/* * Copyright (c) 2016 The ZLMediaKit project authors. All Rights Reserved. * * This file is part of ZLMediaKit(https://github.com/xia-chu/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. */ #include "mk_player.h" #include "Util/logger.h" #include "Player/MediaPlayer.h" #include "Extension/H264.h" using namespace std; using namespace toolkit; using namespace mediakit; class MediaPlayerForC : public std::enable_shared_from_this{ public: typedef std::shared_ptr Ptr; MediaPlayerForC(){ _player = std::make_shared(); } ~MediaPlayerForC(){} MediaPlayer *operator->(){ return _player.get(); } void setup(){ weak_ptr weak_self = shared_from_this(); _player->setOnPlayResult([weak_self](const SockException &ex){ auto strong_self = weak_self.lock(); if(strong_self){ strong_self->onEvent(false,ex); } }); _player->setOnShutdown([weak_self](const SockException &ex){ auto strong_self = weak_self.lock(); if(strong_self){ strong_self->onEvent(true,ex); } }); } void unset(){ lock_guard lck(_mtx); _on_play = nullptr; _on_shutdown = nullptr; _on_data = nullptr; } void onEvent(bool is_shutdown, const SockException &ex){ lock_guard lck(_mtx); if(is_shutdown){ //播放中断 if(_on_shutdown){ _on_shutdown(_on_shutdown_data,ex.getErrCode(),ex.what()); } return; } //播放结果 if(_on_play){ _on_play(_on_play_data,ex.getErrCode(),ex.what()); } if(ex){ //播放失败 return; } //播放成功,添加事件回调 weak_ptr weak_self = shared_from_this(); auto delegate = std::make_shared([weak_self](const Frame::Ptr &frame) { auto strong_self = weak_self.lock(); if (strong_self) { strong_self->onData(frame); } }); for (auto &track : _player->getTracks(false)) { track->addDelegate(delegate); } } void onData(const Frame::Ptr &frame){ lock_guard lck(_mtx); if(_on_data){ _on_data(_on_data_data,frame->getTrackType(),frame->getCodecId(),frame->data(),frame->size(),frame->dts(),frame->pts()); } } void setOnEvent(on_mk_play_event cb, void *user_data, int type) { lock_guard lck(_mtx); if(type == 0){ _on_play_data = user_data; _on_play = cb; }else{ _on_shutdown_data = user_data; _on_shutdown = cb; } } void setOnData(on_mk_play_data cb, void *user_data) { lock_guard lck(_mtx); _on_data_data = user_data; _on_data = cb; } MediaPlayer::Ptr& getPlayer(){ return _player; } private: MediaPlayer::Ptr _player; recursive_mutex _mtx; on_mk_play_event _on_play = nullptr; on_mk_play_data _on_data = nullptr; on_mk_play_event _on_shutdown = nullptr; void *_on_play_data = nullptr; void *_on_shutdown_data = nullptr; void *_on_data_data = nullptr; }; API_EXPORT mk_player API_CALL mk_player_create() { MediaPlayerForC::Ptr *obj = new MediaPlayerForC::Ptr(new MediaPlayerForC()); (*obj)->setup(); return obj; } API_EXPORT void API_CALL mk_player_release(mk_player ctx) { assert(ctx); MediaPlayerForC::Ptr *obj = (MediaPlayerForC::Ptr *)ctx; (*obj)->unset(); delete obj; } API_EXPORT void API_CALL mk_player_set_option(mk_player ctx,const char* key,const char *val){ assert(ctx && key && val); MediaPlayerForC &obj = **((MediaPlayerForC::Ptr *)ctx); auto player = obj.getPlayer(); string key_str(key), val_str(val); player->getPoller()->async([key_str,val_str,player](){ //切换线程后再操作 (*player)[key_str] = val_str; }); } API_EXPORT void API_CALL mk_player_play(mk_player ctx, const char *url) { assert(ctx && url); MediaPlayerForC &obj = **((MediaPlayerForC::Ptr *)ctx); auto player = obj.getPlayer(); string url_str(url); player->getPoller()->async([url_str,player](){ //切换线程后再操作 player->play(url_str); }); } API_EXPORT void API_CALL mk_player_pause(mk_player ctx, int pause) { assert(ctx); MediaPlayerForC &obj = **((MediaPlayerForC::Ptr *)ctx); auto player = obj.getPlayer(); player->getPoller()->async([pause,player](){ //切换线程后再操作 player->pause(pause); }); } API_EXPORT void API_CALL mk_player_speed(mk_player ctx, float speed) { assert(ctx); MediaPlayerForC &obj = **((MediaPlayerForC::Ptr *) ctx); auto player = obj.getPlayer(); player->getPoller()->async([speed, player]() { //切换线程后再操作 player->speed(speed); }); } API_EXPORT void API_CALL mk_player_seekto(mk_player ctx, float progress) { assert(ctx); MediaPlayerForC &obj = **((MediaPlayerForC::Ptr *)ctx); auto player = obj.getPlayer(); player->getPoller()->async([progress,player](){ //切换线程后再操作 player->seekTo(progress); }); } API_EXPORT void API_CALL mk_player_seekto_pos(mk_player ctx, int seek_pos) { assert(ctx); MediaPlayerForC &obj = **((MediaPlayerForC::Ptr *) ctx); auto player = obj.getPlayer(); player->getPoller()->async([seek_pos, player]() { //切换线程后再操作 player->seekTo((uint32_t) seek_pos); }); } static void mk_player_set_on_event(mk_player ctx, on_mk_play_event cb, void *user_data, int type) { assert(ctx); MediaPlayerForC &obj = **((MediaPlayerForC::Ptr *)ctx); obj.setOnEvent(cb,user_data, type); } API_EXPORT void API_CALL mk_player_set_on_result(mk_player ctx, on_mk_play_event cb, void *user_data) { mk_player_set_on_event(ctx,cb,user_data,0); } API_EXPORT void API_CALL mk_player_set_on_shutdown(mk_player ctx, on_mk_play_event cb, void *user_data) { mk_player_set_on_event(ctx,cb,user_data,1); } API_EXPORT void API_CALL mk_player_set_on_data(mk_player ctx, on_mk_play_data cb, void *user_data) { assert(ctx); MediaPlayerForC &obj = **((MediaPlayerForC::Ptr *)ctx); obj.setOnData(cb,user_data); } API_EXPORT int API_CALL mk_player_video_codec_id(mk_player ctx){ assert(ctx); MediaPlayerForC &obj = **((MediaPlayerForC::Ptr *)ctx); auto track = dynamic_pointer_cast(obj->getTrack(TrackVideo)); return track ? track->getCodecId() : CodecInvalid; } API_EXPORT int API_CALL mk_player_video_codec_id_vendor_head(mk_player ctx, char *vendor, char *head, int *head_len) { assert(ctx); MediaPlayerForC &obj = **((MediaPlayerForC::Ptr *) ctx); auto track = dynamic_pointer_cast(obj->getTrack(TrackVideo)); int codecId = track ? track->getCodecId() : CodecInvalid; if (codecId == CodecH264) { auto h264Track = dynamic_pointer_cast(obj->getTrack(TrackVideo)); auto pps = h264Track->getPps(); auto ppsLen = pps.size(); if (ppsLen >= (4 + 16)) { std::string temVendor = std::string(pps.c_str() + 4, 16); memcpy(vendor, temVendor.c_str(), temVendor.length()); if (ppsLen > (4 + 16)) { std::string temHead = std::string(pps.c_str() + 20, ppsLen - 20); memcpy(head, temHead.c_str(), temHead.length()); *head_len = temHead.length(); } } } return codecId; } API_EXPORT int API_CALL mk_player_video_width(mk_player ctx) { assert(ctx); MediaPlayerForC &obj = **((MediaPlayerForC::Ptr *)ctx); auto track = dynamic_pointer_cast(obj->getTrack(TrackVideo)); return track ? track->getVideoWidth() : 0; } API_EXPORT int API_CALL mk_player_video_height(mk_player ctx) { assert(ctx); MediaPlayerForC &obj = **((MediaPlayerForC::Ptr *)ctx); auto track = dynamic_pointer_cast(obj->getTrack(TrackVideo)); return track ? track->getVideoHeight() : 0; } API_EXPORT float API_CALL mk_player_video_fps(mk_player ctx) { assert(ctx); MediaPlayerForC &obj = **((MediaPlayerForC::Ptr *)ctx); auto track = dynamic_pointer_cast(obj->getTrack(TrackVideo)); return track ? track->getVideoFps() : 0; } API_EXPORT int API_CALL mk_player_audio_codec_id(mk_player ctx){ assert(ctx); MediaPlayerForC &obj = **((MediaPlayerForC::Ptr *)ctx); auto track = dynamic_pointer_cast(obj->getTrack(TrackAudio)); return track ? track->getCodecId() : CodecInvalid; } API_EXPORT int API_CALL mk_player_audio_samplerate(mk_player ctx) { assert(ctx); MediaPlayerForC &obj = **((MediaPlayerForC::Ptr *)ctx); auto track = dynamic_pointer_cast(obj->getTrack(TrackAudio)); return track ? track->getAudioSampleRate() : 0; } API_EXPORT int API_CALL mk_player_audio_bit(mk_player ctx) { assert(ctx); MediaPlayerForC &obj = **((MediaPlayerForC::Ptr *)ctx); auto track = dynamic_pointer_cast(obj->getTrack(TrackAudio)); return track ? track->getAudioSampleBit() : 0; } API_EXPORT int API_CALL mk_player_audio_channel(mk_player ctx) { assert(ctx); MediaPlayerForC &obj = **((MediaPlayerForC::Ptr *)ctx); auto track = dynamic_pointer_cast(obj->getTrack(TrackAudio)); return track ? track->getAudioChannel() : 0; } API_EXPORT float API_CALL mk_player_duration(mk_player ctx) { assert(ctx); MediaPlayerForC &obj = **((MediaPlayerForC::Ptr *)ctx); return obj->getDuration(); } API_EXPORT float API_CALL mk_player_progress(mk_player ctx) { assert(ctx); MediaPlayerForC &obj = **((MediaPlayerForC::Ptr *)ctx); return obj->getProgress(); } API_EXPORT int API_CALL mk_player_progress_pos(mk_player ctx) { assert(ctx); MediaPlayerForC &obj = **((MediaPlayerForC::Ptr *) ctx); return obj->getProgressPos(); } API_EXPORT float API_CALL mk_player_loss_rate(mk_player ctx, int track_type) { assert(ctx); MediaPlayerForC &obj = **((MediaPlayerForC::Ptr *)ctx); return obj->getPacketLossRate((TrackType)track_type); }