/* * Copyright (c) 2016-present The ZLMediaKit project authors. All Rights Reserved. * * This file is part of ZLMediaKit(https://github.com/ZLMediaKit/ZLMediaKit). * * Use of this source code is governed by MIT-like 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 #include #include "mk_util.h" #include "Util/util.h" #include "Util/mini.h" #include "Util/logger.h" #include "Util/TimeTicker.h" #include "Poller/EventPoller.h" #include "Thread/WorkThreadPool.h" #include "Common/config.h" using namespace std; using namespace toolkit; using namespace mediakit; API_EXPORT void API_CALL mk_free(void *ptr) { free(ptr); } API_EXPORT char* API_CALL mk_util_get_exe_path(){ return _strdup(exePath().data()); } API_EXPORT char* API_CALL mk_util_get_exe_dir(const char *relative_path){ if(relative_path){ return _strdup((exeDir() + relative_path).data()); } return _strdup(exeDir().data()); } API_EXPORT uint64_t API_CALL mk_util_get_current_millisecond(){ return getCurrentMillisecond(); } API_EXPORT char* API_CALL mk_util_get_current_time_string(const char *fmt){ assert(fmt); return _strdup(getTimeStr(fmt).data()); } API_EXPORT char* API_CALL mk_util_hex_dump(const void *buf, int len){ assert(buf && len > 0); return _strdup(hexdump(buf,len).data()); } API_EXPORT mk_ini API_CALL mk_ini_create() { return (mk_ini)new mINI; } API_EXPORT mk_ini API_CALL mk_ini_default() { return (mk_ini)&(mINI::Instance()); } static void emit_ini_file_reload(mk_ini ini) { if (ini == mk_ini_default()) { // 广播配置文件热加载 [AUTO-TRANSLATED:86a0c1be] // Broadcast configuration hot reload NOTICE_EMIT(BroadcastReloadConfigArgs, Broadcast::kBroadcastReloadConfig); } } API_EXPORT void API_CALL mk_ini_load_string(mk_ini ini, const char *str) { assert(str); auto ptr = (mINI *)ini; ptr->parse(str); emit_ini_file_reload(ini); } API_EXPORT void API_CALL mk_ini_load_file(mk_ini ini, const char *file) { assert(file); auto ptr = (mINI *)ini; ptr->parseFile(file); emit_ini_file_reload(ini); } API_EXPORT void API_CALL mk_ini_release(mk_ini ini) { assert(ini); delete (mINI *)ini; } API_EXPORT void API_CALL mk_ini_set_option(mk_ini ini, const char *key, const char *value) { assert(ini && key && value); auto ptr = (mINI *)ini; (*ptr)[key] = value; emit_ini_file_reload(ini); } API_EXPORT void API_CALL mk_ini_set_option_int(mk_ini ini, const char *key, int value) { assert(ini && key); auto ptr = (mINI *)ini; (*ptr)[key] = value; emit_ini_file_reload(ini); } API_EXPORT const char *API_CALL mk_ini_get_option(mk_ini ini, const char *key) { assert(ini && key); auto ptr = (mINI *)ini; auto it = ptr->find(key); if (it == ptr->end()) { return nullptr; } return it->second.data(); } API_EXPORT int API_CALL mk_ini_del_option(mk_ini ini, const char *key) { assert(ini && key); auto ptr = (mINI *)ini; auto it = ptr->find(key); if (it == ptr->end()) { return false; } ptr->erase(it); emit_ini_file_reload(ini); return true; } API_EXPORT char *API_CALL mk_ini_dump_string(mk_ini ini) { assert(ini); auto ptr = (mINI *)ini; return _strdup(ptr->dump().data()); } API_EXPORT void API_CALL mk_ini_dump_file(mk_ini ini, const char *file) { assert(ini && file); auto ptr = (mINI *)ini; ptr->dumpFile(file); } extern uint64_t getTotalMemUsage(); extern uint64_t getTotalMemBlock(); extern uint64_t getThisThreadMemUsage(); extern uint64_t getThisThreadMemBlock(); extern std::vector getBlockTypeSize(); extern uint64_t getTotalMemBlockByType(int type); extern uint64_t getThisThreadMemBlockByType(int type); namespace mediakit { class MediaSource; class MultiMediaSourceMuxer; class FrameImp; class Frame; class RtpPacket; class RtmpPacket; } // namespace mediakit namespace toolkit { class TcpServer; class TcpSession; class UdpServer; class UdpSession; class TcpClient; class Socket; class Buffer; class BufferRaw; class BufferLikeString; class BufferList; } // namespace toolkit API_EXPORT void API_CALL mk_get_statistic(on_mk_get_statistic_cb func, void *user_data, on_user_data_free free_cb) { assert(func); std::shared_ptr data(user_data, free_cb); auto cb = [func, data](const toolkit::mINI &ini) { func(data.get(), (mk_ini)&ini); }; auto obj = std::make_shared(); auto &val = *obj; val["object.MediaSource"] = ObjectStatistic::count(); val["object.MultiMediaSourceMuxer"] = ObjectStatistic::count(); val["object.TcpServer"] = ObjectStatistic::count(); val["object.TcpSession"] = ObjectStatistic::count(); val["object.UdpServer"] = ObjectStatistic::count(); val["object.UdpSession"] = ObjectStatistic::count(); val["object.TcpClient"] = ObjectStatistic::count(); val["object.Socket"] = ObjectStatistic::count(); val["object.FrameImp"] = ObjectStatistic::count(); val["object.Frame"] = ObjectStatistic::count(); val["object.Buffer"] = ObjectStatistic::count(); val["object.BufferRaw"] = ObjectStatistic::count(); val["object.BufferLikeString"] = ObjectStatistic::count(); val["object.BufferList"] = ObjectStatistic::count(); val["object.RtpPacket"] = ObjectStatistic::count(); val["object.RtmpPacket"] = ObjectStatistic::count(); #ifdef ENABLE_MEM_DEBUG auto bytes = getTotalMemUsage(); val["memory.memUsage"] = bytes; val["memory.memUsageMB"] = (int)(bytes >> 20); val["memory.memBlock"] = 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["memory.memBlockTypeCount"] = str; } #endif auto thread_size = EventPollerPool::Instance().getExecutorSize() + WorkThreadPool::Instance().getExecutorSize(); std::shared_ptr> thread_mem_info = std::make_shared>(thread_size); shared_ptr finished(nullptr, [thread_mem_info, cb, obj](void *) { for (auto &val : *thread_mem_info) { auto thread_name = val["name"]; replace(thread_name, "...", "~~~"); auto prefix = "thread-" + thread_name + "."; for (auto &pr : val) { (*obj).emplace(prefix + pr.first, std::move(pr.second)); } } // 触发回调 [AUTO-TRANSLATED:ae2ff258] // Trigger callback cb(*obj); }); auto pos = 0; auto lambda = [&](const TaskExecutor::Ptr &executor) { auto &val = (*thread_mem_info)[pos++]; val["load"] = executor->load(); Ticker ticker; executor->async([finished, &val, ticker]() { val["name"] = getThreadName(); val["delay"] = ticker.elapsedTime(); #ifdef ENABLE_MEM_DEBUG auto bytes = getThisThreadMemUsage(); val["memUsage"] = bytes; val["memUsageMB"] = bytes >> 20; val["memBlock"] = 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["memBlockTypeCount"] = str; } #endif }); }; EventPollerPool::Instance().for_each(lambda); WorkThreadPool::Instance().for_each(lambda); } API_EXPORT void API_CALL mk_log_printf(int level, const char *file, const char *function, int line, const char *fmt, ...) { va_list ap; va_start(ap, fmt); toolkit::LoggerWrapper::printLogV(getLogger(), level, file, function, line, fmt, ap); va_end(ap); }