/* * Copyright (c) 2016 The ZLMediaKit project authors. All Rights Reserved. * * This file is part of ZLMediaKit(https://github.com/xiongziliang/ZLMediaKit). * * 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. */ #ifndef SRC_RTMP_RTMPMEDIASOURCE_H_ #define SRC_RTMP_RTMPMEDIASOURCE_H_ #include #include #include #include #include #include "amf.h" #include "Rtmp.h" #include "RtmpDemuxer.h" #include "Common/config.h" #include "Common/MediaSource.h" #include "Util/util.h" #include "Util/logger.h" #include "Util/RingBuffer.h" #include "Util/TimeTicker.h" #include "Util/ResourcePool.h" #include "Util/NoticeCenter.h" #include "Thread/ThreadPool.h" using namespace toolkit; #define RTMP_GOP_SIZE 512 namespace mediakit { /** * rtmp媒体源的数据抽象 * rtmp有关键的三要素,分别是metadata、config帧,普通帧 * 其中metadata是非必须的,有些编码格式也没有config帧(比如MP3) * 只要生成了这三要素,那么要实现rtmp推流、rtmp服务器就很简单了 * rtmp推拉流协议中,先传递metadata,然后传递config帧,然后一直传递普通帧 */ class RtmpMediaSource : public MediaSource, public RingDelegate, public PacketCache{ public: typedef std::shared_ptr Ptr; typedef std::shared_ptr > RingDataType; typedef RingBuffer RingType; /** * 构造函数 * @param vhost 虚拟主机名 * @param app 应用名 * @param stream_id 流id * @param ring_size 可以设置固定的环形缓冲大小,0则自适应 */ RtmpMediaSource(const string &vhost, const string &app, const string &stream_id, int ring_size = RTMP_GOP_SIZE) : MediaSource(RTMP_SCHEMA, vhost, app, stream_id), _ring_size(ring_size) { } ~RtmpMediaSource() override{} /** * 获取媒体源的环形缓冲 */ const RingType::Ptr &getRing() const { return _ring; } /** * 获取播放器个数 * @return */ int readerCount() override { return _ring ? _ring->readerCount() : 0; } /** * 获取metadata */ const AMFValue &getMetaData() const { lock_guard lock(_mtx); return _metadata; } /** * 获取所有的config帧 */ template void getConfigFrame(const FUNC &f) { lock_guard lock(_mtx); for (auto &pr : _config_frame_map) { f(pr.second); } } /** * 设置metadata */ virtual void setMetaData(const AMFValue &metadata) { _metadata = metadata; if (_ring) { regist(); } } /** * 更新metadata */ void updateMetaData(const AMFValue &metadata) { lock_guard lock(_mtx); _metadata = metadata; } /** * 输入rtmp包 * @param pkt rtmp包 */ void onWrite(RtmpPacket::Ptr pkt, bool = true) override { _speed += pkt->size(); //保存当前时间戳 switch (pkt->type_id) { case MSG_VIDEO : _track_stamps[TrackVideo] = pkt->time_stamp, _have_video = true; break; case MSG_AUDIO : _track_stamps[TrackAudio] = pkt->time_stamp; break; default : break; } if (pkt->isCfgFrame()) { lock_guard lock(_mtx); _config_frame_map[pkt->type_id] = pkt; return; } if (!_ring) { weak_ptr weakSelf = dynamic_pointer_cast(shared_from_this()); auto lam = [weakSelf](int size) { auto strongSelf = weakSelf.lock(); if (!strongSelf) { return; } strongSelf->onReaderChanged(size); }; //GOP默认缓冲512组RTMP包,每组RTMP包时间戳相同(如果开启合并写了,那么每组为合并写时间内的RTMP包), //每次遇到关键帧第一个RTMP包,则会清空GOP缓存(因为有新的关键帧了,同样可以实现秒开) _ring = std::make_shared(_ring_size,std::move(lam)); onReaderChanged(0); if(_metadata){ regist(); } } bool key = pkt->isVideoKeyFrame(); bool is_video = pkt->type_id == MSG_VIDEO; PacketCache::inputPacket(is_video, std::move(pkt), key); } /** * 获取当前时间戳 */ uint32_t getTimeStamp(TrackType trackType) override { assert(trackType >= TrackInvalid && trackType < TrackMax); if (trackType != TrackInvalid) { //获取某track的时间戳 return _track_stamps[trackType]; } //获取所有track的最小时间戳 uint32_t ret = UINT32_MAX; for (auto &stamp : _track_stamps) { if (stamp > 0 && stamp < ret) { ret = stamp; } } return ret; } void clearCache() override{ PacketCache::clearCache(); _ring->clearCache(); } private: /** * 批量flush rtmp包时触发该函数 * @param rtmp_list rtmp包列表 * @param key_pos 是否包含关键帧 */ void onFlush(std::shared_ptr > rtmp_list, bool key_pos) override { //如果不存在视频,那么就没有存在GOP缓存的意义,所以is_key一直为true确保一直清空GOP缓存 _ring->write(std::move(rtmp_list), _have_video ? key_pos : true); } private: bool _have_video = false; int _ring_size; uint32_t _track_stamps[TrackMax] = {0}; AMFValue _metadata; RingType::Ptr _ring; mutable recursive_mutex _mtx; unordered_map _config_frame_map; }; } /* namespace mediakit */ #endif /* SRC_RTMP_RTMPMEDIASOURCE_H_ */