wsd
/
resistancemonitor


			
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							#pragma once
#include <map>
#include <thread>
#include <string>
#include <list>
#include "AlarmDefine.h"
#include <rapidjson/stringbuffer.h>
#include <mutex>

class CResistAlarm
{
	CResistAlarm();
	~CResistAlarm();

	friend class CResistAlarmMng;

public:


};

typedef struct tagBaseInfo
{
	uint8_t no = 255;    //0, 1, 2 //通道号
	eZL_ALARMTYPE  type = (eZL_ALARMTYPE)0x00;  //报警类型
	bool  enable = false; //报警开关
	time_t tmLastCheckTime = 0;
}BASE_INFO;

typedef struct tagMax_Over_Limit : public tagBaseInfo
{
	int alarm_high_limit = INT_MAX; //锁闭力  定向反
	int warn_high_limit = INT_MAX;	//锁闭力  反向定

	//short d_alarm_high_limit;
	//short d_warn_high_limit;

	int f_alarm_high_limit = INT_MAX;  //保持力  反向定
	int f_warn_high_limit = INT_MAX;  //保持力	反向定
}MAX_OVER_LIMIT_INFO;

typedef struct tagFriction_Over_Limit : public tagBaseInfo
{
	int up_alarm_low_limit = INT_MAX; //上超低限报警值(暂定名称) 整数
	int up_warn_low_limit = INT_MAX;   //上超低限预警值 整数

	int dw_alarm_high_limit = INT_MIN;	//下超高限报警值 整数
	int dw_warn_high_limit = INT_MIN;	//下超高限预警值 整数
}FRICTION_OVER_LIMIT_INFO;

typedef struct tagSuobi_Over_Limit : public tagBaseInfo
{
	int alarm_low_limit = INT_MIN;  //最小告警值
	int warn_low_limit = INT_MIN;	//最小预警值

	int alarm_high_limit = INT_MAX;		//最大告警值
	int warn_high_limit = INT_MAX;		//最大预警值

}SUOBI_OVER_LIMIT_INFO;

typedef struct tagConvertResist_Over_Limit : public tagBaseInfo
{
	int dw_alarm_low_limit = INT_MIN;	//伸出告警值
	int dw_warn_low_limit = INT_MIN;	//伸出预警值

	int up_alarm_high_limit = INT_MAX;  //缩进告警值
	int up_warn_high_limit = INT_MAX;  //缩进预警值
}CONVERT_RESIST_OVER_LIMIT;

typedef struct tagRetension_Force_Drop : public  tagBaseInfo
{
	int dw_alarm_low_drop = INT_MIN;    //最低预警值
	int alarm_low_percent = 20;    //下降百分比报警值
	int alarm_high_percent = 40;    //上升百分比报警值

	time_t tLastCalc = 0;				//上一次计算时间（不参与配置）   //是不是可以用 tmLastCheckTime

	tagRetension_Force_Drop()
	{
		enable = true;
	}

}RETENSION_FORCE_DROP;

//有string 不能拷贝
typedef struct tagAlarmInfo
{
	uint32_t id;   //报警唯一ID
	string mo; //监控对象
	string mp; //监控点
	uint8_t no; //通道
	eZL_ALARMTYPE type;//报警类型
	uint8_t level;      //0 预警  1 报警
	SYSTEMTIME time;   //报警时间
	string desc;	//报警描述
	string suggest; //建议
	int val = 0;
	uint8_t  ack_result = 0;     //是否受理
	string ack_name;		//受理人
	CTime ack_time;		//受理时间
	string event_id;  //事件ID
	string rel_id;    //第一次报警id
	eDaoChaPosi posi = eDaoChaPosi::DCP_UNKNOWN;   //方向
	eLowHigh loworhigh = eLowHigh::LH_UNKNOWN;
	int refer_val = 0;   //报警参数值
	SYSTEMTIME recoveryTime = { 0 };
	uint32_t  zzjno = 0;
	uint8_t  sunroof = 0; //是否天窗
}ALARM_INFO;

//获取报警名称
inline string GetAlarmName(eZL_ALARMTYPE id)
{
	switch (id)
	{
	case eZL_ALARMTYPE::MAX_OVER_LIMIT:
		return "最大值超限";
	case eZL_ALARMTYPE::FRICTION_OVER_LIMIT:
		return "摩擦力超限";
	case eZL_ALARMTYPE::EQUIP_OFFLINE:
		return "设备离线";
	case eZL_ALARMTYPE::SENSOR_ABNORMAL:
		return "传感器异常";
	case eZL_ALARMTYPE::CONVERT_LIMIT:
		return "转换阻力超限";
	case eZL_ALARMTYPE::SUOBI_LOCK_LIMIT:
		return "锁闭力超限";
	case eZL_ALARMTYPE::RETENSION_FORCE:
		return "保持力异常告警";
	default:
		return "未知";
	}
}

typedef struct eCalcMoveInfo
{
	string imei;
	uint8_t idx;
	string mo;
	string mp;
	eCalcMoveInfo(string a, uint8_t b, string c, string d)
	{
		imei = a;
		idx = b;
		mo = c;
		mp = d;
	}
}CALC_MOVE_INFO;


BOOL ConmpareValue(std::map<time_t, int>::const_iterator i, std::map<time_t, int>::const_iterator j, int refer_value, int& hight_num, int& low_num);

class CResistAlarmMng
{
	 CResistAlarmMng();

	 ~CResistAlarmMng();

	 friend class CLWSServer;

	 friend class CMGDataHandler;

public:

	static CResistAlarmMng* Instance() { return &obj; }

	BOOL Start();

	void Stop();

	//BASE_INFO* Find(string momp, uint8_t no, uint8_t type);

	BASE_INFO* Find(string mo, string mp, uint8_t no, eZL_ALARMTYPE type);

	bool Insert(string mo, string mp, uint8_t no, uint8_t type, BASE_INFO* info);

	//bool Insert(const string& momp, uint8_t no, uint8_t type, BASE_INFO* info);

	//bool ConfirmAlarm(string mo, string mp, uint8_t no, uint8_t type, const SYSTEMTIME& st);
	//受理报警
	bool AckAlarm(int alarm_id, string& name, CTime& time);
	//处理报警
	bool HandleAlarm(int alarm_id);

	//外部调用产生报警
	void GeneralAlarm(string mo, string mp, uint8_t no, eZL_ALARMTYPE type, uint8_t level, SYSTEMTIME& tAlarm);
	//外部调用恢复报警
	void RecoverAlarm(const string mo, const string mp, const uint8_t no, const eZL_ALARMTYPE type, const uint8_t level, const SYSTEMTIME& tAlarm);

	static bool AlarmInfo2Pack(const ALARM_INFO* pAlarmInfo, rapidjson::StringBuffer& strBuf, bool bGb2312 = false);

	eZL_MP_STAT GetAlarmStat(string& mo, string& mp, SYSTEMTIME& stAlarm);

	inline void InsertCalcMoveInfo(string imei, uint8_t idx, string mo, string mp)
	{
		m_lstCalcMoveInfo.emplace_back(imei, idx, mo, mp);
	}

	//序列化
	uint32_t  GeneralAlarmSet(uint8_t** pack, int* len);
	uint32_t  GeneralUnAck(uint8_t** pack, int* len);
	static uint32_t  GeneralNewAlarmData(ALARM_INFO *pAlarmInfo, uint8_t** pack, int* len);

private:
	static CResistAlarmMng obj; 

	static void InsertToDBByMove(string mo, string mp, time_t show_time, time_t start_time, time_t end_time, 
		int curr_val, int show_val, uint8_t idx, uint8_t posi, uint8_t type, string mark);

	static void JudgeAlarm(CResistAlarmMng* pService, SUOBI_OVER_LIMIT_INFO* pSuobiOverInfo,
		time_t show_time, int show_val, eSuoBiPosi posi, string mo, string mp, uint32_t zzjno);

	static void JudgeAlarm(CResistAlarmMng* pService, CONVERT_RESIST_OVER_LIMIT* pConvertResistOverLimitInfo,
		time_t show_time, int show_val, eDaoChaPosi posi, eUpOrDownInfo eUpOrDown, string mo, string mp, uint32_t zzjno);

	static void JudgeAlarm(CResistAlarmMng* pService, RETENSION_FORCE_DROP* pRetensionForceDropInfo,
		time_t show_time, int show_val, eSuoBiPosi posi, string mo, string mp, uint32_t zzjno);

	static void JudgeAlarm1(CResistAlarmMng* pService, RETENSION_FORCE_DROP* pRetensionForceDropInfo,
		time_t show_time, int show_val, eSuoBiPosi posi, string mo, string mp, uint32_t zzjno);

	//判断报警，且保存数据
	static void JudgeAlarm(CResistAlarmMng* pService, RETENSION_FORCE_DROP* pConstRetensionForceWaveInfo,
		time_t show_time, int show_val, eSuoBiPosi posi, string mo, string mp, uint32_t zzjno, void* pMoMpInfo);

	//报警规则检测线程
	static void ThreadProcAlarmSet(DWORD_PTR);
	//设备报警检测线程
	static void ThreadProcDevice(DWORD_PTR);
	//扳动线程检测线程
	static void ThreadProcMove(DWORD_PTR);

	BOOL LoadAlarmSet();

	BOOL LoadAlarmID();

	BOOL LoadUnAck();
	//报警ID
	int m_nAlarmID = 0;

	time_t m_lastDetectTime = 0;

	time_t m_lastDetectMove = 0;

	time_t m_lastDetectDrop = 0;

	bool m_bWork = false;
	//报警规则检测线程
	std::thread *m_pThreadAlarmSet = nullptr;
	//设备报警检测线程
	std::thread* m_pThreadDevice = nullptr;
	//扳动线程检测
	std::thread* m_pThreadMove = nullptr;
	//计算阻力值和锁闭力值
	std::list<CALC_MOVE_INFO> m_lstCalcMoveInfo;  

	//报警参数 mo.mp
	std::map<std::string, BASE_INFO*> m_alarm_set;
	//未确认报警
	std::mutex m_mtxAlarm;
	std::list<ALARM_INFO*> m_lstUnConfirmAlarm;  //未受理报警和未恢复集合
};