/* * 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. */ #include "RtmpPlayer.h" #include "Rtmp/utils.h" #include "Util/util.h" #include "Util/onceToken.h" #include "Thread/ThreadPool.h" using namespace toolkit; using namespace mediakit::Client; namespace mediakit { RtmpPlayer::RtmpPlayer(const EventPoller::Ptr &poller) : TcpClient(poller) {} RtmpPlayer::~RtmpPlayer() { DebugL << endl; } void RtmpPlayer::teardown() { if (alive()) { shutdown(SockException(Err_shutdown,"teardown")); } _app.clear(); _stream_id.clear(); _tc_url.clear(); _beat_timer.reset(); _play_timer.reset(); _rtmp_recv_timer.reset(); _seek_ms = 0; RtmpProtocol::reset(); CLEAR_ARR(_fist_stamp); CLEAR_ARR(_now_stamp); lock_guard lck(_mtx_on_result); _map_on_result.clear(); lock_guard lck2(_mtx_on_status); _deque_on_status.clear(); } void RtmpPlayer::play(const string &strUrl) { teardown(); string host_url = FindField(strUrl.data(), "://", "/"); _app = FindField(strUrl.data(), (host_url + "/").data(), "/"); _stream_id = FindField(strUrl.data(), (host_url + "/" + _app + "/").data(), NULL); _tc_url = string("rtmp://") + host_url + "/" + _app; if (!_app.size() || !_stream_id.size()) { onPlayResult_l(SockException(Err_other, "rtmp url非法"), false); return; } DebugL << host_url << " " << _app << " " << _stream_id; auto iPort = atoi(FindField(host_url.data(), ":", NULL).data()); if (iPort <= 0) { //rtmp 默认端口1935 iPort = 1935; } else { //服务器域名 host_url = FindField(host_url.data(), NULL, ":"); } if (!(*this)[kNetAdapter].empty()) { setNetAdapter((*this)[kNetAdapter]); } weak_ptr weak_self = dynamic_pointer_cast(shared_from_this()); float play_timeout_sec = (*this)[kTimeoutMS].as() / 1000.0; _play_timer.reset(new Timer(play_timeout_sec, [weak_self]() { auto strong_self = weak_self.lock(); if (!strong_self) { return false; } strong_self->onPlayResult_l(SockException(Err_timeout, "play rtmp timeout"), false); return false; }, getPoller())); _metadata_got = false; startConnect(host_url, iPort, play_timeout_sec); } void RtmpPlayer::onErr(const SockException &ex){ //定时器_pPlayTimer为空后表明握手结束了 onPlayResult_l(ex, !_play_timer); } void RtmpPlayer::onPlayResult_l(const SockException &ex, bool handshake_done) { if (ex.getErrCode() == Err_shutdown) { //主动shutdown的,不触发回调 return; } WarnL << ex.getErrCode() << " " << ex.what(); if (!handshake_done) { //开始播放阶段 _play_timer.reset(); //是否为性能测试模式 _benchmark_mode = (*this)[Client::kBenchmarkMode].as(); onPlayResult(ex); } else if (ex) { //播放成功后异常断开回调 onShutdown(ex); } else { //恢复播放 onResume(); } if (!ex) { //播放成功,恢复rtmp接收超时定时器 _rtmp_recv_ticker.resetTime(); int timeout_ms = (*this)[kMediaTimeoutMS].as(); weak_ptr weakSelf = dynamic_pointer_cast(shared_from_this()); auto lam = [weakSelf, timeout_ms]() { auto strongSelf = weakSelf.lock(); if (!strongSelf) { return false; } if (strongSelf->_rtmp_recv_ticker.elapsedTime() > timeout_ms) { //接收rtmp媒体数据超时 SockException ex(Err_timeout, "receive rtmp timeout"); strongSelf->onPlayResult_l(ex, true); return false; } return true; }; //创建rtmp数据接收超时检测定时器 _rtmp_recv_timer = std::make_shared(timeout_ms / 2000.0, lam, getPoller()); } else { teardown(); } } void RtmpPlayer::onConnect(const SockException &err){ if (err.getErrCode() != Err_success) { onPlayResult_l(err, false); return; } weak_ptr weakSelf = dynamic_pointer_cast(shared_from_this()); startClientSession([weakSelf]() { auto strongSelf = weakSelf.lock(); if (!strongSelf) { return; } strongSelf->send_connect(); }); } void RtmpPlayer::onRecv(const Buffer::Ptr &buf){ try { if (_benchmark_mode && !_play_timer) { //在性能测试模式下,如果rtmp握手完毕后,不再解析rtmp包 _rtmp_recv_ticker.resetTime(); return; } onParseRtmp(buf->data(), buf->size()); } catch (exception &e) { SockException ex(Err_other, e.what()); //定时器_pPlayTimer为空后表明握手结束了 onPlayResult_l(ex, !_play_timer); } } void RtmpPlayer::pause(bool bPause) { send_pause(bPause); } inline void RtmpPlayer::send_connect() { AMFValue obj(AMF_OBJECT); obj.set("app", _app); obj.set("tcUrl", _tc_url); //未使用代理 obj.set("fpad", false); //参考librtmp,什么作用? obj.set("capabilities", 15); //SUPPORT_VID_CLIENT_SEEK 支持seek obj.set("videoFunction", 1); //只支持aac obj.set("audioCodecs", (double) (0x0400)); //只支持H264 obj.set("videoCodecs", (double) (0x0080)); sendInvoke("connect", obj); addOnResultCB([this](AMFDecoder &dec) { //TraceL << "connect result"; dec.load(); auto val = dec.load(); auto level = val["level"].as_string(); auto code = val["code"].as_string(); if (level != "status") { throw std::runtime_error(StrPrinter << "connect 失败:" << level << " " << code << endl); } send_createStream(); }); } inline void RtmpPlayer::send_createStream() { AMFValue obj(AMF_NULL); sendInvoke("createStream", obj); addOnResultCB([this](AMFDecoder &dec) { //TraceL << "createStream result"; dec.load(); _stream_index = dec.load(); send_play(); }); } inline void RtmpPlayer::send_play() { AMFEncoder enc; enc << "play" << ++_send_req_id << nullptr << _stream_id << (double) _stream_index; sendRequest(MSG_CMD, enc.data()); auto fun = [this](AMFValue &val) { //TraceL << "play onStatus"; auto level = val["level"].as_string(); auto code = val["code"].as_string(); if (level != "status") { throw std::runtime_error(StrPrinter << "play 失败:" << level << " " << code << endl); } }; addOnStatusCB(fun); addOnStatusCB(fun); } inline void RtmpPlayer::send_pause(bool pause) { AMFEncoder enc; enc << "pause" << ++_send_req_id << nullptr << pause; sendRequest(MSG_CMD, enc.data()); auto fun = [this, pause](AMFValue &val) { //TraceL << "pause onStatus"; auto level = val["level"].as_string(); auto code = val["code"].as_string(); if (level != "status") { if (!pause) { throw std::runtime_error(StrPrinter << "pause 恢复播放失败:" << level << " " << code << endl); } } else { _paused = pause; if (!pause) { onPlayResult_l(SockException(Err_success, "resum rtmp success"), true); } else { //暂停播放 _rtmp_recv_timer.reset(); } } }; addOnStatusCB(fun); _beat_timer.reset(); if (pause) { weak_ptr weakSelf = dynamic_pointer_cast(shared_from_this()); _beat_timer.reset(new Timer((*this)[kBeatIntervalMS].as() / 1000.0, [weakSelf]() { auto strongSelf = weakSelf.lock(); if (!strongSelf) { return false; } uint32_t timeStamp = ::time(NULL); strongSelf->sendUserControl(CONTROL_PING_REQUEST, timeStamp); return true; }, getPoller())); } } void RtmpPlayer::onCmd_result(AMFDecoder &dec){ auto req_id = dec.load(); lock_guard lck(_mtx_on_result); auto it = _map_on_result.find(req_id); if (it != _map_on_result.end()) { it->second(dec); _map_on_result.erase(it); } else { WarnL << "unhandled _result"; } } void RtmpPlayer::onCmd_onStatus(AMFDecoder &dec) { AMFValue val; while (true) { val = dec.load(); if (val.type() == AMF_OBJECT) { break; } } if (val.type() != AMF_OBJECT) { throw std::runtime_error("onStatus:the result object was not found"); } lock_guard lck(_mtx_on_status); if (_deque_on_status.size()) { _deque_on_status.front()(val); _deque_on_status.pop_front(); } else { auto level = val["level"]; auto code = val["code"].as_string(); if (level.type() == AMF_STRING) { if (level.as_string() != "status") { throw std::runtime_error(StrPrinter << "onStatus 失败:" << level.as_string() << " " << code << endl); } } //WarnL << "unhandled onStatus:" << code; } } void RtmpPlayer::onCmd_onMetaData(AMFDecoder &dec) { //TraceL; auto val = dec.load(); if (!onCheckMeta(val)) { throw std::runtime_error("onCheckMeta failed"); } _metadata_got = true; } void RtmpPlayer::onStreamDry(uint32_t stream_index) { //TraceL << stream_index; onPlayResult_l(SockException(Err_other, "rtmp stream dry"), true); } void RtmpPlayer::onMediaData_l(const RtmpPacket::Ptr &chunk_data) { _rtmp_recv_ticker.resetTime(); if (!_play_timer) { //已经触发了onPlayResult事件,直接触发onMediaData事件 onMediaData(chunk_data); return; } if (chunk_data->isCfgFrame()) { //输入配置帧以便初始化完成各个track onMediaData(chunk_data); } else { //先触发onPlayResult事件,这个时候解码器才能初始化完毕 onPlayResult_l(SockException(Err_success, "play rtmp success"), false); //触发onPlayResult事件后,再把帧数据输入到解码器 onMediaData(chunk_data); } } void RtmpPlayer::onRtmpChunk(RtmpPacket &chunk_data) { typedef void (RtmpPlayer::*rtmp_func_ptr)(AMFDecoder &dec); static unordered_map s_func_map; static onceToken token([]() { s_func_map.emplace("_error", &RtmpPlayer::onCmd_result); s_func_map.emplace("_result", &RtmpPlayer::onCmd_result); s_func_map.emplace("onStatus", &RtmpPlayer::onCmd_onStatus); s_func_map.emplace("onMetaData", &RtmpPlayer::onCmd_onMetaData); }); switch (chunk_data.type_id) { case MSG_CMD: case MSG_CMD3: case MSG_DATA: case MSG_DATA3: { AMFDecoder dec(chunk_data.buffer, 0); std::string type = dec.load(); auto it = s_func_map.find(type); if (it != s_func_map.end()) { auto fun = it->second; (this->*fun)(dec); } else { WarnL << "can not support cmd:" << type; } break; } case MSG_AUDIO: case MSG_VIDEO: { auto idx = chunk_data.type_id % 2; if (_now_stamp_ticker[idx].elapsedTime() > 500) { //计算播放进度时间轴用 _now_stamp[idx] = chunk_data.time_stamp; } if (!_metadata_got) { if (!onCheckMeta(TitleMeta().getMetadata())) { throw std::runtime_error("onCheckMeta failed"); } _metadata_got = true; } onMediaData_l(std::make_shared(std::move(chunk_data))); break; } default: break; } } uint32_t RtmpPlayer::getProgressMilliSecond() const{ uint32_t stamp[2] = {0, 0}; for (auto i = 0; i < 2; i++) { stamp[i] = _now_stamp[i] - _fist_stamp[i]; } return _seek_ms + MAX(stamp[0], stamp[1]); } void RtmpPlayer::seekToMilliSecond(uint32_t seekMS){ if (_paused) { pause(false); } AMFEncoder enc; enc << "seek" << ++_send_req_id << nullptr << seekMS * 1.0; sendRequest(MSG_CMD, enc.data()); addOnStatusCB([this, seekMS](AMFValue &val) { //TraceL << "seek result"; _now_stamp_ticker[0].resetTime(); _now_stamp_ticker[1].resetTime(); int iTimeInc = seekMS - getProgressMilliSecond(); for (auto i = 0; i < 2; i++) { _fist_stamp[i] = _now_stamp[i] + iTimeInc; _now_stamp[i] = _fist_stamp[i]; } _seek_ms = seekMS; }); } } /* namespace mediakit */