package Device import ( "ColdVerify_server/conf" "ColdVerify_server/lib" "ColdVerify_server/logs" "encoding/json" "fmt" "github.com/astaxie/beego/cache" _ "github.com/astaxie/beego/cache/redis" "github.com/beego/beego/v2/adapter/orm" orm2 "github.com/beego/beego/v2/client/orm" _ "github.com/go-sql-driver/mysql" "strconv" "strings" "time" ) // 模板 type DeviceData struct { Id int `orm:"column(ID);size(11);auto;pk"` T_id string `orm:"size(256);null"` // 标题 T_t float32 `orm:"size(10);null"` // 温度 T_rh float32 `orm:"size(10);null"` // 湿度 T_time time.Time `orm:"type(timestamp);null;"` // 采集时间 CreateTime time.Time `orm:"column(create_time);type(timestamp);null;auto_now_add"` //auto_now_add 第一次保存时才设置时间 UpdateTime time.Time `orm:"column(update_time);type(timestamp);null;auto_now"` //auto_now 每次 model 保存时都会对时间自动更新 } func (t *DeviceData) TableName() string { return "device_data" // 数据库名称 // ************** 替换 FormulaList ************** } var redisCache_DeviceData cache.Cache var redisCache_DeviceDataJPG cache.Cache func init() { config := fmt.Sprintf(`{"key":"%s","conn":"%s","dbNum":"%s","password":"%s"}`, "redis_DeviceData", conf.Redis_address, conf.Redis_dbNum, conf.Redis_password) configJPG := fmt.Sprintf(`{"key":"%s","conn":"%s","dbNum":"%s","password":"%s"}`, "redis_DeviceDataJPG", conf.Redis_address, conf.Redis_dbNum, conf.Redis_password) logs.Println(config) var err error redisCache_DeviceData, err = cache.NewCache("redis", config) if err != nil || redisCache_DeviceData == nil { errMsg := "failed to init redis" logs.Println(errMsg, err) } redisCache_DeviceDataJPG, err = cache.NewCache("redis", configJPG) if err != nil || redisCache_DeviceDataJPG == nil { errMsg := "failed to init redis" logs.Println(errMsg, err) } } func DeviceData_Set(key string) (err error) { err = redisCache_DeviceData.Put(key, "", 2*time.Hour) if err != nil { logs.Println("set key:", key, err) } return } // ---------------- Redis ------------------- // Redis_Set(m.T_sn,m) // Redis 更新缓存 func RedisDeviceData_Set(key string, r DeviceData_New) (err error) { //json序列化 str, err := json.Marshal(r) if err != nil { logs.Error(lib.FuncName(), err) return } err = redisCache_DeviceData.Put(key, str, 24*time.Hour) if err != nil { logs.Println("set key:", key, ",value:", str, err) } return } // if r,is :=Redis_Get(T_sn);is{ // return r,nil // } func RedisDeviceData_Get(key string) (r DeviceData_New, is bool) { v := redisCache_DeviceData.Get(key) json.Unmarshal(v.([]byte), &r) return r, true } type DeviceCount struct { T_id string `json:"T_id"` Num int `json:"Num"` } type DeviceDataJPG struct { State int `json:"State"` //1:生成中 2:已完成 3:失败 Msg string `json:"Msg"` Url string `json:"Url"` //url Device []DeviceCount `json:"Device"` } // ---------------- Redis ------------------- // Redis_Set(m.T_sn,m) // Redis 更新缓存 func Redis_DeviceDataJPG_Set(key string, r DeviceDataJPG) (err error) { //json序列化 str, err := json.Marshal(r) if err != nil { logs.Error(lib.FuncName(), err) return } err = redisCache_DeviceDataJPG.Put(key, str, 5*time.Minute) if err != nil { logs.Println("set key:", key, ",value:", str, err) } return } // if r,is :=Redis_Get(T_sn);is{ // return r,nil // } func Redis_DeviceDataJPG_Get(key string) (r DeviceDataJPG, is bool) { if redisCache_DeviceDataJPG.IsExist(key) { logs.Println("找到key:", key) v := redisCache_DeviceDataJPG.Get(key) json.Unmarshal(v.([]byte), &r) return r, true } logs.Println("没有 找到key:", key) return DeviceDataJPG{}, false } func Redis_DeviceDataJPG_Del(key string) (err error) { err = redisCache_DeviceDataJPG.Delete(key) return } // 创建数据库 Device.CREATE_DeviceData("") func CREATE_DeviceData(SN string) bool { o := orm.NewOrm() sql := "CREATE TABLE IF NOT EXISTS `z_device_data_" + SN + "` ( " + " `ID` int(11) NOT NULL AUTO_INCREMENT," + " `t_id` int(11) NULL DEFAULT NULL," + " `t_t` float(6, 1) NULL DEFAULT NULL," + " `t_rh` float(6, 1) NULL DEFAULT NULL," + " `t_time` datetime(0) NULL DEFAULT NULL," + " `create_time` datetime(0) NOT NULL DEFAULT CURRENT_TIMESTAMP(0)," + " PRIMARY KEY (`ID`) USING BTREE" + ") ENGINE = InnoDB AUTO_INCREMENT = 5 CHARACTER SET = utf8mb4 COLLATE = utf8mb4_general_ci ROW_FORMAT = Dynamic;" _, err := o.Raw(sql).Exec() if err != nil { return false } return true } // ---------------- 特殊方法 ------------------- // 获取 ById //func Read_List_ById(id int) (r DeviceData) { // o := orm.NewOrm() // // return r //} // //// 添加 //func Add_DeviceData(SN string, t_id string, t_t string, t_rh string, t_time string) bool { // key := SN + "|" + t_id + "|" + t_time // //logs.Println(key) // if redisCache_DeviceData.IsExist(key) { // //println("找到key:",key) // return true // } // //println("没有 找到key:",key) // // o := orm.NewOrm() // // 查看是否 有记录 // var maps_z []orm2.ParamsList // // sql := "SELECT COUNT(*) FROM z_devicedata_" + SN + " WHERE t_time = '" + t_time + "' AND t_id = " + t_id // //logs.Println(sql) // _, err := o.Raw(sql).ValuesList(&maps_z) // // if err != nil { // logs.Error(lib.FuncName(),err) // return false // } // //logs.Println("maps_z[0][0]:",maps_z[0][0]) // if lib.To_int(maps_z[0][0]) > 0 { // // 存在 写入 redis // DeviceData_Set(key) // return true // } // // 开始插入数据 // sql = "INSERT INTO z_devicedata_" + SN + " (`t_id`, `t_t`, `t_rh`, `t_time`) VALUES (" + t_id + ", " + t_t + ", " + t_rh + ", '" + t_time + "')" // // 这里有时间优化 用于一次 prepare 多次 exec,以提高批量执行的速度 // //logs.Println(sql) // res, err := o.Raw(sql).Exec() // if err != nil { // logs.Error(lib.FuncName(),err) // return false // } // res.RowsAffected() // // 存在 写入 redis // DeviceData_Set(key) // //logs.Println("mysql row affected nums: ", num) // return true //} type DeviceData_ struct { T_t float32 `orm:"column(t_t);size(10);null"` // 温度 T_rh float32 `orm:"column(t_rh);size(10);null"` // 湿度 T_time string `orm:"column(t_time);type(timestamp);null;"` // 采集时间 } type DeviceData_New struct { T_id int `orm:"column(t_id);size(10);null"` // ID T_t float32 `orm:"column(t_t);size(10);null"` // 温度 T_rh float32 `orm:"column(t_rh);size(10);null"` // 湿度 T_time time.Time `orm:"column(t_time);type(timestamp);null;"` // 采集时间 } func Read_DeviceSensorData_ById_List(SN string, Time_start_ string, Time_end_ string, page int, page_z int) ([]DeviceData_, int) { o := orm.NewOrm() var maps []DeviceData_ var maps_z []orm2.ParamsList pagez := page_z if len(SN) == 0 { return maps, 0 } var offset int if page <= 1 { offset = 0 } else { page -= 1 offset = page * pagez } sql_time := "" if len(Time_start_) > 1 { sql_time += " t_time >= '" + Time_start_ + "' AND " } if len(Time_end_) > 1 { sql_time += " t_time <= '" + Time_end_ + "' AND " } if len(sql_time) > 0 { sql_time = strings.TrimRight(sql_time, "AND ") } sql := "SELECT COUNT(*) FROM z_devicedata_" + SN if len(sql_time) > 0 { sql += " WHERE " + sql_time } logs.Println(sql) _, err := o.Raw(sql).ValuesList(&maps_z) if err != nil { return maps, 0 } if len(maps_z) == 0 { return maps, 0 } //logs.Println("maps_z;",maps_z[0][0]) //sql = "SELECT t_id,t_t,t_rh,DATE_FORMAT(t_time,'%Y-%m-%d %H:%i:%s') AS t_time FROM z_devicedata_" + SN sql = "SELECT t_t,t_rh,DATE_FORMAT(t_time,'%Y-%m-%d %H:%i:%s') AS t_time FROM z_devicedata_" + SN if len(sql_time) > 0 { sql += " WHERE " + sql_time } sql += " ORDER BY t_time" if page_z != 9999 { sql = sql + " LIMIT " + strconv.Itoa(offset) + "," + strconv.Itoa(pagez) } logs.Println(sql) _, err = o.Raw(sql).QueryRows(&maps) if err != nil { logs.Println(lib.FuncName(), err) return maps, 0 } //value, _ := strconv.ParseFloat(fmt.Sprintf("%.2f", cnt), 64) key, _ := strconv.Atoi(maps_z[0][0].(string)) return maps, key } func Read_DeviceData_By_snid(SN string, T_id int, Time_start_ string, Time_end_ string, offset, limit int) ([]DeviceData_, int) { var maps []DeviceData_ o := orm.NewOrm() if len(SN) == 0 { return maps, 0 } sql_time := "" if len(Time_start_) > 1 { sql_time += " t_time >= '" + Time_start_ + "' AND " } if len(Time_end_) > 1 { sql_time += " t_time <= '" + Time_end_ + "' AND " } //sql := "SELECT t_id,t_t,t_rh,DATE_FORMAT(t_time,'%Y-%m-%d %H:%i:%s') AS t_time FROM z_devicedata_" + SN + " WHERE " + sql_time + " t_id = " + strconv.Itoa(T_id) + " ORDER BY t_time DESC " sql := "SELECT t_t,t_rh,DATE_FORMAT(t_time,'%Y-%m-%d %H:%i:%s') AS t_time FROM z_devicedata_" + SN + " WHERE " + sql_time + " t_id = " + strconv.Itoa(T_id) + " ORDER BY t_time DESC " sql = sql + " LIMIT " + strconv.Itoa(offset) + "," + strconv.Itoa(limit) logs.Println(sql) _, err := o.Raw(sql).QueryRows(&maps) if err != nil { logs.Println(lib.FuncName(), err) return maps, 0 } return maps, 0 } func Read_DeviceData_Count_By_snid(SN string, T_id int, Time_start_ string, Time_end_ string) int { if len(SN) == 0 { return 0 } o := orm.NewOrm() var maps_z []orm2.ParamsList sql_time := "" if len(Time_start_) > 1 { sql_time += " t_time >= '" + Time_start_ + "' AND " } if len(Time_end_) > 1 { sql_time += " t_time <= '" + Time_end_ + "' AND " } sql := "SELECT COUNT(*) FROM z_devicedata_" + SN + " WHERE " + sql_time + " t_id = " + strconv.Itoa(T_id) logs.Println(sql) _, err := o.Raw(sql).ValuesList(&maps_z) if err != nil { return 0 } if len(maps_z) == 0 { return 0 } key, _ := strconv.Atoi(maps_z[0][0].(string)) return key } func Read_DeviceSensorData_List(SN string, Time_start_ string, Time_end_ string, page int, page_z int) ([]DeviceData_, int) { o := orm.NewOrm() var maps []DeviceData_ var maps_z []orm2.ParamsList pagez := page_z if len(SN) == 0 { return maps, 0 } var offset int if page <= 1 { offset = 0 } else { page -= 1 offset = page * pagez } sql_time := "" if len(Time_start_) > 1 && len(Time_end_) > 1 { sql_time = "WHERE " sql_time += " t_time >= '" + Time_start_ + "' AND " sql_time += " t_time <= '" + Time_end_ + "' " } sql := "SELECT COUNT(*) FROM z_devicedata_" + SN + " " + sql_time logs.Println(sql) _, err := o.Raw(sql).ValuesList(&maps_z) if err != nil { return maps, 0 } if len(maps_z) == 0 { return maps, 0 } //logs.Println("maps_z;",maps_z[0][0]) //sql = "SELECT t_id,t_t,t_rh,DATE_FORMAT(t_time,'%Y-%m-%d %H:%i:%s') AS t_time FROM z_devicedata_" + SN + " " + sql_time + " ORDER BY t_time DESC " sql = "SELECT t_t,t_rh,DATE_FORMAT(t_time,'%Y-%m-%d %H:%i:%s') AS t_time FROM z_devicedata_" + SN + " " + sql_time + " ORDER BY t_time DESC " if page_z != 9999 { sql = sql + " LIMIT " + strconv.Itoa(offset) + "," + strconv.Itoa(pagez) } logs.Println(sql) _, err = o.Raw(sql).QueryRows(&maps) if err != nil { logs.Println(lib.FuncName(), err) return maps, 0 } //value, _ := strconv.ParseFloat(fmt.Sprintf("%.2f", cnt), 64) key, _ := strconv.Atoi(maps_z[0][0].(string)) return maps, key } func Read_DeviceSensorData_List_z(SN string, Time_start_ string) int { if len(SN) == 0 { return 0 } o := orm.NewOrm() var maps_z []orm2.ParamsList sql_time := "" if len(Time_start_) > 1 { sql_time = "WHERE " sql_time += " t_time >= '" + Time_start_ + "' " //sql_time += " t_time <= '" + Time_end_ + "' AND " } sql := "SELECT COUNT(*) FROM z_devicedata_" + SN + " " + sql_time logs.Println(sql) _, err := o.Raw(sql).ValuesList(&maps_z) if err != nil { logs.Println(lib.FuncName(), err) return 0 } //value, _ := strconv.ParseFloat(fmt.Sprintf("%.2f", cnt), 64) key, _ := strconv.Atoi(maps_z[0][0].(string)) return key } // 获取最新数据 func Read_DeviceSensorData_ById_New(SN string, T_id int) (DeviceData_New, bool) { o := orm.NewOrm() var maps DeviceData_New if len(SN) == 0 { return maps, false } key_data := SN + "|" + strconv.Itoa(T_id) if redisCache_DeviceData.IsExist(key_data) { r, _ := RedisDeviceData_Get(key_data) //println("Redis_Get OK") return r, true } //logs.Println("maps_z;",maps_z[0][0]) //sql := "SELECT t_id,t_t,t_rh,t_time FROM z_devicedata_" + SN + " WHERE " + " t_id = " + strconv.Itoa(T_id) + " ORDER BY t_time DESC " sql := "SELECT t_t,t_rh,t_time FROM z_devicedata_" + SN + " WHERE " + " t_id = " + strconv.Itoa(T_id) + " ORDER BY t_time DESC " sql = sql + " LIMIT 0,1 " logs.Println(sql) err := o.Raw(sql).QueryRow(&maps) if err != nil { logs.Error(lib.FuncName(), err) return maps, false } logs.Println("T_time:", maps.T_time) RedisDeviceData_Set(key_data, maps) return maps, true } func Read_DeviceSensorData_By_T_snid_List(T_snid string, Time_start_ string, Time_end_ string, page int, page_z int) ([]DeviceData_, int) { T_snid_list := strings.Split(T_snid, "|") var maps []DeviceData_ var maps_num int var offset, offset_z int for _, v := range T_snid_list { sn_id := strings.Split(v, ",") if len(sn_id) == 2 { r_maps, r_maps_num := Read_DeviceSensorData_ById_List(sn_id[0], Time_start_, Time_end_, 0, 9999) maps = append(maps, r_maps...) maps_num = maps_num + r_maps_num logs.Println("加载数据:", sn_id[0], sn_id[1], r_maps_num) } } if page <= 1 { offset = 0 } else { page -= 1 offset = page * page_z } offset_z = offset + page_z if maps_num < offset_z { offset_z = maps_num } if page_z == 9999 { logs.Println("总数据:", maps_num, " 导出") return maps, maps_num } logs.Println("总数据:", maps_num, " 截取", offset, offset+page_z) return maps[offset:offset_z], maps_num } func Read_DeviceData_ById_Year_List(SN string) []orm2.ParamsList { o := orm.NewOrm() var maps_z []orm2.ParamsList if len(SN) == 0 { return maps_z } //sql = "SELECT t_name,t_t,t_rh,t_tl,t_tu,t_rhl,t_rhu,t_site,DATE_FORMAT(t_time,'%Y-%m-%d %H:%i:%s') AS t_time FROM z_devicedata_"+SN+" WHERE "+sql_time+" t_id = "+ strconv.Itoa(T_id) +" ORDER BY t_time DESC " sql := "SELECT DATE_FORMAT(t_time,\"%m\") AS m ,DATE_FORMAT(t_time,\"%d\") AS d FROM z_devicedata_" + SN + " WHERE t_time > '" + strconv.Itoa(time.Now().Year()) + "-0-0 00:00:00' GROUP BY DATE_FORMAT(t_time,\"%m\");" logs.Println(sql) num, err := o.Raw(sql).ValuesList(&maps_z) if err == nil && num > 0 { logs.Println("", maps_z[0][0]) // slene } //value, _ := strconv.ParseFloat(fmt.Sprintf("%.2f", cnt), 64) //key,_ := strconv.Atoi(maps_z[0][0].(string)) return maps_z } // func Read_DeviceData_ById_Month_List(SN string) []orm2.ParamsList { o := orm.NewOrm() var maps_z []orm2.ParamsList if len(SN) == 0 { return maps_z } currentTime := time.Now() //获取当前时间,类型是Go的时间类型Time time_x := currentTime.Format("2006-01") + "-00 00:00:00" //sql = "SELECT t_name,t_t,t_rh,t_tl,t_tu,t_rhl,t_rhu,t_site,DATE_FORMAT(t_time,'%Y-%m-%d %H:%i:%s') AS t_time FROM z_devicedata_"+SN+" WHERE "+sql_time+" t_id = "+ strconv.Itoa(T_id) +" ORDER BY t_time DESC " sql := "SELECT DATE_FORMAT(t_time,\"%d\") AS d FROM z_devicedata_" + SN + " WHERE t_time > '" + time_x + "' GROUP BY DATE_FORMAT(t_time,\"%d\");" logs.Println(sql) o.Raw(sql).ValuesList(&maps_z) //value, _ := strconv.ParseFloat(fmt.Sprintf("%.2f", cnt), 64) //key,_ := strconv.Atoi(maps_z[0][0].(string)) return maps_z } func Read_DeviceSensorData_ById_Day_List(SN string) []orm2.ParamsList { o := orm.NewOrm() var maps_z []orm2.ParamsList if len(SN) == 0 { return maps_z } currentTime := time.Now() //获取当前时间,类型是Go的时间类型Time time_x := currentTime.Format("2006-01-02") + " 00:00:00" //sql = "SELECT t_name,t_t,t_rh,t_tl,t_tu,t_rhl,t_rhu,t_site,DATE_FORMAT(t_time,'%Y-%m-%d %H:%i:%s') AS t_time FROM z_devicedata_"+SN+" WHERE "+sql_time+" t_id = "+ strconv.Itoa(T_id) +" ORDER BY t_time DESC " sql := "SELECT DATE_FORMAT(t_time,\"%H\") AS m FROM z_devicedata_" + SN + " WHERE t_time > '" + time_x + "' GROUP BY DATE_FORMAT(t_time,\"%H\");" logs.Println(sql) o.Raw(sql).ValuesList(&maps_z) //value, _ := strconv.ParseFloat(fmt.Sprintf("%.2f", cnt), 64) //key,_ := strconv.Atoi(maps_z[0][0].(string)) return maps_z } func Read_DeviceSensorData_List_GROUP_BY_t_time(SN string, Time_start_ string, Time_end_ string) []orm2.ParamsList { o := orm.NewOrm() var maps_z []orm2.ParamsList if len(SN) == 0 { return maps_z } sql_time := "" if len(Time_start_) > 1 { sql_time += " t_time >= '" + Time_start_ + "' AND " + " t_time <= '" + Time_end_ + "' " } sql := "SELECT DATE_FORMAT(t_time,'%Y-%m-%d %H:%i:%s') AS t_time FROM z_devicedata_" + SN + " WHERE " + sql_time + " GROUP BY t_time ORDER BY t_time DESC " logs.Println(sql) o.Raw(sql).ValuesList(&maps_z) return maps_z } func Read_DeviceData_T_Min_Max_Time_Min_Max(SN string, Time_start_ string, Time_end_ string) (minT, maxT float64, minTime, maxTime time.Time) { o := orm.NewOrm() if len(SN) == 0 { return } sql_condition := "" if len(Time_start_) > 1 { sql_condition += " AND t_time >= '" + Time_start_ + "'" } if len(Time_end_) > 1 { sql_condition += " AND t_time <= '" + Time_end_ + "'" } if len(sql_condition) > 0 { sql_condition = " WHERE " + strings.TrimLeft(sql_condition, " AND ") } //logs.Println("maps_z;",maps_z[0][0]) sql := "SELECT MIN(t_t) AS min_t, MAX(t_t) AS max_t,MIN(t_time) AS min_time, MAX(t_time) AS max_time FROM z_devicedata_" + SN + sql_condition logs.Println(sql) err := o.Raw(sql).QueryRow(&minT, &maxT, &minTime, &maxTime) if err != nil { logs.Error(lib.FuncName(), err) } return }