ZLMediaKit/server/WebApi.cpp
2022-09-16 23:31:37 +08:00

1791 lines
69 KiB
C++
Executable File
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/*
* 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 <sys/stat.h>
#include <math.h>
#include <signal.h>
#include <functional>
#include <unordered_map>
#include "Util/util.h"
#include "Util/logger.h"
#include "Util/onceToken.h"
#include "Util/NoticeCenter.h"
#ifdef ENABLE_MYSQL
#include "Util/SqlPool.h"
#endif //ENABLE_MYSQL
#include "Common/config.h"
#include "Common/MediaSource.h"
#include "Http/HttpRequester.h"
#include "Http/HttpSession.h"
#include "Network/TcpServer.h"
#include "Network/UdpServer.h"
#include "Player/PlayerProxy.h"
#include "Pusher/PusherProxy.h"
#include "Util/MD5.h"
#include "WebApi.h"
#include "WebHook.h"
#include "Thread/WorkThreadPool.h"
#include "Rtp/RtpSelector.h"
#include "FFmpegSource.h"
#if defined(ENABLE_RTPPROXY)
#include "Rtp/RtpServer.h"
#endif
#ifdef ENABLE_WEBRTC
#include "../webrtc/WebRtcPlayer.h"
#include "../webrtc/WebRtcPusher.h"
#include "../webrtc/WebRtcEchoTest.h"
#endif
#ifdef _WIN32
#include <io.h>
#include <iostream>
#include <tchar.h>
#endif // _WIN32
#if defined(ENABLE_VERSION)
#include "version.h"
#endif
using namespace std;
using namespace Json;
using namespace toolkit;
using namespace mediakit;
namespace API {
#define API_FIELD "api."
const string kApiDebug = API_FIELD"apiDebug";
const string kSecret = API_FIELD"secret";
const string kSnapRoot = API_FIELD"snapRoot";
const string kDefaultSnap = API_FIELD"defaultSnap";
static onceToken token([]() {
mINI::Instance()[kApiDebug] = "1";
mINI::Instance()[kSecret] = "035c73f7-bb6b-4889-a715-d9eb2d1925cc";
mINI::Instance()[kSnapRoot] = "./www/snap/";
mINI::Instance()[kDefaultSnap] = "./www/logo.png";
});
}//namespace API
using HttpApi = function<void(const Parser &parser, const HttpSession::HttpResponseInvoker &invoker, SockInfo &sender)>;
//http api列表
static map<string, HttpApi> s_map_api;
static void responseApi(const Json::Value &res, const HttpSession::HttpResponseInvoker &invoker){
GET_CONFIG(string, charSet, Http::kCharSet);
HttpSession::KeyValue headerOut;
headerOut["Content-Type"] = string("application/json; charset=") + charSet;
invoker(200, headerOut, res.toStyledString());
};
static void responseApi(int code, const string &msg, const HttpSession::HttpResponseInvoker &invoker){
Json::Value res;
res["code"] = code;
res["msg"] = msg;
responseApi(res, invoker);
}
static ApiArgsType getAllArgs(const Parser &parser);
static HttpApi toApi(const function<void(API_ARGS_MAP_ASYNC)> &cb) {
return [cb](const Parser &parser, const HttpSession::HttpResponseInvoker &invoker, SockInfo &sender) {
GET_CONFIG(string, charSet, Http::kCharSet);
HttpSession::KeyValue headerOut;
headerOut["Content-Type"] = string("application/json; charset=") + charSet;
Json::Value val;
val["code"] = API::Success;
//参数解析成map
auto args = getAllArgs(parser);
cb(sender, headerOut, HttpAllArgs<decltype(args)>(parser, args), val, invoker);
};
}
static HttpApi toApi(const function<void(API_ARGS_MAP)> &cb) {
return toApi([cb](API_ARGS_MAP_ASYNC) {
cb(API_ARGS_VALUE);
invoker(200, headerOut, val.toStyledString());
});
}
static HttpApi toApi(const function<void(API_ARGS_JSON_ASYNC)> &cb) {
return [cb](const Parser &parser, const HttpSession::HttpResponseInvoker &invoker, SockInfo &sender) {
GET_CONFIG(string, charSet, Http::kCharSet);
HttpSession::KeyValue headerOut;
headerOut["Content-Type"] = string("application/json; charset=") + charSet;
Json::Value val;
val["code"] = API::Success;
if (parser["Content-Type"].find("application/json") == string::npos) {
throw InvalidArgsException("该接口只支持json格式的请求");
}
//参数解析成json对象然后处理
Json::Value args;
Json::Reader reader;
reader.parse(parser.Content(), args);
cb(sender, headerOut, HttpAllArgs<decltype(args)>(parser, args), val, invoker);
};
}
static HttpApi toApi(const function<void(API_ARGS_JSON)> &cb) {
return toApi([cb](API_ARGS_JSON_ASYNC) {
cb(API_ARGS_VALUE);
invoker(200, headerOut, val.toStyledString());
});
}
static HttpApi toApi(const function<void(API_ARGS_STRING_ASYNC)> &cb) {
return [cb](const Parser &parser, const HttpSession::HttpResponseInvoker &invoker, SockInfo &sender) {
GET_CONFIG(string, charSet, Http::kCharSet);
HttpSession::KeyValue headerOut;
headerOut["Content-Type"] = string("application/json; charset=") + charSet;
Json::Value val;
val["code"] = API::Success;
cb(sender, headerOut, HttpAllArgs<string>(parser, (string &)parser.Content()), val, invoker);
};
}
static HttpApi toApi(const function<void(API_ARGS_STRING)> &cb) {
return toApi([cb](API_ARGS_STRING_ASYNC) {
cb(API_ARGS_VALUE);
invoker(200, headerOut, val.toStyledString());
});
}
void api_regist(const string &api_path, const function<void(API_ARGS_MAP)> &func) {
s_map_api.emplace(api_path, toApi(func));
}
void api_regist(const string &api_path, const function<void(API_ARGS_MAP_ASYNC)> &func) {
s_map_api.emplace(api_path, toApi(func));
}
void api_regist(const string &api_path, const function<void(API_ARGS_JSON)> &func) {
s_map_api.emplace(api_path, toApi(func));
}
void api_regist(const string &api_path, const function<void(API_ARGS_JSON_ASYNC)> &func) {
s_map_api.emplace(api_path, toApi(func));
}
void api_regist(const string &api_path, const function<void(API_ARGS_STRING)> &func){
s_map_api.emplace(api_path, toApi(func));
}
void api_regist(const string &api_path, const function<void(API_ARGS_STRING_ASYNC)> &func){
s_map_api.emplace(api_path, toApi(func));
}
//获取HTTP请求中url参数、content参数
static ApiArgsType getAllArgs(const Parser &parser) {
ApiArgsType allArgs;
if (parser["Content-Type"].find("application/x-www-form-urlencoded") == 0) {
auto contentArgs = parser.parseArgs(parser.Content());
for (auto &pr : contentArgs) {
allArgs[pr.first] = HttpSession::urlDecode(pr.second);
}
} else if (parser["Content-Type"].find("application/json") == 0) {
try {
stringstream ss(parser.Content());
Value jsonArgs;
ss >> jsonArgs;
auto keys = jsonArgs.getMemberNames();
for (auto key = keys.begin(); key != keys.end(); ++key) {
allArgs[*key] = jsonArgs[*key].asString();
}
} catch (std::exception &ex) {
WarnL << ex.what();
}
} else if (!parser["Content-Type"].empty()) {
WarnL << "invalid Content-Type:" << parser["Content-Type"];
}
for (auto &pr : parser.getUrlArgs()) {
allArgs[pr.first] = pr.second;
}
return allArgs;
}
extern uint64_t getTotalMemUsage();
extern uint64_t getTotalMemBlock();
extern uint64_t getThisThreadMemUsage();
extern uint64_t getThisThreadMemBlock();
extern std::vector<size_t> getBlockTypeSize();
extern uint64_t getTotalMemBlockByType(int type);
extern uint64_t getThisThreadMemBlockByType(int type) ;
static void *web_api_tag = nullptr;
static inline void addHttpListener(){
GET_CONFIG(bool, api_debug, API::kApiDebug);
//注册监听kBroadcastHttpRequest事件
NoticeCenter::Instance().addListener(&web_api_tag, Broadcast::kBroadcastHttpRequest, [](BroadcastHttpRequestArgs) {
auto it = s_map_api.find(parser.Url());
if (it == s_map_api.end()) {
return;
}
//该api已被消费
consumed = true;
if(api_debug){
auto newInvoker = [invoker, parser](int code, const HttpSession::KeyValue &headerOut, const HttpBody::Ptr &body) {
//body默认为空
ssize_t size = 0;
if (body && body->remainSize()) {
//有body获取body大小
size = body->remainSize();
}
LogContextCapture log(getLogger(), LDebug, __FILE__, "http api debug", __LINE__);
log << "\r\n# request:\r\n" << parser.Method() << " " << parser.FullUrl() << "\r\n";
log << "# header:\r\n";
for (auto &pr : parser.getHeader()) {
log << pr.first << " : " << pr.second << "\r\n";
}
auto &content = parser.Content();
log << "# content:\r\n" << (content.size() > 4 * 1024 ? content.substr(0, 4 * 1024) : content) << "\r\n";
if (size > 0 && size < 4 * 1024) {
auto response = body->readData(size);
log << "# response:\r\n" << response->data() << "\r\n";
invoker(code, headerOut, response);
} else {
log << "# response size:" << size << "\r\n";
invoker(code, headerOut, body);
}
};
((HttpSession::HttpResponseInvoker &) invoker) = newInvoker;
}
try {
it->second(parser, invoker, sender);
} catch (ApiRetException &ex) {
responseApi(ex.code(), ex.what(), invoker);
}
#ifdef ENABLE_MYSQL
catch(SqlException &ex){
responseApi(API::SqlFailed, StrPrinter << "操作数据库失败:" << ex.what() << ":" << ex.getSql(), invoker);
}
#endif// ENABLE_MYSQL
catch (std::exception &ex) {
responseApi(API::Exception, ex.what(), invoker);
}
});
}
//拉流代理器列表
static unordered_map<string, PlayerProxy::Ptr> s_proxyMap;
static recursive_mutex s_proxyMapMtx;
//推流代理器列表
static unordered_map<string, PusherProxy::Ptr> s_proxyPusherMap;
static recursive_mutex s_proxyPusherMapMtx;
//FFmpeg拉流代理器列表
static unordered_map<string, FFmpegSource::Ptr> s_ffmpegMap;
static recursive_mutex s_ffmpegMapMtx;
#if defined(ENABLE_RTPPROXY)
//rtp服务器列表
static unordered_map<string, RtpServer::Ptr> s_rtpServerMap;
static recursive_mutex s_rtpServerMapMtx;
#endif
static inline string getProxyKey(const string &vhost, const string &app, const string &stream) {
return vhost + "/" + app + "/" + stream;
}
static inline string getPusherKey(const string &schema, const string &vhost, const string &app, const string &stream,
const string &dst_url) {
return schema + "/" + vhost + "/" + app + "/" + stream + "/" + MD5(dst_url).hexdigest();
}
static void fillSockInfo(Value& val, SockInfo* info) {
val["peer_ip"] = info->get_peer_ip();
val["peer_port"] = info->get_peer_port();
val["local_port"] = info->get_local_port();
val["local_ip"] = info->get_local_ip();
val["identifier"] = info->getIdentifier();
}
Value makeMediaSourceJson(MediaSource &media){
Value item;
item["schema"] = media.getSchema();
item[VHOST_KEY] = media.getVhost();
item["app"] = media.getApp();
item["stream"] = media.getId();
item["createStamp"] = (Json::UInt64) media.getCreateStamp();
item["aliveSecond"] = (Json::UInt64) media.getAliveSecond();
item["bytesSpeed"] = media.getBytesSpeed();
item["readerCount"] = media.readerCount();
item["totalReaderCount"] = media.totalReaderCount();
item["originType"] = (int) media.getOriginType();
item["originTypeStr"] = getOriginTypeString(media.getOriginType());
item["originUrl"] = media.getOriginUrl();
item["isRecordingMP4"] = media.isRecording(Recorder::type_mp4);
item["isRecordingHLS"] = media.isRecording(Recorder::type_hls);
auto originSock = media.getOriginSock();
if (originSock) {
fillSockInfo(item["originSock"], originSock.get());
} else {
item["originSock"] = Json::nullValue;
}
//getLossRate有线程安全问题使用getMediaInfo接口才能获取丢包率getMediaList接口将忽略丢包率
auto current_thread = media.getOwnerPoller()->isCurrentThread();
float last_loss = -1;
for(auto &track : media.getTracks(false)){
Value obj;
auto codec_type = track->getTrackType();
obj["codec_id"] = track->getCodecId();
obj["codec_id_name"] = track->getCodecName();
obj["ready"] = track->ready();
obj["codec_type"] = codec_type;
if (current_thread) {
//rtp推流只有一个统计器但是可能有多个track如果短时间多次获取间隔丢包率第二次会获取为-1
auto loss = media.getLossRate(codec_type);
if (loss == -1) {
loss = last_loss;
} else {
last_loss = loss;
}
obj["loss"] = loss;
}
switch(codec_type){
case TrackAudio : {
auto audio_track = dynamic_pointer_cast<AudioTrack>(track);
obj["sample_rate"] = audio_track->getAudioSampleRate();
obj["channels"] = audio_track->getAudioChannel();
obj["sample_bit"] = audio_track->getAudioSampleBit();
break;
}
case TrackVideo : {
auto video_track = dynamic_pointer_cast<VideoTrack>(track);
obj["width"] = video_track->getVideoWidth();
obj["height"] = video_track->getVideoHeight();
obj["fps"] = round(video_track->getVideoFps());
break;
}
default:
break;
}
item["tracks"].append(obj);
}
return item;
}
#if defined(ENABLE_RTPPROXY)
uint16_t openRtpServer(uint16_t local_port, const string &stream_id, int tcp_mode, const string &local_ip, bool re_use_port, uint32_t ssrc) {
lock_guard<recursive_mutex> lck(s_rtpServerMapMtx);
if (s_rtpServerMap.find(stream_id) != s_rtpServerMap.end()) {
//为了防止RtpProcess所有权限混乱的问题不允许重复添加相同的stream_id
return 0;
}
RtpServer::Ptr server = std::make_shared<RtpServer>();
server->start(local_port, stream_id, (RtpServer::TcpMode)tcp_mode, local_ip.c_str(), re_use_port, ssrc);
server->setOnDetach([stream_id]() {
//设置rtp超时移除事件
lock_guard<recursive_mutex> lck(s_rtpServerMapMtx);
s_rtpServerMap.erase(stream_id);
});
//保存对象
s_rtpServerMap.emplace(stream_id, server);
//回复json
return server->getPort();
}
void connectRtpServer(const string &stream_id, const string &dst_url, uint16_t dst_port, const function<void(const SockException &ex)> &cb) {
lock_guard<recursive_mutex> lck(s_rtpServerMapMtx);
auto it = s_rtpServerMap.find(stream_id);
if (it == s_rtpServerMap.end()) {
cb(SockException(Err_other, "未找到rtp服务"));
return;
}
it->second->connectToServer(dst_url, dst_port, cb);
}
bool closeRtpServer(const string &stream_id) {
lock_guard<recursive_mutex> lck(s_rtpServerMapMtx);
auto it = s_rtpServerMap.find(stream_id);
if (it == s_rtpServerMap.end()) {
return false;
}
auto server = it->second;
s_rtpServerMap.erase(it);
return true;
}
#endif
void getStatisticJson(const function<void(Value &val)> &cb) {
auto obj = std::make_shared<Value>(objectValue);
auto &val = *obj;
val["MediaSource"] = (Json::UInt64)(ObjectStatistic<MediaSource>::count());
val["MultiMediaSourceMuxer"] = (Json::UInt64)(ObjectStatistic<MultiMediaSourceMuxer>::count());
val["TcpServer"] = (Json::UInt64)(ObjectStatistic<TcpServer>::count());
val["TcpSession"] = (Json::UInt64)(ObjectStatistic<TcpSession>::count());
val["UdpServer"] = (Json::UInt64)(ObjectStatistic<UdpServer>::count());
val["UdpSession"] = (Json::UInt64)(ObjectStatistic<UdpSession>::count());
val["TcpClient"] = (Json::UInt64)(ObjectStatistic<TcpClient>::count());
val["Socket"] = (Json::UInt64)(ObjectStatistic<Socket>::count());
val["FrameImp"] = (Json::UInt64)(ObjectStatistic<FrameImp>::count());
val["Frame"] = (Json::UInt64)(ObjectStatistic<Frame>::count());
val["Buffer"] = (Json::UInt64)(ObjectStatistic<Buffer>::count());
val["BufferRaw"] = (Json::UInt64)(ObjectStatistic<BufferRaw>::count());
val["BufferLikeString"] = (Json::UInt64)(ObjectStatistic<BufferLikeString>::count());
val["BufferList"] = (Json::UInt64)(ObjectStatistic<BufferList>::count());
val["RtpPacket"] = (Json::UInt64)(ObjectStatistic<RtpPacket>::count());
val["RtmpPacket"] = (Json::UInt64)(ObjectStatistic<RtmpPacket>::count());
#ifdef ENABLE_MEM_DEBUG
auto bytes = getTotalMemUsage();
val["totalMemUsage"] = (Json::UInt64) bytes;
val["totalMemUsageMB"] = (int) (bytes / 1024 / 1024);
val["totalMemBlock"] = (Json::UInt64) getTotalMemBlock();
static auto block_type_size = getBlockTypeSize();
{
int i = 0;
string str;
size_t last = 0;
for (auto sz : block_type_size) {
str.append(to_string(last) + "~" + to_string(sz) + ":" + to_string(getTotalMemBlockByType(i++)) + ";");
last = sz;
}
str.pop_back();
val["totalMemBlockTypeCount"] = str;
}
auto thread_size = EventPollerPool::Instance().getExecutorSize() + WorkThreadPool::Instance().getExecutorSize();
std::shared_ptr<vector<Value> > thread_mem_info = std::make_shared<vector<Value> >(thread_size);
shared_ptr<void> finished(nullptr, [thread_mem_info, cb, obj](void *) {
for (auto &val : *thread_mem_info) {
(*obj)["threadMem"].append(val);
}
//触发回调
cb(*obj);
});
auto pos = 0;
auto lam0 = [&](TaskExecutor &executor) {
auto &val = (*thread_mem_info)[pos++];
executor.async([finished, &val]() {
auto bytes = getThisThreadMemUsage();
val["threadName"] = getThreadName();
val["threadMemUsage"] = (Json::UInt64) bytes;
val["threadMemUsageMB"] = (Json::UInt64) (bytes / 1024 / 1024);
val["threadMemBlock"] = (Json::UInt64) getThisThreadMemBlock();
{
int i = 0;
string str;
size_t last = 0;
for (auto sz : block_type_size) {
str.append(to_string(last) + "~" + to_string(sz) + ":" + to_string(getThisThreadMemBlockByType(i++)) + ";");
last = sz;
}
str.pop_back();
val["threadMemBlockTypeCount"] = str;
}
});
};
auto lam1 = [lam0](const TaskExecutor::Ptr &executor) {
lam0(*executor);
};
EventPollerPool::Instance().for_each(lam1);
WorkThreadPool::Instance().for_each(lam1);
#else
cb(*obj);
#endif
}
void addStreamProxy(const string &vhost, const string &app, const string &stream, const string &url, int retry_count,
const ProtocolOption &option, int rtp_type, float timeout_sec,
const function<void(const SockException &ex, const string &key)> &cb) {
auto key = getProxyKey(vhost, app, stream);
lock_guard<recursive_mutex> lck(s_proxyMapMtx);
if (s_proxyMap.find(key) != s_proxyMap.end()) {
//已经在拉流了
cb(SockException(Err_success), key);
return;
}
//添加拉流代理
auto player = std::make_shared<PlayerProxy>(vhost, app, stream, option, retry_count ? retry_count : -1);
s_proxyMap[key] = player;
//指定RTP over TCP(播放rtsp时有效)
(*player)[Client::kRtpType] = rtp_type;
if (timeout_sec > 0.1) {
//播放握手超时时间
(*player)[Client::kTimeoutMS] = timeout_sec * 1000;
}
//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,默认一直重试
player->setPlayCallbackOnce([cb, key](const SockException &ex) {
if (ex) {
lock_guard<recursive_mutex> lck(s_proxyMapMtx);
s_proxyMap.erase(key);
}
cb(ex, key);
});
//被主动关闭拉流
player->setOnClose([key](const SockException &ex) {
lock_guard<recursive_mutex> lck(s_proxyMapMtx);
s_proxyMap.erase(key);
});
player->play(url);
};
template <typename Type>
static void getArgsValue(const HttpAllArgs<ApiArgsType> &allArgs, const string &key, Type &value) {
auto val = allArgs[key];
if (!val.empty()) {
value = (Type)val;
}
}
/**
* 安装api接口
* 所有api都支持GET和POST两种方式
* POST方式参数支持application/json和application/x-www-form-urlencoded方式
*/
void installWebApi() {
addHttpListener();
GET_CONFIG(string,api_secret,API::kSecret);
//获取线程负载
//测试url http://127.0.0.1/index/api/getThreadsLoad
api_regist("/index/api/getThreadsLoad",[](API_ARGS_MAP_ASYNC){
EventPollerPool::Instance().getExecutorDelay([invoker, headerOut](const vector<int> &vecDelay) {
Value val;
auto vec = EventPollerPool::Instance().getExecutorLoad();
int i = API::Success;
for (auto load : vec) {
Value obj(objectValue);
obj["load"] = load;
obj["delay"] = vecDelay[i++];
val["data"].append(obj);
}
val["code"] = API::Success;
invoker(200, headerOut, val.toStyledString());
});
});
//获取后台工作线程负载
//测试url http://127.0.0.1/index/api/getWorkThreadsLoad
api_regist("/index/api/getWorkThreadsLoad", [](API_ARGS_MAP_ASYNC){
WorkThreadPool::Instance().getExecutorDelay([invoker, headerOut](const vector<int> &vecDelay) {
Value val;
auto vec = WorkThreadPool::Instance().getExecutorLoad();
int i = 0;
for (auto load : vec) {
Value obj(objectValue);
obj["load"] = load;
obj["delay"] = vecDelay[i++];
val["data"].append(obj);
}
val["code"] = API::Success;
invoker(200, headerOut, val.toStyledString());
});
});
//获取服务器配置
//测试url http://127.0.0.1/index/api/getServerConfig
api_regist("/index/api/getServerConfig",[](API_ARGS_MAP){
CHECK_SECRET();
Value obj;
for (auto &pr : mINI::Instance()) {
obj[pr.first] = (string &) pr.second;
}
val["data"].append(obj);
});
//设置服务器配置
//测试url(比如关闭http api调试) http://127.0.0.1/index/api/setServerConfig?api.apiDebug=0
//你也可以通过http post方式传参可以通过application/x-www-form-urlencoded或application/json方式传参
api_regist("/index/api/setServerConfig",[](API_ARGS_MAP){
CHECK_SECRET();
auto &ini = mINI::Instance();
int changed = API::Success;
for (auto &pr : allArgs.getArgs()) {
if (ini.find(pr.first) == ini.end()) {
#if 1
//没有这个key
continue;
#else
// 新增配置选项,为了动态添加多个ffmpeg cmd 模板
ini[pr.first] = pr.second;
// 防止changed变化
continue;
#endif
}
if (ini[pr.first] == pr.second) {
continue;
}
ini[pr.first] = pr.second;
//替换成功
++changed;
}
if (changed > 0) {
NoticeCenter::Instance().emitEvent(Broadcast::kBroadcastReloadConfig);
ini.dumpFile(g_ini_file);
}
val["changed"] = changed;
});
static auto s_get_api_list = [](API_ARGS_MAP){
CHECK_SECRET();
for(auto &pr : s_map_api){
val["data"].append(pr.first);
}
};
//获取服务器api列表
//测试url http://127.0.0.1/index/api/getApiList
api_regist("/index/api/getApiList",[](API_ARGS_MAP){
s_get_api_list(API_ARGS_VALUE);
});
//获取服务器api列表
//测试url http://127.0.0.1/index/
api_regist("/index/",[](API_ARGS_MAP){
s_get_api_list(API_ARGS_VALUE);
});
#if !defined(_WIN32)
//重启服务器,只有Daemon方式才能重启否则是直接关闭
//测试url http://127.0.0.1/index/api/restartServer
api_regist("/index/api/restartServer",[](API_ARGS_MAP){
CHECK_SECRET();
EventPollerPool::Instance().getPoller()->doDelayTask(1000,[](){
//尝试正常退出
::kill(getpid(), SIGINT);
//3秒后强制退出
EventPollerPool::Instance().getPoller()->doDelayTask(3000,[](){
exit(0);
return 0;
});
return 0;
});
val["msg"] = "服务器将在一秒后自动重启";
});
#else
//增加Windows下的重启代码
api_regist("/index/api/restartServer", [](API_ARGS_MAP) {
CHECK_SECRET();
//创建重启批处理脚本文件
FILE *pf;
errno_t err = ::_wfopen_s(&pf, L"RestartServer.cmd", L"w"); //“w”如果该文件存在其内容将被覆盖
if (err == 0) {
char szExeName[1024];
char drive[_MAX_DRIVE] = { 0 };
char dir[_MAX_DIR] = { 0 };
char fname[_MAX_FNAME] = { 0 };
char ext[_MAX_EXT] = { 0 };
char exeName[_MAX_FNAME] = { 0 };
GetModuleFileNameA(NULL, szExeName, 1024); //获取进程的全路径
_splitpath(szExeName, drive, dir, fname, ext);
strcpy(exeName, fname);
strcat(exeName, ext);
fprintf(pf, "@echo off\ntaskkill /f /im %s\nstart \"\" \"%s\"\ndel %%0", exeName, szExeName);
fclose(pf);
// 1秒后执行创建的批处理脚本
EventPollerPool::Instance().getPoller()->doDelayTask(1000, []() {
STARTUPINFO si;
PROCESS_INFORMATION pi;
ZeroMemory(&si, sizeof si);
ZeroMemory(&pi, sizeof pi);
si.cb = sizeof si;
si.dwFlags = STARTF_USESHOWWINDOW;
si.wShowWindow = SW_HIDE;
TCHAR winSysDir[1024];
ZeroMemory(winSysDir, sizeof winSysDir);
GetSystemDirectory(winSysDir, 1024);
TCHAR appName[1024];
ZeroMemory(appName, sizeof appName);
_stprintf(appName, "%s\\cmd.exe", winSysDir);
BOOL bRet = CreateProcess(appName, " /c RestartServer.cmd", NULL, NULL, FALSE, 0, NULL, NULL, &si, &pi);
if (bRet == FALSE) {
int err = GetLastError();
cout << endl << "无法执行重启操作,错误代码:" << err << endl;
}
WaitForSingleObject(pi.hProcess, INFINITE);
CloseHandle(pi.hProcess);
CloseHandle(pi.hThread);
return 0;
});
val["msg"] = "服务器将在一秒后自动重启";
} else {
val["msg"] = "创建重启脚本文件失败";
val["code"] = API::OtherFailed;
}
});
#endif//#if !defined(_WIN32)
//获取流列表,可选筛选参数
//测试url0(获取所有流) http://127.0.0.1/index/api/getMediaList
//测试url1(获取虚拟主机为"__defaultVost__"的流) http://127.0.0.1/index/api/getMediaList?vhost=__defaultVost__
//测试url2(获取rtsp类型的流) http://127.0.0.1/index/api/getMediaList?schema=rtsp
api_regist("/index/api/getMediaList",[](API_ARGS_MAP){
CHECK_SECRET();
//获取所有MediaSource列表
MediaSource::for_each_media([&](const MediaSource::Ptr &media) {
val["data"].append(makeMediaSourceJson(*media));
}, allArgs["schema"], allArgs["vhost"], allArgs["app"], allArgs["stream"]);
});
//测试url http://127.0.0.1/index/api/isMediaOnline?schema=rtsp&vhost=__defaultVhost__&app=live&stream=obs
api_regist("/index/api/isMediaOnline",[](API_ARGS_MAP){
CHECK_SECRET();
CHECK_ARGS("schema","vhost","app","stream");
val["online"] = (bool) (MediaSource::find(allArgs["schema"],allArgs["vhost"],allArgs["app"],allArgs["stream"]));
});
//获取媒体流播放器列表
//测试url http://127.0.0.1/index/api/getMediaPlayerList?schema=rtsp&vhost=__defaultVhost__&app=live&stream=obs
api_regist("/index/api/getMediaPlayerList",[](API_ARGS_MAP_ASYNC){
CHECK_SECRET();
CHECK_ARGS("schema", "vhost", "app", "stream");
auto src = MediaSource::find(allArgs["schema"], allArgs["vhost"], allArgs["app"], allArgs["stream"]);
if (!src) {
throw ApiRetException("can not find the stream", API::NotFound);
}
src->getPlayerList(
[=](const std::list<std::shared_ptr<void>> &info_list) mutable {
val["code"] = API::Success;
auto &data = val["data"];
data = Value(arrayValue);
for (auto &info : info_list) {
auto obj = static_pointer_cast<Value>(info);
data.append(std::move(*obj));
}
invoker(200, headerOut, val.toStyledString());
},
[](std::shared_ptr<void> &&info) -> std::shared_ptr<void> {
auto obj = std::make_shared<Value>();
auto session = static_pointer_cast<Session>(info);
fillSockInfo(*obj, session.get());
(*obj)["typeid"] = toolkit::demangle(typeid(*session).name());
return obj;
});
});
//测试url http://127.0.0.1/index/api/getMediaInfo?schema=rtsp&vhost=__defaultVhost__&app=live&stream=obs
api_regist("/index/api/getMediaInfo",[](API_ARGS_MAP_ASYNC){
CHECK_SECRET();
CHECK_ARGS("schema","vhost","app","stream");
auto src = MediaSource::find(allArgs["schema"],allArgs["vhost"],allArgs["app"],allArgs["stream"]);
if(!src){
throw ApiRetException("can not find the stream", API::NotFound);
}
src->getOwnerPoller()->async([=]() mutable {
auto val = makeMediaSourceJson(*src);
val["code"] = API::Success;
invoker(200, headerOut, val.toStyledString());
});
});
//主动关断流,包括关断拉流、推流
//测试url http://127.0.0.1/index/api/close_stream?schema=rtsp&vhost=__defaultVhost__&app=live&stream=obs&force=1
api_regist("/index/api/close_stream",[](API_ARGS_MAP_ASYNC){
CHECK_SECRET();
CHECK_ARGS("schema","vhost","app","stream");
//踢掉推流器
auto src = MediaSource::find(allArgs["schema"],
allArgs["vhost"],
allArgs["app"],
allArgs["stream"]);
if (!src) {
throw ApiRetException("can not find the stream", API::NotFound);
}
bool force = allArgs["force"].as<bool>();
src->getOwnerPoller()->async([=]() mutable {
bool flag = src->close(force);
val["result"] = flag ? 0 : -1;
val["msg"] = flag ? "success" : "close failed";
val["code"] = flag ? API::Success : API::OtherFailed;
invoker(200, headerOut, val.toStyledString());
});
});
//批量主动关断流,包括关断拉流、推流
//测试url http://127.0.0.1/index/api/close_streams?schema=rtsp&vhost=__defaultVhost__&app=live&stream=obs&force=1
api_regist("/index/api/close_streams",[](API_ARGS_MAP){
CHECK_SECRET();
//筛选命中个数
int count_hit = 0;
int count_closed = 0;
list<MediaSource::Ptr> media_list;
MediaSource::for_each_media([&](const MediaSource::Ptr &media) {
++count_hit;
media_list.emplace_back(media);
}, allArgs["schema"], allArgs["vhost"], allArgs["app"], allArgs["stream"]);
bool force = allArgs["force"].as<bool>();
for (auto &media : media_list) {
if (media->close(force)) {
++count_closed;
}
}
val["count_hit"] = count_hit;
val["count_closed"] = count_closed;
});
//获取所有TcpSession列表信息
//可以根据本地端口和远端ip来筛选
//测试url(筛选某端口下的tcp会话) http://127.0.0.1/index/api/getAllSession?local_port=1935
api_regist("/index/api/getAllSession",[](API_ARGS_MAP){
CHECK_SECRET();
Value jsession;
uint16_t local_port = allArgs["local_port"].as<uint16_t>();
string peer_ip = allArgs["peer_ip"];
SessionMap::Instance().for_each_session([&](const string &id,const Session::Ptr &session){
if(local_port != 0 && local_port != session->get_local_port()){
return;
}
if(!peer_ip.empty() && peer_ip != session->get_peer_ip()){
return;
}
fillSockInfo(jsession, session.get());
jsession["id"] = id;
jsession["typeid"] = toolkit::demangle(typeid(*session).name());
val["data"].append(jsession);
});
});
//断开tcp连接比如说可以断开rtsp、rtmp播放器等
//测试url http://127.0.0.1/index/api/kick_session?id=123456
api_regist("/index/api/kick_session",[](API_ARGS_MAP){
CHECK_SECRET();
CHECK_ARGS("id");
//踢掉tcp会话
auto session = SessionMap::Instance().get(allArgs["id"]);
if(!session){
throw ApiRetException("can not find the target",API::OtherFailed);
}
session->safeShutdown();
});
//批量断开tcp连接比如说可以断开rtsp、rtmp播放器等
//测试url http://127.0.0.1/index/api/kick_sessions?local_port=1935
api_regist("/index/api/kick_sessions",[](API_ARGS_MAP){
CHECK_SECRET();
uint16_t local_port = allArgs["local_port"].as<uint16_t>();
string peer_ip = allArgs["peer_ip"];
size_t count_hit = 0;
list<Session::Ptr> session_list;
SessionMap::Instance().for_each_session([&](const string &id,const Session::Ptr &session){
if(local_port != 0 && local_port != session->get_local_port()){
return;
}
if(!peer_ip.empty() && peer_ip != session->get_peer_ip()){
return;
}
session_list.emplace_back(session);
++count_hit;
});
for(auto &session : session_list){
session->safeShutdown();
}
val["count_hit"] = (Json::UInt64)count_hit;
});
static auto addStreamPusherProxy = [](const string &schema,
const string &vhost,
const string &app,
const string &stream,
const string &url,
int retry_count,
int rtp_type,
float timeout_sec,
const function<void(const SockException &ex, const string &key)> &cb) {
auto key = getPusherKey(schema, vhost, app, stream, url);
auto src = MediaSource::find(schema, vhost, app, stream);
if (!src) {
cb(SockException(Err_other, "can not find the source stream"), key);
return;
}
lock_guard<recursive_mutex> lck(s_proxyPusherMapMtx);
if (s_proxyPusherMap.find(key) != s_proxyPusherMap.end()) {
//已经在推流了
cb(SockException(Err_success), key);
return;
}
//添加推流代理
PusherProxy::Ptr pusher(new PusherProxy(src, retry_count ? retry_count : -1));
s_proxyPusherMap[key] = pusher;
//指定RTP over TCP(播放rtsp时有效)
(*pusher)[Client::kRtpType] = rtp_type;
if (timeout_sec > 0.1) {
//推流握手超时时间
(*pusher)[Client::kTimeoutMS] = timeout_sec * 1000;
}
//开始推流,如果推流失败或者推流中止,将会自动重试若干次,默认一直重试
pusher->setPushCallbackOnce([cb, key, url](const SockException &ex) {
if (ex) {
WarnL << "Push " << url << " failed, key: " << key << ", err: " << ex.what();
lock_guard<recursive_mutex> lck(s_proxyPusherMapMtx);
s_proxyPusherMap.erase(key);
}
cb(ex, key);
});
//被主动关闭推流
pusher->setOnClose([key, url](const SockException &ex) {
WarnL << "Push " << url << " failed, key: " << key << ", err: " << ex.what();
lock_guard<recursive_mutex> lck(s_proxyPusherMapMtx);
s_proxyPusherMap.erase(key);
});
pusher->publish(url);
};
//动态添加rtsp/rtmp推流代理
//测试url http://127.0.0.1/index/api/addStreamPusherProxy?schema=rtmp&vhost=__defaultVhost__&app=proxy&stream=0&dst_url=rtmp://127.0.0.1/live/obs
api_regist("/index/api/addStreamPusherProxy", [](API_ARGS_MAP_ASYNC) {
CHECK_SECRET();
CHECK_ARGS("schema", "vhost", "app", "stream", "dst_url");
auto dst_url = allArgs["dst_url"];
addStreamPusherProxy(allArgs["schema"],
allArgs["vhost"],
allArgs["app"],
allArgs["stream"],
allArgs["dst_url"],
allArgs["retry_count"],
allArgs["rtp_type"],
allArgs["timeout_sec"],
[invoker, val, headerOut, dst_url](const SockException &ex, const string &key) mutable {
if (ex) {
val["code"] = API::OtherFailed;
val["msg"] = ex.what();
} else {
val["data"]["key"] = key;
InfoL << "Publish success, please play with player:" << dst_url;
}
invoker(200, headerOut, val.toStyledString());
});
});
//关闭推流代理
//测试url http://127.0.0.1/index/api/delStreamPusherProxy?key=__defaultVhost__/proxy/0
api_regist("/index/api/delStreamPusherProxy", [](API_ARGS_MAP) {
CHECK_SECRET();
CHECK_ARGS("key");
lock_guard<recursive_mutex> lck(s_proxyPusherMapMtx);
val["data"]["flag"] = s_proxyPusherMap.erase(allArgs["key"]) == 1;
});
//动态添加rtsp/rtmp拉流代理
//测试url http://127.0.0.1/index/api/addStreamProxy?vhost=__defaultVhost__&app=proxy&enable_rtsp=1&enable_rtmp=1&stream=0&url=rtmp://127.0.0.1/live/obs
api_regist("/index/api/addStreamProxy",[](API_ARGS_MAP_ASYNC){
CHECK_SECRET();
CHECK_ARGS("vhost","app","stream","url");
ProtocolOption option(allArgs);
addStreamProxy(allArgs["vhost"],
allArgs["app"],
allArgs["stream"],
allArgs["url"],
allArgs["retry_count"],
option,
allArgs["rtp_type"],
allArgs["timeout_sec"],
[invoker,val,headerOut](const SockException &ex,const string &key) mutable{
if (ex) {
val["code"] = API::OtherFailed;
val["msg"] = ex.what();
} else {
val["data"]["key"] = key;
}
invoker(200, headerOut, val.toStyledString());
});
});
//关闭拉流代理
//测试url http://127.0.0.1/index/api/delStreamProxy?key=__defaultVhost__/proxy/0
api_regist("/index/api/delStreamProxy",[](API_ARGS_MAP){
CHECK_SECRET();
CHECK_ARGS("key");
lock_guard<recursive_mutex> lck(s_proxyMapMtx);
val["data"]["flag"] = s_proxyMap.erase(allArgs["key"]) == 1;
});
static auto addFFmpegSource = [](const string &ffmpeg_cmd_key,
const string &src_url,
const string &dst_url,
int timeout_ms,
bool enable_hls,
bool enable_mp4,
const function<void(const SockException &ex, const string &key)> &cb) {
auto key = MD5(dst_url).hexdigest();
lock_guard<decltype(s_ffmpegMapMtx)> lck(s_ffmpegMapMtx);
if (s_ffmpegMap.find(key) != s_ffmpegMap.end()) {
//已经在拉流了
cb(SockException(Err_success), key);
return;
}
FFmpegSource::Ptr ffmpeg = std::make_shared<FFmpegSource>();
s_ffmpegMap[key] = ffmpeg;
ffmpeg->setOnClose([key]() {
lock_guard<decltype(s_ffmpegMapMtx)> lck(s_ffmpegMapMtx);
s_ffmpegMap.erase(key);
});
ffmpeg->setupRecordFlag(enable_hls, enable_mp4);
ffmpeg->play(ffmpeg_cmd_key, src_url, dst_url, timeout_ms, [cb, key](const SockException &ex) {
if (ex) {
lock_guard<decltype(s_ffmpegMapMtx)> lck(s_ffmpegMapMtx);
s_ffmpegMap.erase(key);
}
cb(ex, key);
});
};
//动态添加rtsp/rtmp拉流代理
//测试url http://127.0.0.1/index/api/addFFmpegSource?src_url=http://live.hkstv.hk.lxdns.com/live/hks2/playlist.m3u8&dst_url=rtmp://127.0.0.1/live/hks2&timeout_ms=10000
api_regist("/index/api/addFFmpegSource",[](API_ARGS_MAP_ASYNC){
CHECK_SECRET();
CHECK_ARGS("src_url","dst_url","timeout_ms");
auto src_url = allArgs["src_url"];
auto dst_url = allArgs["dst_url"];
int timeout_ms = allArgs["timeout_ms"];
auto enable_hls = allArgs["enable_hls"].as<int>();
auto enable_mp4 = allArgs["enable_mp4"].as<int>();
addFFmpegSource(allArgs["ffmpeg_cmd_key"], src_url, dst_url, timeout_ms, enable_hls, enable_mp4,
[invoker, val, headerOut](const SockException &ex, const string &key) mutable{
if (ex) {
val["code"] = API::OtherFailed;
val["msg"] = ex.what();
} else {
val["data"]["key"] = key;
}
invoker(200, headerOut, val.toStyledString());
});
});
//关闭拉流代理
//测试url http://127.0.0.1/index/api/delFFmepgSource?key=key
api_regist("/index/api/delFFmpegSource",[](API_ARGS_MAP){
CHECK_SECRET();
CHECK_ARGS("key");
lock_guard<decltype(s_ffmpegMapMtx)> lck(s_ffmpegMapMtx);
val["data"]["flag"] = s_ffmpegMap.erase(allArgs["key"]) == 1;
});
//新增http api下载可执行程序文件接口
//测试url http://127.0.0.1/index/api/downloadBin
api_regist("/index/api/downloadBin",[](API_ARGS_MAP_ASYNC){
CHECK_SECRET();
invoker.responseFile(allArgs.getParser().getHeader(),StrCaseMap(),exePath());
});
#if defined(ENABLE_RTPPROXY)
api_regist("/index/api/getRtpInfo",[](API_ARGS_MAP){
CHECK_SECRET();
CHECK_ARGS("stream_id");
auto process = RtpSelector::Instance().getProcess(allArgs["stream_id"], false);
if (!process) {
val["exist"] = false;
return;
}
val["exist"] = true;
fillSockInfo(val, process.get());
});
api_regist("/index/api/openRtpServer",[](API_ARGS_MAP){
CHECK_SECRET();
CHECK_ARGS("port", "stream_id");
auto stream_id = allArgs["stream_id"];
auto tcp_mode = allArgs["tcp_mode"].as<int>();
if (allArgs["enable_tcp"].as<int>() && !tcp_mode) {
//兼容老版本请求新版本去除enable_tcp参数并新增tcp_mode参数
tcp_mode = 1;
}
auto port = openRtpServer(allArgs["port"], stream_id, tcp_mode, "::", allArgs["re_use_port"].as<bool>(),
allArgs["ssrc"].as<uint32_t>());
if (port == 0) {
throw InvalidArgsException("该stream_id已存在");
}
//回复json
val["port"] = port;
});
api_regist("/index/api/connectRtpServer", [](API_ARGS_MAP_ASYNC) {
CHECK_SECRET();
CHECK_ARGS("stream_id", "dst_url", "dst_port");
connectRtpServer(
allArgs["stream_id"], allArgs["dst_url"], allArgs["dst_port"],
[val, headerOut, invoker](const SockException &ex) mutable {
if (ex) {
val["code"] = API::OtherFailed;
val["msg"] = ex.what();
}
invoker(200, headerOut, val.toStyledString());
});
});
api_regist("/index/api/closeRtpServer",[](API_ARGS_MAP){
CHECK_SECRET();
CHECK_ARGS("stream_id");
if(!closeRtpServer(allArgs["stream_id"])){
val["hit"] = 0;
return;
}
val["hit"] = 1;
});
api_regist("/index/api/listRtpServer",[](API_ARGS_MAP){
CHECK_SECRET();
lock_guard<recursive_mutex> lck(s_rtpServerMapMtx);
for (auto &pr : s_rtpServerMap) {
Value obj;
obj["stream_id"] = pr.first;
obj["port"] = pr.second->getPort();
val["data"].append(obj);
}
});
api_regist("/index/api/startSendRtp",[](API_ARGS_MAP_ASYNC){
CHECK_SECRET();
CHECK_ARGS("vhost", "app", "stream", "ssrc", "dst_url", "dst_port", "is_udp");
auto src = MediaSource::find(allArgs["vhost"], allArgs["app"], allArgs["stream"], allArgs["from_mp4"].as<int>());
if (!src) {
throw ApiRetException("can not find the source stream", API::NotFound);
}
MediaSourceEvent::SendRtpArgs args;
args.passive = false;
args.dst_url = allArgs["dst_url"];
args.dst_port = allArgs["dst_port"];
args.ssrc = allArgs["ssrc"];
args.is_udp = allArgs["is_udp"];
args.src_port = allArgs["src_port"];
args.pt = allArgs["pt"].empty() ? 96 : allArgs["pt"].as<int>();
args.use_ps = allArgs["use_ps"].empty() ? true : allArgs["use_ps"].as<bool>();
args.only_audio = allArgs["only_audio"].as<bool>();
args.udp_rtcp_timeout = allArgs["udp_rtcp_timeout"];
TraceL << "startSendRtp, pt " << int(args.pt) << " ps " << args.use_ps << " audio " << args.only_audio;
src->getOwnerPoller()->async([=]() mutable {
src->startSendRtp(args, [val, headerOut, invoker](uint16_t local_port, const SockException &ex) mutable {
if (ex) {
val["code"] = API::OtherFailed;
val["msg"] = ex.what();
}
val["local_port"] = local_port;
invoker(200, headerOut, val.toStyledString());
});
});
});
api_regist("/index/api/startSendRtpPassive",[](API_ARGS_MAP_ASYNC){
CHECK_SECRET();
CHECK_ARGS("vhost", "app", "stream", "ssrc");
auto src = MediaSource::find(allArgs["vhost"], allArgs["app"], allArgs["stream"], allArgs["from_mp4"].as<int>());
if (!src) {
throw ApiRetException("can not find the source stream", API::NotFound);
}
MediaSourceEvent::SendRtpArgs args;
args.passive = true;
args.ssrc = allArgs["ssrc"];
args.is_udp = false;
args.src_port = allArgs["src_port"];
args.pt = allArgs["pt"].empty() ? 96 : allArgs["pt"].as<int>();
args.use_ps = allArgs["use_ps"].empty() ? true : allArgs["use_ps"].as<bool>();
args.only_audio = allArgs["only_audio"].as<bool>();
TraceL << "startSendRtpPassive, pt " << int(args.pt) << " ps " << args.use_ps << " audio " << args.only_audio;
src->getOwnerPoller()->async([=]() mutable {
src->startSendRtp(args, [val, headerOut, invoker](uint16_t local_port, const SockException &ex) mutable {
if (ex) {
val["code"] = API::OtherFailed;
val["msg"] = ex.what();
}
val["local_port"] = local_port;
invoker(200, headerOut, val.toStyledString());
});
});
});
api_regist("/index/api/stopSendRtp",[](API_ARGS_MAP_ASYNC){
CHECK_SECRET();
CHECK_ARGS("vhost", "app", "stream");
auto src = MediaSource::find(allArgs["vhost"], allArgs["app"], allArgs["stream"]);
if (!src) {
throw ApiRetException("can not find the stream", API::NotFound);
}
src->getOwnerPoller()->async([=]() mutable {
// ssrc如果为空关闭全部
if (!src->stopSendRtp(allArgs["ssrc"])) {
val["code"] = API::OtherFailed;
val["msg"] = "stopSendRtp failed";
invoker(200, headerOut, val.toStyledString());
return;
}
invoker(200, headerOut, val.toStyledString());
});
});
api_regist("/index/api/pauseRtpCheck", [](API_ARGS_MAP) {
CHECK_SECRET();
CHECK_ARGS("stream_id");
//只是暂停流的检查流媒体服务器做为流负载服务收流就转发RTSP/RTMP有自己暂停协议
auto rtp_process = RtpSelector::Instance().getProcess(allArgs["stream_id"], false);
if (rtp_process) {
rtp_process->setStopCheckRtp(true);
} else {
val["code"] = API::NotFound;
}
});
api_regist("/index/api/resumeRtpCheck", [](API_ARGS_MAP) {
CHECK_SECRET();
CHECK_ARGS("stream_id");
auto rtp_process = RtpSelector::Instance().getProcess(allArgs["stream_id"], false);
if (rtp_process) {
rtp_process->setStopCheckRtp(false);
} else {
val["code"] = API::NotFound;
}
});
#endif//ENABLE_RTPPROXY
// 开始录制hls或MP4
api_regist("/index/api/startRecord",[](API_ARGS_MAP_ASYNC){
CHECK_SECRET();
CHECK_ARGS("type","vhost","app","stream");
auto src = MediaSource::find(allArgs["vhost"], allArgs["app"], allArgs["stream"] );
if (!src) {
throw ApiRetException("can not find the stream", API::NotFound);
}
src->getOwnerPoller()->async([=]() mutable {
auto result = src->setupRecord((Recorder::type)allArgs["type"].as<int>(), true, allArgs["customized_path"], allArgs["max_second"].as<size_t>());
val["result"] = result;
val["code"] = result ? API::Success : API::OtherFailed;
val["msg"] = result ? "success" : "start record failed";
invoker(200, headerOut, val.toStyledString());
});
});
//设置录像流播放速度
api_regist("/index/api/setRecordSpeed", [](API_ARGS_MAP_ASYNC) {
CHECK_SECRET();
CHECK_ARGS("schema", "vhost", "app", "stream", "speed");
auto src = MediaSource::find(allArgs["schema"],
allArgs["vhost"],
allArgs["app"],
allArgs["stream"]);
if (!src) {
throw ApiRetException("can not find the stream", API::NotFound);
}
auto speed = allArgs["speed"].as<float>();
src->getOwnerPoller()->async([=]() mutable {
bool flag = src->speed(speed);
val["result"] = flag ? 0 : -1;
val["msg"] = flag ? "success" : "set failed";
val["code"] = flag ? API::Success : API::OtherFailed;
invoker(200, headerOut, val.toStyledString());
});
});
api_regist("/index/api/seekRecordStamp", [](API_ARGS_MAP_ASYNC) {
CHECK_SECRET();
CHECK_ARGS("schema", "vhost", "app", "stream", "stamp");
auto src = MediaSource::find(allArgs["schema"],
allArgs["vhost"],
allArgs["app"],
allArgs["stream"]);
if (!src) {
throw ApiRetException("can not find the stream", API::NotFound);
}
auto stamp = allArgs["stamp"].as<size_t>();
src->getOwnerPoller()->async([=]() mutable {
bool flag = src->seekTo(stamp);
val["result"] = flag ? 0 : -1;
val["msg"] = flag ? "success" : "seek failed";
val["code"] = flag ? API::Success : API::OtherFailed;
invoker(200, headerOut, val.toStyledString());
});
});
// 停止录制hls或MP4
api_regist("/index/api/stopRecord",[](API_ARGS_MAP_ASYNC){
CHECK_SECRET();
CHECK_ARGS("type","vhost","app","stream");
auto src = MediaSource::find(allArgs["vhost"], allArgs["app"], allArgs["stream"] );
if (!src) {
throw ApiRetException("can not find the stream", API::NotFound);
}
auto type = (Recorder::type)allArgs["type"].as<int>();
src->getOwnerPoller()->async([=]() mutable {
auto result = src->setupRecord(type, false, "", 0);
val["result"] = result;
val["code"] = result ? API::Success : API::OtherFailed;
val["msg"] = result ? "success" : "stop record failed";
invoker(200, headerOut, val.toStyledString());
});
});
// 获取hls或MP4录制状态
api_regist("/index/api/isRecording",[](API_ARGS_MAP_ASYNC){
CHECK_SECRET();
CHECK_ARGS("type","vhost","app","stream");
auto src = MediaSource::find(allArgs["vhost"], allArgs["app"], allArgs["stream"]);
if (!src) {
throw ApiRetException("can not find the stream", API::NotFound);
}
auto type = (Recorder::type)allArgs["type"].as<int>();
src->getOwnerPoller()->async([=]() mutable {
val["status"] = src->isRecording(type);
invoker(200, headerOut, val.toStyledString());
});
});
// 删除录像文件夹
// http://127.0.0.1/index/api/deleteRecordDirectroy?vhost=__defaultVhost__&app=live&stream=ss&period=2020-01-01
api_regist("/index/api/deleteRecordDirectory", [](API_ARGS_MAP) {
CHECK_SECRET();
CHECK_ARGS("vhost", "app", "stream");
auto record_path = Recorder::getRecordPath(Recorder::type_mp4, allArgs["vhost"], allArgs["app"], allArgs["stream"], allArgs["customized_path"]);
auto period = allArgs["period"];
record_path = record_path + period + "/";
int result = File::delete_file(record_path.data());
if (result) {
// 不等于0时代表失败
record_path = "delete error";
}
val["path"] = record_path;
val["code"] = result;
});
//获取录像文件夹列表或mp4文件列表
//http://127.0.0.1/index/api/getMp4RecordFile?vhost=__defaultVhost__&app=live&stream=ss&period=2020-01
api_regist("/index/api/getMp4RecordFile", [](API_ARGS_MAP){
CHECK_SECRET();
CHECK_ARGS("vhost", "app", "stream");
auto record_path = Recorder::getRecordPath(Recorder::type_mp4, allArgs["vhost"], allArgs["app"], allArgs["stream"], allArgs["customized_path"]);
auto period = allArgs["period"];
//判断是获取mp4文件列表还是获取文件夹列表
bool search_mp4 = period.size() == sizeof("2020-02-01") - 1;
if (search_mp4) {
record_path = record_path + period + "/";
}
Json::Value paths(arrayValue);
//这是筛选日期,获取文件夹列表
File::scanDir(record_path, [&](const string &path, bool isDir) {
auto pos = path.rfind('/');
if (pos != string::npos) {
string relative_path = path.substr(pos + 1);
if (search_mp4) {
if (!isDir) {
//我们只收集mp4文件对文件夹不感兴趣
paths.append(relative_path);
}
} else if (isDir && relative_path.find(period) == 0) {
//匹配到对应日期的文件夹
paths.append(relative_path);
}
}
return true;
}, false);
val["data"]["rootPath"] = record_path;
val["data"]["paths"] = paths;
});
static auto responseSnap = [](const string &snap_path,
const HttpSession::KeyValue &headerIn,
const HttpSession::HttpResponseInvoker &invoker,
const string &err_msg = "") {
static bool s_snap_success_once = false;
StrCaseMap headerOut;
GET_CONFIG(string, defaultSnap, API::kDefaultSnap);
if (!File::fileSize(snap_path.data())) {
if (!err_msg.empty() && (!s_snap_success_once || defaultSnap.empty())) {
//重来没截图成功过或者默认截图图片为空那么直接返回FFmpeg错误日志
headerOut["Content-Type"] = HttpFileManager::getContentType(".txt");
invoker.responseFile(headerIn, headerOut, err_msg, false, false);
return;
}
//截图成功过一次,那么认为配置无错误,截图失败时,返回预设默认图片
const_cast<string &>(snap_path) = File::absolutePath("", defaultSnap);
headerOut["Content-Type"] = HttpFileManager::getContentType(snap_path.data());
} else {
s_snap_success_once = true;
//之前生成的截图文件我们默认为jpeg格式
headerOut["Content-Type"] = HttpFileManager::getContentType(".jpeg");
}
//返回图片给http客户端
invoker.responseFile(headerIn, headerOut, snap_path);
};
//获取截图缓存或者实时截图
//http://127.0.0.1/index/api/getSnap?url=rtmp://127.0.0.1/record/robot.mp4&timeout_sec=10&expire_sec=3
api_regist("/index/api/getSnap", [](API_ARGS_MAP_ASYNC){
CHECK_SECRET();
CHECK_ARGS("url", "timeout_sec", "expire_sec");
GET_CONFIG(string, snap_root, API::kSnapRoot);
bool have_old_snap = false, res_old_snap = false;
int expire_sec = allArgs["expire_sec"];
auto scan_path = File::absolutePath(MD5(allArgs["url"]).hexdigest(), snap_root) + "/";
string new_snap = StrPrinter << scan_path << time(NULL) << ".jpeg";
File::scanDir(scan_path, [&](const string &path, bool isDir) {
if (isDir || !end_with(path, ".jpeg")) {
//忽略文件夹或其他类型的文件
return true;
}
//找到截图
auto tm = FindField(path.data() + scan_path.size(), nullptr, ".jpeg");
if (atoll(tm.data()) + expire_sec < time(NULL)) {
//截图已经过期,改名,以便再次请求时,可以返回老截图
rename(path.data(), new_snap.data());
have_old_snap = true;
return true;
}
//截图存在,且未过期,那么返回之
res_old_snap = true;
responseSnap(path, allArgs.getParser().getHeader(), invoker);
//中断遍历
return false;
});
if (res_old_snap) {
//已经回复了旧的截图
return;
}
//无截图或者截图已经过期
if (!have_old_snap) {
//无过期截图,生成一个空文件,目的是顺便创建文件夹路径
//同时防止在FFmpeg生成截图途中不停的尝试调用该api多次启动FFmpeg进程
auto file = File::create_file(new_snap.data(), "wb");
if (file) {
fclose(file);
}
}
//启动FFmpeg进程开始截图生成临时文件截图成功后替换为正式文件
auto new_snap_tmp = new_snap + ".tmp";
FFmpegSnap::makeSnap(allArgs["url"], new_snap_tmp, allArgs["timeout_sec"], [invoker, allArgs, new_snap, new_snap_tmp](bool success, const string &err_msg) {
if (!success) {
//生成截图失败,可能残留空文件
File::delete_file(new_snap_tmp.data());
} else {
//临时文件改成正式文件
File::delete_file(new_snap.data());
rename(new_snap_tmp.data(), new_snap.data());
}
responseSnap(new_snap, allArgs.getParser().getHeader(), invoker, err_msg);
});
});
api_regist("/index/api/getStatistic",[](API_ARGS_MAP_ASYNC){
CHECK_SECRET();
getStatisticJson([headerOut, val, invoker](const Value &data) mutable{
val["data"] = data;
invoker(200, headerOut, val.toStyledString());
});
});
#ifdef ENABLE_WEBRTC
class WebRtcArgsImp : public WebRtcArgs {
public:
WebRtcArgsImp(const HttpAllArgs<string> &args, std::string session_id)
: _args(args)
, _session_id(std::move(session_id)) {}
~WebRtcArgsImp() override = default;
variant operator[](const string &key) const override {
if (key == "url") {
return getUrl();
}
return _args[key];
}
private:
string getUrl() const{
auto &allArgs = _args;
CHECK_ARGS("app", "stream");
return StrPrinter << RTC_SCHEMA << "://" << _args["Host"] << "/" << _args["app"] << "/"
<< _args["stream"] << "?" << _args.getParser().Params() + "&session=" + _session_id;
}
private:
HttpAllArgs<string> _args;
std::string _session_id;
};
api_regist("/index/api/webrtc",[](API_ARGS_STRING_ASYNC){
CHECK_ARGS("type");
auto type = allArgs["type"];
auto offer = allArgs.getArgs();
CHECK(!offer.empty(), "http body(webrtc offer sdp) is empty");
WebRtcPluginManager::Instance().getAnswerSdp(
*(static_cast<Session *>(&sender)), type, offer, WebRtcArgsImp(allArgs, sender.getIdentifier()),
[invoker, val, offer, headerOut](const WebRtcInterface &exchanger) mutable {
//设置返回类型
headerOut["Content-Type"] = HttpFileManager::getContentType(".json");
//设置跨域
headerOut["Access-Control-Allow-Origin"] = "*";
try {
val["sdp"] = const_cast<WebRtcInterface &>(exchanger).getAnswerSdp(offer);
val["id"] = exchanger.getIdentifier();
val["type"] = "answer";
invoker(200, headerOut, val.toStyledString());
} catch (std::exception &ex) {
val["code"] = API::Exception;
val["msg"] = ex.what();
invoker(200, headerOut, val.toStyledString());
}
});
});
#endif
#if defined(ENABLE_VERSION)
api_regist("/index/api/version",[](API_ARGS_MAP_ASYNC){
CHECK_SECRET();
Value ver;
ver["buildTime"] = BUILD_TIME;
ver["branchName"] = BRANCH_NAME;
ver["commitHash"] = COMMIT_HASH;
val["data"] = ver;
invoker(200, headerOut, val.toStyledString());
});
#endif
////////////以下是注册的Hook API////////////
api_regist("/index/hook/on_publish",[](API_ARGS_JSON){
//开始推流事件
//转换hls
val["enable_hls"] = true;
//不录制mp4
val["enable_mp4"] = false;
});
api_regist("/index/hook/on_play",[](API_ARGS_JSON){
//开始播放事件
});
api_regist("/index/hook/on_flow_report",[](API_ARGS_JSON){
//流量统计hook api
});
api_regist("/index/hook/on_rtsp_realm",[](API_ARGS_JSON){
//rtsp是否需要鉴权默认需要鉴权
val["code"] = API::Success;
val["realm"] = "zlmediakit_reaml";
});
api_regist("/index/hook/on_rtsp_auth",[](API_ARGS_JSON){
//rtsp鉴权密码密码等于用户名
//rtsp可以有双重鉴权后面还会触发on_play事件
CHECK_ARGS("user_name");
val["code"] = API::Success;
val["encrypted"] = false;
val["passwd"] = allArgs["user_name"].data();
});
api_regist("/index/hook/on_stream_changed",[](API_ARGS_JSON){
//媒体注册或反注册事件
});
#if !defined(_WIN32)
api_regist("/index/hook/on_stream_not_found_ffmpeg",[](API_ARGS_MAP_ASYNC){
//媒体未找到事件,我们都及时拉流hks作为替代品目的是为了测试按需拉流
CHECK_SECRET();
CHECK_ARGS("vhost","app","stream");
//通过FFmpeg按需拉流
GET_CONFIG(int,rtmp_port,Rtmp::kPort);
GET_CONFIG(int,timeout_sec,Hook::kTimeoutSec);
string dst_url = StrPrinter
<< "rtmp://127.0.0.1:"
<< rtmp_port << "/"
<< allArgs["app"] << "/"
<< allArgs["stream"] << "?vhost="
<< allArgs["vhost"];
addFFmpegSource("", "http://hls-ott-zhibo.wasu.tv/live/272/index.m3u8",/** ffmpeg拉流支持任意编码格式任意协议 **/
dst_url,
(1000 * timeout_sec) - 500,
false,
false,
[invoker,val,headerOut](const SockException &ex,const string &key) mutable{
if(ex){
val["code"] = API::OtherFailed;
val["msg"] = ex.what();
}else{
val["data"]["key"] = key;
}
invoker(200, headerOut, val.toStyledString());
});
});
#endif//!defined(_WIN32)
api_regist("/index/hook/on_stream_not_found",[](API_ARGS_MAP_ASYNC){
//媒体未找到事件,我们都及时拉流hks作为替代品目的是为了测试按需拉流
CHECK_SECRET();
CHECK_ARGS("vhost","app","stream", "schema");
ProtocolOption option;
option.enable_hls = allArgs["schema"] == HLS_SCHEMA;
option.enable_mp4 = false;
//通过内置支持的rtsp/rtmp按需拉流
addStreamProxy(allArgs["vhost"],
allArgs["app"],
allArgs["stream"],
/** 支持rtsp和rtmp方式拉流 rtsp支持h265/h264/aac,rtmp仅支持h264/aac **/
"rtsp://184.72.239.149/vod/mp4:BigBuckBunny_115k.mov",
-1,/*无限重试*/
option,
0,//rtp over tcp方式拉流
10,//10秒超时
[invoker,val,headerOut](const SockException &ex,const string &key) mutable{
if(ex){
val["code"] = API::OtherFailed;
val["msg"] = ex.what();
}else{
val["data"]["key"] = key;
}
invoker(200, headerOut, val.toStyledString());
});
});
api_regist("/index/hook/on_record_mp4",[](API_ARGS_JSON){
//录制mp4分片完毕事件
});
api_regist("/index/hook/on_shell_login",[](API_ARGS_JSON){
//shell登录调试事件
});
api_regist("/index/hook/on_stream_none_reader",[](API_ARGS_JSON){
//无人观看流默认关闭
val["close"] = true;
});
api_regist("/index/hook/on_send_rtp_stopped",[](API_ARGS_JSON){
//发送rtp(startSendRtp)被动关闭时回调
});
static auto checkAccess = [](const string &params){
//我们假定大家都要权限访问
return true;
};
api_regist("/index/hook/on_http_access",[](API_ARGS_MAP){
//在这里根据allArgs["params"](url参数)来判断该http客户端是否有权限访问该文件
if(!checkAccess(allArgs["params"])){
//无访问权限
val["err"] = "无访问权限";
//仅限制访问当前目录
val["path"] = "";
//标记该客户端无权限1分钟
val["second"] = 60;
return;
}
//可以访问
val["err"] = "";
//只能访问当前目录
val["path"] = "";
//该http客户端用户被授予10分钟的访问权限该权限仅限访问当前目录
val["second"] = 10 * 60;
});
api_regist("/index/hook/on_server_started",[](API_ARGS_JSON){
//服务器重启报告
});
api_regist("/index/hook/on_server_keepalive",[](API_ARGS_JSON){
//心跳hook
});
}
void unInstallWebApi(){
{
lock_guard<recursive_mutex> lck(s_proxyMapMtx);
s_proxyMap.clear();
}
{
lock_guard<recursive_mutex> lck(s_ffmpegMapMtx);
s_ffmpegMap.clear();
}
{
lock_guard<recursive_mutex> lck(s_proxyPusherMapMtx);
s_proxyPusherMap.clear();
}
{
#if defined(ENABLE_RTPPROXY)
RtpSelector::Instance().clear();
lock_guard<recursive_mutex> lck(s_rtpServerMapMtx);
s_rtpServerMap.clear();
#endif
}
NoticeCenter::Instance().delListener(&web_api_tag);
}