适配ZLToolKit代码,简化程序退出流程代码

This commit is contained in:
xiongziliang 2018-12-28 16:47:50 +08:00
parent 315cd180d4
commit cc7844a994
11 changed files with 337 additions and 387 deletions

@ -1 +1 @@
Subproject commit d3a1bd9d8a3162d0237954034d85f1313008cab2
Subproject commit 98d824bdc6604b4e761657922c913ea46bd90223

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@ -26,17 +26,13 @@
#include "UDPServer.h"
#include "Util/TimeTicker.h"
#include "Util/onceToken.h"
using namespace toolkit;
namespace mediakit {
UDPServer &UDPServer::Instance() {
static UDPServer *instance(new UDPServer());
return *instance;
}
void UDPServer::Destory() {
delete &UDPServer::Instance();
}
INSTANCE_IMP(UDPServer);
UDPServer::UDPServer() {
}

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@ -27,8 +27,9 @@
#ifndef RTSP_UDPSERVER_H_
#define RTSP_UDPSERVER_H_
#include <mutex>
#include <stdint.h>
#include <mutex>
#include <memory>
#include <unordered_map>
#include <unordered_set>
#include "Util/util.h"
@ -40,18 +41,23 @@ using namespace toolkit;
namespace mediakit {
class UDPServer {
class UDPServer : public std::enable_shared_from_this<UDPServer> {
public:
typedef function< bool(int, const Buffer::Ptr &, struct sockaddr *)> onRecvData;
UDPServer();
virtual ~UDPServer();
~UDPServer();
static UDPServer &Instance();
static void Destory();
/**
*
* @deprecated
*/
static void Destory(){};
Socket::Ptr getSock(const char *strLocalIp, int iTrackIndex,uint16_t iLocalPort = 0);
void listenPeer(const char *strPeerIp, void *pSelf, const onRecvData &cb);
void stopListenPeer(const char *strPeerIp, void *pSelf);
private:
UDPServer();
void onRcvData(int iTrackId, const Buffer::Ptr &pBuf,struct sockaddr *pPeerAddr);
void onErr(const string &strKey,const SockException &err);
unordered_map<string, Socket::Ptr> _mapUpdSock;

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@ -142,7 +142,7 @@ bool H264RtpDecoder::decodeRtp(const RtpPacket::Ptr &rtppack) {
return false;
}
WarnL << "不支持的rtp类型:" << nal.type << " " << rtppack->sequence;
WarnL << "不支持的rtp类型:" << (int)nal.type << " " << rtppack->sequence;
return false;
// 29 FU-B 单NAL单元B模式
// 24 STAP-A 单一时间的组合包

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@ -41,9 +41,10 @@ using namespace mediakit;
int main(int argc, char *argv[]) {
//设置退出信号处理函数
signal(SIGINT, [](int) { EventPoller::Instance().shutdown(); });
signal(SIGINT, [](int) { EventPollerPool::Instance().shutdown(); });
//设置日志
Logger::Instance().add(std::make_shared<ConsoleChannel>("stdout", LTrace));
Logger::Instance().add(std::make_shared<ConsoleChannel>());
Logger::Instance().setWriter(std::make_shared<AsyncLogWriter>());
if (argc != 5) {
@ -55,42 +56,33 @@ int main(int argc, char *argv[]) {
return 0;
}
{
list<MediaPlayer::Ptr> playerList;
auto playerCnt = atoi(argv[1]);//启动的播放器个数
atomic_int alivePlayerCnt(0);
//每隔若干毫秒启动一个播放器(如果一次性全部启动,服务器和客户端可能都承受不了)
AsyncTaskThread::Instance().DoTaskDelay(0, atoi(argv[2]), [&]() {
MediaPlayer::Ptr player(new MediaPlayer());
player->setOnPlayResult([&](const SockException &ex) {
if (!ex) {
++alivePlayerCnt;
}
});
player->setOnShutdown([&](const SockException &ex) {
--alivePlayerCnt;
});
(*player)[RtspPlayer::kRtpType] = atoi(argv[4]);
player->play(argv[3]);
playerList.push_back(player);
return playerCnt--;
list<MediaPlayer::Ptr> playerList;
auto playerCnt = atoi(argv[1]);//启动的播放器个数
atomic_int alivePlayerCnt(0);
//每隔若干毫秒启动一个播放器(如果一次性全部启动,服务器和客户端可能都承受不了)
AsyncTaskThread::Instance().DoTaskDelay(0, atoi(argv[2]), [&]() {
MediaPlayer::Ptr player(new MediaPlayer());
player->setOnPlayResult([&](const SockException &ex) {
if (!ex) {
++alivePlayerCnt;
}
});
AsyncTaskThread::Instance().DoTaskDelay(0, 1000, [&]() {
InfoL << "存活播放器个数:" << alivePlayerCnt.load();
return true;
player->setOnShutdown([&](const SockException &ex) {
--alivePlayerCnt;
});
EventPoller::Instance().runLoop();
AsyncTaskThread::Instance().CancelTask(0);
}
static onceToken token(nullptr, []() {
WorkThreadPool::Instance();
UDPServer::Destory();
EventPoller::Destory();
AsyncTaskThread::Destory();
Logger::Destory();
(*player)[RtspPlayer::kRtpType] = atoi(argv[4]);
player->play(argv[3]);
playerList.push_back(player);
return playerCnt--;
});
AsyncTaskThread::Instance().DoTaskDelay(0, 1000, [&]() {
InfoL << "存活播放器个数:" << alivePlayerCnt.load();
return true;
});
EventPollerPool::Instance().wait();
AsyncTaskThread::Instance().CancelTask(0);
return 0;
}

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@ -102,10 +102,11 @@ static onceToken s_token([](){
int main(int argc,char *argv[]){
//设置退出信号处理函数
signal(SIGINT, [](int){EventPoller::Instance().shutdown();});
signal(SIGINT, [](int){EventPollerPool::Instance().shutdown();});
//设置日志
Logger::Instance().add(std::make_shared<ConsoleChannel>("stdout", LTrace));
Logger::Instance().setWriter(std::make_shared<AsyncLogWriter>());
Logger::Instance().add(std::make_shared<ConsoleChannel>());
Logger::Instance().setWriter(std::make_shared<AsyncLogWriter>());
//加载配置文件,如果配置文件不存在就创建一个
loadIniConfig();
@ -132,14 +133,7 @@ int main(int argc,char *argv[]){
InfoL << "你可以在浏览器输入:http://127.0.0.1/api/my_api?key0=val0&key1=参数1" << endl;
EventPoller::Instance().runLoop();
static onceToken s_token(nullptr,[]() {
//TcpServer用到了WorkThreadPool
WorkThreadPool::Destory();
EventPoller::Destory();
Logger::Destory();
});
EventPollerPool::Instance().wait();
return 0;
}

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@ -41,93 +41,132 @@ using namespace mediakit;
int main(int argc, char *argv[]) {
//设置退出信号处理函数
signal(SIGINT, [](int) { EventPoller::Instance().shutdown(); });
signal(SIGINT, [](int) { EventPollerPool::Instance().shutdown(); });
//设置日志
Logger::Instance().add(std::make_shared<ConsoleChannel>("stdout", LTrace));
Logger::Instance().add(std::make_shared<ConsoleChannel>());
Logger::Instance().setWriter(std::make_shared<AsyncLogWriter>());
{
///////////////////////////////http downloader///////////////////////
//下载器map
map<string, HttpDownloader::Ptr> downloaderMap;
//下载两个文件一个是http下载一个https下载
auto urlList = {"https://timgsa.baidu.com/timg?image&quality=80&"
"size=b9999_10000&sec=1537717640404&"
"di=f602efbebbc1e7f6b9ccb0bf0def89d0&"
"imgtype=0&"
"src=http%3A%2F%2Fimgsrc.baidu.com%2Fimgad%2Fpic%2Fitem%2F241f95cad1c8a786ff65052a6d09c93d70cf5042.jpg",};
for (auto &url : urlList) {
//创建下载器
HttpDownloader::Ptr downloader(new HttpDownloader());
downloader->setOnResult([](ErrCode code, const char *errMsg, const char *filePath) {
DebugL << "=====================HttpDownloader result=======================";
//下载结果回调
if (code == Err_success) {
//文件下载成功
InfoL << "download file success:" << filePath;
} else {
//下载失败
WarnL << "code:" << code << " msg:" << errMsg;
}
});
//断点续传功能,开启后可能会遇到416的错误因为上次文件已经下载完全
downloader->startDownload(url, exeDir() + MD5(url).hexdigest() + ".jpg", true);
//下载器必须被强引用,否则作用域一失效就会导致对象销毁
downloaderMap.emplace(url, downloader);
}
///////////////////////////////http downloader///////////////////////
//下载器map
map<string, HttpDownloader::Ptr> downloaderMap;
//下载两个文件一个是http下载一个https下载
auto urlList = {"https://timgsa.baidu.com/timg?image&quality=80&"
"size=b9999_10000&sec=1537717640404&"
"di=f602efbebbc1e7f6b9ccb0bf0def89d0&"
"imgtype=0&"
"src=http%3A%2F%2Fimgsrc.baidu.com%2Fimgad%2Fpic%2Fitem%2F241f95cad1c8a786ff65052a6d09c93d70cf5042.jpg",};
///////////////////////////////http get///////////////////////
//创建一个Http请求器
HttpRequester::Ptr requesterGet(new HttpRequester());
//使用GET方式请求
requesterGet->setMethod("GET");
//设置http请求头我们假设设置cookie当然你也可以设置其他http头
requesterGet->addHeader("Cookie", "SESSIONID=e1aa89b3-f79f-4ac6-8ae2-0cea9ae8e2d7");
//开启请求该api会返回当前主机外网ip等信息
requesterGet->startRequester("http://pv.sohu.com/cityjson?ie=utf-8",//url地址
[](const SockException &ex, //网络相关的失败信息,如果为空就代表成功
const string &status, //http回复的状态码比如说200/404
const HttpClient::HttpHeader &header, //http回复头
const string &strRecvBody) { //http回复body
DebugL << "=====================HttpRequester GET===========================";
if (ex) {
//网络相关的错误
WarnL << "network err:" << ex.getErrCode() << " " << ex.what();
} else {
//打印http回复信息
_StrPrinter printer;
for (auto &pr: header) {
printer << pr.first << ":" << pr.second << "\r\n";
}
InfoL << "status:" << status << "\r\n"
<< "header:\r\n" << (printer << endl)
<< "\r\nbody:" << strRecvBody;
for (auto &url : urlList) {
//创建下载器
HttpDownloader::Ptr downloader(new HttpDownloader());
downloader->setOnResult([](ErrCode code, const char *errMsg, const char *filePath) {
DebugL << "=====================HttpDownloader result=======================";
//下载结果回调
if (code == Err_success) {
//文件下载成功
InfoL << "download file success:" << filePath;
} else {
//下载失败
WarnL << "code:" << code << " msg:" << errMsg;
}
});
//断点续传功能,开启后可能会遇到416的错误因为上次文件已经下载完全
downloader->startDownload(url, exeDir() + MD5(url).hexdigest() + ".jpg", true);
//下载器必须被强引用,否则作用域一失效就会导致对象销毁
downloaderMap.emplace(url, downloader);
}
///////////////////////////////http get///////////////////////
//创建一个Http请求器
HttpRequester::Ptr requesterGet(new HttpRequester());
//使用GET方式请求
requesterGet->setMethod("GET");
//设置http请求头我们假设设置cookie当然你也可以设置其他http头
requesterGet->addHeader("Cookie", "SESSIONID=e1aa89b3-f79f-4ac6-8ae2-0cea9ae8e2d7");
//开启请求该api会返回当前主机外网ip等信息
requesterGet->startRequester("http://pv.sohu.com/cityjson?ie=utf-8",//url地址
[](const SockException &ex, //网络相关的失败信息,如果为空就代表成功
const string &status, //http回复的状态码比如说200/404
const HttpClient::HttpHeader &header, //http回复头
const string &strRecvBody) { //http回复body
DebugL << "=====================HttpRequester GET===========================";
if (ex) {
//网络相关的错误
WarnL << "network err:" << ex.getErrCode() << " " << ex.what();
} else {
//打印http回复信息
_StrPrinter printer;
for (auto &pr: header) {
printer << pr.first << ":" << pr.second << "\r\n";
}
});
InfoL << "status:" << status << "\r\n"
<< "header:\r\n" << (printer << endl)
<< "\r\nbody:" << strRecvBody;
}
});
///////////////////////////////http post///////////////////////
//创建一个Http请求器
HttpRequester::Ptr requesterPost(new HttpRequester());
//使用POST方式请求
requesterPost->setMethod("POST");
//设置http请求头
requesterPost->addHeader("X-Requested-With", "XMLHttpRequest");
requesterPost->addHeader("Origin", "http://fanyi.baidu.com");
//设置POST参数列表
HttpArgs args;
args["query"] = "test";
args["from"] = "en";
args["to"] = "zh";
args["transtype"] = "translang";
args["simple_means_flag"] = "3";
requesterPost->setBody(args.make());
//开启请求
requesterPost->startRequester("http://fanyi.baidu.com/langdetect",//url地址
///////////////////////////////http post///////////////////////
//创建一个Http请求器
HttpRequester::Ptr requesterPost(new HttpRequester());
//使用POST方式请求
requesterPost->setMethod("POST");
//设置http请求头
requesterPost->addHeader("X-Requested-With", "XMLHttpRequest");
requesterPost->addHeader("Origin", "http://fanyi.baidu.com");
//设置POST参数列表
HttpArgs args;
args["query"] = "test";
args["from"] = "en";
args["to"] = "zh";
args["transtype"] = "translang";
args["simple_means_flag"] = "3";
requesterPost->setBody(args.make());
//开启请求
requesterPost->startRequester("http://fanyi.baidu.com/langdetect",//url地址
[](const SockException &ex, //网络相关的失败信息,如果为空就代表成功
const string &status, //http回复的状态码比如说200/404
const HttpClient::HttpHeader &header, //http回复头
const string &strRecvBody) { //http回复body
DebugL << "=====================HttpRequester POST==========================";
if (ex) {
//网络相关的错误
WarnL << "network err:" << ex.getErrCode() << " " << ex.what();
} else {
//打印http回复信息
_StrPrinter printer;
for (auto &pr: header) {
printer << pr.first << ":" << pr.second << "\r\n";
}
InfoL << "status:" << status << "\r\n"
<< "header:\r\n" << (printer << endl)
<< "\r\nbody:" << strRecvBody;
}
});
///////////////////////////////http upload///////////////////////
//创建一个Http请求器
HttpRequester::Ptr requesterUploader(new HttpRequester());
//使用POST方式请求
requesterUploader->setMethod("POST");
//设置http请求头
HttpArgs argsUploader;
argsUploader["query"] = "test";
argsUploader["from"] = "en";
argsUploader["to"] = "zh";
argsUploader["transtype"] = "translang";
argsUploader["simple_means_flag"] = "3";
static string boundary = "0xKhTmLbOuNdArY";
HttpMultiFormBody::Ptr body(new HttpMultiFormBody(argsUploader, exePath(), boundary));
requesterUploader->setBody(body);
requesterUploader->addHeader("Content-Type", HttpMultiFormBody::multiFormContentType(boundary));
//开启请求
requesterUploader->startRequester("http://fanyi.baidu.com/langdetect",//url地址
[](const SockException &ex, //网络相关的失败信息,如果为空就代表成功
const string &status, //http回复的状态码比如说200/404
const HttpClient::HttpHeader &header, //http回复头
const string &strRecvBody) { //http回复body
DebugL << "=====================HttpRequester POST==========================";
DebugL << "=====================HttpRequester Uploader==========================";
if (ex) {
//网络相关的错误
WarnL << "network err:" << ex.getErrCode() << " " << ex.what();
@ -143,52 +182,8 @@ int main(int argc, char *argv[]) {
}
});
///////////////////////////////http upload///////////////////////
//创建一个Http请求器
HttpRequester::Ptr requesterUploader(new HttpRequester());
//使用POST方式请求
requesterUploader->setMethod("POST");
//设置http请求头
HttpArgs argsUploader;
argsUploader["query"] = "test";
argsUploader["from"] = "en";
argsUploader["to"] = "zh";
argsUploader["transtype"] = "translang";
argsUploader["simple_means_flag"] = "3";
static string boundary = "0xKhTmLbOuNdArY";
HttpMultiFormBody::Ptr body(new HttpMultiFormBody(argsUploader, exePath(), boundary));
requesterUploader->setBody(body);
requesterUploader->addHeader("Content-Type", HttpMultiFormBody::multiFormContentType(boundary));
//开启请求
requesterUploader->startRequester("http://fanyi.baidu.com/langdetect",//url地址
[](const SockException &ex, //网络相关的失败信息,如果为空就代表成功
const string &status, //http回复的状态码比如说200/404
const HttpClient::HttpHeader &header, //http回复头
const string &strRecvBody) { //http回复body
DebugL << "=====================HttpRequester Uploader==========================";
if (ex) {
//网络相关的错误
WarnL << "network err:" << ex.getErrCode() << " " << ex.what();
} else {
//打印http回复信息
_StrPrinter printer;
for (auto &pr: header) {
printer << pr.first << ":" << pr.second << "\r\n";
}
InfoL << "status:" << status << "\r\n"
<< "header:\r\n" << (printer << endl)
<< "\r\nbody:" << strRecvBody;
}
});
//事件轮询
EventPoller::Instance().runLoop();
}
//程序开始退出
EventPoller::Destory();
AsyncTaskThread::Destory();
Logger::Destory();
//事件轮询
EventPollerPool::Instance().wait();
return 0;
}

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@ -43,7 +43,8 @@ int main(int argc, char *argv[]) {
//设置退出信号处理函数
signal(SIGINT, [](int) { SDLDisplayerHelper::Instance().shutdown(); });
//设置日志
Logger::Instance().add(std::make_shared<ConsoleChannel>("stdout", LTrace));
Logger::Instance().add(std::make_shared<ConsoleChannel>());
Logger::Instance().setWriter(std::make_shared<AsyncLogWriter>());
if (argc != 3) {
ErrorL << "\r\n测试方法:./test_player rtxp_url rtp_type\r\n"
@ -54,51 +55,46 @@ int main(int argc, char *argv[]) {
}
{
MediaPlayer::Ptr player(new MediaPlayer());
weak_ptr<MediaPlayer> weakPlayer = player;
player->setOnPlayResult([weakPlayer](const SockException &ex) {
InfoL << "OnPlayResult:" << ex.what();
auto strongPlayer = weakPlayer.lock();
if (ex || !strongPlayer) {
return;
}
MediaPlayer::Ptr player(new MediaPlayer());
weak_ptr<MediaPlayer> weakPlayer = player;
player->setOnPlayResult([weakPlayer](const SockException &ex) {
InfoL << "OnPlayResult:" << ex.what();
auto strongPlayer = weakPlayer.lock();
if (ex || !strongPlayer) {
return;
}
auto viedoTrack = strongPlayer->getTrack(TrackVideo);
if (!viedoTrack || viedoTrack->getCodecId() != CodecH264) {
WarnL << "没有视频或者视频不是264编码!";
return;
}
SDLDisplayerHelper::Instance().doTask([viedoTrack]() {
std::shared_ptr<H264Decoder> decoder(new H264Decoder);
std::shared_ptr<YuvDisplayer> displayer(new YuvDisplayer);
viedoTrack->addDelegate(std::make_shared<FrameWriterInterfaceHelper>([decoder, displayer](const Frame::Ptr &frame) {
SDLDisplayerHelper::Instance().doTask([decoder, displayer, frame]() {
AVFrame *pFrame = nullptr;
bool flag = decoder->inputVideo((unsigned char *) frame->data(), frame->size(),
frame->stamp(), &pFrame);
if (flag) {
displayer->displayYUV(pFrame);
}
return true;
});
}));
return true;
});
auto viedoTrack = strongPlayer->getTrack(TrackVideo);
if (!viedoTrack || viedoTrack->getCodecId() != CodecH264) {
WarnL << "没有视频或者视频不是264编码!";
return;
}
SDLDisplayerHelper::Instance().doTask([viedoTrack]() {
std::shared_ptr<H264Decoder> decoder(new H264Decoder);
std::shared_ptr<YuvDisplayer> displayer(new YuvDisplayer);
viedoTrack->addDelegate(std::make_shared<FrameWriterInterfaceHelper>([decoder, displayer](const Frame::Ptr &frame) {
SDLDisplayerHelper::Instance().doTask([decoder, displayer, frame]() {
AVFrame *pFrame = nullptr;
bool flag = decoder->inputVideo((unsigned char *) frame->data(), frame->size(),
frame->stamp(), &pFrame);
if (flag) {
displayer->displayYUV(pFrame);
}
return true;
});
}));
return true;
});
});
player->setOnShutdown([](const SockException &ex) {
ErrorL << "OnShutdown:" << ex.what();
});
(*player)[RtspPlayer::kRtpType] = atoi(argv[2]);
player->play(argv[1]);
SDLDisplayerHelper::Instance().runLoop();
}
UDPServer::Destory();
EventPoller::Destory();
AsyncTaskThread::Destory();
Logger::Destory();
player->setOnShutdown([](const SockException &ex) {
ErrorL << "OnShutdown:" << ex.what();
});
(*player)[RtspPlayer::kRtpType] = atoi(argv[2]);
player->play(argv[1]);
SDLDisplayerHelper::Instance().runLoop();
return 0;
}

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@ -83,37 +83,26 @@ void rePushDelay(const string &app, const string &stream, const string &url) {
//这里才是真正执行main函数你可以把函数名(domain)改成main然后就可以输入自定义url了
int domain(const string &playUrl, const string &pushUrl) {
//设置退出信号处理函数
signal(SIGINT, [](int) { EventPoller::Instance().shutdown(); });
signal(SIGINT, [](int) { EventPollerPool::Instance().shutdown(); });
//设置日志
Logger::Instance().add(std::make_shared<ConsoleChannel>("stdout", LTrace));
Logger::Instance().add(std::make_shared<ConsoleChannel>());
Logger::Instance().setWriter(std::make_shared<AsyncLogWriter>());
{
//拉一个流生成一个RtmpMediaSource源的名称是"app/stream"
//你也可以以其他方式生成RtmpMediaSource比如说MP4文件请查看test_rtmpPusherMp4.cpp代码
PlayerProxy::Ptr player(new PlayerProxy(DEFAULT_VHOST, "app", "stream"));
player->play(playUrl.data());
//拉一个流生成一个RtmpMediaSource源的名称是"app/stream"
//你也可以以其他方式生成RtmpMediaSource比如说MP4文件请查看test_rtmpPusherMp4.cpp代码
PlayerProxy::Ptr player(new PlayerProxy(DEFAULT_VHOST, "app", "stream"));
player->play(playUrl.data());
//监听RtmpMediaSource注册事件,在PlayerProxy播放成功后触发
NoticeCenter::Instance().addListener(nullptr, Broadcast::kBroadcastMediaChanged,
[pushUrl](BroadcastMediaChangedArgs) {
//媒体源"app/stream"已经注册这时方可新建一个RtmpPusher对象并绑定该媒体源
if(bRegist && schema == RTMP_SCHEMA){
createPusher(app, stream, pushUrl);
}
});
//事件轮询
EventPoller::Instance().runLoop();
pusher.reset();
}
//删除事件监听
NoticeCenter::Instance().delListener(nullptr);
//清理程序
EventPoller::Destory();
AsyncTaskThread::Destory();
Logger::Destory();
//监听RtmpMediaSource注册事件,在PlayerProxy播放成功后触发
NoticeCenter::Instance().addListener(nullptr, Broadcast::kBroadcastMediaChanged,
[pushUrl](BroadcastMediaChangedArgs) {
//媒体源"app/stream"已经注册这时方可新建一个RtmpPusher对象并绑定该媒体源
if(bRegist && schema == RTMP_SCHEMA){
createPusher(app, stream, pushUrl);
}
});
//事件轮询
EventPollerPool::Instance().wait();
return 0;
}

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@ -92,9 +92,9 @@ void rePushDelay(const string &app,const string &stream,const string &url){
//这里才是真正执行main函数你可以把函数名(domain)改成main然后就可以输入自定义url了
int domain(const string & filePath,const string & pushUrl){
//设置退出信号处理函数
signal(SIGINT, [](int){EventPoller::Instance().shutdown();});
signal(SIGINT, [](int){EventPollerPool::Instance().shutdown();});
//设置日志
Logger::Instance().add(std::make_shared<ConsoleChannel>("stdout", LTrace));
Logger::Instance().add(std::make_shared<ConsoleChannel>());
Logger::Instance().setWriter(std::make_shared<AsyncLogWriter>());
//录像应用名称默认为record
@ -104,16 +104,7 @@ int domain(const string & filePath,const string & pushUrl){
createPusher(appName,filePath,pushUrl);
//开始事件轮询
EventPoller::Instance().runLoop();
//删除事件监听
NoticeCenter::Instance().delListener(nullptr);
//销毁推流器
pusher.reset();
//程序清理
EventPoller::Destory();
AsyncTaskThread::Destory();
Logger::Destory();
EventPollerPool::Instance().wait();
return 0;
}

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@ -229,141 +229,132 @@ static onceToken s_token([](){
int main(int argc,char *argv[]) {
//设置退出信号处理函数
signal(SIGINT, [](int) { EventPoller::Instance().shutdown(); });
signal(SIGINT, [](int) { EventPollerPool::Instance().shutdown(); });
signal(SIGHUP, [](int) { loadIniConfig(); });
//设置日志
Logger::Instance().add(std::make_shared<ConsoleChannel>("stdout", LTrace));
Logger::Instance().add(std::make_shared<ConsoleChannel>());
Logger::Instance().add(std::make_shared<FileChannel>());
Logger::Instance().setWriter(std::make_shared<AsyncLogWriter>());
//加载配置文件,如果配置文件不存在就创建一个
loadIniConfig();
{
//这里是拉流地址支持rtmp/rtsp协议负载必须是H264+AAC
//如果是其他不识别的音视频将会被忽略(譬如说h264+adpcm转发后会去除音频)
auto urlList = {"rtmp://live.hkstv.hk.lxdns.com/live/hks1",
"rtmp://live.hkstv.hk.lxdns.com/live/hks2"
//rtsp链接支持输入用户名密码
/*"rtsp://admin:jzan123456@192.168.0.122/"*/};
map<string, PlayerProxy::Ptr> proxyMap;
int i = 0;
for (auto &url : urlList) {
//PlayerProxy构造函数前两个参数分别为应用名app,流idstreamId
//比如说应用为live流id为0那么直播地址为:
//hls地址 : http://127.0.0.1/live/0/hls.m3u8
//http-flv地址 : http://127.0.0.1/live/0.flv
//rtsp地址 : rtsp://127.0.0.1/live/0
//rtmp地址 : rtmp://127.0.0.1/live/0
//这里是拉流地址支持rtmp/rtsp协议负载必须是H264+AAC
//如果是其他不识别的音视频将会被忽略(譬如说h264+adpcm转发后会去除音频)
auto urlList = {"rtmp://live.hkstv.hk.lxdns.com/live/hks1",
"rtmp://live.hkstv.hk.lxdns.com/live/hks2"
//rtsp链接支持输入用户名密码
/*"rtsp://admin:jzan123456@192.168.0.122/"*/};
map<string, PlayerProxy::Ptr> proxyMap;
int i = 0;
for (auto &url : urlList) {
//PlayerProxy构造函数前两个参数分别为应用名app,流idstreamId
//比如说应用为live流id为0那么直播地址为:
//录像地址为(当然vlc不支持这么多级的rtmp url可以用test_player测试rtmp点播):
//http://127.0.0.1/record/live/0/2017-04-11/11-09-38.mp4
//rtsp://127.0.0.1/record/live/0/2017-04-11/11-09-38.mp4
//rtmp://127.0.0.1/record/live/0/2017-04-11/11-09-38.mp4
//hls地址 : http://127.0.0.1/live/0/hls.m3u8
//http-flv地址 : http://127.0.0.1/live/0.flv
//rtsp地址 : rtsp://127.0.0.1/live/0
//rtmp地址 : rtmp://127.0.0.1/live/0
PlayerProxy::Ptr player(new PlayerProxy(DEFAULT_VHOST, "live", to_string(i).data()));
//指定RTP over TCP(播放rtsp时有效)
(*player)[RtspPlayer::kRtpType] = PlayerBase::RTP_TCP;
//开始播放,如果播放失败或者播放中止,将会自动重试若干次,重试次数在配置文件中配置,默认一直重试
player->play(url);
//需要保存PlayerProxy否则作用域结束就会销毁该对象
proxyMap.emplace(to_string(i), player);
++i;
//录像地址为(当然vlc不支持这么多级的rtmp url可以用test_player测试rtmp点播):
//http://127.0.0.1/record/live/0/2017-04-11/11-09-38.mp4
//rtsp://127.0.0.1/record/live/0/2017-04-11/11-09-38.mp4
//rtmp://127.0.0.1/record/live/0/2017-04-11/11-09-38.mp4
PlayerProxy::Ptr player(new PlayerProxy(DEFAULT_VHOST, "live", to_string(i).data()));
//指定RTP over TCP(播放rtsp时有效)
(*player)[RtspPlayer::kRtpType] = PlayerBase::RTP_TCP;
//开始播放,如果播放失败或者播放中止,将会自动重试若干次,重试次数在配置文件中配置,默认一直重试
player->play(url);
//需要保存PlayerProxy否则作用域结束就会销毁该对象
proxyMap.emplace(to_string(i), player);
++i;
}
DebugL << "\r\n"
" PlayerProxy构造函数前两个参数分别为应用名app,流idstreamId\n"
" 比如说应用为live流id为0那么直播地址为:\n"
" hls地址 : http://127.0.0.1/live/0/hls.m3u8\n"
" http-flv地址 : http://127.0.0.1/live/0.flv\n"
" rtsp地址 : rtsp://127.0.0.1/live/0\n"
" rtmp地址 : rtmp://127.0.0.1/live/0";
//请把证书"test_server.pem"放置在本程序可执行程序同目录下
try {
//加载证书,证书包含公钥和私钥
SSL_Initor::Instance().loadServerPem((exePath() + ".pem").data());
} catch (...) {
ErrorL << "请把证书:" << (exeName() + ".pem") << "放置在本程序可执行程序同目录下:" << exeDir() << endl;
proxyMap.clear();
return 0;
}
uint16_t shellPort = mINI::Instance()[Shell::kPort];
uint16_t rtspPort = mINI::Instance()[Rtsp::kPort];
uint16_t rtspsPort = mINI::Instance()[Rtsp::kSSLPort];
uint16_t rtmpPort = mINI::Instance()[Rtmp::kPort];
uint16_t httpPort = mINI::Instance()[Http::kPort];
uint16_t httpsPort = mINI::Instance()[Http::kSSLPort];
//简单的telnet服务器可用于服务器调试但是不能使用23端口否则telnet上了莫名其妙的现象
//测试方法:telnet 127.0.0.1 9000
TcpServer::Ptr shellSrv(new TcpServer());
TcpServer::Ptr rtspSrv(new TcpServer());
TcpServer::Ptr rtmpSrv(new TcpServer());
TcpServer::Ptr httpSrv(new TcpServer());
shellSrv->start<ShellSession>(shellPort);
rtspSrv->start<RtspSession>(rtspPort);//默认554
rtmpSrv->start<RtmpSession>(rtmpPort);//默认1935
//http服务器,支持websocket
httpSrv->start<EchoWebSocketSession>(httpPort);//默认80
//如果支持ssl还可以开启https服务器
TcpServer::Ptr httpsSrv(new TcpServer());
//https服务器,支持websocket
httpsSrv->start<SSLEchoWebSocketSession>(httpsPort);//默认443
//支持ssl加密的rtsp服务器可用于诸如亚马逊echo show这样的设备访问
TcpServer::Ptr rtspSSLSrv(new TcpServer());
rtspSSLSrv->start<RtspSessionWithSSL>(rtspsPort);//默认322
//服务器支持动态切换端口(不影响现有连接)
NoticeCenter::Instance().addListener(ReloadConfigTag,Broadcast::kBroadcastReloadConfig,[&](BroadcastReloadConfigArgs){
//重新创建服务器
if(shellPort != mINI::Instance()[Shell::kPort].as<uint16_t>()){
shellPort = mINI::Instance()[Shell::kPort];
shellSrv->start<ShellSession>(shellPort);
InfoL << "重启shell服务器:" << shellPort;
}
if(rtspPort != mINI::Instance()[Rtsp::kPort].as<uint16_t>()){
rtspPort = mINI::Instance()[Rtsp::kPort];
rtspSrv->start<RtspSession>(rtspPort);
InfoL << "重启rtsp服务器" << rtspPort;
}
if(rtmpPort != mINI::Instance()[Rtmp::kPort].as<uint16_t>()){
rtmpPort = mINI::Instance()[Rtmp::kPort];
rtmpSrv->start<RtmpSession>(rtmpPort);
InfoL << "重启rtmp服务器" << rtmpPort;
}
if(httpPort != mINI::Instance()[Http::kPort].as<uint16_t>()){
httpPort = mINI::Instance()[Http::kPort];
httpSrv->start<EchoWebSocketSession>(httpPort);
InfoL << "重启http服务器" << httpPort;
}
if(httpsPort != mINI::Instance()[Http::kSSLPort].as<uint16_t>()){
httpsPort = mINI::Instance()[Http::kSSLPort];
httpsSrv->start<SSLEchoWebSocketSession>(httpsPort);
InfoL << "重启https服务器" << httpsPort;
}
DebugL << "\r\n"
" PlayerProxy构造函数前两个参数分别为应用名app,流idstreamId\n"
" 比如说应用为live流id为0那么直播地址为:\n"
" hls地址 : http://127.0.0.1/live/0/hls.m3u8\n"
" http-flv地址 : http://127.0.0.1/live/0.flv\n"
" rtsp地址 : rtsp://127.0.0.1/live/0\n"
" rtmp地址 : rtmp://127.0.0.1/live/0";
//请把证书"test_server.pem"放置在本程序可执行程序同目录下
try {
//加载证书,证书包含公钥和私钥
SSL_Initor::Instance().loadServerPem((exePath() + ".pem").data());
} catch (...) {
ErrorL << "请把证书:" << (exeName() + ".pem") << "放置在本程序可执行程序同目录下:" << exeDir() << endl;
proxyMap.clear();
return 0;
if(rtspsPort != mINI::Instance()[Rtsp::kSSLPort].as<uint16_t>()){
rtspsPort = mINI::Instance()[Rtsp::kSSLPort];
rtspSSLSrv->start<RtspSessionWithSSL>(rtspsPort);
InfoL << "重启rtsps服务器" << rtspsPort;
}
});
uint16_t shellPort = mINI::Instance()[Shell::kPort];
uint16_t rtspPort = mINI::Instance()[Rtsp::kPort];
uint16_t rtspsPort = mINI::Instance()[Rtsp::kSSLPort];
uint16_t rtmpPort = mINI::Instance()[Rtmp::kPort];
uint16_t httpPort = mINI::Instance()[Http::kPort];
uint16_t httpsPort = mINI::Instance()[Http::kSSLPort];
//简单的telnet服务器可用于服务器调试但是不能使用23端口否则telnet上了莫名其妙的现象
//测试方法:telnet 127.0.0.1 9000
TcpServer::Ptr shellSrv(new TcpServer());
TcpServer::Ptr rtspSrv(new TcpServer());
TcpServer::Ptr rtmpSrv(new TcpServer());
TcpServer::Ptr httpSrv(new TcpServer());
shellSrv->start<ShellSession>(shellPort);
rtspSrv->start<RtspSession>(rtspPort);//默认554
rtmpSrv->start<RtmpSession>(rtmpPort);//默认1935
//http服务器,支持websocket
httpSrv->start<EchoWebSocketSession>(httpPort);//默认80
//如果支持ssl还可以开启https服务器
TcpServer::Ptr httpsSrv(new TcpServer());
//https服务器,支持websocket
httpsSrv->start<SSLEchoWebSocketSession>(httpsPort);//默认443
//支持ssl加密的rtsp服务器可用于诸如亚马逊echo show这样的设备访问
TcpServer::Ptr rtspSSLSrv(new TcpServer());
rtspSSLSrv->start<RtspSessionWithSSL>(rtspsPort);//默认322
//服务器支持动态切换端口(不影响现有连接)
NoticeCenter::Instance().addListener(ReloadConfigTag,Broadcast::kBroadcastReloadConfig,[&](BroadcastReloadConfigArgs){
//重新创建服务器
if(shellPort != mINI::Instance()[Shell::kPort].as<uint16_t>()){
shellPort = mINI::Instance()[Shell::kPort];
shellSrv->start<ShellSession>(shellPort);
InfoL << "重启shell服务器:" << shellPort;
}
if(rtspPort != mINI::Instance()[Rtsp::kPort].as<uint16_t>()){
rtspPort = mINI::Instance()[Rtsp::kPort];
rtspSrv->start<RtspSession>(rtspPort);
InfoL << "重启rtsp服务器" << rtspPort;
}
if(rtmpPort != mINI::Instance()[Rtmp::kPort].as<uint16_t>()){
rtmpPort = mINI::Instance()[Rtmp::kPort];
rtmpSrv->start<RtmpSession>(rtmpPort);
InfoL << "重启rtmp服务器" << rtmpPort;
}
if(httpPort != mINI::Instance()[Http::kPort].as<uint16_t>()){
httpPort = mINI::Instance()[Http::kPort];
httpSrv->start<EchoWebSocketSession>(httpPort);
InfoL << "重启http服务器" << httpPort;
}
if(httpsPort != mINI::Instance()[Http::kSSLPort].as<uint16_t>()){
httpsPort = mINI::Instance()[Http::kSSLPort];
httpsSrv->start<SSLEchoWebSocketSession>(httpsPort);
InfoL << "重启https服务器" << httpsPort;
}
if(rtspsPort != mINI::Instance()[Rtsp::kSSLPort].as<uint16_t>()){
rtspsPort = mINI::Instance()[Rtsp::kSSLPort];
rtspSSLSrv->start<RtspSessionWithSSL>(rtspsPort);
InfoL << "重启rtsps服务器" << rtspsPort;
}
});
EventPoller::Instance().runLoop();
}//设置作用域,作用域结束后会销毁临时变量;省去手动注销服务器
//rtsp服务器用到udp端口分配器了
UDPServer::Destory();
//TcpServer用到了WorkThreadPool
WorkThreadPool::Destory();
EventPoller::Destory();
AsyncTaskThread::Destory();
Logger::Destory();
EventPollerPool::Instance().wait();
return 0;
}