
rtmpPkt->timeStamp = frame->stamp();
rtmpPkt->typeId = MSG_AUDIO;
inputRtmp(rtmpPkt, false);
}
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}
void AACRtmpEncoder::makeAudioConfigPkt() {
makeAdtsHeader(_aac_cfg,*_adts);
int iSampleRate , iChannel , iSampleBit = 16;
getAACInfo(*_adts,iSampleRate,iChannel);
uint8_t flvStereoOrMono = (iChannel > 1);
uint8_t flvSampleRate;
switch (iSampleRate) {
case 48000:
case 44100:
flvSampleRate = 3;
break;
case 24000:
case 22050:
flvSampleRate = 2;
break;
case 12000:
case 11025:
flvSampleRate = 1;
break;
default:
flvSampleRate = 0;
break;
}
uint8_t flvSampleBit = iSampleBit == 16;
uint8_t flvAudioType = 10; //aac
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m_ui8AudioFlags = (flvAudioType << 4) | (flvSampleRate << 2) | (flvSampleBit << 1) | flvStereoOrMono;
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RtmpPacket::Ptr rtmpPkt = ResourcePoolHelper<RtmpPacket>::obtainObj();
//////////header
uint8_t is_config = true;
rtmpPkt->strBuf.push_back(m_ui8AudioFlags);
rtmpPkt->strBuf.push_back(!is_config);
rtmpPkt->strBuf.append(_aac_cfg);
rtmpPkt->bodySize = rtmpPkt->strBuf.size();
rtmpPkt->chunkId = CHUNK_AUDIO;
rtmpPkt->streamId = STREAM_MEDIA;
rtmpPkt->timeStamp = 0;
rtmpPkt->typeId = MSG_AUDIO;
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inputRtmp(rtmpPkt, false);
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}
}//namespace Rtmp
}//namespace ZL