/* * Copyright (c) 2016-present The ZLMediaKit project authors. All Rights Reserved. * * This file is part of ZLMediaKit(https://github.com/ZLMediaKit/ZLMediaKit). * * Use of this source code is governed by MIT-like 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 "FFmpegSource.h" #include "Common/config.h" #include "Common/MediaSource.h" #include "Common/MultiMediaSourceMuxer.h" #include "Util/File.h" #include "System.h" #include "Thread/WorkThreadPool.h" #include "Network/sockutil.h" using namespace std; using namespace toolkit; using namespace mediakit; namespace FFmpeg { #define FFmpeg_FIELD "ffmpeg." const string kBin = FFmpeg_FIELD"bin"; const string kCmd = FFmpeg_FIELD"cmd"; const string kLog = FFmpeg_FIELD"log"; const string kSnap = FFmpeg_FIELD"snap"; const string kRestartSec = FFmpeg_FIELD"restart_sec"; onceToken token([]() { #ifdef _WIN32 string ffmpeg_bin = trim(System::execute("where ffmpeg")); #else string ffmpeg_bin = trim(System::execute("which ffmpeg")); #endif //默认ffmpeg命令路径为环境变量中路径 mINI::Instance()[kBin] = ffmpeg_bin.empty() ? "ffmpeg" : ffmpeg_bin; //ffmpeg日志保存路径 mINI::Instance()[kLog] = "./ffmpeg/ffmpeg.log"; mINI::Instance()[kCmd] = "%s -re -i %s -c:a aac -strict -2 -ar 44100 -ab 48k -c:v libx264 -f flv %s"; mINI::Instance()[kSnap] = "%s -i %s -y -f mjpeg -frames:v 1 -an %s"; mINI::Instance()[kRestartSec] = 0; }); } FFmpegSource::FFmpegSource() { _poller = EventPollerPool::Instance().getPoller(); } FFmpegSource::~FFmpegSource() { DebugL; } static bool is_local_ip(const string &ip){ if (ip == "127.0.0.1" || ip == "localhost") { return true; } auto ips = SockUtil::getInterfaceList(); for (auto &obj : ips) { if (ip == obj["ip"]) { return true; } } return false; } void FFmpegSource::setupRecordFlag(bool enable_hls, bool enable_mp4){ _enable_hls = enable_hls; _enable_mp4 = enable_mp4; } void FFmpegSource::play(const string &ffmpeg_cmd_key, const string &src_url, const string &dst_url, int timeout_ms, const onPlay &cb) { GET_CONFIG(string, ffmpeg_bin, FFmpeg::kBin); GET_CONFIG(string, ffmpeg_cmd_default, FFmpeg::kCmd); GET_CONFIG(string, ffmpeg_log, FFmpeg::kLog); _src_url = src_url; _dst_url = dst_url; _ffmpeg_cmd_key = ffmpeg_cmd_key; try { _media_info.parse(dst_url); } catch (std::exception &ex) { cb(SockException(Err_other, ex.what())); return; } auto ffmpeg_cmd = ffmpeg_cmd_default; if (!ffmpeg_cmd_key.empty()) { auto cmd_it = mINI::Instance().find(ffmpeg_cmd_key); if (cmd_it != mINI::Instance().end()) { ffmpeg_cmd = cmd_it->second; } else { WarnL << "配置文件中,ffmpeg命令模板(" << ffmpeg_cmd_key << ")不存在,已采用默认模板(" << ffmpeg_cmd_default << ")"; } } char cmd[2048] = { 0 }; snprintf(cmd, sizeof(cmd), ffmpeg_cmd.data(), File::absolutePath("", ffmpeg_bin).data(), src_url.data(), dst_url.data()); auto log_file = ffmpeg_log.empty() ? "" : File::absolutePath("", ffmpeg_log); _process.run(cmd, log_file); InfoL << cmd; if (is_local_ip(_media_info.host)) { // 推流给自己的,通过判断流是否注册上来判断是否正常 if (_media_info.schema != RTSP_SCHEMA && _media_info.schema != RTMP_SCHEMA) { cb(SockException(Err_other, "本服务只支持rtmp/rtsp推流")); return; } weak_ptr weakSelf = shared_from_this(); findAsync(timeout_ms, [cb, weakSelf, timeout_ms](const MediaSource::Ptr &src) { auto strongSelf = weakSelf.lock(); if (!strongSelf) { // 自己已经销毁 return; } if (src) { // 推流给自己成功 cb(SockException()); strongSelf->onGetMediaSource(src); strongSelf->startTimer(timeout_ms); return; } //推流失败 if (!strongSelf->_process.wait(false)) { // ffmpeg进程已经退出 cb(SockException(Err_other, StrPrinter << "ffmpeg已经退出,exit code = " << strongSelf->_process.exit_code())); return; } // ffmpeg进程还在线,但是等待推流超时 cb(SockException(Err_other, "等待超时")); }); } else{ //推流给其他服务器的,通过判断FFmpeg进程是否在线判断是否成功 weak_ptr weakSelf = shared_from_this(); _timer = std::make_shared(timeout_ms / 1000.0f, [weakSelf, cb, timeout_ms]() { auto strongSelf = weakSelf.lock(); if (!strongSelf) { // 自身已经销毁 return false; } // FFmpeg还在线,那么我们认为推流成功 if (strongSelf->_process.wait(false)) { cb(SockException()); strongSelf->startTimer(timeout_ms); return false; } // ffmpeg进程已经退出 cb(SockException(Err_other, StrPrinter << "ffmpeg已经退出,exit code = " << strongSelf->_process.exit_code())); return false; }, _poller); } } void FFmpegSource::findAsync(int maxWaitMS, const function &cb) { auto src = MediaSource::find(_media_info.schema, _media_info.vhost, _media_info.app, _media_info.stream); if (src || !maxWaitMS) { cb(src); return; } void *listener_tag = this; // 若干秒后执行等待媒体注册超时回调 auto onRegistTimeout = _poller->doDelayTask(maxWaitMS, [cb, listener_tag]() { // 取消监听该事件 NoticeCenter::Instance().delListener(listener_tag, Broadcast::kBroadcastMediaChanged); cb(nullptr); return 0; }); weak_ptr weakSelf = shared_from_this(); auto onRegist = [listener_tag, weakSelf, cb, onRegistTimeout](BroadcastMediaChangedArgs) { auto strongSelf = weakSelf.lock(); if (!strongSelf) { // 本身已经销毁,取消延时任务 onRegistTimeout->cancel(); NoticeCenter::Instance().delListener(listener_tag, Broadcast::kBroadcastMediaChanged); return; } if (!bRegist || sender.getSchema() != strongSelf->_media_info.schema || !equalMediaTuple(sender.getMediaTuple(), strongSelf->_media_info)) { // 不是自己感兴趣的事件,忽略之 return; } // 查找的流终于注册上了;取消延时任务,防止多次回调 onRegistTimeout->cancel(); // 取消事件监听 NoticeCenter::Instance().delListener(listener_tag, Broadcast::kBroadcastMediaChanged); // 切换到自己的线程再回复 strongSelf->_poller->async([weakSelf, cb]() { if (auto strongSelf = weakSelf.lock()) { // 再找一遍媒体源,一般能找到 strongSelf->findAsync(0, cb); } }, false); }; // 监听媒体注册事件 NoticeCenter::Instance().addListener(listener_tag, Broadcast::kBroadcastMediaChanged, onRegist); } /** * 定时检查媒体是否在线 */ void FFmpegSource::startTimer(int timeout_ms) { weak_ptr weakSelf = shared_from_this(); GET_CONFIG(uint64_t,ffmpeg_restart_sec,FFmpeg::kRestartSec); _timer = std::make_shared(1.0f, [weakSelf, timeout_ms]() { auto strongSelf = weakSelf.lock(); if (!strongSelf) { //自身已经销毁 return false; } bool needRestart = ffmpeg_restart_sec > 0 && strongSelf->_replay_ticker.elapsedTime() > ffmpeg_restart_sec * 1000; if (is_local_ip(strongSelf->_media_info.host)) { // 推流给自己的,我们通过检查是否已经注册来判断FFmpeg是否工作正常 strongSelf->findAsync(0, [&](const MediaSource::Ptr &src) { // 同步查找流 if (!src || needRestart) { if (needRestart) { strongSelf->_replay_ticker.resetTime(); if (strongSelf->_process.wait(false)) { // FFmpeg进程还在运行,超时就关闭它 strongSelf->_process.kill(2000); } InfoL << "FFmpeg即将重启, 将会继续拉流 " << strongSelf->_src_url; } // 流不在线,重新拉流, 这里原先是10秒超时,实际发现10秒不够,改成20秒了 if (strongSelf->_replay_ticker.elapsedTime() > 20 * 1000) { // 上次重试时间超过10秒,那么再重试FFmpeg拉流 strongSelf->_replay_ticker.resetTime(); strongSelf->play(strongSelf->_ffmpeg_cmd_key, strongSelf->_src_url, strongSelf->_dst_url, timeout_ms, [](const SockException &) {}); } } }); } else { // 推流给其他服务器的,我们通过判断FFmpeg进程是否在线,如果FFmpeg推流中断,那么它应该会自动退出 if (!strongSelf->_process.wait(false) || needRestart) { if (needRestart) { strongSelf->_replay_ticker.resetTime(); if (strongSelf->_process.wait(false)) { // FFmpeg进程还在运行,超时就关闭它 strongSelf->_process.kill(2000); } InfoL << "FFmpeg即将重启, 将会继续拉流 " << strongSelf->_src_url; } // ffmpeg不在线,重新拉流 strongSelf->play(strongSelf->_ffmpeg_cmd_key, strongSelf->_src_url, strongSelf->_dst_url, timeout_ms, [weakSelf](const SockException &ex) { if (!ex) { // 没有错误 return; } auto strongSelf = weakSelf.lock(); if (!strongSelf) { // 自身已经销毁 return; } // 上次重试时间超过10秒,那么再重试FFmpeg拉流 strongSelf->startTimer(10 * 1000); }); } } return true; }, _poller); } void FFmpegSource::setOnClose(const function &cb){ _onClose = cb; } bool FFmpegSource::close(MediaSource &sender) { auto listener = getDelegate(); if (listener && !listener->close(sender)) { //关闭失败 return false; } //该流无人观看,我们停止吧 if (_onClose) { _onClose(); } return true; } MediaOriginType FFmpegSource::getOriginType(MediaSource &sender) const{ return MediaOriginType::ffmpeg_pull; } string FFmpegSource::getOriginUrl(MediaSource &sender) const { return _src_url; } void FFmpegSource::onGetMediaSource(const MediaSource::Ptr &src) { auto muxer = src->getMuxer(); auto listener = muxer ? muxer->getDelegate() : nullptr; if (listener && listener.get() != this) { //防止多次进入onGetMediaSource函数导致无限递归调用的bug setDelegate(listener); muxer->setDelegate(shared_from_this()); if (_enable_hls) { src->setupRecord(Recorder::type_hls, true, "", 0); } if (_enable_mp4) { src->setupRecord(Recorder::type_mp4, true, "", 0); } } } void FFmpegSnap::makeSnap(const string &play_url, const string &save_path, float timeout_sec, const onSnap &cb) { GET_CONFIG(string, ffmpeg_bin, FFmpeg::kBin); GET_CONFIG(string, ffmpeg_snap, FFmpeg::kSnap); GET_CONFIG(string, ffmpeg_log, FFmpeg::kLog); Ticker ticker; WorkThreadPool::Instance().getPoller()->async([timeout_sec, play_url, save_path, cb, ticker]() { auto elapsed_ms = ticker.elapsedTime(); if (elapsed_ms > timeout_sec * 1000) { // 超时,后台线程负载太高,当代太久才启动该任务 cb(false, "wait work poller schedule snap task timeout"); return; } char cmd[2048] = { 0 }; snprintf(cmd, sizeof(cmd), ffmpeg_snap.data(), File::absolutePath("", ffmpeg_bin).data(), play_url.data(), save_path.data()); std::shared_ptr process = std::make_shared(); auto log_file = ffmpeg_log.empty() ? ffmpeg_log : File::absolutePath("", ffmpeg_log); process->run(cmd, log_file); //定时器延时应该减去后台任务启动的延时 auto delayTask = EventPollerPool::Instance().getPoller()->doDelayTask( (uint64_t)(timeout_sec * 1000 - elapsed_ms), [process, cb, log_file, save_path]() { if (process->wait(false)) { // FFmpeg进程还在运行,超时就关闭它 process->kill(2000); } return 0; }); // 等待FFmpeg进程退出 process->wait(true); // FFmpeg进程退出了可以取消定时器了 delayTask->cancel(); // 执行回调函数 bool success = process->exit_code() == 0 && File::fileSize(save_path); cb(success, (!success && !log_file.empty()) ? File::loadFile(log_file) : ""); }); }