#include "stdafx.h" #include "Device.h" #include #include #include using namespace std; CDevice::CDevice() { memset(&m_sensor_status, (int)SENSOR_STATUS::UNKONW, sizeof(m_sensor_status)); } CDevice::~CDevice() { } void CDevice::Insert(int index, time_t time, int data0, int data1, int data2) { //if (m_tmMoveDetectTime == 0) m_tmMoveDetectTime = time / 10000 * 10; lock_guard lock(m_mtx); this->imei; if (index == 0) { InsertData(map_resist_idx00, time, data0); InsertData(m_mapSecondStatInfo00, time, data0); InsertData(map_resist_idx01, time, data1); InsertData(m_mapSecondStatInfo01, time, data1); InsertData(map_resist_idx02, time, data2); InsertData(m_mapSecondStatInfo02, time, data2); } else if (index == 1) { InsertData(map_resist_idx10, time, data0); InsertData(m_mapSecondStatInfo10, time, data0); InsertData(map_resist_idx11, time, data1); InsertData(m_mapSecondStatInfo11, time, data1); InsertData(map_resist_idx12, time, data2); InsertData(m_mapSecondStatInfo12, time, data2); } else if (index == 2) { InsertData(map_resist_idx20, time, data0); InsertData(m_mapSecondStatInfo20, time, data0); InsertData(map_resist_idx21, time, data1); InsertData(m_mapSecondStatInfo21, time, data1); InsertData(map_resist_idx22, time, data2); InsertData(m_mapSecondStatInfo22, time, data2); } else { assert(0); } } void CDevice::LoadHist() { if (imei.length() <= 5) return; CString sql; /* return; // 暂时不加载历史数据 auto start = chrono::steady_clock::now(); SYSTEMTIME stNow; GetLocalTime(&stNow); char tablename[300] = { 0 }; sprintf_s(tablename, 50, "rm_resistance_%04d%02d%02d", stNow.wYear, stNow.wMonth, stNow.wDay); #ifdef _DEBUG sql.Format("SELECT TOP 1000 [acquisitiontime],[idx],[data0],[data1],[data2] FROM %s WHERE IMEI = '%s' order by acquisitiontime, idx", tablename, imei.c_str()); #else sql.Format("SELECT [acquisitiontime],[idx],[data0],[data1],[data2] FROM %s WHERE IMEI = '%s' AND acquisitiontime > dateadd(hour,-1,GETDATE()) order by acquisitiontime, idx", tablename, imei.c_str()); #endif // _DEBUG COdbcStatement stmt; #ifndef _DEBUG if (!CDBConnectPool::Instance()->DBQuery(stmt, sql)) { CSimpleLog::Error("sql语句执行失败:" + sql); return; } TIMESTAMP_STRUCT ts; uint8_t idx; int data0, data1, data2; int nCol = 1; stmt.BindTimeStampCol(nCol++, &ts); stmt.BindTinyIntCol(nCol++, &idx); stmt.BindIntCol(nCol++, &data0); stmt.BindIntCol(nCol++, &data1); stmt.BindIntCol(nCol++, &data2); do { if (stmt.FetchNext() != 0) break; CTime ctTime; try { ctTime = CTime(ts.year, ts.month, ts.day, ts.hour, ts.minute, ts.second); } catch (...) { continue; } time_t tt = ctTime.GetTime() * 1000 + ts.fraction / 1000000; Insert(idx, tt, data0, data1, data2); } while (true); this->map_resist_idx00, this->map_resist_idx01, this->map_resist_idx02; auto dif = chrono::duration_cast(chrono::steady_clock::now() - start).count(); if (dif > 100) { sprintf_s(tablename, 300, "执行语句耗时:(%I64d)ms.(%s)", dif, (LPCSTR)sql); CSimpleLog::Info(tablename); } #endif // _DEBUG */ //加载设备心跳时间 { TIMESTAMP_STRUCT ts; COdbcStatement stmt; sql.Format("SELECT updatetime FROM rm_deviceinfo WHERE IMEI = '%s';", imei.c_str()); if (CDBConnectPool::Instance()->DBQuery(stmt, sql)) { stmt.BindTimeStampCol(1, &ts); if (stmt.FetchNext() == 0) { try { m_ctUpdateTime = CTime(ts.year, ts.month, ts.day, ts.hour, ts.minute, ts.second); } catch (...) {}; } } else { CSimpleLog::Error("sql语句执行失败:" + sql); } } } std::map* CDevice::GetMapData(uint8_t idx, uint8_t no) { if (idx > 2 || no > 2) return nullptr; else if (idx == 0 && no == 0) return &map_resist_idx00; else if (idx == 0 && no == 1) return &map_resist_idx01; else if (idx == 0 && no == 2) return &map_resist_idx02; else if (idx == 1 && no == 0) return &map_resist_idx10; else if (idx == 1 && no == 1) return &map_resist_idx11; else if (idx == 1 && no == 2) return &map_resist_idx12; else if (idx == 2 && no == 0) return &map_resist_idx20; else if (idx == 2 && no == 1) return &map_resist_idx21; else if (idx == 2 && no == 2) return &map_resist_idx22; return nullptr; } std::map* CDevice::GetStatInfo(uint8_t idx, uint8_t no) { if (idx > 2 || no > 2) return nullptr; else if (idx == 0 && no == 0) return &m_mapSecondStatInfo00; else if (idx == 0 && no == 1) return &m_mapSecondStatInfo01; else if (idx == 0 && no == 2) return &m_mapSecondStatInfo02; else if (idx == 1 && no == 0) return &m_mapSecondStatInfo10; else if (idx == 1 && no == 1) return &m_mapSecondStatInfo11; else if (idx == 1 && no == 2) return &m_mapSecondStatInfo12; else if (idx == 2 && no == 0) return &m_mapSecondStatInfo20; else if (idx == 2 && no == 1) return &m_mapSecondStatInfo21; else if (idx == 2 && no == 2) return &m_mapSecondStatInfo22; return nullptr; } BOOL CDevice::IsDeviceOnline(uint8_t idx, time_t tmNow, int inteval) { if (idx == 0) { if (tmNow - m_tmUpdateTime0 < inteval) return TRUE; } else if (idx == 1) { if (tmNow - m_tmUpdateTime0 < inteval) return TRUE; } else if (idx == 2) { if (tmNow - m_tmUpdateTime0 < inteval) return TRUE; } return FALSE; } CDeviceMng::CDeviceMng() { } CDeviceMng::~CDeviceMng() { lock_guard lock(m_mtx); for (auto& it : m_map_devices) { delete it.second; it.second = nullptr; } m_map_devices.clear(); } CDevice* CDeviceMng::Insert(std::string imei) { lock_guard lock(m_mtx); auto it = m_map_devices.find(imei); if (it == m_map_devices.end()) { auto ret = m_map_devices.insert(make_pair(imei, new CDevice)); assert(ret.second == true); if (ret.second) { ret.first->second->imei = imei; ret.first->second->LoadHist(); return ret.first->second; } else delete ret.first->second; return nullptr; } else { return it->second; } } CDevice* CDeviceMng::Find(std::string imei) { lock_guard lock(m_mtx); auto it = m_map_devices.find(imei); if (it == m_map_devices.end()) return nullptr; else return it->second; } BOOL CDeviceMng::IsDeviceOnline(std::string imei, int8_t idx, int interval /*= 180000*/) { time_t tmNow; time(&tmNow); lock_guard lock(m_mtx); auto it = m_map_devices.find(imei); if (it == m_map_devices.end()) return FALSE; return it->second->IsDeviceOnline(idx, tmNow, interval); } CDeviceMng CDeviceMng::obj;