ZLMediaKit/src/Common/config.cpp

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/*
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* Copyright (c) 2016 The ZLMediaKit project authors. All Rights Reserved.
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*
* This file is part of ZLMediaKit(https://github.com/xia-chu/ZLMediaKit).
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*
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* 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.
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*/
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#include <stdio.h>
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#include "Common/config.h"
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#include "Util/util.h"
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#include "Util/logger.h"
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#include "Util/onceToken.h"
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#include "Util/NoticeCenter.h"
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using namespace toolkit;
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namespace mediakit {
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bool loadIniConfig(const char *ini_path){
string ini;
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if(ini_path && ini_path[0] != '\0'){
ini = ini_path;
}else{
ini = exePath() + ".ini";
}
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try{
mINI::Instance().parseFile(ini);
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NoticeCenter::Instance().emitEvent(Broadcast::kBroadcastReloadConfig);
return true;
}catch (std::exception &) {
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InfoL << "dump ini file to:" << ini;
mINI::Instance().dumpFile(ini);
return false;
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}
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}
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////////////广播名称///////////
namespace Broadcast {
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const string kBroadcastMediaChanged = "kBroadcastMediaChanged";
const string kBroadcastRecordMP4 = "kBroadcastRecordMP4";
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const string kBroadcastRecordTs = "kBroadcastRecoredTs";
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const string kBroadcastHttpRequest = "kBroadcastHttpRequest";
const string kBroadcastHttpAccess = "kBroadcastHttpAccess";
const string kBroadcastOnGetRtspRealm = "kBroadcastOnGetRtspRealm";
const string kBroadcastOnRtspAuth = "kBroadcastOnRtspAuth";
const string kBroadcastMediaPlayed = "kBroadcastMediaPlayed";
const string kBroadcastMediaPublish = "kBroadcastMediaPublish";
const string kBroadcastFlowReport = "kBroadcastFlowReport";
const string kBroadcastReloadConfig = "kBroadcastReloadConfig";
const string kBroadcastShellLogin = "kBroadcastShellLogin";
const string kBroadcastNotFoundStream = "kBroadcastNotFoundStream";
const string kBroadcastStreamNoneReader = "kBroadcastStreamNoneReader";
const string kBroadcastHttpBeforeAccess = "kBroadcastHttpBeforeAccess";
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} //namespace Broadcast
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//通用配置项目
namespace General{
#define GENERAL_FIELD "general."
const string kMediaServerId = GENERAL_FIELD"mediaServerId";
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const string kFlowThreshold = GENERAL_FIELD"flowThreshold";
const string kStreamNoneReaderDelayMS = GENERAL_FIELD"streamNoneReaderDelayMS";
const string kMaxStreamWaitTimeMS = GENERAL_FIELD"maxStreamWaitMS";
const string kEnableVhost = GENERAL_FIELD"enableVhost";
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const string kAddMuteAudio = GENERAL_FIELD"addMuteAudio";
const string kResetWhenRePlay = GENERAL_FIELD"resetWhenRePlay";
const string kPublishToHls = GENERAL_FIELD"publishToHls";
const string kPublishToMP4 = GENERAL_FIELD"publishToMP4";
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const string kMergeWriteMS = GENERAL_FIELD"mergeWriteMS";
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const string kModifyStamp = GENERAL_FIELD"modifyStamp";
const string kHlsDemand = GENERAL_FIELD"hls_demand";
const string kRtspDemand = GENERAL_FIELD"rtsp_demand";
const string kRtmpDemand = GENERAL_FIELD"rtmp_demand";
const string kTSDemand = GENERAL_FIELD"ts_demand";
const string kFMP4Demand = GENERAL_FIELD"fmp4_demand";
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const string kEnableAudio = GENERAL_FIELD"enable_audio";
const string kWaitTrackReadyMS = GENERAL_FIELD"wait_track_ready_ms";
const string kWaitAddTrackMS = GENERAL_FIELD"wait_add_track_ms";
const string kUnreadyFrameCache = GENERAL_FIELD"unready_frame_cache";
const string kContinuePushMS = GENERAL_FIELD"continue_push_ms";
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onceToken token([](){
mINI::Instance()[kFlowThreshold] = 1024;
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mINI::Instance()[kStreamNoneReaderDelayMS] = 20 * 1000;
mINI::Instance()[kMaxStreamWaitTimeMS] = 15 * 1000;
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mINI::Instance()[kEnableVhost] = 0;
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mINI::Instance()[kAddMuteAudio] = 1;
mINI::Instance()[kResetWhenRePlay] = 1;
mINI::Instance()[kPublishToHls] = 1;
mINI::Instance()[kPublishToMP4] = 0;
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mINI::Instance()[kMergeWriteMS] = 0;
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mINI::Instance()[kModifyStamp] = 0;
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mINI::Instance()[kMediaServerId] = makeRandStr(16);
mINI::Instance()[kHlsDemand] = 0;
mINI::Instance()[kRtspDemand] = 0;
mINI::Instance()[kRtmpDemand] = 0;
mINI::Instance()[kTSDemand] = 0;
mINI::Instance()[kFMP4Demand] = 0;
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mINI::Instance()[kEnableAudio] = 1;
mINI::Instance()[kWaitTrackReadyMS] = 10000;
mINI::Instance()[kWaitAddTrackMS] = 3000;
mINI::Instance()[kUnreadyFrameCache] = 100;
mINI::Instance()[kContinuePushMS] = 15 * 1000;
},nullptr);
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}//namespace General
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////////////HTTP配置///////////
namespace Http {
#define HTTP_FIELD "http."
//http 文件发送缓存大小
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const string kSendBufSize = HTTP_FIELD"sendBufSize";
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//http 最大请求字节数
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const string kMaxReqSize = HTTP_FIELD"maxReqSize";
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//http keep-alive秒数
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const string kKeepAliveSecond = HTTP_FIELD"keepAliveSecond";
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//http 字符编码
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const string kCharSet = HTTP_FIELD"charSet";
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//http 服务器根目录
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const string kRootPath = HTTP_FIELD"rootPath";
//http 服务器虚拟目录
const string kVirtualPath = HTTP_FIELD "virtualPath";
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//http 404错误提示内容
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const string kNotFound = HTTP_FIELD"notFound";
//是否显示文件夹菜单
const string kDirMenu = HTTP_FIELD"dirMenu";
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onceToken token([](){
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mINI::Instance()[kSendBufSize] = 64 * 1024;
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mINI::Instance()[kMaxReqSize] = 4 * 10240;
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mINI::Instance()[kKeepAliveSecond] = 15;
mINI::Instance()[kDirMenu] = true;
mINI::Instance()[kVirtualPath] = "";
#if defined(_WIN32)
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mINI::Instance()[kCharSet] = "gb2312";
#else
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mINI::Instance()[kCharSet] ="utf-8";
#endif
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mINI::Instance()[kRootPath] = "./www";
mINI::Instance()[kNotFound] = StrPrinter << "<html>"
"<head><title>404 Not Found</title></head>"
"<body bgcolor=\"white\">"
"<center><h1>您访问的资源不存在!</h1></center>"
"<hr><center>"
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<< kServerName
<< "</center>"
"</body>"
"</html>"
<< endl;
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},nullptr);
}//namespace Http
////////////SHELL配置///////////
namespace Shell {
#define SHELL_FIELD "shell."
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const string kMaxReqSize = SHELL_FIELD"maxReqSize";
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onceToken token([](){
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mINI::Instance()[kMaxReqSize] = 1024;
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},nullptr);
} //namespace Shell
////////////RTSP服务器配置///////////
namespace Rtsp {
#define RTSP_FIELD "rtsp."
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const string kAuthBasic = RTSP_FIELD"authBasic";
const string kHandshakeSecond = RTSP_FIELD"handshakeSecond";
const string kKeepAliveSecond = RTSP_FIELD"keepAliveSecond";
const string kDirectProxy = RTSP_FIELD"directProxy";
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onceToken token([](){
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//默认Md5方式认证
mINI::Instance()[kAuthBasic] = 0;
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mINI::Instance()[kHandshakeSecond] = 15;
mINI::Instance()[kKeepAliveSecond] = 15;
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mINI::Instance()[kDirectProxy] = 1;
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},nullptr);
} //namespace Rtsp
////////////RTMP服务器配置///////////
namespace Rtmp {
#define RTMP_FIELD "rtmp."
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const string kModifyStamp = RTMP_FIELD"modifyStamp";
const string kHandshakeSecond = RTMP_FIELD"handshakeSecond";
const string kKeepAliveSecond = RTMP_FIELD"keepAliveSecond";
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onceToken token([](){
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mINI::Instance()[kModifyStamp] = false;
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mINI::Instance()[kHandshakeSecond] = 15;
mINI::Instance()[kKeepAliveSecond] = 15;
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},nullptr);
} //namespace RTMP
////////////RTP配置///////////
namespace Rtp {
#define RTP_FIELD "rtp."
//RTP打包最大MTU,公网情况下更小
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const string kVideoMtuSize = RTP_FIELD"videoMtuSize";
const string kAudioMtuSize = RTP_FIELD"audioMtuSize";
//rtp包最大长度限制单位是KB
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const string kRtpMaxSize = RTP_FIELD"rtpMaxSize";
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onceToken token([](){
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mINI::Instance()[kVideoMtuSize] = 1400;
mINI::Instance()[kAudioMtuSize] = 600;
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mINI::Instance()[kRtpMaxSize] = 10;
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},nullptr);
} //namespace Rtsp
////////////组播配置///////////
namespace MultiCast {
#define MULTI_FIELD "multicast."
//组播分配起始地址
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const string kAddrMin = MULTI_FIELD"addrMin";
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//组播分配截止地址
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const string kAddrMax = MULTI_FIELD"addrMax";
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//组播TTL
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const string kUdpTTL = MULTI_FIELD"udpTTL";
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onceToken token([](){
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mINI::Instance()[kAddrMin] = "239.0.0.0";
mINI::Instance()[kAddrMax] = "239.255.255.255";
mINI::Instance()[kUdpTTL] = 64;
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},nullptr);
} //namespace MultiCast
////////////录像配置///////////
namespace Record {
#define RECORD_FIELD "record."
//查看录像的应用名称
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const string kAppName = RECORD_FIELD"appName";
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//每次流化MP4文件的时长,单位毫秒
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const string kSampleMS = RECORD_FIELD"sampleMS";
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//MP4文件录制大小,默认一个小时
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const string kFileSecond = RECORD_FIELD"fileSecond";
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//录制文件路径
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const string kFilePath = RECORD_FIELD"filePath";
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//mp4文件写缓存大小
const string kFileBufSize = RECORD_FIELD"fileBufSize";
//mp4录制完成后是否进行二次关键帧索引写入头部
const string kFastStart = RECORD_FIELD"fastStart";
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//mp4文件是否重头循环读取
const string kFileRepeat = RECORD_FIELD"fileRepeat";
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onceToken token([](){
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mINI::Instance()[kAppName] = "record";
mINI::Instance()[kSampleMS] = 500;
mINI::Instance()[kFileSecond] = 60*60;
mINI::Instance()[kFilePath] = "./www";
mINI::Instance()[kFileBufSize] = 64 * 1024;
mINI::Instance()[kFastStart] = false;
mINI::Instance()[kFileRepeat] = false;
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},nullptr);
} //namespace Record
////////////HLS相关配置///////////
namespace Hls {
#define HLS_FIELD "hls."
//HLS切片时长,单位秒
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const string kSegmentDuration = HLS_FIELD"segDur";
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//HLS切片个数
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const string kSegmentNum = HLS_FIELD"segNum";
//HLS切片从m3u8文件中移除后继续保留在磁盘上的个数
const string kSegmentRetain = HLS_FIELD"segRetain";
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//HLS文件写缓存大小
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const string kFileBufSize = HLS_FIELD"fileBufSize";
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//录制文件路径
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const string kFilePath = HLS_FIELD"filePath";
// 是否广播 ts 切片完成通知
const string kBroadcastRecordTs = HLS_FIELD"broadcastRecordTs";
//hls直播文件删除延时单位秒
const string kDeleteDelaySec = HLS_FIELD"deleteDelaySec";
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onceToken token([](){
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mINI::Instance()[kSegmentDuration] = 2;
mINI::Instance()[kSegmentNum] = 3;
mINI::Instance()[kSegmentRetain] = 5;
mINI::Instance()[kFileBufSize] = 64 * 1024;
mINI::Instance()[kFilePath] = "./www";
mINI::Instance()[kBroadcastRecordTs] = false;
mINI::Instance()[kDeleteDelaySec] = 0;
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},nullptr);
} //namespace Hls
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////////////Rtp代理相关配置///////////
namespace RtpProxy {
#define RTP_PROXY_FIELD "rtp_proxy."
//rtp调试数据保存目录
const string kDumpDir = RTP_PROXY_FIELD"dumpDir";
//rtp接收超时时间
const string kTimeoutSec = RTP_PROXY_FIELD"timeoutSec";
onceToken token([](){
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mINI::Instance()[kDumpDir] = "";
mINI::Instance()[kTimeoutSec] = 15;
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},nullptr);
} //namespace RtpProxy
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namespace Client {
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const string kNetAdapter = "net_adapter";
const string kRtpType = "rtp_type";
const string kRtspUser = "rtsp_user" ;
const string kRtspPwd = "rtsp_pwd";
const string kRtspPwdIsMD5 = "rtsp_pwd_md5";
const string kTimeoutMS = "protocol_timeout_ms";
const string kMediaTimeoutMS = "media_timeout_ms";
const string kBeatIntervalMS = "beat_interval_ms";
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const string kBenchmarkMode = "benchmark_mode";
const string kWaitTrackReady = "wait_track_ready";
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}
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} // namespace mediakit
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#ifdef ENABLE_MEM_DEBUG
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extern "C" {
extern void *__real_malloc(size_t);
extern void __real_free(void *);
extern void *__real_realloc(void *ptr, size_t c);
void *__wrap_malloc(size_t c);
void __wrap_free(void *ptr);
void *__wrap_calloc(size_t __nmemb, size_t __size);
void *__wrap_realloc(void *ptr, size_t c);
}
#define BLOCK_TYPES 16
#define MIN_BLOCK_SIZE 128
static int get_mem_block_type(size_t c) {
int ret = 0;
while (c > MIN_BLOCK_SIZE && ret + 1 < BLOCK_TYPES) {
c >>= 1;
++ret;
}
return ret;
}
std::vector<size_t> getBlockTypeSize() {
std::vector<size_t> ret;
ret.resize(BLOCK_TYPES);
size_t block_size = MIN_BLOCK_SIZE;
for (auto i = 0; i < BLOCK_TYPES; ++i) {
ret[i] = block_size;
block_size <<= 1;
}
return ret;
}
class MemThreadInfo {
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public:
using Ptr = std::shared_ptr<MemThreadInfo>;
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atomic<uint64_t> mem_usage{0};
atomic<uint64_t> mem_block{0};
atomic<uint64_t> mem_block_map[BLOCK_TYPES];
static MemThreadInfo *Instance(bool is_thread_local) {
if (!is_thread_local) {
static auto instance = new MemThreadInfo(is_thread_local);
return instance;
}
static auto thread_local instance = new MemThreadInfo(is_thread_local);
return instance;
}
~MemThreadInfo() {
//printf("%s %d\r\n", __FUNCTION__, (int) _is_thread_local);
}
MemThreadInfo(bool is_thread_local) {
_is_thread_local = is_thread_local;
if (_is_thread_local) {
//确保所有线程退出后才能释放全局内存统计器
total_mem = Instance(false);
}
//printf("%s %d\r\n", __FUNCTION__, (int) _is_thread_local);
}
void *operator new(size_t sz) {
return __real_malloc(sz);
}
void operator delete(void *ptr) {
__real_free(ptr);
}
void addBlock(size_t c) {
if (total_mem) {
total_mem->addBlock(c);
}
mem_usage += c;
++mem_block_map[get_mem_block_type(c)];
++mem_block;
}
void delBlock(size_t c) {
if (total_mem) {
total_mem->delBlock(c);
}
mem_usage -= c;
--mem_block_map[get_mem_block_type(c)];
if (0 == --mem_block) {
delete this;
}
}
private:
bool _is_thread_local;
MemThreadInfo *total_mem = nullptr;
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};
class MemThreadInfoLocal {
public:
MemThreadInfoLocal() {
ptr = MemThreadInfo::Instance(true);
ptr->addBlock(1);
}
~MemThreadInfoLocal() {
ptr->delBlock(1);
}
MemThreadInfo *get() const {
return ptr;
}
private:
MemThreadInfo *ptr;
};
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//该变量主要确保线程退出后才能释放MemThreadInfo变量
static thread_local MemThreadInfoLocal s_thread_mem_info;
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uint64_t getTotalMemUsage() {
return MemThreadInfo::Instance(false)->mem_usage.load();
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}
uint64_t getTotalMemBlock() {
return MemThreadInfo::Instance(false)->mem_block.load();
}
uint64_t getTotalMemBlockByType(int type) {
assert(type < BLOCK_TYPES);
return MemThreadInfo::Instance(false)->mem_block_map[type].load();
}
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uint64_t getThisThreadMemUsage() {
return MemThreadInfo::Instance(true)->mem_usage.load();
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}
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uint64_t getThisThreadMemBlock() {
return MemThreadInfo::Instance(true)->mem_block.load();
}
uint64_t getThisThreadMemBlockByType(int type) {
assert(type < BLOCK_TYPES);
return MemThreadInfo::Instance(true)->mem_block_map[type].load();
}
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class MemCookie {
public:
static constexpr uint32_t kMagic = 0xFEFDFCFB;
uint32_t magic;
uint32_t size;
MemThreadInfo* alloc_info;
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char ptr;
};
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#define MEM_OFFSET offsetof(MemCookie, ptr)
#if (defined(__linux__) && !defined(ANDROID)) || defined(__MACH__)
#define MAX_STACK_FRAMES 128
#define MEM_WARING
#include <limits.h>
#include <sys/resource.h>
#include <sys/wait.h>
#include <execinfo.h>
static void print_mem_waring(size_t c) {
void *array[MAX_STACK_FRAMES];
int size = backtrace(array, MAX_STACK_FRAMES);
char **strings = backtrace_symbols(array, size);
printf("malloc big memory:%d, back trace:\r\n", (int)c);
for (int i = 0; i < size; ++i) {
printf("[%d]: %s\r\n", i, strings[i]);
}
__real_free(strings);
}
#endif
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static void init_cookie(MemCookie *cookie, size_t c) {
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cookie->magic = MemCookie::kMagic;
cookie->size = c;
cookie->alloc_info = s_thread_mem_info.get();
cookie->alloc_info->addBlock(c);
#if defined(MEM_WARING)
static auto env = getenv("MEM_WARN_SIZE");
static size_t s_mem_waring_size = atoll(env ? env : "0");
if (s_mem_waring_size > 1024 && c >= s_mem_waring_size) {
print_mem_waring(c);
}
#endif
}
static void un_init_cookie(MemCookie *cookie) {
cookie->alloc_info->delBlock(cookie->size);
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}
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void *__wrap_malloc(size_t c) {
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c += MEM_OFFSET;
auto cookie = (MemCookie *) __real_malloc(c);
if (cookie) {
init_cookie(cookie, c);
return &cookie->ptr;
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}
return nullptr;
}
void __wrap_free(void *ptr) {
if (!ptr) {
return;
}
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auto cookie = (MemCookie *) ((char *) ptr - MEM_OFFSET);
if (cookie->magic != MemCookie::kMagic) {
__real_free(ptr);
return;
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}
un_init_cookie(cookie);
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__real_free(cookie);
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}
void *__wrap_calloc(size_t __nmemb, size_t __size) {
auto size = __nmemb * __size;
auto ret = malloc(size);
if (ret) {
memset(ret, 0, size);
}
return ret;
}
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void *__wrap_realloc(void *ptr, size_t c) {
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if (!ptr) {
return malloc(c);
}
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auto cookie = (MemCookie *) ((char *) ptr - MEM_OFFSET);
if (cookie->magic != MemCookie::kMagic) {
return __real_realloc(ptr, c);
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}
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un_init_cookie(cookie);
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c += MEM_OFFSET;
cookie = (MemCookie *) __real_realloc(cookie, c);
if (cookie) {
init_cookie(cookie, c);
return &cookie->ptr;
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}
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return nullptr;
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}
void *operator new(std::size_t size) {
auto ret = malloc(size);
if (ret) {
return ret;
}
throw std::bad_alloc();
}
void operator delete(void *ptr) noexcept {
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free(ptr);
}
void operator delete(void *ptr, std::size_t) noexcept {
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free(ptr);
}
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void *operator new[](std::size_t size) {
auto ret = malloc(size);
if (ret) {
return ret;
}
throw std::bad_alloc();
}
void operator delete[](void *ptr) noexcept {
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free(ptr);
}
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void operator delete[](void *ptr, std::size_t) noexcept {
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free(ptr);
}
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#endif