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添加配置文件热加载功能

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This commit is contained in:
xiongziliang 2018-02-09 11:42:55 +08:00
parent 551b9a437b
commit 70bb1a652a
16 changed files with 217 additions and 139 deletions
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4
src/Common/config.cpp
View File

@ -43,7 +43,7 @@ bool loadIniConfig(const char *ini_path){
}
try{
mINI::Instance().parseFile(ini);
NoticeCenter::Instance().emitEvent(Broadcast::kBroadcastUpdateConfig);
NoticeCenter::Instance().emitEvent(Broadcast::kBroadcastReloadConfig);
return true;
}catch (std::exception &ex) {
mINI::Instance().dumpFile(ini);
@ -60,7 +60,7 @@ const char kBroadcastOnRtspAuth[] = "kBroadcastOnRtspAuth";
const char kBroadcastMediaPlayed[] = "kBroadcastMediaPlayed";
const char kBroadcastRtmpPublish[] = "kBroadcastRtmpPublish";
const char kBroadcastFlowReport[] = "kBroadcastFlowReport";
const char kBroadcastUpdateConfig[] = "kBroadcastUpdateConfig";
const char kBroadcastReloadConfig[] = "kBroadcastReloadConfig";
const char kBroadcastShellLogin[] = "kBroadcastShellLogin";
const char kFlowThreshold[] = "broadcast.flowThreshold";

31
src/Common/config.h
View File

@ -28,9 +28,11 @@
#ifndef COMMON_CONFIG_H
#define COMMON_CONFIG_H
#include <functional>
#include "Util/mini.h"
#include "Util/onceToken.h"
#include <functional>
#include "Util/NoticeCenter.h"
using namespace std;
using namespace ZL::Util;
@ -114,10 +116,33 @@ extern const char kBroadcastFlowReport[];
extern const char kFlowThreshold[];
//更新配置文件事件广播,执行loadIniConfig函数加载配置文件成功后会触发该广播
extern const char kBroadcastUpdateConfig[];
#define BroadcastUpdateConfigArgs void
extern const char kBroadcastReloadConfig[];
#define BroadcastReloadConfigArgs void
#define ReloadConfigTag ((void *)(0xFF))
#define RELOAD_KEY(arg,key) \
do{ \
decltype(arg) arg##tmp = mINI::Instance()[key]; \
if(arg != arg##tmp ) { \
arg = arg##tmp; \
InfoL << "reload config:" << key << "=" << arg; \
} \
}while(0);
//监听某个配置发送变更
#define RELOAD_KEY_REGISTER(arg,key) \
do{ \
static onceToken s_token([](){ \
NoticeCenter::Instance().addListener(ReloadConfigTag,Config::Broadcast::kBroadcastReloadConfig,[](BroadcastReloadConfigArgs){ \
RELOAD_KEY(arg,key); \
}); \
}); \
}while(0);
#define GET_CONFIG_AND_REGISTER(type,arg,key) \
static type arg = mINI::Instance()[key]; \
RELOAD_KEY_REGISTER(arg,key);
} //namespace Broadcast
////////////HTTP配置///////////

6
src/Device/Device.cpp
View File

@ -107,7 +107,7 @@ void DevChannel::inputH264(char* pcData, int iDataLen, uint32_t uiStamp) {
auto lam = [this](const RtpPacket::Ptr &pkt, bool bKeyPos) {
onGetRTP(pkt,bKeyPos);
};
static uint32_t videoMtu = mINI::Instance()[Config::Rtp::kVideoMtuSize].as<uint32_t>();
GET_CONFIG_AND_REGISTER(uint32_t,videoMtu,Config::Rtp::kVideoMtuSize);
m_pRtpMaker_h264.reset(new RtpMaker_H264(lam, ui32Ssrc,videoMtu));
}
if (!m_bSdp_gotH264 && m_video) {
@ -130,8 +130,8 @@ void DevChannel::inputAAC(char *pcDataWithoutAdts,int iDataLen, uint32_t uiStamp
auto lam = [this](const RtpPacket::Ptr &pkt, bool keyPos) {
onGetRTP(pkt,keyPos);
};
static uint32_t audioMtu = mINI::Instance()[Config::Rtp::kAudioMtuSize].as<uint32_t>();
m_pRtpMaker_aac.reset(new RtpMaker_AAC(lam, ssrc, audioMtu,m_audio->iSampleRate));
GET_CONFIG_AND_REGISTER(uint32_t,audioMtu,Config::Rtp::kAudioMtuSize);
m_pRtpMaker_aac.reset(new RtpMaker_AAC(lam, ssrc, audioMtu,m_audio->iSampleRate));
}
if (!m_bSdp_gotAAC && m_audio && pcAdtsHeader) {
makeSDP_AAC((unsigned char*) pcAdtsHeader);

47
src/Http/HttpSession.cpp
View File

@ -102,8 +102,9 @@ get_mime_type(const char* name) {
HttpSession::HttpSession(const std::shared_ptr<ThreadPool> &pTh, const Socket::Ptr &pSock) :
TcpLimitedSession(pTh, pSock) {
static string rootPath = mINI::Instance()[Config::Http::kRootPath];
m_strPath = rootPath;
GET_CONFIG_AND_REGISTER(string,rootPath,Config::Http::kRootPath);
m_strPath = rootPath;
static onceToken token([]() {
g_mapCmdIndex.emplace("GET",&HttpSession::Handle_Req_GET);
g_mapCmdIndex.emplace("POST",&HttpSession::Handle_Req_POST);
@ -118,8 +119,9 @@ void HttpSession::onRecv(const Socket::Buffer::Ptr &pBuf) {
onRecv(pBuf->data(),pBuf->size());
}
void HttpSession::onRecv(const char *data,int size){
static uint32_t reqSize = mINI::Instance()[Config::Http::kMaxReqSize].as<uint32_t>();
m_ticker.resetTime();
GET_CONFIG_AND_REGISTER(uint32_t,reqSize,Config::Http::kMaxReqSize);
m_ticker.resetTime();
if (m_strRcvBuf.size() + size >= reqSize) {
WarnL << "接收缓冲区溢出:" << m_strRcvBuf.size() + size << "," << reqSize;
shutdown();
@ -163,7 +165,8 @@ inline HttpSession::HttpCode HttpSession::parserHttpReq(const string &str) {
}
void HttpSession::onError(const SockException& err) {
//WarnL << err.what();
static uint64_t iFlowThreshold = mINI::Instance()[Broadcast::kFlowThreshold];
GET_CONFIG_AND_REGISTER(uint32_t,iFlowThreshold,Broadcast::kFlowThreshold);
if(m_previousTagSize > iFlowThreshold * 1024){
uint64_t totalBytes = m_previousTagSize;
NoticeCenter::Instance().emitEvent(Broadcast::kBroadcastFlowReport,m_mediaInfo,totalBytes);
@ -171,8 +174,9 @@ void HttpSession::onError(const SockException& err) {
}
void HttpSession::onManager() {
static uint32_t keepAliveSec = mINI::Instance()[Config::Http::kKeepAliveSecond].as<uint32_t>();
if(m_ticker.elapsedTime() > keepAliveSec * 1000){
GET_CONFIG_AND_REGISTER(uint32_t,keepAliveSec,Config::Http::kKeepAliveSecond);
if(m_ticker.elapsedTime() > keepAliveSec * 1000){
//1分钟超时
WarnL<<"HttpSession timeouted!";
shutdown();
@ -318,8 +322,9 @@ inline HttpSession::HttpCode HttpSession::Handle_Req_GET() {
string strFile = m_strPath + "/" + m_mediaInfo.m_vhost + m_parser.Url();
/////////////HTTP连接是否需要被关闭////////////////
static uint32_t reqCnt = mINI::Instance()[Config::Http::kMaxReqCount].as<uint32_t>();
bool bClose = (strcasecmp(m_parser["Connection"].data(),"close") == 0) && ( ++m_iReqCnt < reqCnt);
GET_CONFIG_AND_REGISTER(uint32_t,reqCnt,Config::Http::kMaxReqCount);
bool bClose = (strcasecmp(m_parser["Connection"].data(),"close") == 0) && ( ++m_iReqCnt < reqCnt);
HttpCode eHttpCode = bClose ? Http_failed : Http_success;
//访问的是文件夹
if (strFile.back() == '/') {
@ -384,8 +389,9 @@ inline HttpSession::HttpCode HttpSession::Handle_Req_GET() {
std::shared_ptr<FILE> pFilePtr(pFile, [](FILE *pFp) {
fclose(pFp);
});
static uint32_t sendBufSize = mINI::Instance()[Config::Http::kSendBufSize].as<uint32_t>();
//不允许主动丢包
GET_CONFIG_AND_REGISTER(uint32_t,sendBufSize,Config::Http::kSendBufSize);
//不允许主动丢包
sock->setShouldDropPacket(false);
//缓存大小为两个包,太大可能导致发送时间太长从而超时
sock->setSendPktSize(2);
@ -545,9 +551,9 @@ inline void HttpSession::sendResponse(const char* pcStatus, const KeyValue& head
}
inline HttpSession::KeyValue HttpSession::makeHttpHeader(bool bClose, int64_t iContentSize,const char* pcContentType) {
KeyValue headerOut;
static string charSet = mINI::Instance()[Config::Http::kCharSet];
static uint32_t keepAliveSec = mINI::Instance()[Config::Http::kKeepAliveSecond].as<uint32_t>();
static uint32_t reqCnt = mINI::Instance()[Config::Http::kMaxReqCount].as<uint32_t>();
GET_CONFIG_AND_REGISTER(string,charSet,Config::Http::kCharSet);
GET_CONFIG_AND_REGISTER(uint32_t,keepAliveSec,Config::Http::kKeepAliveSecond);
GET_CONFIG_AND_REGISTER(uint32_t,reqCnt,Config::Http::kMaxReqCount);
headerOut.emplace("Date", dateStr());
headerOut.emplace("Server", SERVER_NAME);
@ -568,7 +574,8 @@ inline HttpSession::KeyValue HttpSession::makeHttpHeader(bool bClose, int64_t iC
string HttpSession::urlDecode(const string &str){
auto ret = strCoding::UrlUTF8Decode(str);
#ifdef _WIN32
static bool isGb2312 = !strcasecmp(mINI::Instance()[Config::Http::kCharSet].data(), "gb2312");
GET_CONFIG_AND_REGISTER(string,charSet,Config::Http::kCharSet);
bool isGb2312 = !strcasecmp(charSet.data(), "gb2312");
if (isGb2312) {
ret = strCoding::UTF8ToGB2312(ret);
}
@ -585,8 +592,9 @@ inline void HttpSession::urlDecode(Parser &parser){
inline bool HttpSession::emitHttpEvent(bool doInvoke){
///////////////////是否断开本链接///////////////////////
static uint32_t reqCnt = mINI::Instance()[Config::Http::kMaxReqCount].as<uint32_t>();
bool bClose = (strcasecmp(m_parser["Connection"].data(),"close") == 0) && ( ++m_iReqCnt < reqCnt);
GET_CONFIG_AND_REGISTER(uint32_t,reqCnt,Config::Http::kMaxReqCount);
bool bClose = (strcasecmp(m_parser["Connection"].data(),"close") == 0) && ( ++m_iReqCnt < reqCnt);
auto Origin = m_parser["Origin"];
/////////////////////异步回复Invoker///////////////////////////////
weak_ptr<HttpSession> weakSelf = dynamic_pointer_cast<HttpSession>(shared_from_this());
@ -643,8 +651,9 @@ void HttpSession::responseDelay(const string &Origin,bool bClose,
sendResponse(codeOut.data(), headerOut, contentOut);
}
inline void HttpSession::sendNotFound(bool bClose) {
static string notFound = mINI::Instance()[Config::Http::kNotFound];
sendResponse("404 Not Found", makeHttpHeader(bClose, notFound.size()), notFound);
GET_CONFIG_AND_REGISTER(string,notFound,Config::Http::kNotFound);
sendResponse("404 Not Found", makeHttpHeader(bClose, notFound.size()), notFound);
}
void HttpSession::onSendMedia(const RtmpPacket::Ptr &pkt) {

15
src/MediaFile/MediaReader.cpp
View File

@ -37,8 +37,9 @@ namespace MediaFile {
#ifdef ENABLE_MP4V2
MediaReader::MediaReader(const string &strVhost,const string &strApp, const string &strId) {
static string recordPath = mINI::Instance()[Config::Record::kFilePath];
auto strFileName = recordPath + "/" + strVhost + "/" + strApp + "/" + strId;
GET_CONFIG_AND_REGISTER(string,recordPath,Config::Record::kFilePath);
auto strFileName = recordPath + "/" + strVhost + "/" + strApp + "/" + strId;
m_hMP4File = MP4Read(strFileName.data());
if(m_hMP4File == MP4_INVALID_FILE_HANDLE){
@ -168,8 +169,9 @@ MediaReader::~MediaReader() {
void MediaReader::startReadMP4() {
auto strongSelf = shared_from_this();
static uint32_t sampleMS = mINI::Instance()[Config::Record::kSampleMS].as<uint32_t>();
AsyncTaskThread::Instance().DoTaskDelay(reinterpret_cast<uint64_t>(this), sampleMS, [strongSelf](){
GET_CONFIG_AND_REGISTER(uint32_t,sampleMS,Config::Record::kSampleMS);
AsyncTaskThread::Instance().DoTaskDelay(reinterpret_cast<uint64_t>(this), sampleMS, [strongSelf](){
return strongSelf->readSample();
});
m_pChn->setListener(strongSelf);
@ -321,8 +323,9 @@ void MediaReader::seek(int iSeekTime,bool bReStart){
MediaSource::Ptr MediaReader::onMakeMediaSource(const string &strSchema,const string &strVhost,const string &strApp, const string &strId){
#ifdef ENABLE_MP4V2
static string appName = mINI::Instance()[Config::Record::kAppName];
if (strApp != appName) {
GET_CONFIG_AND_REGISTER(string,appName,Config::Record::kAppName);
if (strApp != appName) {
return nullptr;
}
try {

17
src/MediaFile/MediaRecorder.cpp
View File

@ -44,12 +44,12 @@ MediaRecorder::MediaRecorder(const string &strVhost_tmp,
bool enableHls,
bool enableMp4) {
static string hlsPrefix = mINI::Instance()[Config::Hls::kHttpPrefix];
static string hlsPrefixDefaultVhost = mINI::Instance()[Config::Hls::kHttpPrefixDefaultVhost];
static string hlsPath = mINI::Instance()[Config::Hls::kFilePath];
static uint32_t hlsBufSize = mINI::Instance()[Config::Hls::kFileBufSize].as<uint32_t>();
static uint32_t hlsDuration = mINI::Instance()[Config::Hls::kSegmentDuration].as<uint32_t>();
static uint32_t hlsNum = mINI::Instance()[Config::Hls::kSegmentNum].as<uint32_t>();
GET_CONFIG_AND_REGISTER(string,hlsPrefix,Config::Hls::kHttpPrefix);
GET_CONFIG_AND_REGISTER(string,hlsPrefixDefaultVhost,Config::Hls::kHttpPrefixDefaultVhost);
GET_CONFIG_AND_REGISTER(string,hlsPath,Config::Hls::kFilePath);
GET_CONFIG_AND_REGISTER(uint32_t,hlsBufSize,Config::Hls::kFileBufSize);
GET_CONFIG_AND_REGISTER(uint32_t,hlsDuration,Config::Hls::kSegmentDuration);
GET_CONFIG_AND_REGISTER(uint32_t,hlsNum,Config::Hls::kSegmentNum);
string strVhost = strVhost_tmp;
if(trim(strVhost).empty()){
@ -80,8 +80,9 @@ MediaRecorder::MediaRecorder(const string &strVhost_tmp,
hlsBufSize, hlsDuration, hlsNum));
}
#ifdef ENABLE_MP4V2
static string recordPath = mINI::Instance()[Config::Record::kFilePath];
static string recordAppName = mINI::Instance()[Config::Record::kAppName];
GET_CONFIG_AND_REGISTER(string,recordPath,Config::Record::kFilePath);
GET_CONFIG_AND_REGISTER(string,recordAppName,Config::Record::kAppName);
if(enableMp4){
m_mp4Maker.reset(new Mp4Maker(recordPath + "/" + strVhost + "/" + recordAppName + "/" + strApp + "/" + strId + "/",
strVhost,strApp,strId,pPlayer));

16
src/MediaFile/Mp4Maker.cpp
View File

@ -119,8 +119,9 @@ void Mp4Maker::inputAAC(void *pData, uint32_t ui32Length, uint32_t ui32TimeStamp
}
void Mp4Maker::_inputH264(void* pData, uint32_t ui32Length, uint32_t ui32Duration, int iType) {
static uint32_t recordMS = 1000 * mINI::Instance()[Config::Record::kFileSecond].as<uint32_t>();
if(iType == 5 && (m_hMp4 == MP4_INVALID_FILE_HANDLE || m_ticker.elapsedTime() > recordMS)){
GET_CONFIG_AND_REGISTER(uint32_t,recordSec,Config::Record::kFileSecond);
if(iType == 5 && (m_hMp4 == MP4_INVALID_FILE_HANDLE || m_ticker.elapsedTime() > recordSec * 1000)){
//在I帧率处新建MP4文件
//如果文件未创建或者文件超过10分钟则创建新文件
createFile();
@ -131,8 +132,9 @@ void Mp4Maker::_inputH264(void* pData, uint32_t ui32Length, uint32_t ui32Duratio
}
void Mp4Maker::_inputAAC(void* pData, uint32_t ui32Length, uint32_t ui32Duration) {
static uint32_t recordMS = 1000 * mINI::Instance()[Config::Record::kFileSecond].as<uint32_t>();
if (!m_pPlayer->containVideo() && (m_hMp4 == MP4_INVALID_FILE_HANDLE || m_ticker.elapsedTime() > recordMS)) {
GET_CONFIG_AND_REGISTER(uint32_t,recordSec,Config::Record::kFileSecond);
if (!m_pPlayer->containVideo() && (m_hMp4 == MP4_INVALID_FILE_HANDLE || m_ticker.elapsedTime() > recordSec * 1000)) {
//在I帧率处新建MP4文件
//如果文件未创建或者文件超过10分钟则创建新文件
createFile();
@ -158,8 +160,10 @@ void Mp4Maker::createFile() {
m_info.ui64StartedTime = ::time(NULL);
m_info.strFileName = strTime + ".mp4";
m_info.strFilePath = strFile;
static string appName = mINI::Instance()[Config::Record::kAppName];
m_info.strUrl = m_info.strVhost + "/"
GET_CONFIG_AND_REGISTER(string,appName,Config::Record::kAppName);
m_info.strUrl = m_info.strVhost + "/"
+ appName + "/"
+ m_info.strAppName + "/"
+ m_info.strStreamId + "/"

5
src/RTP/RtpMakerAAC.cpp
View File

@ -36,8 +36,9 @@ namespace ZL {
namespace Rtsp {
void RtpMaker_AAC::makeRtp(const char *pcData, int iLen, uint32_t uiStamp) {
static uint32_t cycleMS = mINI::Instance()[Config::Rtp::kCycleMS].as<uint32_t>();
uiStamp %= cycleMS;
GET_CONFIG_AND_REGISTER(uint32_t,cycleMS,Config::Rtp::kCycleMS);
uiStamp %= cycleMS;
char *ptr = (char *) pcData;
int iSize = iLen;
while (iSize > 0 ) {

5
src/RTP/RtpMakerH264.cpp
View File

@ -36,8 +36,9 @@ namespace ZL {
namespace Rtsp {
void RtpMaker_H264::makeRtp(const char* pcData, int iLen, uint32_t uiStamp) {
static uint32_t cycleMS = mINI::Instance()[Config::Rtp::kCycleMS].as<uint32_t>();
uiStamp %= cycleMS;
GET_CONFIG_AND_REGISTER(uint32_t,cycleMS,Config::Rtp::kCycleMS);
uiStamp %= cycleMS;
int iSize = m_iMtuSize - 2;
if (iLen > iSize) { //超过MTU
const unsigned char s_e_r_Start = 0x80;

3
src/Rtmp/RtmpSession.cpp
View File

@ -54,7 +54,8 @@ void RtmpSession::onError(const SockException& err) {
DebugL << err.what();
//流量统计事件广播
static uint64_t iFlowThreshold = mINI::Instance()[Broadcast::kFlowThreshold];
GET_CONFIG_AND_REGISTER(uint32_t,iFlowThreshold,Broadcast::kFlowThreshold);
if(m_ui64TotalBytes > iFlowThreshold * 1024){
NoticeCenter::Instance().emitEvent(Broadcast::kBroadcastFlowReport,m_mediaInfo,m_ui64TotalBytes);
}

9
src/Rtmp/RtmpToRtspMediaSource.cpp
View File

@ -98,8 +98,9 @@ void RtmpToRtspMediaSource::makeSDP() {
auto lam = [this](const RtpPacket::Ptr &pkt, bool bKeyPos) {
m_pRtspSrc->onGetRTP(pkt,bKeyPos);
};
static uint32_t videoMtu = mINI::Instance()[Config::Rtp::kVideoMtuSize].as<uint32_t>();
m_pRtpMaker_h264.reset(new RtpMaker_H264(lam, ssrc0,videoMtu));
GET_CONFIG_AND_REGISTER(uint32_t,videoMtu,Config::Rtp::kVideoMtuSize);
m_pRtpMaker_h264.reset(new RtpMaker_H264(lam, ssrc0,videoMtu));
char strTemp[100];
int profile_level_id = 0;
@ -140,8 +141,8 @@ void RtmpToRtspMediaSource::makeSDP() {
auto lam = [this](const RtpPacket::Ptr &pkt, bool bKeyPos) {
m_pRtspSrc->onGetRTP(pkt,bKeyPos);
};
static uint32_t audioMtu = mINI::Instance()[Config::Rtp::kAudioMtuSize].as<uint32_t>();
m_pRtpMaker_aac.reset(new RtpMaker_AAC(lam, ssrc1, audioMtu,m_pParser->getAudioSampleRate()));
GET_CONFIG_AND_REGISTER(uint32_t,audioMtu,Config::Rtp::kAudioMtuSize);
m_pRtpMaker_aac.reset(new RtpMaker_AAC(lam, ssrc1, audioMtu,m_pParser->getAudioSampleRate()));
char configStr[32];
const string & strAacCfg = m_pParser->getAudioCfg();

11
src/Rtsp/RtpBroadCaster.cpp
View File

@ -47,8 +47,10 @@ static uint32_t addressToInt(const string &ip){
std::shared_ptr<uint32_t> MultiCastAddressMaker::obtain(uint32_t iTry) {
lock_guard<recursive_mutex> lck(m_mtx);
static uint32_t addrMin = addressToInt(mINI::Instance()[Config::MultiCast::kAddrMin]);
static uint32_t addrMax = addressToInt(mINI::Instance()[Config::MultiCast::kAddrMax]);
GET_CONFIG_AND_REGISTER(string,addrMinStr,Config::MultiCast::kAddrMin);
GET_CONFIG_AND_REGISTER(string,addrMaxStr,Config::MultiCast::kAddrMax);
uint32_t addrMin = addressToInt(addrMinStr);
uint32_t addrMax = addressToInt(addrMaxStr);
if(m_iAddr > addrMax || m_iAddr == 0){
m_iAddr = addrMin;
@ -106,8 +108,9 @@ RtpBroadCaster::RtpBroadCaster(const string &strLocalIp,const string &strVhost,c
throw std::runtime_error(strErr);
}
auto fd = m_apUdpSock[i]->rawFD();
static uint32_t udpTTL = mINI::Instance()[Config::MultiCast::kUdpTTL].as<uint32_t>();
SockUtil::setMultiTTL(fd, udpTTL);
GET_CONFIG_AND_REGISTER(uint32_t,udpTTL,Config::MultiCast::kUdpTTL);
SockUtil::setMultiTTL(fd, udpTTL);
SockUtil::setMultiLOOP(fd, false);
SockUtil::setMultiIF(fd, strLocalIp.data());

12
src/Rtsp/RtspPlayer.cpp
View File

@ -127,8 +127,8 @@ void RtspPlayer::play(const char* strUrl, const char *strUser, const char *strPw
}
m_eType = eType;
if (m_eType == RTP_TCP && !m_pucRtpBuf) {
static uint32_t rtpSize = mINI::Instance()[Config::Rtp::kUdpBufSize].as<uint32_t>();
m_pucRtpBuf = new uint8_t[rtpSize];
GET_CONFIG_AND_REGISTER(uint32_t,rtpSize,Config::Rtp::kUdpBufSize);
m_pucRtpBuf = new uint8_t[rtpSize];
}
auto ip = FindField(strUrl, "://", "/");
if (!ip.size()) {
@ -203,8 +203,8 @@ void RtspPlayer::onRecv(const Socket::Buffer::Ptr& pBuf) {
if (m_eType == RTP_TCP && m_pucRtpBuf) {
//RTP data
while (size > 0) {
static uint32_t rtpSize = mINI::Instance()[Config::Rtp::kUdpBufSize].as<uint32_t>();
int added = rtpSize - m_uiRtpBufLen;
GET_CONFIG_AND_REGISTER(uint32_t,rtpSize,Config::Rtp::kUdpBufSize);
int added = rtpSize - m_uiRtpBufLen;
added = (added > size ? size : added);
memcpy(m_pucRtpBuf + m_uiRtpBufLen, buf, added);
m_uiRtpBufLen += added;
@ -607,8 +607,8 @@ inline bool RtspPlayer::HandleOneRtp(int iTrackidx, unsigned char *pucData, unsi
//开始排序缓存
if (m_abSortStarted[iTrackidx]) {
m_amapRtpSort[iTrackidx].emplace(rtppt.sequence, pt_ptr);
static uint32_t clearCount = mINI::Instance()[Config::Rtp::kClearCount].as<uint32_t>();
static uint32_t maxRtpCount = mINI::Instance()[Config::Rtp::kMaxRtpCount].as<uint32_t>();
GET_CONFIG_AND_REGISTER(uint32_t,clearCount,Config::Rtp::kClearCount);
GET_CONFIG_AND_REGISTER(uint32_t,maxRtpCount,Config::Rtp::kMaxRtpCount);
if (m_aui64SeqOkCnt[iTrackidx] >= clearCount) {
//网络环境改善,需要清空排序缓存
m_aui64SeqOkCnt[iTrackidx] = 0;

8
src/Rtsp/RtspSession.cpp
View File

@ -127,7 +127,7 @@ void RtspSession::onError(const SockException& err) {
}
//流量统计事件广播
static uint64_t iFlowThreshold = mINI::Instance()[Broadcast::kFlowThreshold];
GET_CONFIG_AND_REGISTER(uint32_t,iFlowThreshold,Broadcast::kFlowThreshold);
if(m_ui64TotalBytes > iFlowThreshold * 1024){
NoticeCenter::Instance().emitEvent(Broadcast::kBroadcastFlowReport,m_mediaInfo,m_ui64TotalBytes);
}
@ -278,7 +278,7 @@ void RtspSession::onAuthFailed(const weak_ptr<RtspSession> &weakSelf,const strin
int n;
char response[2 * 1024];
static bool authBasic = mINI::Instance()[Config::Rtsp::kAuthBasic];
GET_CONFIG_AND_REGISTER(bool,authBasic,Config::Rtsp::kAuthBasic);
if (!authBasic) {
//我们需要客户端优先以md5方式认证
strongSelf->m_strNonce = makeRandStr(32);
@ -617,8 +617,8 @@ bool RtspSession::handleReq_Setup() {
return false;
}
startListenPeerUdpData();
static uint32_t udpTTL = mINI::Instance()[MultiCast::kUdpTTL].as<uint32_t>();
int n = sprintf(m_pcBuf, "RTSP/1.0 200 OK\r\n"
GET_CONFIG_AND_REGISTER(uint32_t,udpTTL,MultiCast::kUdpTTL);
int n = sprintf(m_pcBuf, "RTSP/1.0 200 OK\r\n"
"CSeq: %d\r\n"
"Server: %s-%0.2f(build in %s)\r\n"
"%s"

4
src/Shell/ShellSession.cpp
View File

@ -47,8 +47,8 @@ ShellSession::~ShellSession() {
void ShellSession::onRecv(const Socket::Buffer::Ptr&buf) {
//DebugL << hexdump(buf->data(), buf->size());
static uint32_t maxReqSize = mINI::Instance()[Config::Shell::kMaxReqSize].as<uint32_t>();
if (m_strRecvBuf.size() + buf->size() >= maxReqSize) {
GET_CONFIG_AND_REGISTER(uint32_t,maxReqSize,Config::Shell::kMaxReqSize);
if (m_strRecvBuf.size() + buf->size() >= maxReqSize) {
WarnL << "接收缓冲区溢出!";
shutdown();
return;

163
tests/test_server.cpp
View File

@ -135,86 +135,115 @@ static onceToken s_token([](){
}, nullptr);
int main(int argc,char *argv[]){
//设置退出信号处理函数
signal(SIGINT, [](int){EventPoller::Instance().shutdown();});
signal(SIGHUP, [](int){Config::loadIniConfig();});
int main(int argc,char *argv[]) {
//设置退出信号处理函数
signal(SIGINT, [](int) { EventPoller::Instance().shutdown(); });
signal(SIGHUP, [](int) { Config::loadIniConfig(); });
//设置日志
Logger::Instance().add(std::make_shared<ConsoleChannel>("stdout", LTrace));
Logger::Instance().add(std::make_shared<ConsoleChannel>("stdout", LTrace));
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
Config::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/hks",
"rtmp://live.hkstv.hk.lxdns.com/live/hks"
//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:
//http://127.0.0.1/live/0/hls.m3u8
//rtsp://127.0.0.1/live/0
//rtmp://127.0.0.1/live/0
//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;
}
//加载配置文件,如果配置文件不存在就创建一个
Config::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/hks",
"rtmp://live.hkstv.hk.lxdns.com/live/hks"
//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:
//http://127.0.0.1/live/0/hls.m3u8
//rtsp://127.0.0.1/live/0
//rtmp://127.0.0.1/live/0
//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;
}
#ifdef ENABLE_OPENSSL
//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(...){
FatalL << "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;
}
//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 (...) {
FatalL << "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;
}
#endif //ENABLE_OPENSSL
//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<ShellSession>::Ptr shellSrv(new TcpServer<ShellSession>());
shellSrv->start(mINI::Instance()[Config::Shell::kPort]);
//开启rtsp/rtmp/http服务器
TcpServer<RtspSession>::Ptr rtspSrv(new TcpServer<RtspSession>());
TcpServer<RtmpSession>::Ptr rtmpSrv(new TcpServer<RtmpSession>());
TcpServer<HttpSession>::Ptr httpSrv(new TcpServer<HttpSession>());
rtspSrv->start(mINI::Instance()[Config::Rtsp::kPort]);//默认554
rtmpSrv->start(mINI::Instance()[Config::Rtmp::kPort]);//默认1935
httpSrv->start(mINI::Instance()[Config::Http::kPort]);//默认80
uint16_t shellPort = mINI::Instance()[Config::Shell::kPort];
uint16_t rtspPort = mINI::Instance()[Config::Rtsp::kPort];
uint16_t rtmpPort = mINI::Instance()[Config::Rtmp::kPort];
uint16_t httpPort = mINI::Instance()[Config::Http::kPort];
uint16_t httpsPort = mINI::Instance()[Config::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<ShellSession>::Ptr shellSrv(new TcpServer<ShellSession>());
TcpServer<RtspSession>::Ptr rtspSrv(new TcpServer<RtspSession>());
TcpServer<RtmpSession>::Ptr rtmpSrv(new TcpServer<RtmpSession>());
TcpServer<HttpSession>::Ptr httpSrv(new TcpServer<HttpSession>());
shellSrv->start(shellPort);
rtspSrv->start(rtspPort);//默认554
rtmpSrv->start(rtmpPort);//默认1935
httpSrv->start(httpPort);//默认80
#ifdef ENABLE_OPENSSL
//如果支持ssl还可以开启https服务器
TcpServer<HttpsSession>::Ptr httpsSrv(new TcpServer<HttpsSession>());
httpsSrv->start(mINI::Instance()[Config::Http::kSSLPort]);//默认443
//如果支持ssl还可以开启https服务器
TcpServer<HttpsSession>::Ptr httpsSrv(new TcpServer<HttpsSession>());
httpsSrv->start(httpsPort);//默认443
#endif //ENABLE_OPENSSL
EventPoller::Instance().runLoop();
//销毁拉流客户端
proxyMap.clear();
//销毁服务器
shellSrv.reset();
rtspSrv.reset();
rtmpSrv.reset();
httpSrv.reset();
NoticeCenter::Instance().addListener(ReloadConfigTag,Config::Broadcast::kBroadcastReloadConfig,[&](BroadcastReloadConfigArgs){
//重新创建服务器
if(shellPort != mINI::Instance()[Config::Shell::kPort].as<uint16_t>()){
shellPort = mINI::Instance()[Config::Shell::kPort];
shellSrv->start(shellPort);
InfoL << "重启shell服务器:" << shellPort;
}
if(rtspPort != mINI::Instance()[Config::Rtsp::kPort].as<uint16_t>()){
rtspPort = mINI::Instance()[Config::Rtsp::kPort];
rtspSrv->start(rtspPort);
InfoL << "重启rtsp服务器" << rtspPort;
}
if(rtmpPort != mINI::Instance()[Config::Rtmp::kPort].as<uint16_t>()){
rtmpPort = mINI::Instance()[Config::Rtmp::kPort];
rtmpSrv->start(rtmpPort);
InfoL << "重启rtmp服务器" << rtmpPort;
}
if(httpPort != mINI::Instance()[Config::Http::kPort].as<uint16_t>()){
httpPort = mINI::Instance()[Config::Http::kPort];
httpSrv->start(httpPort);
InfoL << "重启http服务器" << httpPort;
}
#ifdef ENABLE_OPENSSL
httpsSrv.reset();
if(httpsPort != mINI::Instance()[Config::Http::kSSLPort].as<uint16_t>()){
httpsPort = mINI::Instance()[Config::Http::kSSLPort];
httpsSrv->start(httpsPort);
InfoL << "重启https服务器" << httpsPort;
}
#endif //ENABLE_OPENSSL
});
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();