using JiShe.CollectBus.Application.Contracts;
using JiShe.CollectBus.Common;
using JiShe.CollectBus.Common.Consts;
using JiShe.CollectBus.Common.DeviceBalanceControl;
using JiShe.CollectBus.Common.Encrypt;
using JiShe.CollectBus.Common.Enums;
using JiShe.CollectBus.Common.Extensions;
using JiShe.CollectBus.Common.Helpers;
using JiShe.CollectBus.Common.Models;
using JiShe.CollectBus.GatherItem;
using JiShe.CollectBus.IoTDB.Context;
using JiShe.CollectBus.IoTDB.Interface;
using JiShe.CollectBus.IoTDB.Model;
using JiShe.CollectBus.IoTDB.Options;
using JiShe.CollectBus.IoTDB.Provider;
using JiShe.CollectBus.IotSystems.Ammeters;
using JiShe.CollectBus.IotSystems.MeterReadingRecords;
using JiShe.CollectBus.IotSystems.Watermeter;
using JiShe.CollectBus.Kafka.Internal;
using JiShe.CollectBus.Kafka.Producer;
using JiShe.CollectBus.Protocol.Interfaces;
using Microsoft.Extensions.Logging;
using Microsoft.Extensions.Options;
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Linq;
using System.Threading.Tasks;
using JiShe.CollectBus.Protocol.Models;
using System.Threading.Channels;
using static IdentityModel.ClaimComparer;
using JiShe.CollectBus.DataChannels;
using JiShe.CollectBus.DataMigration.Options;
using static System.Runtime.InteropServices.JavaScript.JSType;
using static System.Formats.Asn1.AsnWriter;
namespace JiShe.CollectBus.ScheduledMeterReading
{
///
/// 定时采集服务
///
public abstract class BasicScheduledMeterReadingService : CollectBusAppService, IScheduledMeterReadingService
{
private readonly ILogger _logger;
private readonly IIoTDbProvider _dbProvider;
private readonly IDataChannelManageService _dataChannelManage;
private readonly IRedisDataCacheService _redisDataCacheService;
private readonly IProtocolService _protocolService;
private readonly DataMigrationOptions _dataMigrationOptions;
private readonly KafkaOptionConfig _kafkaOptions;
private readonly ServerApplicationOptions _applicationOptions;
int pageSize = 10000;
public BasicScheduledMeterReadingService(
ILogger logger,
IDataChannelManageService dataChannelManage,
IRedisDataCacheService redisDataCacheService,
IIoTDbProvider dbProvider,
IProtocolService protocolService,
IOptions dataMigrationOptions,
IOptions kafkaOptions,
IOptions applicationOptions)
{
_logger = logger;
_dbProvider = dbProvider;
_dataChannelManage = dataChannelManage;
_redisDataCacheService = redisDataCacheService;
_protocolService = protocolService;
_dataMigrationOptions = dataMigrationOptions.Value;
_kafkaOptions = kafkaOptions.Value;
_applicationOptions = applicationOptions.Value;
}
///
/// 系统类型
///
public abstract string SystemType { get; }
///
/// 应用服务器部署标记
///
public abstract string ServerTagName { get; }
///
///电表日冻结采集项
///
protected List DayFreezeCodes = new List() { "0D_3", "0D_4", "0D_161", "0D_162", "0D_163", "0D_164", "0D_165", "0D_166", "0D_167", "0D_168", "0C_149", };
///
/// 电表月冻结采集项
///
protected List MonthFreezeCodes = new List() { "0D_177", "0D_178", "0D_179", "0D_180", "0D_181", "0D_182", "0D_183", "0D_184", "0D_193", "0D_195", };
///
/// 获取采集项列表
///
///
public virtual Task> GetGatherItemByDataTypes()
{
throw new NotImplementedException($"{nameof(GetGatherItemByDataTypes)}请根据不同系统类型进行实现");
}
///
/// 构建待处理的下发指令任务处理
///
///
public virtual async Task CreateToBeIssueTasks()
{
var redisCacheKey = $"{RedisConst.CacheBasicDirectoryKey}{SystemType}:{ServerTagName}:TaskInfo:*";
var taskInfos = await FreeRedisProvider.Instance.KeysAsync(redisCacheKey);
if (taskInfos == null || taskInfos.Length <= 0)
{
_logger.LogWarning($"{nameof(CreateToBeIssueTasks)} 构建待处理的下发指令任务处理时没有缓存数据,-101");
return;
}
var currentTime = DateTime.Now;
//定时抄读
foreach (var item in taskInfos)
{
var tasksToBeIssueModel = await FreeRedisProvider.Instance.GetAsync(item);
if (tasksToBeIssueModel == null)
{
_logger.LogWarning($"{nameof(CreateToBeIssueTasks)} 构建待处理的下发指令任务处理时Key=>{item}没有缓存数据,102");
continue;
}
//item 为 CacheTasksToBeIssuedKey 对应的缓存待下发的指令生产任务数据Redis Key tempArryay[0]=>CollectBus,tempArryay[1]=>SystemTypeConst,tempArryay[2]=>ServerTagName,tempArryay[3]=>TaskInfo,tempArryay[4]=>表计类别,tempArryay[5]=>采集频率
var tempArryay = item.Split(":");
string meteryType = tempArryay[4];//表计类别
int timeDensity = Convert.ToInt32(tempArryay[5]);//采集频率
if (timeDensity > 15)
{
timeDensity = 15;
}
//电表定时广播校时,一天一次。
string currentTimeStr = $"{currentTime:HH:mm:00}";
if (string.Equals(currentTimeStr, _applicationOptions.AutomaticVerificationTime, StringComparison.CurrentCultureIgnoreCase))//自动校时
{
//_logger.LogInformation($"{nameof(AmmeterScheduledAutomaticVerificationTime)} 电表自动校时,非自动校时时间");
//return;
_ = CreateMeterPublishTask(
timeDensity: timeDensity,
nextTaskTime: currentTime,
meterType: MeterTypeEnum.Ammeter,
taskCreateAction: async (timeDensity, data, groupIndex, timestamps) =>
{
var tempTask = await AmmeterScheduledAutomaticVerificationTime(timeDensity, data, groupIndex, timestamps);
if (tempTask == null || tempTask.Count <= 0)
{
_logger.LogWarning($"电表自动校时 {data.Name} 任务数据构建失败:{data.Serialize()}");
return;
}
_ = _dataChannelManage.ScheduledMeterTaskWriter(DataChannelManage.TaskDataChannel.Writer, Tuple.Create(ProtocolConst.AmmeterSubscriberWorkerOtherIssuedEventName, tempTask));
});
}
else if (string.Equals(currentTimeStr, _applicationOptions.AutomaticTerminalVersionTime, StringComparison.CurrentCultureIgnoreCase))//集中器版本号读取
{
_ = CreateMeterPublishTask(
timeDensity: timeDensity,
nextTaskTime: currentTime,
meterType: MeterTypeEnum.Ammeter,
taskCreateAction: async (timeDensity, data, groupIndex, timestamps) =>
{
var tempTask = await ConcentratorScheduledAutomaticGetTerminalVersion(timeDensity, data, groupIndex, timestamps);
if (tempTask == null || tempTask.Count <= 0)
{
_logger.LogWarning($"集中器 {data.Name} 任务数据构建失败:{data.Serialize()}");
return;
}
_ = _dataChannelManage.ScheduledMeterTaskWriter(DataChannelManage.TaskDataChannel.Writer, Tuple.Create(ProtocolConst.AmmeterSubscriberWorkerOtherIssuedEventName, tempTask));
});
}
else if (string.Equals(currentTimeStr, _applicationOptions.AutomaticTelematicsModuleTime, StringComparison.CurrentCultureIgnoreCase))//SIM卡读取
{
_ = CreateMeterPublishTask(
timeDensity: timeDensity,
nextTaskTime: currentTime,
meterType: MeterTypeEnum.Ammeter,
taskCreateAction: async (timeDensity, data, groupIndex, timestamps) =>
{
var tempTask = await ConcentratorScheduledAutomaticGetTelematicsModule(timeDensity, data, groupIndex, timestamps);
if (tempTask == null || tempTask.Count <= 0)
{
_logger.LogWarning($"集中器 {data.Name} 任务数据构建失败:{data.Serialize()}");
return;
}
_ = _dataChannelManage.ScheduledMeterTaskWriter(DataChannelManage.TaskDataChannel.Writer, Tuple.Create(ProtocolConst.AmmeterSubscriberWorkerOtherIssuedEventName, tempTask));
});
}
else if (string.Equals(currentTimeStr, _applicationOptions.AutomaticTelematicsModuleTime, StringComparison.CurrentCultureIgnoreCase))//月冻结
{
_ = CreateMeterPublishTask(
timeDensity: timeDensity,
nextTaskTime: currentTime,
meterType: MeterTypeEnum.Ammeter,
taskCreateAction: async (timeDensity, data, groupIndex, timestamps) =>
{
var tempTask = await AmmeterScheduledGetAutomaticDayFreezeData(timeDensity, data, groupIndex, timestamps);
if (tempTask == null || tempTask.Count <= 0)
{
_logger.LogWarning($"电表 {data.Name} 任务数据构建失败:{data.Serialize()}");
return;
}
_ = _dataChannelManage.ScheduledMeterTaskWriter(DataChannelManage.TaskDataChannel.Writer, Tuple.Create(ProtocolConst.AmmeterSubscriberWorkerOtherIssuedEventName, tempTask));
});
}
else if (string.Equals(currentTimeStr, _applicationOptions.AutomaticDayFreezeTime, StringComparison.CurrentCultureIgnoreCase))//日冻结
{
_ = CreateMeterPublishTask(
timeDensity: timeDensity,
nextTaskTime: currentTime,
meterType: MeterTypeEnum.Ammeter,
taskCreateAction: async (timeDensity, data, groupIndex, timestamps) =>
{
var tempTask = await AmmeterScheduledGetAutomaticMonthFreezeData(timeDensity, data, groupIndex, timestamps);
if (tempTask == null || tempTask.Count <= 0)
{
_logger.LogWarning($"电表 {data.Name} 任务数据构建失败:{data.Serialize()}");
return;
}
_ = _dataChannelManage.ScheduledMeterTaskWriter(DataChannelManage.TaskDataChannel.Writer, Tuple.Create(ProtocolConst.AmmeterSubscriberWorkerOtherIssuedEventName, tempTask));
});
}
else
{
_logger.LogInformation($"{nameof(CreateToBeIssueTasks)} 不是自动校时、采集终端信息等时间,继续处理其他");
}
//检查任务时间节点,由于定时任务10秒钟运行一次,需要判定当前时间是否在任务时间节点内,不在则跳过
var currentTaskTime = tasksToBeIssueModel.LastTaskTime.CalculateNextCollectionTime(timeDensity);//程序启动缓存电表的时候,NextTaskTime需要格式化到下一个采集点时间。
if (!IsTaskTime(currentTaskTime, timeDensity))
{
_logger.LogInformation($"{nameof(CreateToBeIssueTasks)} 构建待处理的下发指令任务处理时Key=>{item}时间节点不在当前时间范围内,103");
continue;
}
var meterTypes = EnumExtensions.ToEnumDictionary();
//tasksToBeIssueModel.NextTaskTime;
if (meteryType == MeterTypeEnum.Ammeter.ToString())
{
_ = CreateMeterPublishTask(
timeDensity: timeDensity,
nextTaskTime: currentTaskTime,
meterType: MeterTypeEnum.Ammeter,
taskCreateAction: async (timeDensity, data, groupIndex, timestamps) =>
{
var tempTask = await AmmerterCreatePublishTaskAction(timeDensity, data, groupIndex, timestamps);
if (tempTask == null || tempTask.Count <= 0)
{
//_logger.LogWarning($"电表 {data.Name} 任务数据构建失败:{data.Serialize()}");
return;
}
_ = _dataChannelManage.ScheduledMeterTaskWriter(DataChannelManage.TaskDataChannel.Writer, Tuple.Create(ProtocolConst.AmmeterSubscriberWorkerAutoValveControlIssuedEventName, tempTask));
});
}
else if (meteryType == MeterTypeEnum.WaterMeter.ToString())
{
_ = CreateMeterPublishTask(
timeDensity: timeDensity,
nextTaskTime: currentTaskTime,
meterType: MeterTypeEnum.WaterMeter,
taskCreateAction: async (timeDensity, data, groupIndex, timestamps) =>
{
var tempTask = await WatermeterCreatePublishTaskAction(timeDensity, data, groupIndex, timestamps);
if (tempTask == null || tempTask.Count <= 0)
{
_logger.LogWarning($"水表 {data.Name} 任务数据构建失败:{data.Serialize()}");
return;
}
_ = _dataChannelManage.ScheduledMeterTaskWriter(DataChannelManage.TaskDataChannel.Writer, Tuple.Create(ProtocolConst.WatermeterSubscriberWorkerAutoReadingIssuedEventName, tempTask));
});
}
else
{
_logger.LogError($"{nameof(CreateToBeIssueTasks)} {timeDensity}分钟采集待下发任务创建失败,没有获取到缓存信息,-106");
}
_logger.LogInformation($"{nameof(CreateToBeIssueTasks)} {timeDensity}分钟采集待下发任务创建完成");
//根据当前的采集频率和类型,重新更新下一个任务点,把任务的创建源固定在当前逻辑,避免任务处理的逻辑异常导致任务创建失败。
tasksToBeIssueModel.LastTaskTime = currentTaskTime;
tasksToBeIssueModel.NextTaskTime = currentTaskTime.CalculateNextCollectionTime(timeDensity);
await FreeRedisProvider.Instance.SetAsync(item, tasksToBeIssueModel);
}
//电表定时阀控任务处理。
var autoValveControlTask = await AmmeterScheduledAutoValveControl();
if (autoValveControlTask == null || autoValveControlTask.Count <= 0)
{
_logger.LogWarning($"{nameof(AmmeterScheduledAutoValveControl)}电表定时阀控没有可操作的任务");
return;
}
_ = _dataChannelManage.ScheduledMeterTaskWriter(DataChannelManage.TaskDataChannel.Writer, Tuple.Create(ProtocolConst.AmmeterSubscriberWorkerAutoValveControlIssuedEventName, autoValveControlTask));
}
#region 电表采集处理
///
/// 获取电表信息
///
/// 采集端Code
///
public virtual Task> GetAmmeterInfoList(string gatherCode = "")
{
throw new NotImplementedException($"{nameof(GetAmmeterInfoList)}请根据不同系统类型进行实现");
}
///
/// 初始化电表缓存数据
///
/// 采集端Code
///
public virtual async Task InitAmmeterCacheData(string gatherCode = "")
{
_ = _dataChannelManage.ScheduledMeterTaskReadding(DataChannelManage.TaskDataChannel.Reader);
//此处代码不要删除
#if DEBUG
var timeDensity = "15";
var serverTagName = "JiSheCollectBus2";
var redisCacheMeterInfoHashKeyTemp = $"{string.Format(RedisConst.CacheMeterInfoHashKey, SystemType, serverTagName, MeterTypeEnum.Ammeter, timeDensity)}";
var redisCacheMeterInfoSetIndexKeyTemp = $"{string.Format(RedisConst.CacheMeterInfoSetIndexKey, SystemType, serverTagName, MeterTypeEnum.Ammeter, timeDensity)}";
var redisCacheMeterInfoZSetScoresIndexKeyTemp = $"{string.Format(RedisConst.CacheMeterInfoZSetScoresIndexKey, SystemType, serverTagName, MeterTypeEnum.Ammeter, timeDensity)}";
List meterInfos = new List();
List focusAddressDataLista = new List();
var timer1 = Stopwatch.StartNew();
var allIds = new HashSet();
decimal? score = null;
string member = null;
while (true)
{
var page = await _redisDataCacheService.GetAllPagedData(
redisCacheMeterInfoHashKeyTemp,
redisCacheMeterInfoZSetScoresIndexKeyTemp,
pageSize: 1000,
lastScore: score,
lastMember: member);
meterInfos.AddRange(page.Items);
focusAddressDataLista.AddRange(page.Items.Select(d => $"{d.MeterId}"));
foreach (var item in page.Items)
{
if (!allIds.Add(item.MemberId))
{
_logger.LogError($"{item.MemberId}Duplicate data found!");
}
}
if (!page.HasNext) break;
score = page.NextScore;
member = page.NextMember;
}
timer1.Stop();
_logger.LogError($"电表初始化读取数据总共花费时间{timer1.ElapsedMilliseconds}毫秒");
DeviceGroupBalanceControl.InitializeCache(focusAddressDataLista, _kafkaOptions.NumPartitions);
return;
#else
var meterInfos = await GetAmmeterInfoList(gatherCode);
#endif
if (meterInfos == null || meterInfos.Count <= 0)
{
throw new NullReferenceException($"{nameof(InitAmmeterCacheData)} 初始化电表缓存数据时,电表数据为空");
}
//获取采集项类型数据
var gatherItemInfos = await GetGatherItemByDataTypes();
if (gatherItemInfos == null || gatherItemInfos.Count <= 0)
{
throw new NullReferenceException($"{nameof(InitAmmeterCacheData)} 初始化电表缓存数据时,采集项类型数据为空");
}
var timer = Stopwatch.StartNew();
List deviceIds = new List();//用于处理Kafka主题分区数据的分发和处理。
//根据采集频率分组,获得采集频率分组
var meterInfoGroupByTimeDensity = meterInfos.GroupBy(d => d.TimeDensity);
var currentTaskTime = DateTime.Now;
if (_applicationOptions.FirstCollectionTime.HasValue == false)
{
_applicationOptions.FirstCollectionTime = currentTaskTime;
}
//先处理采集频率任务缓存
foreach (var item in meterInfoGroupByTimeDensity)
{
TasksToBeIssueModel nextTask = new TasksToBeIssueModel()
{
LastTaskTime = _applicationOptions.FirstCollectionTime.Value.CalculateNextCollectionTime(item.Key),
TimeDensity = item.Key,
};
nextTask.NextTaskTime = nextTask.LastTaskTime.CalculateNextCollectionTime(item.Key);
//todo 首次采集时间节点到目前运行时间中漏采的时间点,可以考虑使用IoTDB的存储,利用时间序列处理。
var taskRedisCacheKey = string.Format(RedisConst.CacheTasksToBeIssuedKey, SystemType, ServerTagName, MeterTypeEnum.Ammeter, item.Key);
await FreeRedisProvider.Instance.SetAsync(taskRedisCacheKey, nextTask);
}
foreach (var itemTimeDensity in meterInfoGroupByTimeDensity)
{
var redisCacheMeterInfoHashKey = $"{string.Format(RedisConst.CacheMeterInfoHashKey, SystemType, ServerTagName, MeterTypeEnum.Ammeter, itemTimeDensity.Key)}";
var redisCacheMeterInfoSetIndexKey = $"{string.Format(RedisConst.CacheMeterInfoSetIndexKey, SystemType, ServerTagName, MeterTypeEnum.Ammeter, itemTimeDensity.Key)}";
var redisCacheMeterInfoZSetScoresIndexKey = $"{string.Format(RedisConst.CacheMeterInfoZSetScoresIndexKey, SystemType, ServerTagName, MeterTypeEnum.Ammeter, itemTimeDensity.Key)}";
List ammeterInfos = new List();
//将表计信息根据集中器分组,获得集中器号
var meterInfoGroup = itemTimeDensity.GroupBy(x => x.FocusAddress).ToList();
foreach (var item in meterInfoGroup)
{
if (string.IsNullOrWhiteSpace(item.Key))//集中器号为空,跳过
{
continue;
}
foreach (var ammeter in item)
{
deviceIds.Add(ammeter.MeterId.ToString());
//处理ItemCode
if (string.IsNullOrWhiteSpace(ammeter.ItemCodes) && !string.IsNullOrWhiteSpace(ammeter.DataTypes))
{
var itemArr = ammeter.DataTypes.Split(',').ToList();
#region 拼接采集项
List itemCodeList = new List();
foreach (var dataType in itemArr)
{
var excludeItemCode = "10_98,10_94";//TODO 排除透明转发:尖峰平谷时段、跳合闸,特殊电表
var gatherItem = gatherItemInfos.FirstOrDefault(f => f.DataType.Equals(dataType));
if (gatherItem != null)
{
if (!excludeItemCode.Contains(gatherItem.ItemCode))
{
itemCodeList.Add(gatherItem.ItemCode);
}
}
#region 特殊电表采集项编号处理
if (itemArr.Exists(e => e.Equals("95"))) //德力西DTS
{
itemCodeList.Add("10_95");
}
if (itemArr.Exists(e => e.Equals("109")))//WAVE_109
{
itemCodeList.Add("10_109");
}
#endregion
}
#endregion
ammeter.ItemCodes = itemCodeList.Serialize();//转换成JSON字符串
if (!string.IsNullOrWhiteSpace(ammeter.ItemCodes))
{
ammeter.ItemCodes = ammeter.ItemCodes.Replace("WAVE_109", "10_109");
}
}
ammeterInfos.Add(ammeter);
}
}
await _redisDataCacheService.BatchInsertDataAsync(
redisCacheMeterInfoHashKey,
redisCacheMeterInfoSetIndexKey,
redisCacheMeterInfoZSetScoresIndexKey, ammeterInfos);
}
//初始化设备组负载控制
if (deviceIds == null || deviceIds.Count <= 0)
{
_logger.LogError($"{nameof(InitAmmeterCacheData)} 初始化设备组负载控制失败,没有找到对应的设备信息");
}
else
{
DeviceGroupBalanceControl.InitializeCache(deviceIds, _kafkaOptions.NumPartitions);
}
timer.Stop();
_logger.LogInformation($"{nameof(InitAmmeterCacheData)} 初始化电表缓存数据完成,耗时{timer.ElapsedMilliseconds}毫秒");
}
///
/// 1分钟采集电表数据,只获取任务数据下发,不构建任务
///
///
public virtual async Task AmmeterScheduledMeterOneMinuteReading()
{
int timeDensity = 5;
var redisCacheKey = string.Format(RedisConst.CacheTasksToBeIssuedKey, SystemType, ServerTagName, MeterTypeEnum.Ammeter, timeDensity);
var taskInfo = await FreeRedisProvider.Instance.GetAsync(redisCacheKey);
if (taskInfo == null)
{
_logger.LogError($"{nameof(AmmeterScheduledMeterFifteenMinuteReading)} {timeDensity}分钟获取任务下发信息失败,请检查Redis中是否有对应的任务下发信息");
return;
}
var pendingCopyReadTime = taskInfo.LastTaskTime.GetDateTimeOffset().ToUnixTimeNanoseconds();
var conditions = new List();
conditions.Add(new QueryCondition()
{
Field = "PendingCopyReadTime",
Operator = "=",
IsNumber = true,
Value = pendingCopyReadTime
});
_ = CreateMeterKafkaTaskMessage(ProtocolConst.AmmeterSubscriberWorkerOneMinuteIssuedEventName, new IoTDBQueryOptions()
{
TableNameOrTreePath = DevicePathBuilder.GetTableName(),
PageIndex = 1,
PageSize = pageSize,
Conditions = conditions,
});
}
///
/// 5分钟采集电表数据
///
///
public virtual async Task AmmeterScheduledMeterFiveMinuteReading()
{
int timeDensity = 5;
var redisCacheKey = string.Format(RedisConst.CacheTasksToBeIssuedKey, SystemType, ServerTagName, MeterTypeEnum.Ammeter, timeDensity);
var taskInfo = await FreeRedisProvider.Instance.GetAsync(redisCacheKey);
if (taskInfo == null)
{
_logger.LogError($"{nameof(AmmeterScheduledMeterFifteenMinuteReading)} {timeDensity}分钟获取任务下发信息失败,请检查Redis中是否有对应的任务下发信息");
return;
}
var pendingCopyReadTime = taskInfo.LastTaskTime.GetDateTimeOffset().ToUnixTimeNanoseconds();
var conditions = new List();
conditions.Add(new QueryCondition()
{
Field = "PendingCopyReadTime",
Operator = "=",
IsNumber = true,
Value = pendingCopyReadTime
});
_ = CreateMeterKafkaTaskMessage(ProtocolConst.AmmeterSubscriberWorkerFiveMinuteIssuedEventName, new IoTDBQueryOptions()
{
TableNameOrTreePath = DevicePathBuilder.GetTableName(),
PageIndex = 1,
PageSize = pageSize,
Conditions = conditions,
});
}
///
/// 15分钟采集电表数据
///
///
public virtual async Task AmmeterScheduledMeterFifteenMinuteReading()
{
int timeDensity = 15;
var redisCacheKey = string.Format(RedisConst.CacheTasksToBeIssuedKey, SystemType, ServerTagName, MeterTypeEnum.Ammeter, timeDensity);
var taskInfo = await FreeRedisProvider.Instance.GetAsync(redisCacheKey);
if (taskInfo == null)
{
_logger.LogError($"{nameof(AmmeterScheduledMeterFifteenMinuteReading)} {timeDensity}分钟获取任务下发信息失败,请检查Redis中是否有对应的任务下发信息");
return;
}
var pendingCopyReadTime = taskInfo.LastTaskTime.GetDateTimeOffset().ToUnixTimeNanoseconds();
var conditions = new List();
conditions.Add(new QueryCondition()
{
Field = "PendingCopyReadTime",
Operator = "=",
IsNumber = true,
Value = pendingCopyReadTime
});
_ = CreateMeterKafkaTaskMessage(ProtocolConst.AmmeterSubscriberWorkerFifteenMinuteIssuedEventName, new IoTDBQueryOptions()
{
TableNameOrTreePath = DevicePathBuilder.GetTableName(),
PageIndex = 1,
PageSize = pageSize,
Conditions = conditions,
});
}
///
/// 创建电表待发送的任务数据
///
/// 采集频率
/// 电表信息
/// 集中器所在分组
/// 采集频率对应的时间戳
///
private async Task> AmmerterCreatePublishTaskAction(int timeDensity, AmmeterInfo ammeterInfo, int groupIndex, DateTime timestamps)
{
var currentTime = DateTime.Now;
//根据电表型号获取协议插件
var protocolPlugin = await _protocolService.GetProtocolServiceAsync(ammeterInfo.BrandType);
if (protocolPlugin == null)
{
//_logger.LogError($"{nameof(AmmerterCreatePublishTaskAction)} 创建电表待发送的任务数据{currentTime}没有找到对应的协议组件,-105");
return null;
}
if (string.IsNullOrWhiteSpace(ammeterInfo.ItemCodes))
{
//_logger.LogError($"{nameof(AmmerterCreatePublishTaskAction)} 集中器{ammeterInfo.FocusAddress}的电表{ammeterInfo.Name}数据采集指令生成失败,采集项为空,-101");
return null;
}
//载波的不处理
if (ammeterInfo.MeteringPort == (int)MeterLinkProtocolEnum.Carrierwave)
{
//_logger.LogError($"{nameof(AmmerterCreatePublishTaskAction)} 集中器{ammeterInfo.FocusAddress}的电表{ammeterInfo.Name}数据采集指令生成失败,载波不处理,-102");
return null;
}
if (ammeterInfo.State.Equals(2))
{
//_logger.LogWarning($"{nameof(AmmerterCreatePublishTaskAction)} {ammeterInfo.Name} 集中器{ammeterInfo.FocusAddress}的电表{ammeterInfo.Name}状态为禁用,不处理");
return null;
}
////排除1天未在线的集中器生成指令 或 排除集中器配置为自动上报的集中器
//if (!IsGennerateCmd(ammeter.LastTime, -1))
//{
// _logger.LogInformation($"{nameof(CreatePublishTask)} 集中器{ammeter.FocusAddress}的电表{ammeter.Name},采集时间:{ammeter.LastTime},已超过1天未在线,不生成指令");
// continue;
//}
if (string.IsNullOrWhiteSpace(ammeterInfo.AreaCode))
{
//_logger.LogError($"{nameof(AmmerterCreatePublishTaskAction)} 表ID:{ammeterInfo.MeterId},集中器通信区号为空");
return null;
}
if (string.IsNullOrWhiteSpace(ammeterInfo.Address))
{
//_logger.LogError($"{nameof(AmmerterCreatePublishTaskAction)} 表ID:{ammeterInfo.MeterId},集中器通信地址为空");
return null;
}
if (Convert.ToInt32(ammeterInfo.Address) > 65535)
{
//_logger.LogError($"{nameof(AmmerterCreatePublishTaskAction)} 表ID:{ammeterInfo.MeterId},集中器通信地址无效,确保大于65535");
return null;
}
if (ammeterInfo.MeteringCode <= 0 || ammeterInfo.MeteringCode > 33)
{
//_logger.LogError($"{nameof(AmmerterCreatePublishTaskAction)} 表ID:{ammeterInfo.MeterId},非有效测量点号({ammeterInfo.MeteringCode})");
return null;
}
List tempCodes = ammeterInfo.ItemCodes.Deserialize>()!;
//TODO:自动上报数据只主动采集1类数据。
if (ammeterInfo.AutomaticReport.Equals(1))
{
var tempSubCodes = new List();
if (tempCodes.Contains("0C_49"))
{
tempSubCodes.Add("0C_49");
}
if (tempSubCodes.Contains("0C_149"))
{
tempSubCodes.Add("0C_149");
}
if (ammeterInfo.ItemCodes.Contains("10_97"))
{
tempSubCodes.Add("10_97");
}
if (tempSubCodes == null || tempSubCodes.Count <= 0)
{
//_logger.LogInformation($"{nameof(AmmerterCreatePublishTask)} 集中器{ammeterInfo.FocusAddress}的电表{ammeterInfo.Name}自动上报数据主动采集1类数据时数据类型为空");
return null;
}
else
{
tempCodes = tempSubCodes;
}
}
List taskList = new List();
foreach (var tempItem in tempCodes)
{
//排除已发送日冻结和月冻结采集项配置
if (DayFreezeCodes.Contains(tempItem))
{
continue;
}
if (MonthFreezeCodes.Contains(tempItem))
{
continue;
}
//var itemCodeArr = tempItem.Split('_');
//var aFNStr = itemCodeArr[0];
//var aFN = (AFN)aFNStr.HexToDec();
//var fn = int.Parse(itemCodeArr[1]);
//TODO:特殊表
ProtocolBuildResponse builderResponse = await protocolPlugin.BuildAsync(new ProtocolBuildRequest()
{
FocusAddress = ammeterInfo.FocusAddress,
Pn = ammeterInfo.MeteringCode,
ItemCode = tempItem,
DataTimeMark = new Protocol.DataTimeMark()
{
Density = ammeterInfo.TimeDensity,//todo 转换成协议的值
Point = 1,
DataTime = timestamps,
}
});
if (builderResponse == null || builderResponse.Data.Length <= 0)
{
//_logger.LogWarning($"{nameof(AmmerterCreatePublishTask)} 集中器{ammeterInfo.FocusAddress}的电表{ammeterInfo.Name}采集项{tempItem}未能正确获取报文。");
continue;
}
var meterReadingRecords = CreateAmmeterPacketInfo(
ammeterInfo: ammeterInfo,
timestamps: DateTimeOffset.Now.ToUnixTimeNanoseconds(),
builderResponse: builderResponse,
itemCode: tempItem,
subItemCode: null,
pendingCopyReadTime: timestamps,
creationTime: currentTime,
packetType: (TelemetryPacketTypeEnum)timeDensity);
taskList.Add(meterReadingRecords);
}
return taskList;
}
///
/// 获取电表阀控配置
///
/// 阀控的时间
///
public virtual Task> GetAmmeterAutoValveControlSetting(string currentTime)
{
throw new NotImplementedException($"{nameof(GetAmmeterInfoList)}请根据不同系统类型进行实现");
}
///
/// 电表自动阀控
///
///
public virtual Task> AmmeterScheduledAutoValveControl()
{
throw new NotImplementedException($"{nameof(AmmeterScheduledAutoValveControl)}请根据不同系统类型进行实现");
}
///
/// 电表自动校时
///
/// 采集频率
/// 电表信息
/// 集中器所在分组
/// 采集频率对应的时间戳
///
public virtual async Task> AmmeterScheduledAutomaticVerificationTime(int timeDensity, AmmeterInfo ammeterInfo, int groupIndex, DateTime timestamps)
{
var currentTime = DateTime.Now;
string currentTimeStr = $"{currentTime:HH:mm:00}";
try
{
//判断是否是自动校时时间
if (!string.Equals(currentTimeStr, _applicationOptions.AutomaticVerificationTime, StringComparison.CurrentCultureIgnoreCase))
{
_logger.LogInformation($"{nameof(AmmeterScheduledAutomaticVerificationTime)} 电表自动校时,非自动校时时间");
return null;
}
List taskList = new List();
var itemCode = T37612012PacketItemCodeConst.AFN10HFN01H;
var subItemCode = T6452007PacketItemCodeConst.C08;
//根据电表型号获取协议插件
var protocolPlugin = await _protocolService.GetProtocolServiceAsync(ammeterInfo.BrandType);
if (protocolPlugin == null)
{
_logger.LogError($"{nameof(AmmeterScheduledAutoValveControl)} 定时阀控运行时间{currentTime}没有找到对应的协议组件,-105");
return null;
}
ProtocolBuildResponse builderResponse = await protocolPlugin.BuildAsync(new ProtocolBuildRequest()
{
FocusAddress = ammeterInfo.FocusAddress,
Pn = ammeterInfo.MeteringCode,
ItemCode = itemCode,
SubProtocolRequest = new SubProtocolBuildRequest()
{
MeterAddress = ammeterInfo.AmmerterAddress,
Password = ammeterInfo.Password,
ItemCode = subItemCode,
}
});
var meterReadingRecords = CreateAmmeterPacketInfo(
ammeterInfo: ammeterInfo,
timestamps: currentTime.GetDateTimeOffset().ToUnixTimeNanoseconds(),
builderResponse: builderResponse,
itemCode: itemCode,
subItemCode: subItemCode,
pendingCopyReadTime: currentTime,
creationTime: currentTime,
packetType: TelemetryPacketTypeEnum.AmmeterAutomaticVerificationTime);
taskList.Add(meterReadingRecords);
if (taskList == null || taskList.Count <= 0)
{
_logger.LogError($"{nameof(AmmeterScheduledAutoValveControl)} 定时阀控运行时间{currentTime}没有自动阀控任务生成,-106");
return null;
}
return null;
//todo 阀控记录入库,推送到新的服务
}
catch (Exception)
{
throw;
}
}
///
/// 日冻结抄读
///
/// 采集频率
/// 电表信息
/// 集中器所在分组
/// 采集频率对应的时间戳
///
public virtual async Task> AmmeterScheduledGetAutomaticDayFreezeData(int timeDensity, AmmeterInfo ammeterInfo, int groupIndex, DateTime timestamps)
{
var currentTime = DateTime.Now;
string currentTimeStr = $"{currentTime:HH:mm:00}";
try
{
//判断是否是自动校时时间
if (!string.Equals(currentTimeStr, _applicationOptions.AutomaticVerificationTime, StringComparison.CurrentCultureIgnoreCase))
{
_logger.LogInformation($"{nameof(AmmeterScheduledAutomaticVerificationTime)} 电表自动校时,非自动校时时间");
return null;
}
List taskList = new List();
//根据电表型号获取协议插件
var protocolPlugin = await _protocolService.GetProtocolServiceAsync(ammeterInfo.BrandType);
if (protocolPlugin == null)
{
_logger.LogError($"{nameof(AmmeterScheduledAutoValveControl)} 定时阀控运行时间{currentTime}没有找到对应的协议组件,-105");
return null;
}
foreach (var item in DayFreezeCodes)
{
ProtocolBuildResponse builderResponse = await protocolPlugin.BuildAsync(new ProtocolBuildRequest()
{
FocusAddress = ammeterInfo.FocusAddress,
Pn = ammeterInfo.MeteringCode,
ItemCode = item
});
var meterReadingRecords = CreateAmmeterPacketInfo(
ammeterInfo: ammeterInfo,
timestamps: currentTime.GetDateTimeOffset().ToUnixTimeNanoseconds(),
builderResponse: builderResponse,
itemCode: item,
subItemCode: null,
pendingCopyReadTime: currentTime,
creationTime: currentTime,
packetType: TelemetryPacketTypeEnum.AmmeterDayFreeze);
taskList.Add(meterReadingRecords);
}
if (taskList == null || taskList.Count <= 0)
{
_logger.LogError($"{nameof(AmmeterScheduledAutoValveControl)} 日冻结抄读时间{currentTime}没有任务生成,-106");
return null;
}
return taskList;
}
catch (Exception)
{
throw;
}
}
///
/// 月冻结数据抄读
///
/// 采集频率
/// 电表信息
/// 集中器所在分组
/// 采集频率对应的时间戳
///
public virtual async Task> AmmeterScheduledGetAutomaticMonthFreezeData(int timeDensity, AmmeterInfo ammeterInfo, int groupIndex, DateTime timestamps)
{
var currentTime = DateTime.Now;
string currentTimeStr = $"{currentTime:HH:mm:00}";
try
{
//判断是否是自动校时时间
if (!string.Equals(currentTimeStr, _applicationOptions.AutomaticVerificationTime, StringComparison.CurrentCultureIgnoreCase))
{
_logger.LogInformation($"{nameof(AmmeterScheduledAutomaticVerificationTime)} 电表自动校时,非自动校时时间");
return null;
}
List taskList = new List();
//根据电表型号获取协议插件
var protocolPlugin = await _protocolService.GetProtocolServiceAsync(ammeterInfo.BrandType);
if (protocolPlugin == null)
{
_logger.LogError($"{nameof(AmmeterScheduledAutoValveControl)} 定时阀控运行时间{currentTime}没有找到对应的协议组件,-105");
return null;
}
foreach (var item in DayFreezeCodes)
{
ProtocolBuildResponse builderResponse = await protocolPlugin.BuildAsync(new ProtocolBuildRequest()
{
FocusAddress = ammeterInfo.FocusAddress,
Pn = ammeterInfo.MeteringCode,
ItemCode = item
});
var meterReadingRecords = CreateAmmeterPacketInfo(
ammeterInfo: ammeterInfo,
timestamps: currentTime.GetDateTimeOffset().ToUnixTimeNanoseconds(),
builderResponse: builderResponse,
itemCode: item,
subItemCode: null,
pendingCopyReadTime: currentTime,
creationTime: currentTime,
packetType: TelemetryPacketTypeEnum.AmmeterMonthFreeze);
taskList.Add(meterReadingRecords);
}
if (taskList == null || taskList.Count <= 0)
{
_logger.LogError($"{nameof(AmmeterScheduledAutoValveControl)} 日冻结抄读时间{currentTime}没有任务生成,-106");
return null;
}
return taskList;
}
catch (Exception)
{
throw;
}
}
///
/// 电表监控重试抄读任务
///
///
///
public virtual async Task AmmeterScheduledRetryReading(RetryReadingEnum retryReadingEnum)
{
// 根据任务获取不同的锁
var tryLock = FreeRedisProvider.Instance.Lock(retryReadingEnum.ToString(), 10);
try
{
if (tryLock != null)
{
// 轮询IotDB未成果下发电表数据
var conditions = new List();
// 下次发布时间小于等于当前时间
conditions.Add(new QueryCondition()
{
Field = "NextSendTime",
Operator = "<",
IsNumber = false,
Value = DateTime.Now
});
// 重试次数少于3次
conditions.Add(new QueryCondition()
{
Field = "SendNum",
Operator = "<",
IsNumber = true,
Value = 3
});
//已发布的
conditions.Add(new QueryCondition()
{
Field = "IsSend",
Operator = "=",
IsNumber = false,
Value = true
});
// 未响应
conditions.Add(new QueryCondition()
{
Field = "IsReceived",
Operator = "=",
IsNumber = false,
Value = false
});
//await CreateMeterKafkaTaskMessage(ProtocolConst.AmmeterSubscriberWorkerRetryEventName, new IoTDBQueryOptions()
//{
// TableNameOrTreePath = DevicePathBuilder.GetTableName(),
// PageIndex = 1,
// PageSize = pageSize,
// Conditions = conditions,
//});
// 释放锁
tryLock.Unlock();
}
}
catch (Exception)
{
// 释放锁
tryLock.Unlock();
throw;
}
}
#endregion
#region 水表采集处理
///
/// 获取水表信息
///
/// 采集端Code
///
public virtual Task> GetWatermeterInfoList(string gatherCode = "")
{
throw new NotImplementedException($"{nameof(GetWatermeterInfoList)}请根据不同系统类型进行实现");
}
///
/// 初始化水表缓存数据
///
/// 采集端Code
///
public virtual async Task InitWatermeterCacheData(string gatherCode = "")
{
var meterInfos = await GetWatermeterInfoList(gatherCode);
if (meterInfos == null || meterInfos.Count <= 0)
{
throw new NullReferenceException($"{nameof(InitWatermeterCacheData)} 初始化水表缓存数据时,水表数据为空");
}
//获取采集项类型数据
var gatherItemInfos = await GetGatherItemByDataTypes();
if (gatherItemInfos == null || gatherItemInfos.Count <= 0)
{
throw new NullReferenceException($"{nameof(InitAmmeterCacheData)} 初始化水表缓存数据时,采集项类型数据为空");
}
List deviceIds = new List();//用于处理Kafka主题分区数据的分发和处理。
//根据采集频率分组,获得采集频率分组
var meterInfoGroupByTimeDensity = meterInfos.GroupBy(d => d.TimeDensity);
var currentTime = DateTime.Now;
if (_applicationOptions.FirstCollectionTime.HasValue == false)
{
_applicationOptions.FirstCollectionTime = currentTime;
}
//先处理采集频率任务缓存
foreach (var item in meterInfoGroupByTimeDensity)
{
TasksToBeIssueModel nextTask = new TasksToBeIssueModel()
{
LastTaskTime = _applicationOptions.FirstCollectionTime.Value.CalculateNextCollectionTime(item.Key),
TimeDensity = item.Key,
};
nextTask.NextTaskTime = nextTask.LastTaskTime.CalculateNextCollectionTime(item.Key);//使用首次采集时间作为下一次采集时间
//todo 首次采集时间节点到目前运行时间中漏采的时间点,可以考虑使用IoTDB的存储,利用时间序列处理。
var taskRedisCacheKey = string.Format(RedisConst.CacheTasksToBeIssuedKey, SystemType, ServerTagName, MeterTypeEnum.WaterMeter, item.Key);
await FreeRedisProvider.Instance.SetAsync(taskRedisCacheKey, nextTask);
}
foreach (var itemTimeDensity in meterInfoGroupByTimeDensity)
{
List watermeterInfo = new List();
//将表计信息根据集中器分组,获得集中器号
var meterInfoGroup = itemTimeDensity.GroupBy(x => x.FocusAddress).ToList();
foreach (var item in meterInfoGroup)
{
if (string.IsNullOrWhiteSpace(item.Key))
{
continue;
}
var redisCacheMeterInfoHashKey = $"{string.Format(RedisConst.CacheMeterInfoHashKey, SystemType, ServerTagName, MeterTypeEnum.Ammeter, itemTimeDensity.Key)}";
var redisCacheMeterInfoSetIndexKey = $"{string.Format(RedisConst.CacheMeterInfoSetIndexKey, SystemType, ServerTagName, MeterTypeEnum.Ammeter, itemTimeDensity.Key)}";
var redisCacheMeterInfoZSetScoresIndexKey = $"{string.Format(RedisConst.CacheMeterInfoZSetScoresIndexKey, SystemType, ServerTagName, MeterTypeEnum.Ammeter, itemTimeDensity.Key)}";
foreach (var subItem in item)
{
deviceIds.Add(subItem.MeterId.ToString());
watermeterInfo.Add(subItem);
}
await _redisDataCacheService.BatchInsertDataAsync(
redisCacheMeterInfoHashKey,
redisCacheMeterInfoSetIndexKey,
redisCacheMeterInfoZSetScoresIndexKey, watermeterInfo);
}
}
//初始化设备组负载控制
if (deviceIds == null || deviceIds.Count <= 0)
{
_logger.LogError($"{nameof(InitAmmeterCacheData)} 初始化设备组负载控制失败,没有找到对应的设备信息");
}
else
{
DeviceGroupBalanceControl.InitializeCache(deviceIds, _kafkaOptions.NumPartitions);
}
_logger.LogInformation($"{nameof(InitAmmeterCacheData)} 初始化水表缓存数据完成");
}
///
/// 水表数据采集
///
///
public virtual async Task WatermeterScheduledMeterAutoReadding()
{
//获取缓存中的水表信息
int timeDensity = 60;//水表目前只有一个采集频率 60分钟
var redisCacheKey = string.Format(RedisConst.CacheTasksToBeIssuedKey, SystemType, ServerTagName, MeterTypeEnum.WaterMeter, timeDensity);
var taskInfo = await FreeRedisProvider.Instance.GetAsync(redisCacheKey);
if (taskInfo == null)
{
_logger.LogError($"{nameof(AmmeterScheduledMeterFifteenMinuteReading)} {timeDensity}分钟获取任务下发信息失败,请检查Redis中是否有对应的任务下发信息");
return;
}
var pendingCopyReadTime = taskInfo.LastTaskTime.GetDateTimeOffset().ToUnixTimeNanoseconds();
var conditions = new List();
conditions.Add(new QueryCondition()
{
Field = "PendingCopyReadTime",
Operator = "=",
IsNumber = true,
Value = pendingCopyReadTime
});
//_ = CreateMeterKafkaTaskMessage(ProtocolConst.WatermeterSubscriberWorkerAutoReadingIssuedEventName, new IoTDBQueryOptions()
//{
// TableNameOrTreePath = DevicePathBuilder.GetTableName(),
// PageIndex = 1,
// PageSize = pageSize,
// Conditions = conditions,
//});
_logger.LogInformation($"{nameof(WatermeterScheduledMeterAutoReadding)} {timeDensity}分钟采集水表数据处理完成");
}
///
/// 创建水表待发送的任务数据
///
/// 采集频率
/// 水表信息
/// 集中器所在分组
/// 时间格式的任务批次名称
///
private async Task> WatermeterCreatePublishTaskAction(int timeDensity
, WatermeterInfo watermeter, int groupIndex, DateTime timestamps)
{
var currentTime = DateTime.Now;
string typeName;
if (watermeter.MeterType == MeterTypeEnum.WaterMeter)
{
timeDensity = watermeter.TimeDensity;//水表默认为60分钟
typeName = watermeter.LinkType;
if (watermeter.MeterBrand.Contains("泉高阀门") || watermeter.MeterBrand.Equals("LXSY-山水翔"))
{
typeName = watermeter.MeterBrand;
}
}
else if (watermeter.MeterType == MeterTypeEnum.WaterMeterFlowmeter)
{
typeName = watermeter.MeterBrand;
}
else
{
_logger.LogError($"{nameof(WatermeterCreatePublishTaskAction)} 水表类型错误:{watermeter.Serialize()}");
return null;
}
List taskList = new List();
//根据表型号获取协议插件
var protocolPlugin = await _protocolService.GetProtocolServiceAsync(watermeter.Code);
if (protocolPlugin == null)
{
//_logger.LogError($"{nameof(AmmeterScheduledAutoValveControl)} 定时阀控运行时间{currentTime}没有找到对应的协议组件,-105");
//return;
}
string itemCode = T37612012PacketItemCodeConst.AFN10HFN01H;
string subItemCode = T1882018PacketItemCodeConst.CTR0190;
ProtocolBuildResponse builderResponse = await protocolPlugin.BuildAsync(new ProtocolBuildRequest()
{
FocusAddress = watermeter.FocusAddress,
Pn = watermeter.MeteringCode,
ItemCode = itemCode,
SubProtocolRequest = new SubProtocolBuildRequest()
{
MeterAddress = watermeter.MeterAddress,
Password = watermeter.Password,
ItemCode = subItemCode,
}
});
if (builderResponse == null || builderResponse.Data.Length <= 0)
{
//_logger.LogWarning($"{nameof(AmmerterCreatePublishTask)} 集中器{ammeterInfo.FocusAddress}的电表{ammeterInfo.Name}采集项{tempItem}未能正确获取报文。");
return null;
}
if (builderResponse == null || builderResponse.Data.Length <= 0)
{
_logger.LogWarning($"{nameof(WatermeterCreatePublishTaskAction)} 集中器{watermeter.FocusAddress}的水表{watermeter.Name}采集项{itemCode}未能正确获取报文。");
return null;
}
string taskMark = CommonHelper.GetTaskMark(builderResponse.AFn, builderResponse.Fn, watermeter.MeteringCode, builderResponse.MSA, builderResponse.Seq);
var meterReadingRecords = new MeterReadingTelemetryPacketInfo()
{
SystemName = SystemType,
ProjectId = $"{watermeter.ProjectID}",
DeviceType = $"{MeterTypeEnum.Ammeter}",
DeviceId = $"{watermeter.MeterId}",
Timestamps = DateTimeOffset.Now.ToUnixTimeNanoseconds(),
DatabaseBusiID = watermeter.DatabaseBusiID,
PacketType = (int)TelemetryPacketTypeEnum.WatermeterAutoReadding,
PendingCopyReadTime = timestamps,
CreationTime = currentTime,
MeterAddress = watermeter.MeterAddress,
AFN = builderResponse.AFn,
Fn = builderResponse.Fn,
Seq = builderResponse.Seq,
MSA = builderResponse.MSA,
ItemCode = itemCode,
SubItemCode = subItemCode,
TaskMark = taskMark,
IsSend = false,
ManualOrNot = false,
Pn = watermeter.MeteringCode,
IssuedMessageId = GuidGenerator.Create().ToString(),
IssuedMessageHexString = Convert.ToHexString(builderResponse.Data),
IsReceived = false,
ScoreValue = $"{watermeter.FocusAddress}.{taskMark}".Md5Fun(),
};
taskList.Add(meterReadingRecords);
return taskList;
}
#endregion
#region 集中器处理
///
/// 自动获取终端版
///
/// 采集频率
/// 电表信息
/// 集中器所在分组
/// 采集频率对应的时间戳
///
public virtual async Task> ConcentratorScheduledAutomaticGetTerminalVersion(int timeDensity, AmmeterInfo ammeterInfo, int groupIndex, DateTime timestamps)
{
var currentTime = DateTime.Now;
string currentTimeStr = $"{currentTime:HH:mm:00}";
try
{
//判断是否是自动获取版本号时间
if (!string.Equals(currentTimeStr, _applicationOptions.AutomaticTerminalVersionTime, StringComparison.CurrentCultureIgnoreCase))
{
_logger.LogInformation($"{nameof(ConcentratorScheduledAutomaticGetTerminalVersion)} 集中器自动获取版本号,非自动处理时间");
return null;
}
List taskList = new List();
var metadata = await _dbProvider.GetMetadata();
var itemCode = T37612012PacketItemCodeConst.AFN09HFN01H;
//var subItemCode = T6452007PacketItemCodeConst.C08;
//根据电表型号获取协议插件
var protocolPlugin = await _protocolService.GetProtocolServiceAsync(ammeterInfo.BrandType);
if (protocolPlugin == null)
{
_logger.LogError($"{nameof(AmmeterScheduledAutoValveControl)} 集中器自动获取版本号{currentTime}没有找到对应的协议组件,-105");
return null;
}
ProtocolBuildResponse builderResponse = await protocolPlugin.BuildAsync(new ProtocolBuildRequest()
{
FocusAddress = ammeterInfo.FocusAddress,
Pn = ammeterInfo.MeteringCode,
ItemCode = itemCode,
//SubProtocolRequest = new SubProtocolBuildRequest()
//{
// MeterAddress = ammeterInfo.AmmerterAddress,
// Password = ammeterInfo.Password,
// ItemCode = subItemCode,
//}
});
var meterReadingRecords = CreateAmmeterPacketInfo(
ammeterInfo: ammeterInfo,
timestamps: currentTime.GetDateTimeOffset().ToUnixTimeNanoseconds(),
builderResponse: builderResponse,
itemCode: itemCode,
subItemCode: null,
pendingCopyReadTime: currentTime,
creationTime: currentTime,
packetType: TelemetryPacketTypeEnum.TerminalVersion);
taskList.Add(meterReadingRecords);
if (taskList == null || taskList.Count <= 0)
{
_logger.LogError($"{nameof(AmmeterScheduledAutoValveControl)} 定时阀控运行时间{currentTime}没有自动阀控任务生成,-106");
return null;
}
return taskList;
}
catch (Exception)
{
throw;
}
}
///
/// 自动获取远程通信模块(SIM)版本信息
///
/// 采集频率
/// 电表信息
/// 集中器所在分组
/// 采集频率对应的时间戳
///
public virtual async Task> ConcentratorScheduledAutomaticGetTelematicsModule(int timeDensity, AmmeterInfo ammeterInfo, int groupIndex, DateTime timestamps)
{
var currentTime = DateTime.Now;
string currentTimeStr = $"{currentTime:HH:mm:00}";
try
{
//判断是否是自动获取版本号时间
if (!string.Equals(currentTimeStr, _applicationOptions.AutomaticTerminalVersionTime, StringComparison.CurrentCultureIgnoreCase))
{
_logger.LogInformation($"{nameof(ConcentratorScheduledAutomaticGetTelematicsModule)} 自动获取远程通信模块(SIM)版本信息,非自动处理时间");
return null;
}
List taskList = new List();
var itemCode = T37612012PacketItemCodeConst.AFN09HFN09H;
//根据电表型号获取协议插件
var protocolPlugin = await _protocolService.GetProtocolServiceAsync(ammeterInfo.BrandType);
if (protocolPlugin == null)
{
_logger.LogError($"{nameof(ConcentratorScheduledAutomaticGetTelematicsModule)} 自动获取远程通信模块(SIM)版本信息{currentTime}没有找到对应的协议组件,-105");
return null;
}
ProtocolBuildResponse builderResponse = await protocolPlugin.BuildAsync(new ProtocolBuildRequest()
{
FocusAddress = ammeterInfo.FocusAddress,
Pn = ammeterInfo.MeteringCode,
ItemCode = itemCode,
});
var meterReadingRecords = CreateAmmeterPacketInfo(
ammeterInfo: ammeterInfo,
timestamps: currentTime.GetDateTimeOffset().ToUnixTimeNanoseconds(),
builderResponse: builderResponse,
itemCode: itemCode,
subItemCode: null,
pendingCopyReadTime: currentTime,
creationTime: currentTime,
packetType: TelemetryPacketTypeEnum.TelematicsModule);
taskList.Add(meterReadingRecords);
if (taskList == null || taskList.Count <= 0)
{
_logger.LogError($"{nameof(AmmeterScheduledAutoValveControl)} 定时阀控运行时间{currentTime}没有自动阀控任务生成,-106");
return null;
}
return taskList;
}
catch (Exception)
{
throw;
}
}
#endregion
#region 公共处理方法
///
/// 判断是否需要生成采集指令
///
///
///
///
protected bool IsTaskTime(DateTime nextTaskTime, int timeDensity = 0)
{
if (DateTime.Now.AddMinutes(timeDensity) >= nextTaskTime)
{
return true;
}
return false;
}
///
/// 创建表的待发送的任务数据
///
/// 采集频率
/// 采集频率对应的任务时间戳
/// 表类型
/// 具体的创建任务的委托
///
protected async Task CreateMeterPublishTask(int timeDensity, DateTime nextTaskTime, MeterTypeEnum meterType, Action taskCreateAction) where T : DeviceCacheBasicModel
{
var timer = Stopwatch.StartNew();
//获取对应频率中的所有电表信息
var redisCacheMeterInfoHashKeyTemp = $"{string.Format(RedisConst.CacheMeterInfoHashKey, SystemType, ServerTagName, meterType, timeDensity)}";
var redisCacheMeterInfoSetIndexKeyTemp = $"{string.Format(RedisConst.CacheMeterInfoSetIndexKey, SystemType, ServerTagName, meterType, timeDensity)}";
var redisCacheMeterInfoZSetScoresIndexKeyTemp = $"{string.Format(RedisConst.CacheMeterInfoZSetScoresIndexKey, SystemType, ServerTagName, meterType, timeDensity)}";
List meterInfos = new List();
decimal? cursor = null;
string member = null;
while (true)
{
var page = await _redisDataCacheService.GetAllPagedData(
redisCacheMeterInfoHashKeyTemp,
redisCacheMeterInfoZSetScoresIndexKeyTemp,
pageSize: 1000,
lastScore: cursor,
lastMember: member);
meterInfos.AddRange(page.Items);
if (!page.HasNext)
{
break;
}
cursor = page.NextScore;
member = page.NextMember;
}
//var page = await _redisDataCacheService.GetAllPagedData(
// redisCacheMeterInfoHashKeyTemp,
// redisCacheMeterInfoZSetScoresIndexKeyTemp,
// pageSize: 10,
// lastScore: cursor,
// lastMember: member);
//meterInfos.AddRange(page.Items);
if (meterInfos == null || meterInfos.Count <= 0)
{
timer.Stop();
_logger.LogError($"{nameof(CreateMeterPublishTask)} {meterType}的{timeDensity}分钟采集待下发任务创建失败,没有获取到缓存信息,-105");
return;
}
timer.Stop();
_logger.LogError($"{nameof(CreateMeterPublishTask)} 构建采集待下发任务,缓存获取信息共花费{timer.ElapsedMilliseconds}毫秒");
timer.Restart();
await DeviceGroupBalanceControl.ProcessWithThrottleAsync(
items: meterInfos,
deviceIdSelector: data => data.MeterId.ToString(),
processor: (data, groupIndex) =>
{
taskCreateAction(timeDensity, data, groupIndex, nextTaskTime);
}
);
timer.Stop();
_logger.LogError($"{nameof(CreateMeterPublishTask)} {meterType} {timeDensity}分钟采集待下发任务创建完成,耗时{timer.ElapsedMilliseconds}毫秒,总共{meterInfos.Count}表计信息");
}
///
/// 创建Kafka消息
///
///
/// kafka主题名称
/// 任务查询条件
///
protected async Task CreateMeterKafkaTaskMessage(string kafkaTopicName, IoTDBQueryOptions options) where T : IoTEntity, new()
{
if (string.IsNullOrWhiteSpace(kafkaTopicName))
{
_logger.LogInformation($"{nameof(CreateMeterKafkaTaskMessage)} Kafka消息推送主题不能为空,-101");
return;
}
int pageNumber = 103;
bool hasNext;
var stopwatch = Stopwatch.StartNew();
do
{
var stopwatch2 = Stopwatch.StartNew();
options.PageIndex = pageNumber++;
var pageResult = await _dbProvider.QueryAsync(options);
hasNext = pageResult.HasNext;
_ = DeviceGroupBalanceControl.ProcessWithThrottleAsync(
items: pageResult.Items.ToList(),
deviceIdSelector: data => data.DeviceId,
processor: (data, groupIndex) =>
{
_ = KafkaProducerIssuedMessageAction(kafkaTopicName, data, groupIndex);
}
);
stopwatch2.Stop();
_logger.LogWarning($"{nameof(CreateMeterKafkaTaskMessage)} {kafkaTopicName}主题的任务 {options.TableNameOrTreePath} 路径批次{options.PageIndex}任务数据读取完成,共消耗{stopwatch2.ElapsedMilliseconds}毫秒。");
} while (hasNext);
stopwatch.Stop();
_logger.LogWarning($"{nameof(CreateMeterKafkaTaskMessage)} {kafkaTopicName}主题的任务 {options.TableNameOrTreePath} 路径任务推送完成,共消耗{stopwatch.ElapsedMilliseconds}毫秒。");
}
///
/// Kafka 推送消息
///
/// 主题名称
/// 任务记录
/// 对应分区,也就是集中器号所在的分组序号
///
protected async Task KafkaProducerIssuedMessageAction(string topicName,
T taskRecord, int partition) where T : class
{
if (string.IsNullOrWhiteSpace(topicName) || taskRecord == null)
{
throw new Exception($"{nameof(KafkaProducerIssuedMessageAction)} 推送消息失败,参数异常,-101");
}
// await _dataChannelManage.ProduceAsync(topicName, taskRecord, partition);
}
///
/// 构建报文保存对象
///
/// 电表信息
/// IoTDB存储时标
/// 报文构建返回结果
/// 端到云协议采集项编码
/// 端到端采集项编码
/// 待采集时间,定时采集频率才是特殊情况,其他默认当前时间戳
/// 数据创建时间戳
/// 数据包类型
///
protected MeterReadingTelemetryPacketInfo CreateAmmeterPacketInfo(AmmeterInfo ammeterInfo, long timestamps, ProtocolBuildResponse builderResponse, string itemCode, string subItemCode, DateTime pendingCopyReadTime, DateTime creationTime, TelemetryPacketTypeEnum packetType)
{
string taskMark = CommonHelper.GetTaskMark(builderResponse.AFn, builderResponse.Fn, ammeterInfo.MeteringCode, builderResponse.MSA, builderResponse.Seq);
return new MeterReadingTelemetryPacketInfo()
{
SystemName = SystemType,
ProjectId = $"{ammeterInfo.ProjectID}",
DeviceType = $"{MeterTypeEnum.Ammeter}",
DeviceId = $"{ammeterInfo.MeterId}",
Timestamps = timestamps,
DatabaseBusiID = ammeterInfo.DatabaseBusiID,
PendingCopyReadTime = pendingCopyReadTime,
CreationTime = creationTime,
MeterAddress = ammeterInfo.AmmerterAddress,
PacketType = (int)packetType,
AFN = builderResponse.AFn,
Fn = builderResponse.Fn,
Seq = builderResponse.Seq,
MSA = builderResponse.MSA,
FocusId = ammeterInfo.FocusId,
FocusAddress = ammeterInfo.FocusAddress,
ItemCode = itemCode,
SubItemCode = subItemCode,
TaskMark = taskMark,
IsSend = false,
ManualOrNot = false,
Pn = ammeterInfo.MeteringCode,
IssuedMessageId = GuidGenerator.Create().ToString(),
IssuedMessageHexString = Convert.ToHexString(builderResponse.Data),
IsReceived = false,
ScoreValue = $"{ammeterInfo.FocusAddress}.{taskMark}".Md5Fun(),
};
}
#endregion
}
}