ZLMediaKit/src/Extension/H265Rtmp.cpp

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/*
* Copyright (c) 2016 The ZLMediaKit project authors. All Rights Reserved.
*
* This file is part of ZLMediaKit(https://github.com/xia-chu/ZLMediaKit).
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*
* Use of this source code is governed by MIT license that can be found in the
* LICENSE file in the root of the source tree. All contributing project authors
* may be found in the AUTHORS file in the root of the source tree.
*/
#include "Rtmp/utils.h"
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#include "H265Rtmp.h"
#ifdef ENABLE_MP4
#include "mpeg4-hevc.h"
#endif // ENABLE_MP4
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using namespace std;
using namespace toolkit;
namespace mediakit {
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H265RtmpDecoder::H265RtmpDecoder() {
_h265frame = obtainFrame();
}
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H265Frame::Ptr H265RtmpDecoder::obtainFrame() {
auto frame = FrameImp::create<H265Frame>();
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frame->_prefix_size = 4;
return frame;
}
#ifdef ENABLE_MP4
static bool decode_HEVCDecoderConfigurationRecord(uint8_t *extra, size_t bytes, string &frame) {
struct mpeg4_hevc_t hevc;
memset(&hevc, 0, sizeof(hevc));
if (mpeg4_hevc_decoder_configuration_record_load((uint8_t *)extra, bytes, &hevc) > 0) {
uint8_t *config = new uint8_t[bytes * 2];
int size = mpeg4_hevc_to_nalu(&hevc, config, bytes * 2);
if (size > 4) {
frame.assign((char *)config + 4, size - 4);
}
delete[] config;
return size > 4;
}
return false;
}
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/**
* 0x00 00 00 01sps
*/
static bool getH265ConfigFrame(const RtmpPacket &thiz, string &frame) {
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if (thiz.getMediaType() != FLV_CODEC_H265) {
return false;
}
if (!thiz.isCfgFrame()) {
return false;
}
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if (thiz.buffer.size() < 6) {
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WarnL << "bad H265 cfg!";
return false;
}
return decode_HEVCDecoderConfigurationRecord((uint8_t *)thiz.buffer.data() + 5, thiz.buffer.size() - 5, frame);
}
#endif
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void H265RtmpDecoder::inputRtmp(const RtmpPacket::Ptr &pkt) {
if (_info.codec == CodecInvalid) {
// 先判断是否为增强型rtmp
parseVideoRtmpPacket((uint8_t *)pkt->data(), pkt->size(), &_info);
}
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if (_info.is_enhanced) {
// 增强型rtmp
parseVideoRtmpPacket((uint8_t *)pkt->data(), pkt->size(), &_info);
if (!_info.is_enhanced || _info.codec != CodecH265) {
throw std::invalid_argument("Invalid enhanced-rtmp hevc packet!");
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}
auto data = (uint8_t *)pkt->data() + 5;
auto size = pkt->size() - 5;
switch (_info.video.pkt_type) {
case RtmpPacketType::PacketTypeSequenceStart: {
#ifdef ENABLE_MP4
string config;
if (decode_HEVCDecoderConfigurationRecord(data, size, config)) {
onGetH265(config.data(), config.size(), pkt->time_stamp, pkt->time_stamp);
}
#else
WarnL << "请开启MP4相关功能并使能\"ENABLE_MP4\",否则对H265-RTMP支持不完善";
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#endif
break;
}
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case RtmpPacketType::PacketTypeCodedFramesX:
case RtmpPacketType::PacketTypeCodedFrames: {
auto pts = pkt->time_stamp;
if (RtmpPacketType::PacketTypeCodedFrames == _info.video.pkt_type) {
// SI24 = [CompositionTime Offset]
CHECK(size > 7);
int32_t cts = (((data[0] << 16) | (data[1] << 8) | (data[2])) + 0xff800000) ^ 0xff800000;
pts += cts;
data += 3;
size -= 3;
}
splitFrame(data, size, pkt->time_stamp, pts);
break;
}
case RtmpPacketType::PacketTypeMetadata: {
// The body does not contain video data. The body is an AMF encoded metadata.
// The metadata will be represented by a series of [name, value] pairs.
// For now the only defined [name, value] pair is [“colorInfo”, Object]
// See Metadata Frame section for more details of this object.
//
// For a deeper understanding of the encoding please see description
// of SCRIPTDATA and SSCRIPTDATAVALUE in the FLV file spec.
// DATA = [“colorInfo”, Object]
break;
}
case RtmpPacketType::PacketTypeSequenceEnd: {
// signals end of sequence
break;
}
default: break;
}
return;
}
// 国内扩展(12) H265 rtmp
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if (pkt->isCfgFrame()) {
#ifdef ENABLE_MP4
string config;
if (getH265ConfigFrame(*pkt, config)) {
onGetH265(config.data(), config.size(), pkt->time_stamp, pkt->time_stamp);
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}
#else
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WarnL << "请开启MP4相关功能并使能\"ENABLE_MP4\",否则对H265-RTMP支持不完善";
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#endif
return;
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}
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if (pkt->buffer.size() > 9) {
uint8_t *cts_ptr = (uint8_t *)(pkt->buffer.data() + 2);
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int32_t cts = (((cts_ptr[0] << 16) | (cts_ptr[1] << 8) | (cts_ptr[2])) + 0xff800000) ^ 0xff800000;
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auto pts = pkt->time_stamp + cts;
splitFrame((uint8_t *)pkt->data() + 5, pkt->size() - 5, pkt->time_stamp, pts);
}
}
void H265RtmpDecoder::splitFrame(const uint8_t *data, size_t size, uint32_t dts, uint32_t pts) {
auto end = data + size;
while (data + 4 < end) {
uint32_t frame_len = load_be32(data);
data += 4;
if (data + frame_len > end) {
break;
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}
onGetH265((const char *)data, frame_len, dts, pts);
data += frame_len;
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}
}
inline void H265RtmpDecoder::onGetH265(const char *data, size_t size, uint32_t dts, uint32_t pts) {
if (size == 0) {
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return;
}
#if 1
_h265frame->_dts = dts;
_h265frame->_pts = pts;
_h265frame->_buffer.assign("\x00\x00\x00\x01", 4); // 添加265头
_h265frame->_buffer.append(data, size);
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// 写入环形缓存
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RtmpCodec::inputFrame(_h265frame);
_h265frame = obtainFrame();
#else
// 防止内存拷贝这样产生的265帧不会有0x00 00 01头
auto frame = std::make_shared<H265FrameNoCacheAble>((char *)data, size, dts, pts, 0);
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RtmpCodec::inputFrame(frame);
#endif
}
////////////////////////////////////////////////////////////////////////
H265RtmpEncoder::H265RtmpEncoder(const Track::Ptr &track) {
_track = dynamic_pointer_cast<H265Track>(track);
}
void H265RtmpEncoder::makeConfigPacket() {
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if (_track && _track->ready()) {
// 尝试从track中获取sps pps信息
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_sps = _track->getSps();
_pps = _track->getPps();
_vps = _track->getVps();
}
if (!_sps.empty() && !_pps.empty() && !_vps.empty()) {
// 获取到sps/pps
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makeVideoConfigPkt();
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_got_config_frame = true;
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}
}
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void H265RtmpEncoder::flush() {
inputFrame(nullptr);
}
bool H265RtmpEncoder::inputFrame(const Frame::Ptr &frame) {
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if (frame) {
auto data = frame->data() + frame->prefixSize();
auto len = frame->size() - frame->prefixSize();
auto type = H265_TYPE(data[0]);
switch (type) {
case H265Frame::NAL_SPS: {
if (!_got_config_frame) {
_sps = string(data, len);
makeConfigPacket();
}
break;
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}
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case H265Frame::NAL_PPS: {
if (!_got_config_frame) {
_pps = string(data, len);
makeConfigPacket();
}
break;
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}
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case H265Frame::NAL_VPS: {
if (!_got_config_frame) {
_vps = string(data, len);
makeConfigPacket();
}
break;
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}
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default: break;
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}
}
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if (!_rtmp_packet) {
_rtmp_packet = RtmpPacket::create();
// flags/not_config/cts预占位
_rtmp_packet->buffer.resize(5);
}
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return _merger.inputFrame(frame, [this](uint64_t dts, uint64_t pts, const Buffer::Ptr &, bool have_key_frame) {
// flags
_rtmp_packet->buffer[0] = FLV_CODEC_H265 | ((have_key_frame ? FLV_KEY_FRAME : FLV_INTER_FRAME) << 4);
// not config
_rtmp_packet->buffer[1] = true;
int32_t cts = pts - dts;
// cts
set_be24(&_rtmp_packet->buffer[2], cts);
_rtmp_packet->time_stamp = dts;
_rtmp_packet->body_size = _rtmp_packet->buffer.size();
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_rtmp_packet->chunk_id = CHUNK_VIDEO;
_rtmp_packet->stream_index = STREAM_MEDIA;
_rtmp_packet->type_id = MSG_VIDEO;
// 输出rtmp packet
RtmpCodec::inputRtmp(_rtmp_packet);
_rtmp_packet = nullptr;
}, &_rtmp_packet->buffer);
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}
void H265RtmpEncoder::makeVideoConfigPkt() {
#ifdef ENABLE_MP4
int8_t flags = FLV_CODEC_H265;
flags |= (FLV_KEY_FRAME << 4);
bool is_config = true;
auto pkt = RtmpPacket::create();
// header
pkt->buffer.push_back(flags);
pkt->buffer.push_back(!is_config);
// cts
pkt->buffer.append("\x0\x0\x0", 3);
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struct mpeg4_hevc_t hevc;
memset(&hevc, 0, sizeof(hevc));
string vps_sps_pps = string("\x00\x00\x00\x01", 4) + _vps + string("\x00\x00\x00\x01", 4) + _sps + string("\x00\x00\x00\x01", 4) + _pps;
h265_annexbtomp4(&hevc, vps_sps_pps.data(), (int)vps_sps_pps.size(), NULL, 0, NULL, NULL);
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uint8_t extra_data[1024];
int extra_data_size = mpeg4_hevc_decoder_configuration_record_save(&hevc, extra_data, sizeof(extra_data));
if (extra_data_size == -1) {
WarnL << "生成H265 extra_data 失败";
return;
}
// HEVCDecoderConfigurationRecord
pkt->buffer.append((char *)extra_data, extra_data_size);
pkt->body_size = pkt->buffer.size();
pkt->chunk_id = CHUNK_VIDEO;
pkt->stream_index = STREAM_MEDIA;
pkt->time_stamp = 0;
pkt->type_id = MSG_VIDEO;
RtmpCodec::inputRtmp(pkt);
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#else
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WarnL << "请开启MP4相关功能并使能\"ENABLE_MP4\",否则对H265-RTMP支持不完善";
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#endif
}
} // namespace mediakit