ZLMediaKit/server/main.cpp

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/*
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* Copyright (c) 2016-present The ZLMediaKit project authors. All Rights Reserved.
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*
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* This file is part of ZLMediaKit(https://github.com/ZLMediaKit/ZLMediaKit).
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*
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* Use of this source code is governed by MIT-like license that can be found in the
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* 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.
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*/
#include <signal.h>
#include <iostream>
#include "Util/File.h"
#include "Util/logger.h"
#include "Util/SSLBox.h"
#include "Util/onceToken.h"
#include "Util/CMD.h"
#include "Network/TcpServer.h"
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#include "Network/UdpServer.h"
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#include "Poller/EventPoller.h"
#include "Common/config.h"
#include "Rtsp/RtspSession.h"
#include "Rtmp/RtmpSession.h"
#include "Shell/ShellSession.h"
#include "Http/WebSocketSession.h"
#include "Rtp/RtpServer.h"
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#include "WebApi.h"
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#include "WebHook.h"
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#if defined(ENABLE_WEBRTC)
#include "../webrtc/WebRtcTransport.h"
#include "../webrtc/WebRtcSession.h"
#endif
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#if defined(ENABLE_SRT)
#include "../srt/SrtSession.hpp"
#include "../srt/SrtTransport.hpp"
#endif
#if defined(ENABLE_VERSION)
#include "ZLMVersion.h"
#endif
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#if !defined(_WIN32)
#include "System.h"
#endif//!defined(_WIN32)
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using namespace std;
using namespace toolkit;
using namespace mediakit;
namespace mediakit {
// //////////HTTP配置/////////// [AUTO-TRANSLATED:a281d694]
// //////////HTTP configuration///////////
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namespace Http {
#define HTTP_FIELD "http."
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const string kPort = HTTP_FIELD"port";
const string kSSLPort = HTTP_FIELD"sslport";
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onceToken token1([](){
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mINI::Instance()[kPort] = 80;
mINI::Instance()[kSSLPort] = 443;
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},nullptr);
}//namespace Http
// //////////SHELL配置/////////// [AUTO-TRANSLATED:f023ec45]
// //////////SHELL configuration///////////
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namespace Shell {
#define SHELL_FIELD "shell."
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const string kPort = SHELL_FIELD"port";
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onceToken token1([](){
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mINI::Instance()[kPort] = 9000;
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},nullptr);
} //namespace Shell
// //////////RTSP服务器配置/////////// [AUTO-TRANSLATED:950e1981]
// //////////RTSP server configuration///////////
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namespace Rtsp {
#define RTSP_FIELD "rtsp."
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const string kPort = RTSP_FIELD"port";
const string kSSLPort = RTSP_FIELD"sslport";
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onceToken token1([](){
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mINI::Instance()[kPort] = 554;
mINI::Instance()[kSSLPort] = 332;
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},nullptr);
} //namespace Rtsp
// //////////RTMP服务器配置/////////// [AUTO-TRANSLATED:8de6f41f]
// //////////RTMP server configuration///////////
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namespace Rtmp {
#define RTMP_FIELD "rtmp."
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const string kPort = RTMP_FIELD"port";
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const string kSSLPort = RTMP_FIELD"sslport";
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onceToken token1([](){
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mINI::Instance()[kPort] = 1935;
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mINI::Instance()[kSSLPort] = 19350;
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},nullptr);
} //namespace RTMP
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// //////////Rtp代理相关配置/////////// [AUTO-TRANSLATED:7b285587]
// //////////Rtp proxy related configuration///////////
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namespace RtpProxy {
#define RTP_PROXY_FIELD "rtp_proxy."
const string kPort = RTP_PROXY_FIELD"port";
onceToken token1([](){
mINI::Instance()[kPort] = 10000;
},nullptr);
} //namespace RtpProxy
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} // namespace mediakit
class CMD_main : public CMD {
public:
CMD_main() {
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_parser = std::make_shared<OptionParser>(nullptr);
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#if !defined(_WIN32)
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(*_parser) << Option('d',/*该选项简称,如果是\x00则说明无简称*/
"daemon",/*该选项全称,每个选项必须有全称不得为null或空字符串*/
Option::ArgNone,/*该选项后面必须跟值*/
nullptr,/*该选项默认值*/
false,/*该选项是否必须赋值如果没有默认值且为ArgRequired时用户必须提供该参数否则将抛异常*/
"是否以Daemon方式启动",/*该选项说明文字*/
nullptr);
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#endif//!defined(_WIN32)
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(*_parser) << Option('l',/*该选项简称,如果是\x00则说明无简称*/
"level",/*该选项全称,每个选项必须有全称不得为null或空字符串*/
Option::ArgRequired,/*该选项后面必须跟值*/
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to_string(LDebug).data(),/*该选项默认值*/
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false,/*该选项是否必须赋值如果没有默认值且为ArgRequired时用户必须提供该参数否则将抛异常*/
"日志等级,LTrace~LError(0~4)",/*该选项说明文字*/
nullptr);
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(*_parser) << Option('m',/*该选项简称,如果是\x00则说明无简称*/
"max_day",/*该选项全称,每个选项必须有全称不得为null或空字符串*/
Option::ArgRequired,/*该选项后面必须跟值*/
"7",/*该选项默认值*/
false,/*该选项是否必须赋值如果没有默认值且为ArgRequired时用户必须提供该参数否则将抛异常*/
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"日志最多保存天数",/*该选项说明文字*/
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nullptr);
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(*_parser) << Option('c',/*该选项简称,如果是\x00则说明无简称*/
"config",/*该选项全称,每个选项必须有全称不得为null或空字符串*/
Option::ArgRequired,/*该选项后面必须跟值*/
(exeDir() + "config.ini").data(),/*该选项默认值*/
false,/*该选项是否必须赋值如果没有默认值且为ArgRequired时用户必须提供该参数否则将抛异常*/
"配置文件路径",/*该选项说明文字*/
nullptr);
(*_parser) << Option('s',/*该选项简称,如果是\x00则说明无简称*/
"ssl",/*该选项全称,每个选项必须有全称不得为null或空字符串*/
Option::ArgRequired,/*该选项后面必须跟值*/
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(exeDir() + "default.pem").data(),/*该选项默认值*/
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false,/*该选项是否必须赋值如果没有默认值且为ArgRequired时用户必须提供该参数否则将抛异常*/
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"ssl证书文件或文件夹,支持p12/pem类型",/*该选项说明文字*/
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nullptr);
(*_parser) << Option('t',/*该选项简称,如果是\x00则说明无简称*/
"threads",/*该选项全称,每个选项必须有全称不得为null或空字符串*/
Option::ArgRequired,/*该选项后面必须跟值*/
to_string(thread::hardware_concurrency()).data(),/*该选项默认值*/
false,/*该选项是否必须赋值如果没有默认值且为ArgRequired时用户必须提供该参数否则将抛异常*/
"启动事件触发线程数",/*该选项说明文字*/
nullptr);
(*_parser) << Option(0,/*该选项简称,如果是\x00则说明无简称*/
"affinity",/*该选项全称,每个选项必须有全称不得为null或空字符串*/
Option::ArgRequired,/*该选项后面必须跟值*/
to_string(1).data(),/*该选项默认值*/
false,/*该选项是否必须赋值如果没有默认值且为ArgRequired时用户必须提供该参数否则将抛异常*/
"是否启动cpu亲和性设置",/*该选项说明文字*/
nullptr);
#if defined(ENABLE_VERSION)
(*_parser) << Option('v', "version", Option::ArgNone, nullptr, false, "显示版本号",
[](const std::shared_ptr<ostream> &stream, const string &arg) -> bool {
// 版本信息 [AUTO-TRANSLATED:d4cc59b2]
// Version information
*stream << "编译日期: " << BUILD_TIME << std::endl;
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*stream << "代码日期: " << COMMIT_TIME << std::endl;
*stream << "当前git分支: " << BRANCH_NAME << std::endl;
*stream << "当前git hash值: " << COMMIT_HASH << std::endl;
throw ExitException();
});
#endif
(*_parser) << Option(0,/*该选项简称,如果是\x00则说明无简称*/
"log-slice",/*该选项全称,每个选项必须有全称不得为null或空字符串*/
Option::ArgRequired,/*该选项后面必须跟值*/
"100",/*该选项默认值*/
true,/*该选项是否必须赋值如果没有默认值且为ArgRequired时用户必须提供该参数否则将抛异常*/
"最大保存日志切片个数",/*该选项说明文字*/
nullptr);
(*_parser) << Option(0,/*该选项简称,如果是\x00则说明无简称*/
"log-size",/*该选项全称,每个选项必须有全称不得为null或空字符串*/
Option::ArgRequired,/*该选项后面必须跟值*/
"256",/*该选项默认值*/
true,/*该选项是否必须赋值如果没有默认值且为ArgRequired时用户必须提供该参数否则将抛异常*/
"单个日志切片最大容量,单位MB",/*该选项说明文字*/
nullptr);
(*_parser) << Option(0,/*该选项简称,如果是\x00则说明无简称*/
"log-dir",/*该选项全称,每个选项必须有全称不得为null或空字符串*/
Option::ArgRequired,/*该选项后面必须跟值*/
(exeDir() + "log/").data(),/*该选项默认值*/
true,/*该选项是否必须赋值如果没有默认值且为ArgRequired时用户必须提供该参数否则将抛异常*/
"日志保存文件夹路径",/*该选项说明文字*/
nullptr);
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}
};
// 全局变量在WebApi中用于保存配置文件用 [AUTO-TRANSLATED:6d5585ca]
// Global variable, used in WebApi to save configuration files
string g_ini_file;
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int start_main(int argc,char *argv[]) {
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{
CMD_main cmd_main;
try {
cmd_main.operator()(argc, argv);
} catch (ExitException &) {
return 0;
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} catch (std::exception &ex) {
cout << ex.what() << endl;
return -1;
}
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bool bDaemon = cmd_main.hasKey("daemon");
LogLevel logLevel = (LogLevel) cmd_main["level"].as<int>();
logLevel = MIN(MAX(logLevel, LTrace), LError);
g_ini_file = cmd_main["config"];
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string ssl_file = cmd_main["ssl"];
int threads = cmd_main["threads"];
bool affinity = cmd_main["affinity"];
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// 设置日志 [AUTO-TRANSLATED:50372045]
// Set log
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Logger::Instance().add(std::make_shared<ConsoleChannel>("ConsoleChannel", logLevel));
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#if !defined(ANDROID)
auto fileChannel = std::make_shared<FileChannel>("FileChannel", cmd_main["log-dir"], logLevel);
// 日志最多保存天数 [AUTO-TRANSLATED:9bfa8a9a]
// Maximum number of days to save logs
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fileChannel->setMaxDay(cmd_main["max_day"]);
fileChannel->setFileMaxCount(cmd_main["log-slice"]);
fileChannel->setFileMaxSize(cmd_main["log-size"]);
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Logger::Instance().add(fileChannel);
#endif // !defined(ANDROID)
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#if !defined(_WIN32)
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pid_t pid = getpid();
bool kill_parent_if_failed = true;
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if (bDaemon) {
// 启动守护进程 [AUTO-TRANSLATED:33b2c5be]
// Start daemon process
System::startDaemon(kill_parent_if_failed);
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}
// 开启崩溃捕获等 [AUTO-TRANSLATED:9c7c759c]
// Enable crash capture, etc.
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System::systemSetup();
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#endif//!defined(_WIN32)
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// 启动异步日志线程 [AUTO-TRANSLATED:c93cc6f4]
// Start asynchronous log thread
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Logger::Instance().setWriter(std::make_shared<AsyncLogWriter>());
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InfoL << kServerName;
// 加载配置文件,如果配置文件不存在就创建一个 [AUTO-TRANSLATED:761e7479]
// Load configuration file, create one if it doesn't exist
loadIniConfig(g_ini_file.data());
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auto &secret = mINI::Instance()[API::kSecret];
if (secret == "035c73f7-bb6b-4889-a715-d9eb2d1925cc" || secret.empty()) {
// 使用默认secret被禁止启动 [AUTO-TRANSLATED:6295164b]
// Starting with the default secret is prohibited
secret = makeRandStr(32, true);
mINI::Instance().dumpFile(g_ini_file);
WarnL << "The " << API::kSecret << " is invalid, modified it to: " << secret
<< ", saved config file: " << g_ini_file;
}
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if (!File::is_dir(ssl_file)) {
// 不是文件夹,加载证书,证书包含公钥和私钥 [AUTO-TRANSLATED:5d3a5e49]
// Not a folder, load certificate, certificate contains public key and private key
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SSL_Initor::Instance().loadCertificate(ssl_file.data());
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} else {
// 加载文件夹下的所有证书 [AUTO-TRANSLATED:0e1f9b20]
// Load all certificates under the folder
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File::scanDir(ssl_file,[](const string &path, bool isDir){
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if (!isDir) {
// 最后的一个证书会当做默认证书(客户端ssl握手时未指定主机) [AUTO-TRANSLATED:b242685c]
// The last certificate will be used as the default certificate (client ssl handshake does not specify the host)
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SSL_Initor::Instance().loadCertificate(path.data());
}
return true;
});
}
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std::string listen_ip = mINI::Instance()[General::kListenIP];
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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];
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uint16_t rtmpsPort = mINI::Instance()[Rtmp::kSSLPort];
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uint16_t httpPort = mINI::Instance()[Http::kPort];
uint16_t httpsPort = mINI::Instance()[Http::kSSLPort];
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uint16_t rtpPort = mINI::Instance()[RtpProxy::kPort];
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// 设置poller线程数和cpu亲和性,该函数必须在使用ZLToolKit网络相关对象之前调用才能生效 [AUTO-TRANSLATED:7f03a1e5]
// Set the number of poller threads and CPU affinity. This function must be called before using ZLToolKit network related objects to take effect.
// 如果需要调用getSnap和addFFmpegSource接口可以关闭cpu亲和性 [AUTO-TRANSLATED:7629f7bc]
// If you need to call the getSnap and addFFmpegSource interfaces, you can turn off CPU affinity
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EventPollerPool::setPoolSize(threads);
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WorkThreadPool::setPoolSize(threads);
EventPollerPool::enableCpuAffinity(affinity);
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// 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 [AUTO-TRANSLATED:f9324c6e]
// Simple telnet server, can be used for server debugging, but cannot use port 23, otherwise telnet will have inexplicable phenomena
// 测试方法:telnet 127.0.0.1 9000 [AUTO-TRANSLATED:de0ac883]
// Test method: telnet 127.0.0.1 9000
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auto shellSrv = std::make_shared<TcpServer>();
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// rtsp[s]服务器, 可用于诸如亚马逊echo show这样的设备访问 [AUTO-TRANSLATED:f28e54f7]
// rtsp[s] server, can be used for devices such as Amazon Echo Show to access
auto rtspSrv = std::make_shared<TcpServer>();
auto rtspSSLSrv = std::make_shared<TcpServer>();
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// rtmp[s]服务器 [AUTO-TRANSLATED:3ac98bf5]
// rtmp[s] server
auto rtmpSrv = std::make_shared<TcpServer>();
auto rtmpsSrv = std::make_shared<TcpServer>();
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// http[s]服务器 [AUTO-TRANSLATED:5bbc8735]
// http[s] server
auto httpSrv = std::make_shared<TcpServer>();
auto httpsSrv = std::make_shared<TcpServer>();
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#if defined(ENABLE_RTPPROXY)
// GB28181 rtp推流端口支持UDP/TCP [AUTO-TRANSLATED:8a9b2872]
// GB28181 rtp push stream port, supports UDP/TCP
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auto rtpServer = std::make_shared<RtpServer>();
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#endif//defined(ENABLE_RTPPROXY)
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#if defined(ENABLE_WEBRTC)
auto rtcSrv_tcp = std::make_shared<TcpServer>();
// webrtc udp服务器 [AUTO-TRANSLATED:157a64e5]
// webrtc udp server
auto rtcSrv_udp = std::make_shared<UdpServer>();
rtcSrv_udp->setOnCreateSocket([](const EventPoller::Ptr &poller, const Buffer::Ptr &buf, struct sockaddr *, int) {
if (!buf) {
return Socket::createSocket(poller, false);
}
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auto new_poller = WebRtcSession::queryPoller(buf);
if (!new_poller) {
// 该数据对应的webrtc对象未找到丢弃之 [AUTO-TRANSLATED:d401f8cb]
// The webrtc object corresponding to this data is not found, discard it
return Socket::Ptr();
}
return Socket::createSocket(new_poller, false);
});
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uint16_t rtcPort = mINI::Instance()[Rtc::kPort];
uint16_t rtcTcpPort = mINI::Instance()[Rtc::kTcpPort];
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#endif//defined(ENABLE_WEBRTC)
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#if defined(ENABLE_SRT)
auto srtSrv = std::make_shared<UdpServer>();
srtSrv->setOnCreateSocket([](const EventPoller::Ptr &poller, const Buffer::Ptr &buf, struct sockaddr *, int) {
if (!buf) {
return Socket::createSocket(poller, false);
}
auto new_poller = SRT::SrtSession::queryPoller(buf);
if (!new_poller) {
// 握手第一阶段 [AUTO-TRANSLATED:6b3abcd4]
// Handshake phase one
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return Socket::createSocket(poller, false);
}
return Socket::createSocket(new_poller, false);
});
uint16_t srtPort = mINI::Instance()[SRT::kPort];
#endif //defined(ENABLE_SRT)
installWebApi();
InfoL << "已启动http api 接口";
installWebHook();
InfoL << "已启动http hook 接口";
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try {
// rtsp服务器端口默认554 [AUTO-TRANSLATED:07937d81]
// rtsp server, default port 554
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if (rtspPort) { rtspSrv->start<RtspSession>(rtspPort, listen_ip); }
// rtsps服务器端口默认322 [AUTO-TRANSLATED:e8a9fd71]
// rtsps server, default port 322
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if (rtspsPort) { rtspSSLSrv->start<RtspSessionWithSSL>(rtspsPort, listen_ip); }
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// rtmp服务器端口默认1935 [AUTO-TRANSLATED:58324c74]
// rtmp server, default port 1935
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if (rtmpPort) { rtmpSrv->start<RtmpSession>(rtmpPort, listen_ip); }
// rtmps服务器端口默认19350 [AUTO-TRANSLATED:c565ff4e]
// rtmps server, default port 19350
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if (rtmpsPort) { rtmpsSrv->start<RtmpSessionWithSSL>(rtmpsPort, listen_ip); }
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// http服务器端口默认80 [AUTO-TRANSLATED:8899e852]
// http server, default port 80
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if (httpPort) { httpSrv->start<HttpSession>(httpPort, listen_ip); }
// https服务器端口默认443 [AUTO-TRANSLATED:24999616]
// https server, default port 443
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if (httpsPort) { httpsSrv->start<HttpsSession>(httpsPort, listen_ip); }
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// telnet远程调试服务器 [AUTO-TRANSLATED:577cb7cf]
// telnet remote debug server
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if (shellPort) { shellSrv->start<ShellSession>(shellPort, listen_ip); }
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#if defined(ENABLE_RTPPROXY)
// 创建rtp服务器 [AUTO-TRANSLATED:873f7f52]
// create rtp server
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if (rtpPort) { rtpServer->start(rtpPort, listen_ip.c_str()); }
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#endif//defined(ENABLE_RTPPROXY)
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#if defined(ENABLE_WEBRTC)
// webrtc udp服务器 [AUTO-TRANSLATED:157a64e5]
// webrtc udp server
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if (rtcPort) { rtcSrv_udp->start<WebRtcSession>(rtcPort, listen_ip);}
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if (rtcTcpPort) { rtcSrv_tcp->start<WebRtcSession>(rtcTcpPort, listen_ip);}
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#endif//defined(ENABLE_WEBRTC)
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#if defined(ENABLE_SRT)
// srt udp服务器 [AUTO-TRANSLATED:06911727]
// srt udp server
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if (srtPort) { srtSrv->start<SRT::SrtSession>(srtPort, listen_ip); }
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#endif//defined(ENABLE_SRT)
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} catch (std::exception &ex) {
ErrorL << "Start server failed: " << ex.what();
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sleep(1);
#if !defined(_WIN32)
if (pid != getpid() && kill_parent_if_failed) {
// 杀掉守护进程 [AUTO-TRANSLATED:bee035e9]
// kill the daemon process
kill(pid, SIGINT);
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}
#endif
return -1;
}
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// 设置退出信号处理函数 [AUTO-TRANSLATED:4f047770]
// set exit signal handler
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static semaphore sem;
signal(SIGINT, [](int) {
InfoL << "SIGINT:exit";
signal(SIGINT, SIG_IGN); // 设置退出信号
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sem.post();
}); // 设置退出信号
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signal(SIGTERM,[](int) {
WarnL << "SIGTERM:exit";
signal(SIGTERM, SIG_IGN);
sem.post();
});
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#if !defined(_WIN32)
signal(SIGHUP, [](int) { mediakit::loadIniConfig(g_ini_file.data()); });
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#endif
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sem.wait();
}
unInstallWebApi();
unInstallWebHook();
onProcessExited();
// 休眠1秒再退出防止资源释放顺序错误 [AUTO-TRANSLATED:1b11a74f]
// sleep for 1 second before exiting, to prevent resource release order errors
InfoL << "程序退出中,请等待...";
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sleep(1);
InfoL << "程序退出完毕!";
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return 0;
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}
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#ifndef DISABLE_MAIN
int main(int argc,char *argv[]) {
return start_main(argc,argv);
}
#endif //DISABLE_MAIN